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I have an idea for a system to log in users and validate their login on pages.
I realize that there are lots of systems out there, but I mainly was curious if the idea I had was any good. I've done some digging, but most results seem to leave out what I've always thought to be important practices (like password encryption, etc). I'll probably look harder for a pre-made solution, as it is probably more secure, but I haven't really worked with application security, and was hoping to get some feedback.

When a user logs in, their name and password are verified against a database, the password is encrypted using SHA256 and a randomly generated salt, the overall string (both the salt and the encrypted password is 128 chars. long). Here's the password validation code:

 function ValidatePassword($password, $correctHash)
 {
    $salt = substr($correctHash, 0, 64); //get the salt from the front of the hash
    $validHash = substr($correctHash, 64, 64); //the SHA256

    $testHash = hash("sha256", $salt . $password); //hash the password being tested
    //if the hashes are exactly the same, the password is valid
    return $testHash === $validHash;
}

If the login is valid, they are assigned a token. This token is similar to the password encryption, but stores the encrypted epoch as well as another random salt. The token, the login time, an expiration time, and the username are stored in a DB and the username and the token are transmitted as session information.

Here's the code that creates the token:

function loginUser($email)
{
  $thetime = time();
  $ip = $_SERVER['REMOTE_ADDR'];

  $dbuser="///";
  $dbpass="///";
  $dbtable="tokens";
  mysql_connect(localhost,$dbuser,$dbpass);
  mysql_select_db("///") or die( "Unable to select database");

  //Generate a salt
  $salt = bin2hex(mcrypt_create_iv(32, MCRYPT_DEV_URANDOM));
  //Hash the salt and the current time to get a random token
  $hash = hash("sha256", $salt . $password);
  //Prepend the salt to the hash
  $final = $salt . $hash;

  $exptime = $thetime + 3600;

  //Store this value into the db
  $query = "INSERT INTO `spanel`.`tokens` VALUES ('$final', $thetime, $exptime,    $thetime, '$ip', MD5('$email') )";
  mysql_query($query) or die ("Could not create token.");

  //Store the data into session vars
  $_SESSION['spanel_email'] = $email;
  $_SESSION['spanel_token'] = $final;

  return true;

}

When they reach a page, the token they have and the username are checked against the DB. If the check is good, the expiration time is updated and the page loads. Here's that code:

function validateUser($page)
{
  //Grab some vars
  $thetime = time();
  $ip = $_SERVER['REMOTE_ADDR'];
  $token = $_SESSION['spanel_token'];
  $email = $_SESSION['spanel_email'];

  $dbuser="///";
  $dbpass="///";
  $dbtable="tokens";
  mysql_connect(localhost,$dbuser,$dbpass);
  mysql_select_db("///") or die( "Unable to select database");

  //Global var
  //Get the var for token expire
  $token_expire = 3600;
  //Validate the token
  $query = "SELECT * FROM `tokens` WHERE `token` LIKE '$token' AND `user_id` LIKE   MD5('$email') AND `exp` > $thetime";
  $result = mysql_query($query) or die(mysql_error());
  //Check if we have a valid result
  if ( mysql_num_rows($result) != 1 ) {
    //Logout the user
    //Destroy the session
    session_destroy();
    //Redirect
    header("location: /spanel/login.php?denied=1");
    exit();
    //(Since the token is already invalid, there's no reason to reset it as invalid)
  }
  $row = mysql_fetch_assoc($result);

  //Update the token with our lastseen
  $newexp = $thetime + $token_expire;
  $query = "UPDATE `spanel`.`tokens` SET `exp` = $newexp, `lastseen_ip` = $thetime,    `lastseen_ip` = '$ip' WHERE `token` LIKE '$token'";
  mysql_query($query);

}

Feedback (good and bad) is appreciated. Like I said, I haven't done much security and was hoping to get pointers.

EDIT: I fear I overestimated my ability to effectively create a login system. Saying this, I understand if you decide to stop trying to figure out the jumbled mess that was this probably flawed idea.

Nevertheless, here's the php code from the login page. (After what's been said here, I realize just POST'ing the password is a big no-no).

    $email = $_POST['email'];
    $password = $_POST['password'];
    $dbuser="///";
    $dbpass="///";
    $dbtable="///";
    mysql_connect(localhost,$dbuser,$dbpass);
    mysql_select_db("spanel") or die( "Unable to select database");
    $query = "SELECT * FROM users WHERE `email` LIKE '$email'";
    $result=mysql_query($query) or die(mysql_error());
    $num=mysql_num_rows($result);
    $row = mysql_fetch_array($result);
    if ( ValidatePassword($password, $row['hash']) == true ) {
      loginUser($email);
      header("location: /spanel/index.php");
    } else {
      echo "<p>Login Failed.</p>";
    }

Here's the bit that generates the password salt and hash when the account is created.

 function HashPassword($password)
 {
    $salt = bin2hex(mcrypt_create_iv(32, MCRYPT_DEV_URANDOM)); //get 256 random bits in hex
    $hash = hash("sha256", $salt . $password); //prepend the salt, then hash
    //store the salt and hash in the same string, so only 1 DB column is needed
    $final = $salt . $hash; 
    return $final;
}

Thanks for the feedback, I'm glad the problems with my lack of knowledge were found here and not after an attack.

share|improve this question
6  
I hope this doesn't come off as nit-picky, but I just want to make sure you understand: Hashing and encryption are two different things--hashing algorithms are designed to not be reversible. It looks like what you are trying to do is hash the password, not encrypt it, which is good. If you are intending to encrypt passwords, I'd say that's a bad practice as your system should never need to know the user's actual password. –  Casey Kinsey May 14 '12 at 17:17
    
Where does $password in loginUser come from? –  Gumbo May 14 '12 at 17:27
    
And how do you use these functions? –  Gumbo May 14 '12 at 17:36
    
Thanks, I'd be hashing, not encrypting. And the $password is an error that I didn't catch (I recycled the code and didn't update that variable). I intended it to be $thetime –  akester May 14 '12 at 17:39
1  
wow, you don't understand SQL injection and yet you want to write your own authentication protocol... –  Rook May 15 '12 at 1:14

4 Answers 4

Similar to sivann, I can’t see the reason for the additional spanel_token either. All it seems to effectively do is to ensure that the session is no longer valid after the token’s expiration time. Since both values for token and user_id for the WHERE condition are stored in the session and are only set during the login, they won’t change. But session expiration can be implemented much easier.


But apart from that and much more important: your code is vulnerable to SQL injection. It would be easy with the knowledge you’ve posted here. All you need is to do the following steps:

  • Find out the number of columns of users with a UNION SELECT injection in email:

    ' UNION SELECT null, …, null WHERE ''='
    

    If the wrong number of columns is entered, your script will throw a MySQL error, otherwise the “Login Failed.” will appear. Thanks for that.

  • By using the following query:

    SELECT t1.* FROM users t1 RIGHT JOIN (SELECT email, '000000000000000000000000000000000000000000000000000000000000000060e05bd1b195af2f94112fa7197a5c88289058840ce7c6df9693756bc6250f55' hash FROM users LIMIT 1) t2 USING (email);
    

    the value 000000000000000000000000000000000000000000000000000000000000000060e05bd1b195af2f94112fa7197a5c88289058840ce7c6df9693756bc6250f55 is injected into each record instead of the original hash column value. The leading 0s are the salt and the remaining string is the salted SHA-256 hash value for an empty password string, which will result in a valid password.

    So we end up with entering an empty string for the password field and the following for the email field:

    ' UNION SELECT t2.* FROM users t1 RIGHT JOIN (SELECT email, '000000000000000000000000000000000000000000000000000000000000000060e05bd1b195af2f94112fa7197a5c88289058840ce7c6df9693756bc6250f55' hash FROM users LIMIT 1) t2 USING (email) WHERE ''='
    

This should suffice to get ‘authenticated’ as any user.

share|improve this answer
    
@akester I’d like to know if this actually works. ;) –  Gumbo May 15 '12 at 19:03
    
I realized the SQL problem shortly after someone else pointed it out. I usually leave it out of development because the mysql_real_escape_string function never seems to work without some work (From what I gathered,I think it's proper, but I could be wrong). As for the rest of it, I realize now how flawed the design was, and I'm most defiantly going to implement openid. I guess my thinking was that an attacker could spoof the cookie information, (like a replay attack, but using original information) but after the comments here I'll stop sticking my nose where it doesn't belong. –  akester May 16 '12 at 5:42
    
@akester Simply copying the cookie will always be possible. The key is to protect the cookie as much as possible. –  Gumbo May 16 '12 at 6:43

Just commenting on the salt/hash system: Storing the salt alongside the password in the database sort of defeats the purpose of salting--if you database is compromised the salt becomes useless from a security perspective, because its right there to aid in guessing / breaking the security. The purpose of a salt is to increase the time taken to guess a hashed word by adding a secret string of appropriate length to the value you are hashing.

share|improve this answer
1  
Not exactly, the salt provides protection against a replay attack (from network sniffers). I agree the salt (or challenge key) should be generated each time, but if the database gets compromised so does the password table. –  sivann May 14 '12 at 17:19
    
That's a good point, I definitely misunderstood a key aspect of salting. And we agree that salts should not be stored in an evergreen fashion in the database. –  Casey Kinsey May 14 '12 at 17:30
1  
1  
This does not seem to be a challenge-respone authentication scheme like HTTP Digest where the client sends just a digest instead of the password. –  Gumbo May 14 '12 at 18:13
1  
@sivann It still is not comparable to CRAM: In a CRAM, the nonce (you wouldn’t call it salt) is sent to the client to incorporate it into the response calculation and instead of the plain password the response is used to authenticate the user. This is where you need a nonce so that the response is only valid with this specific nonce that is only valid for a single use. But doing this internally on the server side is nonsense. –  Gumbo May 14 '12 at 19:06

For one, hashing like that is insecure. sha256 can be broken easily, at least for short passwords. You must use some hash stretching. See if you can find some PBKDF2 implementations or use the wikipedia's suggestion for a "for loop" with sha256. Moreover I don't get what you achieve with having more session variables. I don't understand what validateuser() does, it still relies on session id, or am I missing something.

share|improve this answer
    
So (I'm asking because I don't know, not to be rude) what would be a good way to protect against replay attacks. (I get having a challenge key that's regenerated with each load, but I guess I'm hard time visualizing how that would work). –  akester May 14 '12 at 17:53
    
Please elaborate on what is prone to replay attacks. –  Gumbo May 14 '12 at 18:21
    
@akester Please show the javascript code , and the php code which generates the challenge key on the login page. –  sivann May 14 '12 at 18:55
    
@sivann No java, I don't have any implementation of a nonce (I assume that's what your looking for) and I guess I'm not sure what you're looking for on the php page. –  akester May 14 '12 at 19:16
2  
I fear I may have gotten in over my head on this one. –  akester May 14 '12 at 19:16

This is an interesting method of hashing, but I would like to offer an alternative if I may.

First or all I use a combination or encryption and hashing in my database, I hash the passwords and session data, and I encrypt the users email address. This will greatly annoy anyone who does gain access to my database and provide them with a nice headache.

I will not share the methods I use for encryption, but I will share with you the class I use to hash passwords.

<?php

final class Hashing
{
    /**
     * Implementation of PBKDF2 key-stretching algorithm, returns null on error
     *
     * @see https://www.ietf.org/rfc/rfc6070.txt
     * @param string $password hash password being used
     * @param string $salt hash salt being uses
     * @param int $iterationCount number oh hashing interations, recommended is 1000
     * @param int $keyLength size of the resulting key, recommended is 256
     * @param string $algorithm see hash_algos () for a list of supporting algorithms
     * @return string
     */
    public static function PasswordBasedKeyDerivation ($password, $salt, $iterationCount, $keyLength, $algorithm = null)
    {
        if (in_array (strtolower ($algorithm), hash_algos ()) == false)
        {
            if (in_array ('sha512', hash_algos ()) == true)
            {
                $algorithm = 'sha512';
            }

            else
            {
                return null;
            }
        }

        $hashLength = strlen (hash ($algorithm, null, true));
        $keyBlocks = ceil ($keyLength / $hashLength);
        $derivedKey = '';

        for ($block = 1; $block <= $keyBlocks; $block++)
        {
            $iteratedBlock = $currentBlock = hash_hmac ($algorithm, $salt . pack ('N', $block), $password, true);

            for ($iteration = 1; $iteration < $iterationCount; $iteration++)
            {
                $iteratedBlock ^= ($currentBlock = hash_hmac ($algorithm, $currentBlock, $password, true));
            }

            $derivedKey .= $iteratedBlock;
        }

        return substr ($derivedKey, 0, $keyLength);
    }

    /**
     * Hash a string using the optional key as a seed, for extra security with a small difference is speed, consider using HashEx instead, returns null on error
     *
     * @param string $algorithm see hash_algos () for a list of supporting algorithms
     * @param string $text text to be hashed
     * @param string $password default value is an empty string or null
     * @param bool $rawOutput default value is false
     * @return string
     */
    public static function Digest ($algorithm, $text, $password = null, $rawOutput = null)
    {
        if (is_bool ($rawOutput) == false)
        {
            $rawOutput = false;
        }

        if ((is_string ($password) == false) || (strlen (trim ($password)) == 0))
        {
            $password = null;
        }

        if (in_array (strtolower ($algorithm), hash_algos ()) == false)
        {
            if (in_array ('sha512', hash_algos ()) == true)
            {
                $algorithm = 'sha512';
            }

            else
            {
                return null;
            }
        }

        if (is_null ($password) == true)
        {
            return hash (strtolower ($algorithm), $text, $rawOutput);
        }

        else
        {
            return hash_hmac (strtolower ($algorithm), $text, $password, $rawOutput);
        }
    }

    /**
     * Use the PBKDF2 recommendation for password key-stretching and a large random seed, the value is hashed 1000 times against the PBKDF2 password and the random seed generating a unique value that can never be recovered, returns null on error
     *
     * @param string $algorithm see hash_algos () for a list of supporting algorithms
     * @param string $text text to be hashed
     * @param string $password default value is an empty string or null
     * @param bool $rawOutput default value is false
     * @return string
     */
    public static function DigestEx ($algorithm, $text, $password = null, $rawOutput = null)
    {
        if (is_bool ($rawOutput) == false)
        {
            $rawOutput = false;
        }

        if ((is_string ($password) == false) || (strlen (trim ($password)) == 0))
        {
            $password = null;
        }

        if (in_array (strtolower ($algorithm), hash_algos ()) == false)
        {
            if (in_array ('sha512', hash_algos ()) == true)
            {
                $algorithm = 'sha512';
            }

            else
            {
                return null;
            }
        }

        $salt = Hashing::GenerateDigestSalt (false);

        if (($salt === null) || (strlen (trim ($salt)) == 0))
        {
            return null;
        }

        if (is_null ($password) == true)
        {
            $hashed = Hashing::Digest (strtolower ($algorithm), $text . $salt, null, true);
        }

        else
        {
            $password = Hashing::PasswordBasedKeyDerivation ($password, $salt, 4096, 256);
            $hashed = Hashing::Digest (strtolower ($algorithm), $text . $salt, $password, true);
        }

        for ($iteration = 0; $iteration <= 998; $iteration++)
        {
            if (is_null ($password) == true)
            {
                $hashed = Hashing::Digest (strtolower ($algorithm), $text . $hashed . $salt, $salt, true);
            }

            else
            {
                $hashed = Hashing::Digest (strtolower ($algorithm), $text . $hashed . $salt, $password . $salt, true);
            }
        }

        if (is_null ($password) == true)
        {
            return Hashing::Digest (strtolower ($algorithm), $text . $hashed . $salt, $salt, $rawOutput);
        }

        else
        {
            return Hashing::Digest (strtolower ($algorithm), $text . $hashed . $salt, $password . $salt, $rawOutput);
        }
    }

    /**
     * Returns or generates and returns a random strong seed used for hashing, returns null on error
     *
     * @param bool $regenerate force a new seed to be generated (WARNING: regenerating a hash can render your system inoperable)
     * @return string
     */
    public static function GenerateDigestSalt ($regenerate = null)
    {
        if (is_bool ($regenerate) == false)
        {
            $regenerate = false;
        }

        if ((file_exists (CACHE_FILE_PATH . 'hashsalt.cache') == false) || ($regenerate == true))
        {
            $salt = '';

            for ($iteration = 0; $iteration <= 255; $iteration++)
            {
                $salt .= chr ($iteration);
            }

            $salt = str_shuffle ($salt) . pack ('H*', time ()) . pack ('H*', mt_rand (0, PHP_INT_MAX));
            $salt = Hashing::Digest ('whirlpool', $salt, $salt, true);

            for ($iteration = 0; $iteration <= 30; $iteration++)
            {
                if (($iteration % 2) == 0)
                {
                    $salt .= Hashing::Digest ('sha512', $salt, $salt, true);
                }

                else
                {
                    $salt .= Hashing::Digest ('whirlpool', $salt, $salt, true);
                }
            }

            $result = @file_put_contents (CACHE_FILE_PATH . 'hashsalt.cache', chunk_split (Hashing::asciiHexdecimal (str_shuffle ($salt), 76, "\n")));

            if ($result == true)
            {
                $contents = @file_get_contents (CACHE_FILE_PATH . 'hashsalt.cache');

                if ($contents === false)
                {
                    return null;
                }

                else
                {
                    return Hashing::hexdecimalAscii (str_replace ("\n", '', $contents));
                }
            }

            else
            {
                return null;
            }
        }

        else
        {
            $contents = @file_get_contents (CACHE_FILE_PATH . 'hashsalt.cache');

            if ($contents === false)
            {
                return null;
            }

            else
            {
                return Hashing::hexdecimalAscii (str_replace ("\n", '', $contents));
            }
        }
    }

    /**
     * Convert an ascii string to its hex representation
     *
     * @param string $input
     * @return string
     */
    private static function asciiHexdecimal ($input)
    {
        $inputLength = strlen ($input);
        $output = '';

        for ($iteration = 0; $iteration < $inputLength; $iteration++)
        {
            $output .= sprintf ('%02x', ord (substr ($input, $iteration, 1)));
        }

        return $output;
    }

    /**
     * Convert a hex string to its ascii representation
     *
     * @param string $input
     * @return string
     */
    private static function hexdecimalAscii ($input)
    {
        $inputLength = strlen ($input);
        $output = '';

        for ($iteration = 0; $iteration < $inputLength; $iteration += 2)
        {
            $output .= chr (hexdec (substr ($input, $iteration, 2)));
        }

        return $output;
    }
}

Now for some explanations, before you call this class you need to set the constant CACHE_FILE_PATH to point to the directory in which you will store the hash seed. This seed should not be accessible to the public. Also it cannot be changed unless you want to go through a terrible headache.

You can use this class by calling Hashing::Digest or Hashing::DigestEx; I recommend the extended version because it offers more security.

Below I will give an authentication example, remember that I use part encryption in my authentication methods.

<?php

if ((isset ($_POST ['email']) == true) && (isset ($_POST ['password']) == true))
{
    if (ValidateEmailAddress ($_POST ['email']) == true)
    {
        $query = mysql_query (sprintf ('SELECT * FROM users WHERE email=\'%s\' LIMIT 1',
            addcslashes (mysql_real_escape_string (Aes::Encrypt ($_POST ['email'], '854c2a63-3935-4aa8-9d36-49b131511270', 'cce1873f-7414-4c9f-a529-9d20fce3b4f9'), $mysql), '_%')), $mysql);

        if (is_resource ($query) == true)
        {
            if (mysql_num_rows ($query) == 1)
            {
                $userData = mysql_fetch_assoc ($query);
                mysql_free_query ($query);

                if ((strlen ($_POST ['password']) > 0) && (strlen ($_POST ['password']) <= 32))
                {
                    if (Hashing::DigestEx ('sha512', $_POST ['password'], $userData ['user_id']) == $userData ['password'])
                    {
                        // generate a random 256bit session string, store the hash of the session string in the database
                        // and save an encrypted version of the session string in a cookie
                    }

                    else
                    {
                        // send wrong username or password message
                    }
                }

                else
                {
                    // send wrong username or password message
                }
            }

            else
            {
                mysql_free_result ($query);
                // send wrong username or password message
            }
        }

        else
        {
            // handle database error
        }
    }

    else
    {
        // handle invalid email address
    }
}

I hope this code has been useful, it uses a large stored random seed which is used site wide, it then takes the users id which in my database is a UUID v4 string and key stretches it before hashing the password 1000 times.

You may use my class in your projects freely without limitation, just give credit and dont claim it as your own work :)

share|improve this answer
1  
Why bother with your own password hashing when there are far better solutions available? Hashing is extremely serious, and notoriously difficult to do correctly. This is not the time to gamble on your own code. Use a well tested and respected library like openwall.com/phpass. –  meagar May 16 '12 at 20:27
    
This solution has been well tested and is by no means new, it uses recognised security standards and methods to generate a strong hash to government accepted levels using two seeds instead of one, every user has their own unique hashing table. –  Michael Bush May 17 '12 at 2:26
    
Although I know there has been quite some talk about using PBKDF2 for password hashing, keep in mind it was not designed for that and, consequently, cryptanalysis has not been done with password hashing in mind. As far as I know, BCrypt is considdered slightly better for password hashing. Also read the answer from professional cryptographer Thomas Pornin –  Jacco May 26 '12 at 13:01

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