I need to hash passwords for storage in a database. How can I do this in Java?

I was hoping to take the plain text password, add a random salt, then store the salt and the hashed password in the database.

Then when a user wanted to log in, I could take their submitted password, add the random salt from their account information, hash it and see if it equates to the stored hash password with their account information.

  • 10
    @YGL this is actually not a recombination nowadays with GPU attacks being so cheap, SHA family is actually a very bad choice for password hashing (too fast) even with salt. Use bcrypt, scrypt or PBKDF2 – Eran Medan Nov 21 '12 at 7:01
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    Why was this question closed? This is a question for a real engineering problem, and the answers are invaluable. The OP is not asking for a library, he is asking how to solve the engineering problem. – stackoverflowuser2010 Apr 14 '15 at 5:23
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    Just amazing. This question has 52 upvotes, and someone decides to close it as "off-topic". – stackoverflowuser2010 Apr 14 '15 at 5:32
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    Yeah, I've posted on Meta about this issue of closings before, got beaten up pretty badly though. – Chris Dutrow Apr 14 '15 at 18:42
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    This question should be re-opened. It's a question about how to write a program to solve the problem described (password authentication), with a short code solution. Seeing the trigger word "library" doesn't justify reflexively closing a question; he's not asking for a library recommendation, he's asking how to hash passwords. Edit: There, fixed it. – erickson Jul 30 '15 at 13:36

11 Answers 11


You can actually use a facility built in to the Java runtime to do this. The SunJCE in Java 6 supports PBKDF2, which is a good algorithm to use for password hashing.

byte[] salt = new byte[16];
KeySpec spec = new PBEKeySpec("password".toCharArray(), salt, 65536, 128);
SecretKeyFactory f = SecretKeyFactory.getInstance("PBKDF2WithHmacSHA1");
byte[] hash = f.generateSecret(spec).getEncoded();
Base64.Encoder enc = Base64.getEncoder();
System.out.printf("salt: %s%n", enc.encodeToString(salt));
System.out.printf("hash: %s%n", enc.encodeToString(hash));

Here's a utility class that you can use for PBKDF2 password authentication:

import java.security.NoSuchAlgorithmException;
import java.security.SecureRandom;
import java.security.spec.InvalidKeySpecException;
import java.security.spec.KeySpec;
import java.util.Arrays;
import java.util.Base64;
import java.util.regex.Matcher;
import java.util.regex.Pattern;

import javax.crypto.SecretKeyFactory;
import javax.crypto.spec.PBEKeySpec;

 * Hash passwords for storage, and test passwords against password tokens.
 * Instances of this class can be used concurrently by multiple threads.
 * @author erickson
 * @see <a href="http://stackoverflow.com/a/2861125/3474">StackOverflow</a>
public final class PasswordAuthentication

   * Each token produced by this class uses this identifier as a prefix.
  public static final String ID = "$31$";

   * The minimum recommended cost, used by default
  public static final int DEFAULT_COST = 16;

  private static final String ALGORITHM = "PBKDF2WithHmacSHA1";

  private static final int SIZE = 128;

  private static final Pattern layout = Pattern.compile("\\$31\\$(\\d\\d?)\\$(.{43})");

  private final SecureRandom random;

  private final int cost;

  public PasswordAuthentication()

   * Create a password manager with a specified cost
   * @param cost the exponential computational cost of hashing a password, 0 to 30
  public PasswordAuthentication(int cost)
    iterations(cost); /* Validate cost */
    this.cost = cost;
    this.random = new SecureRandom();

  private static int iterations(int cost)
    if ((cost < 0) || (cost > 30))
      throw new IllegalArgumentException("cost: " + cost);
    return 1 << cost;

   * Hash a password for storage.
   * @return a secure authentication token to be stored for later authentication 
  public String hash(char[] password)
    byte[] salt = new byte[SIZE / 8];
    byte[] dk = pbkdf2(password, salt, 1 << cost);
    byte[] hash = new byte[salt.length + dk.length];
    System.arraycopy(salt, 0, hash, 0, salt.length);
    System.arraycopy(dk, 0, hash, salt.length, dk.length);
    Base64.Encoder enc = Base64.getUrlEncoder().withoutPadding();
    return ID + cost + '$' + enc.encodeToString(hash);

   * Authenticate with a password and a stored password token.
   * @return true if the password and token match
  public boolean authenticate(char[] password, String token)
    Matcher m = layout.matcher(token);
    if (!m.matches())
      throw new IllegalArgumentException("Invalid token format");
    int iterations = iterations(Integer.parseInt(m.group(1)));
    byte[] hash = Base64.getUrlDecoder().decode(m.group(2));
    byte[] salt = Arrays.copyOfRange(hash, 0, SIZE / 8);
    byte[] check = pbkdf2(password, salt, iterations);
    int zero = 0;
    for (int idx = 0; idx < check.length; ++idx)
      zero |= hash[salt.length + idx] ^ check[idx];
    return zero == 0;

  private static byte[] pbkdf2(char[] password, byte[] salt, int iterations)
    KeySpec spec = new PBEKeySpec(password, salt, iterations, SIZE);
    try {
      SecretKeyFactory f = SecretKeyFactory.getInstance(ALGORITHM);
      return f.generateSecret(spec).getEncoded();
    catch (NoSuchAlgorithmException ex) {
      throw new IllegalStateException("Missing algorithm: " + ALGORITHM, ex);
    catch (InvalidKeySpecException ex) {
      throw new IllegalStateException("Invalid SecretKeyFactory", ex);

   * Hash a password in an immutable {@code String}. 
   * <p>Passwords should be stored in a {@code char[]} so that it can be filled 
   * with zeros after use instead of lingering on the heap and elsewhere.
   * @deprecated Use {@link #hash(char[])} instead
  public String hash(String password)
    return hash(password.toCharArray());

   * Authenticate with a password in an immutable {@code String} and a stored 
   * password token. 
   * @deprecated Use {@link #authenticate(char[],String)} instead.
   * @see #hash(String)
  public boolean authenticate(String password, String token)
    return authenticate(password.toCharArray(), token);

  • 11
    You may want to be a bit wary of byte to hex conversions with BigInteger: leading zeros are removed. That's ok for quick debug, but I have seen bugs in production code due to that effect. – Thomas Pornin May 19 '10 at 12:21
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    @thomas-pornin's highlights why we need a library, not a code block that's almost there. Scary that the accepted answer does not answer the question on such an important topic. – Nilzor Apr 24 '13 at 18:40
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    Use the algorithm PBKDF2WithHmacSHA512 starting with Java 8. It is a bit stronger. – iwan.z Nov 3 '14 at 13:05
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    Note, existing algs are not deleted in later versions: java_4:PBEWithMD5AndDES,DESede,DES java_5/6/7:PBKDF2WithHmacSHA1,PBE (only in Java 5),PBEWithSHA1AndRC2_40,PBEWithSHA1And,PBEWithMD5AndTriple java_8:PBEWithHmacSHA224AndAES_128, PBEWithHmacSHA384AndAES_128, PBEWithHmacSHA512AndAES_128, RC4_40, PBKDF2WithHmacSHA256, PBEWithHmacSHA1AndAES_128, RC4_128, PBKDF2WithHmacSHA224, PBEWithHmacSHA256AndAES_256, RC2_128, PBEWithHmacSHA224AndAES_256, PBEWithHmacSHA384AndAES_256,PBEWithHmacSHA512AndAES_256,PBKDF2WithHmacSHA512,PBEWithHmacSHA256AndAES_128, PBKDF2WithHmacSHA384,PBEWithHmacSHA1AndAES_256 – iwan.z Nov 5 '14 at 6:26
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    @TheTosters Yes, the execution time will be longer for incorrect passwords; more specifically, wrong passwords will take the same time as correct passwords. It prevents timing attacks, although I confess I can't think of a practical way to exploit such a vulnerability in this case. But you don't cut corners. Just because I can't see it, doesn't mean a more devious mind won't. – erickson Nov 22 '16 at 21:40

Here is a complete implementation with two methods doing exactly what you want:

String getSaltedHash(String password)
boolean checkPassword(String password, String stored)

The point is that even if an attacker gets access to both your database and source code, the passwords are still safe.

import javax.crypto.SecretKey;
import javax.crypto.SecretKeyFactory;
import javax.crypto.spec.PBEKeySpec;
import java.security.SecureRandom;
import org.apache.commons.codec.binary.Base64;

public class Password {
    // The higher the number of iterations the more 
    // expensive computing the hash is for us and
    // also for an attacker.
    private static final int iterations = 20*1000;
    private static final int saltLen = 32;
    private static final int desiredKeyLen = 256;

    /** Computes a salted PBKDF2 hash of given plaintext password
        suitable for storing in a database. 
        Empty passwords are not supported. */
    public static String getSaltedHash(String password) throws Exception {
        byte[] salt = SecureRandom.getInstance("SHA1PRNG").generateSeed(saltLen);
        // store the salt with the password
        return Base64.encodeBase64String(salt) + "$" + hash(password, salt);

    /** Checks whether given plaintext password corresponds 
        to a stored salted hash of the password. */
    public static boolean check(String password, String stored) throws Exception{
        String[] saltAndHash = stored.split("\\$");
        if (saltAndHash.length != 2) {
            throw new IllegalStateException(
                "The stored password must have the form 'salt$hash'");
        String hashOfInput = hash(password, Base64.decodeBase64(saltAndHash[0]));
        return hashOfInput.equals(saltAndHash[1]);

    // using PBKDF2 from Sun, an alternative is https://github.com/wg/scrypt
    // cf. http://www.unlimitednovelty.com/2012/03/dont-use-bcrypt.html
    private static String hash(String password, byte[] salt) throws Exception {
        if (password == null || password.length() == 0)
            throw new IllegalArgumentException("Empty passwords are not supported.");
        SecretKeyFactory f = SecretKeyFactory.getInstance("PBKDF2WithHmacSHA1");
        SecretKey key = f.generateSecret(new PBEKeySpec(
            password.toCharArray(), salt, iterations, desiredKeyLen));
        return Base64.encodeBase64String(key.getEncoded());

We are storing 'salt$iterated_hash(password, salt)'. The salt are 32 random bytes and it's purpose is that if two different people choose the same password, the stored passwords will still look different.

The iterated_hash, which is basically hash(hash(hash(... hash(password, salt) ...))) makes it very expensive for a potential attacker who has access to your database to guess passwords, hash them, and look up hashes in the database. You have to compute this iterated_hash every time a user logs in, but it doesn't cost you that much compared to the attacker who spends nearly 100% of their time computing hashes.

  • 13
    Sorry to nag, but why should I choose this over an existing library? A library probably has a higher chance of being thoroughly reviewed. I doubt that every one of the 14 up-votes analyzed the code for any problems. – Joachim Sauer Nov 21 '12 at 7:42
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    @JoachimSauer This is essentially just using a library (javax.crypto) but you are right - empty passwords are not supported. Added an exception to make it explicit. Thanks! – Martin Konicek Jan 7 '13 at 13:03
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    You should probably change the methods signatures to char[] password instead of String password. – assylias Mar 28 '13 at 0:44
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    Although it seems the reference does not receive unanimous agreement. See also this: security.stackexchange.com/a/20369/12614 – assylias Apr 3 '13 at 16:40
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    Are you sure that .equals() on strings doesn't short-circuit (ie: stop looping when it finds two bytes that aren't equal)? If it does there's a risk of a timing attack leaking information about the password hash. – bobpoekert Apr 7 '17 at 21:49

BCrypt is a very good library, and there is a Java port of it.

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    bcrypt sucks with its random salts – chrisapotek Jul 18 '14 at 1:24
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    This is very easy to use – Ankur May 27 '16 at 17:15

You can comput hashes using MessageDigest, but this is wrong in terms of security. Hashes are not to be used for storing passwords, as they are easily breakable.

You should use another algorithm like bcrypt, PBKDF2 and scrypt to store you passwords. See here.

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    How would you hash the password at login without storing salt in database? – ZZ Coder May 18 '10 at 20:43
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    Using the username as the salt is not a fatal flaw, but it's nowhere near as good as using a salt from a cryptographic RNG. And there is absolutely no problem storing the salt in the database. The salt is not secret. – erickson May 18 '10 at 20:44
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    Wouldn't the username and e-mail also be stored in the database? – Chris Dutrow May 18 '10 at 20:47
  • @ZZ Coder, @erickson correct, I somehow assumed that it will be one salt for all passwords, which would lead to an easily computable rainbow table. – Bozho May 18 '10 at 21:12
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    One problem with using the username (or other ID like email) as a salt is that you can't then change the ID without having the user also set a new password. – Lawrence Dol May 19 '10 at 2:37

You can use the Shiro library's (formerly JSecurity) implementation of what is described by OWASP.

It also looks like the JASYPT library has a similar utility.

  • Thats actually what I was using. But since we decided not to use Shiro, there was some concern about the inefficiency of having to include the whole Shiro library for just that one package. – Chris Dutrow May 18 '10 at 21:15
  • I don't know of a library made up of just a password hashing utility. You're probably better off rolling your own if dependencies are a concern. The answer by erickson looks pretty good to me. Or just copy the code from that OWASP link I referenced if you'd rather use SHA in a secure manner. – laz May 18 '10 at 21:26
  • +1 for jasypt.org – Tim Büthe Sep 12 '14 at 9:05

In addition to bcrypt and PBKDF2 mentioned in other answers, I would recommend looking at scrypt

MD5 and SHA-1 are not recommended as they are relatively fast thus using "rent per hour" distributed computing (e.g. EC2) or a modern high end GPU one can "crack" passwords using brute force / dictionary attacks in relatively low costs and reasonable time.

If you must use them, then at least iterate the algorithm a predefined significant amount of times (1000+).


Fully agree with Erickson that PBKDF2 is the answer.

If you don't have that option, or only need to use a hash, Apache Commons DigestUtils is much easier than getting JCE code right: https://commons.apache.org/proper/commons-codec/apidocs/org/apache/commons/codec/digest/DigestUtils.html

If you use a hash, go with sha256 or sha512. This page has good recommendations on password handling and hashing (note it doesn't recommend hashing for password handling): http://www.daemonology.net/blog/2009-06-11-cryptographic-right-answers.html

  • it's worth noting that SHA512 isn't better than SHA256 (for this purpose) just because the number is bigger. – Azsgy Mar 27 at 15:51

While the NIST recommendation PBKDF2 has already been mentioned, I'd like to point out that there was a public password hashing competition that ran from 2013 to 2015. In the end, Argon2 was chosen as the recommended password hashing function.

There is a fairly well adopted Java binding for the original (native C) library that you can use.

In the average use-case, I don't think it does matter from a security perspective if you choose PBKDF2 over Argon2 or vice-versa. If you have strong security requirements, I recommend considering Argon2 in your evaluation.

For further information on the security of password hashing functions see security.se.

  • @zaph I edited the answer to be more objective. Please be aware that the NIST recommendation may not always be the best choice (see here for an example) - of course this is true for anything that is recommended somewhere else as well. Therefore I do think this answer provides a value to this question. – Qw3ry Jul 5 '17 at 10:37

Here you have two links for MD5 hashing and other hash methods:

Javadoc API: http://java.sun.com/j2se/1.4.2/docs/api/java/security/MessageDigest.html

Tutorial: http://www.twmacinta.com/myjava/fast_md5.php

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    Just keep in mind that for password hashing, slower is better. You should use thousands of iterations of the hash function as a "key strengthening" technique. Also, salt is imperative. – erickson May 18 '10 at 21:08
  • I was under the impression that multiple iterations of a quality hashing algorithm would produce about the same security as one iteration since the length of bytes would still be the same? – Chris Dutrow May 18 '10 at 21:17
  • @erickson It would be better to slow down attackers explicitly. – deamon May 18 '10 at 21:18
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    About key strengthening: Salts exist to make precomputed hashes unusable. But attackers do not have to precompute. Attackers can just hash strings + salt "on the fly" until they find the right one. But if you iterate thousands of times for your hashes they will have to do the same. Your server will not be impacted much by 10k iterations as it doesn't happen that often. Attackers will need 10k times the computing power. – zockman May 19 '10 at 6:26
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    @Simon today MD5 is considered useless for password hashing as it can be cracked in seconds using GPU brute force / dictionary attacks. See here: codahale.com/how-to-safely-store-a-password – Eran Medan Nov 21 '12 at 7:27

Among all the standard hash schemes, LDAP ssha is the most secure one to use,


I would just follow the algorithms specified there and use MessageDigest to do the hash.

You need to store the salt in your database as you suggested.

  • 1
    Because SSHA doesn't iterate the hash function, it is too fast. This allows attackers to try passwords more quickly. Better algorithms like Bcrypt, PBBKDF1, and PBKDF2 use "key strengthening" techniques to slow attackers to the point where a password should expire before they can brute force even an 8-letter password space. – erickson May 18 '10 at 21:14
  • The problem with all these mechanisms is that you don't get client support. The problem with hashed password is that you can't support password hashed with another algorithms. With ssha, at least all the LDAP clients support it. – ZZ Coder May 18 '10 at 21:19
  • It is not "most secure" it is merely "pretty compatible". bcrypt/scrypt are way more ressource intensitive. – eckes Nov 22 '12 at 16:44

You could use Spring Security Crypto (has only 2 optional compile dependencies), which supports PBKDF2, BCrypt and SCrypt password encryption.

SCryptPasswordEncoder sCryptPasswordEncoder = new SCryptPasswordEncoder();
String sCryptedPassword = sCryptPasswordEncoder.encode("password");
boolean passwordIsValid = sCryptPasswordEncoder.matches("password", sCryptedPassword);
BCryptPasswordEncoder bCryptPasswordEncoder = new BCryptPasswordEncoder();
String bCryptedPassword = bCryptPasswordEncoder.encode("password");
boolean passwordIsValid = bCryptPasswordEncoder.matches("password", bCryptedPassword);
Pbkdf2PasswordEncoder pbkdf2PasswordEncoder = new Pbkdf2PasswordEncoder();
String pbkdf2CryptedPassword = pbkdf2PasswordEncoder.encode("password");
boolean passwordIsValid = pbkdf2PasswordEncoder.matches("password", pbkdf2CryptedPassword);

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