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Users log in to my BlackBerry app with a username and password provided at registration. My app connects to a Java Web Service that does all the logic.

  • How do I go about storing the password and username in a safe manner on my server? Everybody says salting and hashing, but I have no idea how to do this since I've never worked with it. How can I do this in Java?

  • How do I manage sending the password securely from the app to the server?

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You may want to try asking security.stackexchange.com where I've been finding some great encryption answers and help for questions like this – LamonteCristo Feb 11 '11 at 19:03
"A user logs into a bar with a username and a password. The authentication script looks up and says ..." I'm not sure how to finish the joke B-( – Brian Postow Feb 11 '11 at 20:54
This shouldn't be tagged as "Blackberry" ! – Ashraf Bashir Feb 28 '11 at 15:40
I asked about how to send the password securely from the client to the server, so i believe the tag applies – 8vius Feb 28 '11 at 16:36
up vote 2 down vote accepted

To store the credentials, one possibility is to use PBKDF2. A Java implementation (that I have not used) is available here. Run the password with the salt value through that and store the resulting hash data. The salt value is typically a newly generated random value (one for each password). This helps prevent dictionary attacks via rainbow tables (pre-computed tables of hashed passwords). Using java.security.SecureRandom is a possibility for generating those.

The client application should probably connect to the server using SSL/TLS. That will provide the encryption to protect the credentials when passed from client to your server application.

Edit Based on our conversation in the comments, it sounds as if the goal is not to use SSL. Assuming that is true and no other end-to-end communications encryption is planned, then it seems to imply that the security of the communications is not a high priority. If that is true, then maybe the described scheme for authenticating is sufficient for the application. Nonetheless, it seems worth pointing out the potential issues so you can consider them.

  • The proposed scheme (I think) is to send from the client to the server this value: Hash(Hash(password,origsalt),randomsalt). What this really means is that the password is effectively Hash(password,origsalt). If the attacker can get that information, then they can login as that user because they take that value and hash it with the new salt value to authenticate. In other words, if the database of hashed passwords is compromised, then the attacker can easily gain access. That somewhat defeats the purpose of salting and hashing the passwords in the first place.
  • Without SSL (or some other end-to-end encryption), there is the possibility of a man-in-the-middle attack. They can either listen in or even impersonate one end of the conversation.
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How would you go about generating the salts? And also the SSL/TLS is a good suggestion, but in no moment (other than registration) will the password go from client to server. I was planning on doing the following to keep the credentials secure: 1) User registers salt is created, appended to password and hashed. Password is discarded, salt is saved as well. 2) When logging the user sends his username, with this the salt is retrieved and a second random discardable salt is made and sent to the client. On the client the pass and original salt is appended, hashed and converted (continues) – 8vius Feb 11 '11 at 16:03
to string, which is then appended the randomly generated second salt, and hashed again and sent to the server, which will do the same process and compare. That way I only send the salt and username over the net – 8vius Feb 11 '11 at 16:04
That sounds as if it does allow the server to verify the credentials and does succeed in avoiding sending the password. Depending on the security level you are aiming for, that might be sufficient. One potential drawback, though, is that it would allow an attacker to "easily" grab the necessary information to discover the password (via brute force) in his own time. The attacker could get both salt values and the final hash from those and the password. If you use a large number of PBKDF2 iterations, the attack would be expensive ... but it is a potential opening. – Mark Wilkins Feb 11 '11 at 16:14
Yes he can know the salt, username, response and second salt, but since the second salt is random and discarded after verification it's quite harder for him to gain access by knowing this. – 8vius Feb 11 '11 at 16:38
@8vius: It is harder, but the attacker only needs one set of those values and can then work completely independently to test passwords using those two salt values (and known resulting hash). And, incidentally, it opens up a second attack. If the hash value you are storing is shorter than the password itself, then all that really needs to be tested is hash values since the authentication is purely the result of Hash(originalhash,newsalt). So really all the attacker needs to break in is the stored hash values (the password is no longer relevant). – Mark Wilkins Feb 11 '11 at 16:56

Seems like your question has a few parts...

The most secure way to store the password in the database is to use a hash with a Salt + Pepper seed as described here. If you want to find a good way of implementing that specific technique in Java, try opening a new question.

I can see why it would make sense to encrypt a username/password hash prior to sending to the server, since SSL proxies can be a man-in-the-middle for that operation.

As a solution try creating a token in JSON or XML format that has the following properties:

  • Username.ToUpper() // Dont want this to be case sensitive
  • ExpiryDate (Say now plus 5 minutes)
  • Nonce (a random number that is saved on the backend to prevent replay attacks)
  • SHA 256 signature

Use the locally entered username and password to create a SHA256 signature, as it will be a constant. Use this signature to sign the JSON or XML you send to the server with each request.

In other words you're using a symmetric key based on the username and password, without sending it across the wire. Of course you may want to salt and pepper the generation of that symmetric key for more security.

That's all I got for a high level design, since I'm not intimately familiar with Java. Do share your links/code when you do find the answers.

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+1 Very complete answer @maker, thank you very much. But my performance problem still remains with it being a BB app, i'll have downgrade it a little in light of this and make something simpler, regretfully. – 8vius Feb 11 '11 at 22:17

So here's what I ended up doing:

package Utils;

import org.apache.commons.codec.digest.DigestUtils;
import org.apache.commons.lang.RandomStringUtils;
 * @author octavius
public class SalterHasher {

    private String salt;
    private String pepper = "******************";
    private String hash;
    private String password;

    public SalterHasher(String password, String username)
        this.password = password;
        salt = RandomStringUtils.random(40, username);
        hash = DigestUtils.md5Hex(password + salt + pepper);

    public String getHash(){
        return hash;
     * @return the salt
    public String getSalt() {
        return salt;

    public String makeHash(String salt){

        return DigestUtils.md5Hex(password + salt + pepper);


A very simple class that generates a salt and the hash for me and has a pepper included for added security, the makeHash() function I use for verification when the user logs in. In view of what I previously mentioned in the comments above I didn't end up using the verification process I proposed and chose to simply add the pepper to my server side code since hashing I believe would prove to be heavy on the BlackBerry device. Thanks again to those who helped me. Good discussions were had :)

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