慢哈希加密

PBKDF2算法【三种】介绍:

wiki

加盐密码哈希:如何正确使用

PBKDF2加密的实现

{———-}

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//PBKDF2
import javax.crypto.SecretKeyFactory;
import javax.crypto.spec.PBEKeySpec;
import java.math.BigInteger;
import java.security.NoSuchAlgorithmException;
import java.security.SecureRandom;
import java.security.spec.InvalidKeySpecException;

/**
* Created by huoyan403 on 3/21/2017.
*/
public class PasswordEncryption {

public static final String PBKDF2_ALGORITHM = "PBKDF2WithHmacSHA1";

// The following constants may be changed without breaking existing hashes.
/**
* 盐的长度---不宜过短
*/
public static final int SALT_BYTE_SIZE = 48 / 2;
/**
* 生成密文的长度
*/
public static final int HASH_BYTE_SIZE = 32 / 2;
/**
* 迭代次数
*/
public static final int PBKDF2_ITERATIONS = 1000;

public static final int ITERATION_INDEX = 0;
public static final int SALT_INDEX = 1;
public static final int PBKDF2_INDEX = 2;

/**
* Returns a salted PBKDF2 hash of the password.
* 加密password
* @param password the password to hash
* @return a salted PBKDF2 hash of the password
*/
public static String createHash(String password)
throws NoSuchAlgorithmException, InvalidKeySpecException
{
return createHash(password.toCharArray());
}

/**
* Returns a salted PBKDF2 hash of the password.
*
* @param password the password to hash
* @return a salted PBKDF2 hash of the password
*/
public static String createHash(char[] password)
throws NoSuchAlgorithmException, InvalidKeySpecException
{
// Generate a random salt
SecureRandom random = new SecureRandom();
byte[] salt = new byte[SALT_BYTE_SIZE];
random.nextBytes(salt);

// Hash the password
byte[] hash = pbkdf2(password, salt, PBKDF2_ITERATIONS, HASH_BYTE_SIZE);
// format iterations:salt:hash
return PBKDF2_ITERATIONS + ":" + toHex(salt) + ":" + toHex(hash);
}

/**
* Validates a password using a hash.
* 验证密码是否正确 需传password和 加密后的序列值
* @param password the password to check
* @param correctHash the hash of the valid password
* @return true if the password is correct, false if not
*/
public static boolean validatePassword(String password, String correctHash)
throws NoSuchAlgorithmException, InvalidKeySpecException
{
return validatePassword(password.toCharArray(), correctHash);
}

/**
* Validates a password using a hash.
*
* @param password the password to check
* @param correctHash the hash of the valid password
* @return true if the password is correct, false if not
*/
public static boolean validatePassword(char[] password, String correctHash)
throws NoSuchAlgorithmException, InvalidKeySpecException
{
// Decode the hash into its parameters
String[] params = correctHash.split(":");
int iterations = Integer.parseInt(params[ITERATION_INDEX]);
byte[] salt = fromHex(params[SALT_INDEX]);
byte[] hash = fromHex(params[PBKDF2_INDEX]);
// Compute the hash of the provided password, using the same salt,
// iteration count, and hash length
byte[] testHash = pbkdf2(password, salt, iterations, hash.length);
// Compare the hashes in constant time. The password is correct if
// both hashes match.
return slowEquals(hash, testHash);
}

/**
* Compares two byte arrays in length-constant time. This comparison method
* is used so that password hashes cannot be extracted from an on-line
* system using a timing attack and then attacked off-line.
*
* @param a the first byte array
* @param b the second byte array
* @return true if both byte arrays are the same, false if not
*/
private static boolean slowEquals(byte[] a, byte[] b)
{
int diff = a.length ^ b.length;
for(int i = 0; i < a.length && i < b.length; i++)
diff |= a[i] ^ b[i];
return diff == 0;
}

/**
* Computes the PBKDF2 hash of a password.
*
* @param password the password to hash.
* @param salt the salt
* @param iterations the iteration count (slowness factor)
* @param bytes the length of the hash to compute in bytes
* @return the PBDKF2 hash of the password
*/
private static byte[] pbkdf2(char[] password, byte[] salt, int iterations, int bytes)
throws NoSuchAlgorithmException, InvalidKeySpecException
{
PBEKeySpec spec = new PBEKeySpec(password, salt, iterations, bytes * 8);
SecretKeyFactory skf = SecretKeyFactory.getInstance(PBKDF2_ALGORITHM);
return skf.generateSecret(spec).getEncoded();
}

/**
* Converts a string of hexadecimal characters into a byte array.
*
* @param hex the hex string
* @return the hex string decoded into a byte array
*/
private static byte[] fromHex(String hex)
{
byte[] binary = new byte[hex.length() / 2];
for(int i = 0; i < binary.length; i++)
{
binary[i] = (byte)Integer.parseInt(hex.substring(2*i, 2*i+2), 16);
}
return binary;
}

/**
* Converts a byte array into a hexadecimal string.
*
* @param array the byte array to convert
* @return a length*2 character string encoding the byte array
*/
private static String toHex(byte[] array)
{
BigInteger bi = new BigInteger(1, array);
String hex = bi.toString(16);
int paddingLength = (array.length * 2) - hex.length();
if(paddingLength > 0)
return String.format("%0" + paddingLength + "d", 0) + hex;
else
return hex;
}
}
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 //test类
import com.meirengu.common.PasswordEncryption;

import static com.meirengu.common.PasswordEncryption.createHash;
import static com.meirengu.common.PasswordEncryption.validatePassword;

/**
* Created by huoyan403 on 3/21/2017.
*/
public class PasswordEncryptionTest {

/**
* Tests the basic functionality of the PasswordHash class
*
* @param args ignored
*/
public static void main(String[] args)
{
try
{
// Print out 10 hashes
for(int i = 0; i < 10; i++)
System.out.println(createHash("p\r\nassw0Rd!"));

// Test password validation
boolean failure = false;
System.out.println("Running tests...");
for(int i = 0; i < 100; i++)
{
String password = ""+i;
String hash = createHash(password);
String secondHash = createHash(password);
if(hash.equals(secondHash)) {
System.out.println("FAILURE: TWO HASHES ARE EQUAL!");
failure = true;
}
String wrongPassword = ""+(i+1);
if(PasswordEncryption.validatePassword(wrongPassword,password)) {
System.out.println("FAILURE: WRONG PASSWORD ACCEPTED!");
failure = true;
}
if(!PasswordEncryption.validatePassword(password, hash)) {
System.out.println("FAILURE: GOOD PASSWORD NOT ACCEPTED!");
failure = true;
}
}
if(failure)
System.out.println("TESTS FAILED!");
else
System.out.println("TESTS PASSED!");


System.err.print(validatePassword("","1000:29bcf0ef3b1f33698b2254415caf7c81957770883a8b65b7:d9cb6f281a95c4a44415b5e5e37fb607"));
System.err.print(createHash("123456"));
}
catch(Exception ex)
{
System.out.println("ERROR: " + ex);
}
}

}
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123456----加密后-->1000:29bcf0ef3b1f33698b2254415caf7c81957770883a8b65b7:d9cb6f281a95c4a44415b5e5e37fb60
不可逆 验证只能使用validataPassword("原密码","加密后密码")

遵从原则:密码不通过where 1=1 and password = #{password}

保证代码验证过程中没有任何地方使用原密码原文查询、比对