13

I'm only asking this because I have read many posts for 2 days now about crypto AES encryption, and just when I thought I was getting it, I realized I wasn't getting it at all.

This post is the closest one to my issue, I have exactly the same problem but it is unanswered:

CryptoJS AES encryption and JAVA AES decryption value mismatch

I have tried doing it in many ways but I haven't gotten it right.

First Off

I'm getting the already encrypted string (I only got the code to see how they were doing it), so modifying the encryption way is not an option. That's why all the similar questions aren't that useful to me.

Second

I do have access to the secret key and I can modify it (so adjusting length is an option if neccessary).

The encryption is done on CryptoJS and they send the encrypted string as a GET parameter.

GetParamsForAppUrl.prototype.generateUrlParams = function() {
const self = this;
 return new Promise((resolve, reject) => {
   const currentDateInMilliseconds = new Date().getTime();
   const secret = tokenSecret.secret;
   var encrypted = CryptoJS.AES.encrypt(self.authorization, secret);
   encrypted = encrypted.toString();
   self.urlParams = {
     token: encrypted,
     time: currentDateInMilliseconds
   };
   resolve();
 });
};

I can easily decrypt this on javascript using CryptoJS with:

var decrypted = CryptoJS.AES.decrypt(encrypted_string, secret);
    console.log(decrypted.toString(CryptoJS.enc.Utf8)); 

But I don't want to do this on Javascript, for security reasons, so I'm trying to decrypt this on Java:

String secret = "secret";
byte[] cipherText = encrypted_string.getBytes("UTF8");
SecretKey secKey = new SecretKeySpec(secret.getBytes(), "AES");
Cipher aesCipher = Cipher.getInstance("AES");
aesCipher.init(Cipher.DECRYPT_MODE, secKey);
byte[] bytePlainText = aesCipher.doFinal(byteCipherText);
String myDecryptedText = = new String(bytePlainText);

Before I had any idea of what I was doing, I tried base64 decoding, adding some IV and a lot of stuff I read, of course none of it worked.

But after I started to understand, kinda, what I was doing, I wrote that simple script above, and got me the same error on the post: Invalid AES key length

I don't know where to go from here. After reading a lot about this, the solution seems to be hashing or padding, but I have no control on the encryption method, so I can't really hash the secret or pad it.

But as I said, I can change the secret key so it can match some specific length, and I have tried changing it, but as I'm shooting in the dark here, I don't really know if this is the solution.

So, my question basically is, If I got the encrypted string (in javascript like the first script) and the secret key, is there a way to decrypt it (in Java)? If so, how to do it?

  • What does secret on the Javascript side look like? Is it a string as well? Is it a hex string, e.g. "34D3724F1A"? – Codo Jan 2 '17 at 21:33
  • String is not a container for binary data. – user207421 Jan 3 '17 at 1:44
30

Disclaimer: Do not use encryption unless you understand encryption concepts including chaining mode, key derivation functions, IV and block size. And don't roll your own security scheme but stick to an established one. Just throwing in encryption algorithms doesn't mean an application has become any more secure.

CryptoJS implements the same key derivation function as OpenSSL and the same format to put the IV into the encrypted data. So all Java code that deals with OpenSSL encoded data applies.

Given the following Javascript code:

var text = "The quick brown fox jumps over the lazy dog. 👻 👻";
var secret = "René Über";
var encrypted = CryptoJS.AES.encrypt(text, secret);
encrypted = encrypted.toString();
console.log("Cipher text: " + encrypted);

We get the cipher text:

U2FsdGVkX1+tsmZvCEFa/iGeSA0K7gvgs9KXeZKwbCDNCs2zPo+BXjvKYLrJutMK+hxTwl/hyaQLOaD7LLIRo2I5fyeRMPnroo6k8N9uwKk=

On the Java side, we have

String secret = "René Über";
String cipherText = "U2FsdGVkX1+tsmZvCEFa/iGeSA0K7gvgs9KXeZKwbCDNCs2zPo+BXjvKYLrJutMK+hxTwl/hyaQLOaD7LLIRo2I5fyeRMPnroo6k8N9uwKk=";

byte[] cipherData = Base64.getDecoder().decode(cipherText);
byte[] saltData = Arrays.copyOfRange(cipherData, 8, 16);

MessageDigest md5 = MessageDigest.getInstance("MD5");
final byte[][] keyAndIV = GenerateKeyAndIV(32, 16, 1, saltData, secret.getBytes(StandardCharsets.UTF_8), md5);
SecretKeySpec key = new SecretKeySpec(keyAndIV[0], "AES");
IvParameterSpec iv = new IvParameterSpec(keyAndIV[1]);

byte[] encrypted = Arrays.copyOfRange(cipherData, 16, cipherData.length);
Cipher aesCBC = Cipher.getInstance("AES/CBC/PKCS5Padding");
aesCBC.init(Cipher.DECRYPT_MODE, key, iv);
byte[] decryptedData = aesCBC.doFinal(encrypted);
String decryptedText = new String(decryptedData, StandardCharsets.UTF_8);

System.out.println(decryptedText);

The result is:

The quick brown fox jumps over the lazy dog. 👻 👻

That's the text we started with. And emojis, accents and umlauts work as well.

GenerateKeyAndIV is a helper function that reimplements OpenSSL's key derivation function EVP_BytesToKey (see https://github.com/openssl/openssl/blob/master/crypto/evp/evp_key.c).

/**
 * Generates a key and an initialization vector (IV) with the given salt and password.
 * <p>
 * This method is equivalent to OpenSSL's EVP_BytesToKey function
 * (see https://github.com/openssl/openssl/blob/master/crypto/evp/evp_key.c).
 * By default, OpenSSL uses a single iteration, MD5 as the algorithm and UTF-8 encoded password data.
 * </p>
 * @param keyLength the length of the generated key (in bytes)
 * @param ivLength the length of the generated IV (in bytes)
 * @param iterations the number of digestion rounds 
 * @param salt the salt data (8 bytes of data or <code>null</code>)
 * @param password the password data (optional)
 * @param md the message digest algorithm to use
 * @return an two-element array with the generated key and IV
 */
public static byte[][] GenerateKeyAndIV(int keyLength, int ivLength, int iterations, byte[] salt, byte[] password, MessageDigest md) {

    int digestLength = md.getDigestLength();
    int requiredLength = (keyLength + ivLength + digestLength - 1) / digestLength * digestLength;
    byte[] generatedData = new byte[requiredLength];
    int generatedLength = 0;

    try {
        md.reset();

        // Repeat process until sufficient data has been generated
        while (generatedLength < keyLength + ivLength) {

            // Digest data (last digest if available, password data, salt if available)
            if (generatedLength > 0)
                md.update(generatedData, generatedLength - digestLength, digestLength);
            md.update(password);
            if (salt != null)
                md.update(salt, 0, 8);
            md.digest(generatedData, generatedLength, digestLength);

            // additional rounds
            for (int i = 1; i < iterations; i++) {
                md.update(generatedData, generatedLength, digestLength);
                md.digest(generatedData, generatedLength, digestLength);
            }

            generatedLength += digestLength;
        }

        // Copy key and IV into separate byte arrays
        byte[][] result = new byte[2][];
        result[0] = Arrays.copyOfRange(generatedData, 0, keyLength);
        if (ivLength > 0)
            result[1] = Arrays.copyOfRange(generatedData, keyLength, keyLength + ivLength);

        return result;

    } catch (DigestException e) {
        throw new RuntimeException(e);

    } finally {
        // Clean out temporary data
        Arrays.fill(generatedData, (byte)0);
    }
}

Note that you have to install the Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy. Otherwise, AES with key size of 256 won't work and throw an exception:

java.security.InvalidKeyException: Illegal key size

Update

I have replaced Ola Bini's Java code of EVP_BytesToKey, which I used in the first version of my answer, with a more idiomatic and easier to understand Java code (see above).

Also see How to decrypt file in Java encrypted with openssl command using AES?.

  • I already have JCE installed, and I have read a bit about the key size, I believe there was a way to upgrade it to 256, but I don't mind about size, 128 is fine. This looks very promising, will give it a try tomorrow and get back to you, thank you. – Lauro182 Jan 3 '17 at 1:15
  • If you can't change how the data is encrypted, then you cannot choose the key length. I'll have to work with 256 bits. – Codo Jan 3 '17 at 7:29
  • Ok, so, I downloaded the file, backed up current files and replaced them. I restarted application, restarted computer, but I'm still getting: Illegal key size at aesCBC.init(Cipher.DECRYPT_MODE, key, iv); – Lauro182 Jan 4 '17 at 20:24
  • It seems your Unlimited Strength Jurisdiction Policy isn't properly installed. Ask a separate question on SO specifically about this. – Codo Jan 4 '17 at 20:32
  • 2
    How do you encrypt same data with java, Can you please post of encryption as well. – EminenT Aug 29 '17 at 8:52
2

When encrypting on one system and decrypting on another you are at the mercy of system defaults. If any system defaults do not match (and they often don't) then your decryption will fail.

Everything has to be byte for byte the same on both sides. Effectively that means specifying everything on both sides rather than relying on defaults. You can only use defaults if you are using the same system at both ends. Even then, it is better to specify exactly.

Key, IV, encryption mode, padding and string to bytes conversion all need to be the same at both ends. It is especially worth checking that the key bytes are the same. If you are using a Key Derivation Function (KDF) to generate your key, then all the parameters for that need to be the same, and hence specified exactly.

Your "Invalid AES key length" may well indicate a problem with generating your key. You use getBytes(). That is probably an error. You need to specify what sort of bytes you are getting: ANSI, UTF-8, EBCDIC, whatever. The default assumption for the string to byte conversion is the likely cause of this problem. Specify the conversion to be used explicitly at both ends. That way you can be sure that they match.

Crypto is designed to fail if the parameters do not match exactly for encryption and decryption. For example, even a one bit difference in the key will cause it to fail.

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