Class SCryptPasswordEncoder

java.lang.Object
org.springframework.security.crypto.scrypt.SCryptPasswordEncoder
All Implemented Interfaces:
PasswordEncoder

public class SCryptPasswordEncoder extends Object implements PasswordEncoder

Implementation of PasswordEncoder that uses the SCrypt hashing function. Clients can optionally supply a cpu cost parameter, a memory cost parameter and a parallelization parameter.

A few warnings:

  • The currently implementation uses Bouncy castle which does not exploit parallelism/optimizations that password crackers will, so there is an unnecessary asymmetry between attacker and defender.
  • Scrypt is based on Salsa20 which performs poorly in Java (on par with AES) but performs awesome (~4-5x faster) on SIMD capable platforms
  • While there are some that would disagree, consider reading - Why I Don't Recommend Scrypt (for password storage)
  • Constructor Details

    • SCryptPasswordEncoder

      public SCryptPasswordEncoder()
    • SCryptPasswordEncoder

      public SCryptPasswordEncoder(int cpuCost, int memoryCost, int parallelization, int keyLength, int saltLength)
      Creates a new instance
      Parameters:
      cpuCost - cpu cost of the algorithm (as defined in scrypt this is N). must be power of 2 greater than 1. Default is currently 16,384 or 2^14)
      memoryCost - memory cost of the algorithm (as defined in scrypt this is r) Default is currently 8.
      parallelization - the parallelization of the algorithm (as defined in scrypt this is p) Default is currently 1. Note that the implementation does not currently take advantage of parallelization.
      keyLength - key length for the algorithm (as defined in scrypt this is dkLen). The default is currently 32.
      saltLength - salt length (as defined in scrypt this is the length of S). The default is currently 64.
  • Method Details

    • encode

      public String encode(CharSequence rawPassword)
      Description copied from interface: PasswordEncoder
      Encode the raw password. Generally, a good encoding algorithm applies a SHA-1 or greater hash combined with an 8-byte or greater randomly generated salt.
      Specified by:
      encode in interface PasswordEncoder
    • matches

      public boolean matches(CharSequence rawPassword, String encodedPassword)
      Description copied from interface: PasswordEncoder
      Verify the encoded password obtained from storage matches the submitted raw password after it too is encoded. Returns true if the passwords match, false if they do not. The stored password itself is never decoded.
      Specified by:
      matches in interface PasswordEncoder
      Parameters:
      rawPassword - the raw password to encode and match
      encodedPassword - the encoded password from storage to compare with
      Returns:
      true if the raw password, after encoding, matches the encoded password from storage
    • upgradeEncoding

      public boolean upgradeEncoding(String encodedPassword)
      Description copied from interface: PasswordEncoder
      Returns true if the encoded password should be encoded again for better security, else false. The default implementation always returns false.
      Specified by:
      upgradeEncoding in interface PasswordEncoder
      Parameters:
      encodedPassword - the encoded password to check
      Returns:
      true if the encoded password should be encoded again for better security, else false.