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I have a simple java web application which is built by apache wicket. When I am registering users in the web app, I encrypt the password that they enter using tripledes and save it to the db. In the login page when they enter the same password, I encrypt it and pass the encrypted password to the db, to check if it is correct.

Now I am working on building an android app which will have same login functionality.

In the android app login page I am using same encryption library for encrypting password and I use the same key and initialization vector for both platforms, but if I try to enter for same password string in android, TripleDes algorithm generates completely different encrypted password(much longer). And therefore login fails from android device. What I also noticed is encrypted password that android generates can not be decrypted, it throws an exception.

I am thinking that there might be a string encoding issue difference between two platforms, but can't figure out what causes that and how to fix it.

Here's the algorithm that I use:

public class TripleDES {
private String key;
private byte[] initializationVector;

public TripleDES(String key, byte[] initializationVector)
{
    this.key = key;
    this.initializationVector = initializationVector;
}

public String encryptText(String plainText) throws Exception{
//----  Use specified 3DES key and IV from other source -------------------------
  byte[] plaintext = plainText.getBytes();
  byte[] tdesKeyData = key.getBytes();

  System.out.println("plain text length: " + plaintext.length);
  System.out.println("key length: " + tdesKeyData.length);


  Cipher c3des = Cipher.getInstance("DESede/CBC/PKCS5Padding");
  SecretKeySpec    myKey = new SecretKeySpec(tdesKeyData, "DESede");
  IvParameterSpec ivspec = new IvParameterSpec(initializationVector);

  c3des.init(Cipher.ENCRYPT_MODE, myKey, ivspec);
  byte[] cipherText = c3des.doFinal(plaintext);

  return Base64Coder.encodeString(new String(cipherText));
}

public String decryptText(String encryptedText) throws Exception{
    //----  Use specified 3DES key and IV from other source -------------------
      byte[] enctext = Base64Coder.decode(encryptedText);
      byte[] tdesKeyData = key.getBytes();


      Cipher c3des = Cipher.getInstance("DESede/CBC/PKCS5Padding");
      SecretKeySpec    myKey = new SecretKeySpec(tdesKeyData, "DESede");
      IvParameterSpec ivspec = new IvParameterSpec(initializationVector);

      c3des.init(Cipher.DECRYPT_MODE, myKey, ivspec);
      byte[] cipherText = c3des.doFinal(enctext);
      return new String(cipherText);
    }

}

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1  
Why are you storing users' passwords with reversible encryption? That's generally the wrong way to do authentication. –  erickson Sep 27 '11 at 17:23
    
I have only one encrypt method, and I need reversible encryption on some other sensitive data. I guess I should go with something irreversible like MD5 for password encryption. –  user967505 Sep 27 '11 at 18:07
    
If your "key" is actually a password (text), then you should be deriving a key from it, rather than using it directly as an encryption key. A good key derivation algorithm like PBKDF2 also makes a good one-way authentication function. –  erickson Sep 27 '11 at 18:16
    
thanks I will keep that in mind, still I need to get this up and running, because I will need some reversible encryption in my app for some other screens. –  user967505 Sep 27 '11 at 18:54

1 Answer 1

(EDIT: As noted, storing passwords reversibly is a bad idea to start with, but for the sake of getting the encryption part right...)

Here's the first issue:

byte[] plaintext = plainText.getBytes();
byte[] tdesKeyData = key.getBytes();

That's using the default system character encoding. Is it the same on all Android phones? I don't know. Is it the same in Android as on your web server? I don't know. If one platform is using UTF-16 and another is using UTF-8 and plainText is all ASCII, that would certainly account for a factor-of-two difference in the size of the encrypted data.

I would recommend always specifying the encoding - "UTF-8" is a good choice in many cases.

EDIT: Okay, it looks like the problem was also what you then did later with cipherText. You need to convert the raw bytes into a base64 string. There's a base64 encoder built into Android, but this public domain code should work fine to. Instead of this line:

return Base64Coder.encodeString(new String(cipherText));

you would use

return Base64.encodeBytes(cipherText);
share|improve this answer
    
I already tried that, it didn't help, it's still generating the same wrong encrypted password. –  user967505 Sep 27 '11 at 17:07
    
@user967505: Well you should still definitely fix that for a start... then you can at least check whether you've got the same plaintext and key data. –  Jon Skeet Sep 27 '11 at 17:40
    
I checked default charset on two apps, one was windows-1252, the other one(andorid) was UTF-8, so definitely this was issue number 1, now I am using UTF-8 to get bytes in the encryption algorithm. After I get the bytes, I logged sum of bytes and length of two arrays for both apps, they seem to match though. –  user967505 Sep 27 '11 at 17:53
    
@user967505: Right, so that's one issue down. So, what about the initializationVector? Is the encrypted size now the same on both platforms? –  Jon Skeet Sep 27 '11 at 17:55
    
yes initilizationvectors are same. I just printed them out. Unfortunately I still see a size difference between encrypted texts. –  user967505 Sep 27 '11 at 18:05

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