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I am first going to describe the problem which I have, and then give some background to what I am trying to do. Finally I shall paste some relevant code snippets.

I am trying to implement secret key encryption/decryption using the method specified in http://stackoverflow.com/a/992413/171993. If I use that example as-is, it works (although I did notice that I need to re-instantiate the Cipher class, otherwise the decryption produces garbage). However, in my implementation I get the following exception:

java.security.InvalidKeyException: Wrong algorithm: AES or Rijndael required
    at com.sun.crypto.provider.AESCrypt.init(AESCrypt.java:77)
    at com.sun.crypto.provider.CipherBlockChaining.init(CipherBlockChaining.java:91)
    at com.sun.crypto.provider.CipherCore.init(CipherCore.java:469)
    at com.sun.crypto.provider.AESCipher.engineInit(AESCipher.java:217)
    at javax.crypto.Cipher.implInit(Cipher.java:790)
    at javax.crypto.Cipher.chooseProvider(Cipher.java:848)
    at javax.crypto.Cipher.init(Cipher.java:1347)
    at javax.crypto.Cipher.init(Cipher.java:1281)
    at securitytest.SecurityManager.getCipher(SecurityManager.java:175)
    at securitytest.SecurityManager.decryptSecretKey(SecurityManager.java:379)
    at securitytest.SecurityManager.<init>(SecurityManager.java:82)
    at securitytest.Test.main(Test.java:44)

To beat off the obvious question, yes, I do use the same algorithm: in fact, I assigned AES/CBC/PKCS5Padding to a constant and use that for instantiating both the Cipher class for encryption and decryption. I have also tried using only AES instantiate Cipher for the decryption, but that did not work either.

What I am trying to do is to password-protect a secret key by using AES/CBC/PKCS5Padding. I generate a random salt and initialisation vector. After encrypting the secret key, I append the initialisation vector (an array of bytes) to the encrypted value (also an array of bytes, creating a new array). I then encode this value in Base64 and store it in a Sqlite database, along with the salt (which, for the sake of simplicity, I store as a comma-separated string of values). However when I try to decrypt, I get the above exception. I can verify that directly after my call to the encryption method and directly before the decryption method, the following values are exactly the same (when converted to Base64 so that I can print it out):

  1. The salt
  2. The initialisation vector
  3. The encrypted secret key (i.e. the cipher text)

I have tried both Java 6 and 7: both give the same results. I have also ruled out the unlimited strength jurisdiction policy files as an issue. In fact, I get a similar error if I substitute "AES" with another algorithm and adjust the length of the salt accordingly (for example "Blowfish" with IV length 8, which produces java.security.InvalidKeyException: Wrong algorithm: Blowfish required).

Google has not been able to help me with this problem. If anyone can shed some light on this, I would be very appreciative.

Here are some code snippets (my apologies, it is a little rough):

private static final int INIT_VECTOR_LENGTH = 16;
private static final int PRIVATE_KEY_LENGTH = 128;
private static final int SALT_LENGTH = 16;
private static final int PBE_KEYSPEC_ITERATIONS = 65536;

private static final String CIPHER_ALGORITHM = "AES";
private static final String CIPHER_ALGORITHM_MODE = "CBC";
private static final String CIPHER_ALGORITHM_PADDING = "PKCS5Padding";
private static final String DIGEST = "SHA1";
private static final String PLAINTEXT_ENCODING = "UTF8";
private static final String PRNG = DIGEST + "PRNG";
private static final String SECRET_KEY_FACTORY = "PBKDF2WithHmac" + DIGEST;

private static final String CIPHER = CIPHER_ALGORITHM + "/" + CIPHER_ALGORITHM_MODE + "/" + CIPHER_ALGORITHM_PADDING;

private IvParameterSpec ivSpec;
private final BASE64Encoder encoder = new BASE64Encoder();
private final BASE64Decoder decoder = new BASE64Decoder();

private Cipher getCipher(SecretKey key, int mode) {

    Cipher cipher = null;

    try {
        cipher = Cipher.getInstance(CIPHER);
    }
    catch (NoSuchAlgorithmException e) {System.err.println(System.err.println(e.getMessage());}
    catch (NoSuchPaddingException e) {System.err.println(e.getMessage());}

    try {
        if (mode == Cipher.ENCRYPT_MODE) {
            cipher.init(mode, key);
            AlgorithmParameters params = cipher.getParameters();
            ivSpec = params.getParameterSpec(IvParameterSpec.class);
        }
        else {
            /* This is my point-of-failure. */
            cipher.init(mode, key, ivSpec);
        }
    }
    catch (InvalidKeyException e) {System.err.println(e.getMessage());}
    catch (InvalidAlgorithmParameterException e) {System.err.println(e.getMessage());}
    catch (InvalidParameterSpecException e) {System.err.println(e.getMessage());}

    return cipher;

}

private SecurityData.Secrets generateSecrets(SecretKey decryptedKey, byte[] salt, String passphrase) {

    /* Generate a new key for encrypting the secret key. */
    byte[] raw = null;
    PBEKey key = null;
    PBEKeySpec password = new PBEKeySpec(passphrase.toCharArray(), salt, PBE_KEYSPEC_ITERATIONS, PRIVATE_KEY_LENGTH);
    SecretKeyFactory factory = null;
    byte[] initVector = null;
    byte[] secretKeyBytes = decryptedKey.getEncoded();

    try {
        factory = SecretKeyFactory.getInstance(SECRET_KEY_FACTORY);
        key = (PBEKey) factory.generateSecret(password);
    }
    catch (NoSuchAlgorithmException e) {System.err.println(e.getMessage());}
    catch (InvalidKeySpecException e) {System.err.println(e.getMessage());}

    SecretKeySpec newKey = new SecretKeySpec(key.getEncoded(), CIPHER_ALGORITHM);

    /* Encrypt the secret key. */
    IvParameterSpec ivSpec = new IvParameterSpec(initVector);
    Cipher cipher = getCipher(newKey, ivSpec, Cipher.ENCRYPT_MODE);

    try {
        raw = cipher.doFinal(secretKeyBytes);
    }
    catch (IllegalBlockSizeException e) {System.err.println(e.getMessage());}
    catch (BadPaddingException e) {System.err.println(e.getMessage());}

    return new SecurityData.Secrets(encoder.encode(concatByteArrays(initVector, raw)), joinByteArray(salt));

}

private SecretKey decryptSecretKey(String encryptedKey, String salt, String passphrase) {

    /* Get initialisation vector. */
    byte[] raw = null, decoded = null, initVector = new byte[INIT_VECTOR_LENGTH];
    try {
        decoded = decoder.decodeBuffer(encryptedKey);
    } catch (IOException e) {System.err.println(e.getMessage());}
    System.arraycopy(decoded, 0, initVector, 0, INIT_VECTOR_LENGTH);
    raw = new byte[decoded.length-INIT_VECTOR_LENGTH];
    System.arraycopy(decoded, INIT_VECTOR_LENGTH, raw, 0, decoded.length-INIT_VECTOR_LENGTH);
    IvParameterSpec ivSpec = new IvParameterSpec(initVector);

    /* Generate the key. */
    byte[] rawSalt = splitByteArrayString(salt);
    PBEKeySpec password = new PBEKeySpec(passphrase.toCharArray(), rawSalt, PBE_KEYSPEC_ITERATIONS, PRIVATE_KEY_LENGTH);
    SecretKeyFactory factory = null;
    PBEKey key = null;
    try {
        factory = SecretKeyFactory.getInstance(SECRET_KEY_FACTORY);
        key = (PBEKey) factory.generateSecret(password);
    }
    catch (NoSuchAlgorithmException e) {System.err.println(e.getMessage());}
    catch (InvalidKeySpecException e) {System.err.println(e.getMessage());}

    Cipher cipher = getCipher(key, Cipher.DECRYPT_MODE);

    /* Decrypt the message. */
    byte[] stringBytes = null;
    try {
        stringBytes = cipher.doFinal(raw);
    }
    catch (IllegalBlockSizeException e) {System.err.println(e.getMessage());}
    catch (BadPaddingException e) {System.err.println(e.getMessage());}

    /* Converts the decoded message to a String. */
    String clear = null;
    try {
        clear = new String(stringBytes, PLAINTEXT_ENCODING);
    }
    catch (UnsupportedEncodingException e) {System.err.println(e.getMessage());}

    return new SecretKeySpec(clear.getBytes(), CIPHER_ALGORITHM);

}
share|improve this question
    
My example, which you cited, does re-instantiate and re-initialize the Cipher, "as-is". –  erickson Mar 12 '12 at 16:36

1 Answer 1

up vote 3 down vote accepted

The SecretKey object needs to return "AES" from its getAlgorithm() method. That's why the example has these steps:

SecretKey tmp = factory.generateSecret(spec);
SecretKey secret = new SecretKeySpec(tmp.getEncoded(), "AES");
share|improve this answer
    
Interesting, the SecretKey object reports its algorithm as the SecretKeyFactory algorithm "PBKDF2WithHmacSHA1"... –  phantom-99w Mar 12 '12 at 17:44
1  
Right. How could the key factory be able to produce a key with the correct algorithm when you haven't provided it that information? And there's no API for you to do so. That's why the creation of the SecretKeySpec is required. –  erickson Mar 12 '12 at 18:22
    
Ah, yes, I see now what you mean! Thank you very much! –  phantom-99w Mar 12 '12 at 19:09

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