278

What I mean is:

Original String + Salt or Key --> Encrypted String
Encrypted String + Salt or Key --> Decrypted (Original String)

Maybe something like:

"hello world!" + "ABCD1234" --> Encrypt --> "2a2ffa8f13220befbe30819047e23b2c" (may be, for e.g)
"2a2ffa8f13220befbe30819047e23b2c" --> Decrypt with "ABCD1234" --> "hello world!"
  • In PHP, how can you do this?

Attempted to use Crypt_Blowfish, but it didn't work for me.

5
  • 46
    @Rogue He doesn't want a hash, he wants symmetric encryption (like AES), he just doesn't know what it's called. (And now he does :) )
    – Patashu
    May 17, 2013 at 3:01
  • how secure does it need to be?
    – user557846
    May 17, 2013 at 3:16
  • 3
    @夏期劇場, You do not 'salt' symmetrical encryption, you use a key. A key must be kept secret. A salt can be public without harming security (as long as everyone's salt is different), and it is a term used in hashing passwords.
    – Patashu
    May 17, 2013 at 4:14
  • 2
    You need a Salt (private key), a public key an an encryption algorithm like AES-256: wpy.me/blog/15-encrypt-and-decrypt-data-in-php-using-aes-256
    – wappy
    Feb 27, 2015 at 14:12
  • 8
    @CristianFlorea The author of that blog post uses terms that simply do not make the slightest bit of sense in the context of symmetric encryption. There is no public key with AES, nor is there a salt. There is a single key; it must be kept secret. In some modes of operation there is an IV that need not be secret, but an IV is not a salt (depending on mode, it can have quite different requirements) and need not be secret, while the actual encryption key absolutely cannot be public. Public/private key applies to asymmetric crypto, but has nothing to do with AES.
    – cpast
    Mar 12, 2015 at 21:15

10 Answers 10

474
+200

Before you do anything further, seek to understand the difference between encryption and authentication, and why you probably want authenticated encryption rather than just encryption.

To implement authenticated encryption, you want to Encrypt then MAC. The order of encryption and authentication is very important! One of the existing answers to this question made this mistake; as do many cryptography libraries written in PHP.

You should avoid implementing your own cryptography, and instead use a secure library written by and reviewed by cryptography experts.

Update: PHP 7.2 now provides libsodium! For best security, update your systems to use PHP 7.2 or higher and only follow the libsodium advice in this answer.

Use libsodium if you have PECL access (or sodium_compat if you want libsodium without PECL); otherwise...
Use defuse/php-encryption; don't roll your own cryptography!

Both of the libraries linked above make it easy and painless to implement authenticated encryption into your own libraries.

If you still want to write and deploy your own cryptography library, against the conventional wisdom of every cryptography expert on the Internet, these are the steps you would have to take.

Encryption:

  1. Encrypt using AES in CTR mode. You may also use GCM (which removes the need for a separate MAC). Additionally, ChaCha20 and Salsa20 (provided by libsodium) are stream ciphers and do not need special modes.
  2. Unless you chose GCM above, you should authenticate the ciphertext with HMAC-SHA-256 (or, for the stream ciphers, Poly1305 -- most libsodium APIs do this for you). The MAC should cover the IV as well as the ciphertext!

Decryption:

  1. Unless Poly1305 or GCM is used, recalculate the MAC of the ciphertext and compare it with the MAC that was sent using hash_equals(). If it fails, abort.
  2. Decrypt the message.

Other Design Considerations:

  1. Do not compress anything ever. Ciphertext is not compressible; compressing plaintext before encryption can lead to information leaks (e.g. CRIME and BREACH on TLS).
  2. Make sure you use mb_strlen() and mb_substr(), using the '8bit' character set mode to prevent mbstring.func_overload issues.
  3. IVs should be generating using a CSPRNG; If you're using mcrypt_create_iv(), DO NOT USE MCRYPT_RAND!
  4. Unless you're using an AEAD construct, ALWAYS encrypt then MAC!
  5. bin2hex(), base64_encode(), etc. may leak information about your encryption keys via cache timing. Avoid them if possible.

Even if you follow the advice given here, a lot can go wrong with cryptography. Always have a cryptography expert review your implementation. If you are not fortunate enough to be personal friends with a cryptography student at your local university, you can always try the Cryptography Stack Exchange forum for advice.

If you need a professional analysis of your implementation, you can always hire a reputable team of security consultants to review your PHP cryptography code (disclosure: my employer).

Important: When to Not Use Encryption

Don't encrypt passwords. You want to hash them instead, using one of these password-hashing algorithms:

Never use a general-purpose hash function (MD5, SHA256) for password storage.

Don't encrypt URL Parameters. It's the wrong tool for the job.

PHP String Encryption Example with Libsodium

If you are on PHP < 7.2 or otherwise do not have libsodium installed, you can use sodium_compat to accomplish the same result (albeit slower).

<?php
declare(strict_types=1);

/**
 * Encrypt a message
 * 
 * @param string $message - message to encrypt
 * @param string $key - encryption key
 * @return string
 * @throws RangeException
 */
function safeEncrypt(string $message, string $key): string
{
    if (mb_strlen($key, '8bit') !== SODIUM_CRYPTO_SECRETBOX_KEYBYTES) {
        throw new RangeException('Key is not the correct size (must be 32 bytes).');
    }
    $nonce = random_bytes(SODIUM_CRYPTO_SECRETBOX_NONCEBYTES);
    
    $cipher = base64_encode(
        $nonce.
        sodium_crypto_secretbox(
            $message,
            $nonce,
            $key
        )
    );
    sodium_memzero($message);
    sodium_memzero($key);
    return $cipher;
}

/**
 * Decrypt a message
 * 
 * @param string $encrypted - message encrypted with safeEncrypt()
 * @param string $key - encryption key
 * @return string
 * @throws Exception
 */
function safeDecrypt(string $encrypted, string $key): string
{   
    $decoded = base64_decode($encrypted);
    $nonce = mb_substr($decoded, 0, SODIUM_CRYPTO_SECRETBOX_NONCEBYTES, '8bit');
    $ciphertext = mb_substr($decoded, SODIUM_CRYPTO_SECRETBOX_NONCEBYTES, null, '8bit');
    
    $plain = sodium_crypto_secretbox_open(
        $ciphertext,
        $nonce,
        $key
    );
    if (!is_string($plain)) {
        throw new Exception('Invalid MAC');
    }
    sodium_memzero($ciphertext);
    sodium_memzero($key);
    return $plain;
}

Then to test it out:

<?php
// This refers to the previous code block.
require "safeCrypto.php"; 

// Do this once then store it somehow:
$key = random_bytes(SODIUM_CRYPTO_SECRETBOX_KEYBYTES);
$message = 'We are all living in a yellow submarine';

$ciphertext = safeEncrypt($message, $key);
$plaintext = safeDecrypt($ciphertext, $key);

var_dump($ciphertext);
var_dump($plaintext);

Halite - Libsodium Made Easier

One of the projects I've been working on is an encryption library called Halite, which aims to make libsodium easier and more intuitive.

<?php
use \ParagonIE\Halite\KeyFactory;
use \ParagonIE\Halite\Symmetric\Crypto as SymmetricCrypto;

// Generate a new random symmetric-key encryption key. You're going to want to store this:
$key = new KeyFactory::generateEncryptionKey();
// To save your encryption key:
KeyFactory::save($key, '/path/to/secret.key');
// To load it again:
$loadedkey = KeyFactory::loadEncryptionKey('/path/to/secret.key');

$message = 'We are all living in a yellow submarine';
$ciphertext = SymmetricCrypto::encrypt($message, $key);
$plaintext = SymmetricCrypto::decrypt($ciphertext, $key);

var_dump($ciphertext);
var_dump($plaintext);

All of the underlying cryptography is handled by libsodium.

Example with defuse/php-encryption

<?php
/**
 * This requires https://github.com/defuse/php-encryption
 * php composer.phar require defuse/php-encryption
 */

use Defuse\Crypto\Crypto;
use Defuse\Crypto\Key;

require "vendor/autoload.php";

// Do this once then store it somehow:
$key = Key::createNewRandomKey();

$message = 'We are all living in a yellow submarine';

$ciphertext = Crypto::encrypt($message, $key);
$plaintext = Crypto::decrypt($ciphertext, $key);

var_dump($ciphertext);
var_dump($plaintext);

Note: Crypto::encrypt() returns hex-encoded output.

Encryption Key Management

If you're tempted to use a "password", stop right now. You need a random 128-bit encryption key, not a human memorable password.

You can store an encryption key for long-term use like so:

$storeMe = bin2hex($key);

And, on demand, you can retrieve it like so:

$key = hex2bin($storeMe);

I strongly recommend just storing a randomly generated key for long-term use instead of any sort of password as the key (or to derive the key).

If you're using Defuse's library:

"But I really want to use a password."

That's a bad idea, but okay, here's how to do it safely.

First, generate a random key and store it in a constant.

/**
 * Replace this with your own salt! 
 * Use bin2hex() then add \x before every 2 hex characters, like so:
 */
define('MY_PBKDF2_SALT', "\x2d\xb7\x68\x1a\x28\x15\xbe\x06\x33\xa0\x7e\x0e\x8f\x79\xd5\xdf");

Note that you're adding extra work and could just use this constant as the key and save yourself a lot of heartache!

Then use PBKDF2 (like so) to derive a suitable encryption key from your password rather than encrypting with your password directly.

/**
 * Get an AES key from a static password and a secret salt
 * 
 * @param string $password Your weak password here
 * @param int $keysize Number of bytes in encryption key
 */
function getKeyFromPassword($password, $keysize = 16)
{
    return hash_pbkdf2(
        'sha256',
        $password,
        MY_PBKDF2_SALT,
        100000, // Number of iterations
        $keysize,
        true
    );
}

Don't just use a 16-character password. Your encryption key will be comically broken.

11
  • 8
    Don't encrypt passwords, hash them with password_hash() and check them with password_verify(). Dec 3, 2015 at 5:10
  • 1
    @ScottArciszewski I like your comment about key "// Do this once then store it somehow:" .. somehow, lol :)) well how about storing this 'key' (which is object) as plain string, hardcoded? I need the key itself, as a string. Can I get it from this object somehow? Thanks
    – Andrew
    Apr 25, 2016 at 13:16
  • 1
    Version 1.2.1: save it via bin2hex(). Version 2.0.0: Wait until it's finished then read the docs. DO NOT use version 2 before it's released. Apr 25, 2016 at 15:54
  • 2
    Thx, I had just to modify one line in order to make your sodium examples working: function getKeyFromPassword($password, $keysize = \Sodium\CRYPTO_SECRETBOX_KEYBYTES) Dec 29, 2016 at 18:18
  • 2
    Wow! +1 for mentioning not to encrypt URL parameters. I really liked the article you provide: paragonie.com/blog/2015/09/… Sep 28, 2018 at 7:20
136

I'm late to the party, but searching for the correct way to do it I came across this page it was one of the top Google search returns, so I will like to share my view on the problem, which I consider it to be up to date at the time of writing this post (beginning of 2017). From PHP 7.1.0 the mcrypt_decrypt and mcrypt_encrypt is going to be deprecated, so building future proof code should use openssl_encrypt and openssl_decrypt

You can do something like:

$string_to_encrypt="Test";
$password="password";
$encrypted_string=openssl_encrypt($string_to_encrypt,"AES-128-ECB",$password);
$decrypted_string=openssl_decrypt($encrypted_string,"AES-128-ECB",$password);

Important: This uses ECB mode, which isn't secure. If you want a simple solution without taking a crash course in cryptography engineering, don't write it yourself, just use a library.

You can use any other chipper methods as well, depending on your security need. To find out the available chipper methods please see the openssl_get_cipher_methods function.

16
  • 31
    Thank you, I'm surprised this simple and clear answer is not more upvoted. I'd rather not read a 10 pages discussion on the subject like the top answer when all I want is encrypt/decrypt a simple string.
    – laurent
    Apr 11, 2017 at 14:23
  • 7
    This isn't a secure answer. ECB mode shouldn't be used. If you want a "simple and clear answer", just use a library. Apr 11, 2017 at 20:39
  • 2
    @ScottArciszewski, yes I admit I've spoken too quickly while looking for some simple code. I've since then added an IV and using CBC in my own code, which is good enough for my use.
    – laurent
    Apr 12, 2017 at 10:05
  • 14
    It all depends on the use case! There are cases when this is perfectly FINE. For example I want to pass a GET parameter from page to page, let's say prod_id=123 but I just do not want to make 123 readable for everybody, however even if they could read it, it won't be a problem. An attacker being able to replace the 123 to a custom value won't cause any harm, he/she will only be able to get details of any other product, but Joe Average User won't have a clue on how to get details for product 124 for example. For a scenario like this, it's a perfect solution, for security it's a no go! Apr 12, 2017 at 15:56
  • 2
    "For example I want to pass a GET parameter from page to page, let's say prod_id=123 but I just do not want to make 123 readable for everybody, however even if they could read it, it won't be a problem." - Might I suggest a better way? paragonie.com/blog/2015/09/… Apr 12, 2017 at 17:08
45

What not to do

WARNING:
This answer uses ECB. ECB is not an encryption mode, it's only a building block. Using ECB as demonstrated in this answer does not actually encrypt the string securely. Do not use ECB in your code. See Scott's answer for a good solution.

I got it on myself. Actually i found some answer on google and just modified something. The result is completely insecure however.

<?php
define("ENCRYPTION_KEY", "!@#$%^&*");
$string = "This is the original data string!";

echo $encrypted = encrypt($string, ENCRYPTION_KEY);
echo "<br />";
echo $decrypted = decrypt($encrypted, ENCRYPTION_KEY);

/**
 * Returns an encrypted & utf8-encoded
 */
function encrypt($pure_string, $encryption_key) {
    $iv_size = mcrypt_get_iv_size(MCRYPT_BLOWFISH, MCRYPT_MODE_ECB);
    $iv = mcrypt_create_iv($iv_size, MCRYPT_RAND);
    $encrypted_string = mcrypt_encrypt(MCRYPT_BLOWFISH, $encryption_key, utf8_encode($pure_string), MCRYPT_MODE_ECB, $iv);
    return $encrypted_string;
}

/**
 * Returns decrypted original string
 */
function decrypt($encrypted_string, $encryption_key) {
    $iv_size = mcrypt_get_iv_size(MCRYPT_BLOWFISH, MCRYPT_MODE_ECB);
    $iv = mcrypt_create_iv($iv_size, MCRYPT_RAND);
    $decrypted_string = mcrypt_decrypt(MCRYPT_BLOWFISH, $encryption_key, $encrypted_string, MCRYPT_MODE_ECB, $iv);
    return $decrypted_string;
}
?>
16
  • 8
    You can either user "MCRYPT_MODE_CBC" instead of "MCRYPT_MODE_ECB" to ensure more security.
    – Parixit
    Aug 17, 2013 at 5:00
  • 10
    Ramesh, this is because you're getting the raw encrypted data. You can get a nicer version of the encrypted data by using base64, like this: base64_encode(encrypt($string)) -- To decrypt it: decrypt(base64_decode($encrypted))
    – mendezcode
    Jul 31, 2014 at 0:19
  • 83
    WARNING: this is insecure. ECB mode should not be used for strings, ECB does not take an IV, this is not authenticated, it uses a old cipher (Blowfish) instead of AES, the key is not binary etc. etc. The SO community should really stop upvoting encryption / decryption that just "work" and start upvoting answers that are known to be secure. If you don't know that for sure, don't vote. Feb 3, 2015 at 23:00
  • 3
    I kind of did this already by having the sample code of mcrypt_encrypt replaced: php.net/manual/en/function.mcrypt-encrypt.php. Note that reviewing it now it probably should have a rtrim for character "\0" at the end. Feb 4, 2015 at 11:03
  • 5
    The correct answer is to use something like defuse/php-encryption instead of writing your own mcrypt code. May 11, 2015 at 5:25
25

For Laravel framework

If you are using Laravel framework then it's more easy to encrypt and decrypt with internal functions.

$string = 'Some text to be encrypted';
$encrypted = \Illuminate\Support\Facades\Crypt::encrypt($string);
$decrypted_string = \Illuminate\Support\Facades\Crypt::decrypt($encrypted);

var_dump($string);
var_dump($encrypted);
var_dump($decrypted_string);

Note: Be sure to set a 16, 24, or 32 character random string in the key option of the config/app.php file. Otherwise, encrypted values will not be secure.

1
  • 2
    Sure, it may be easy to use. But is it secure? How does it address the issues in stackoverflow.com/a/30159120/781723? Does it use authenticated encryption? Does it avoid side channel vulnerabilities and ensure constant-time equality checks? Does it use a truly random key rather than a password/passphrase? Does it use a suitable mode of operation? Does it generate random IV's properly?
    – D.W.
    Dec 13, 2016 at 21:08
25

Updated

PHP 7 ready version. It uses openssl_encrypt function from PHP OpenSSL Library.

class Openssl_EncryptDecrypt {
    function encrypt ($pure_string, $encryption_key) {
        $cipher     = 'AES-256-CBC';
        $options    = OPENSSL_RAW_DATA;
        $hash_algo  = 'sha256';
        $sha2len    = 32;
        $ivlen = openssl_cipher_iv_length($cipher);
        $iv = openssl_random_pseudo_bytes($ivlen);
        $ciphertext_raw = openssl_encrypt($pure_string, $cipher, $encryption_key, $options, $iv);
        $hmac = hash_hmac($hash_algo, $ciphertext_raw, $encryption_key, true);
        return $iv.$hmac.$ciphertext_raw;
    }
    function decrypt ($encrypted_string, $encryption_key) {
        $cipher     = 'AES-256-CBC';
        $options    = OPENSSL_RAW_DATA;
        $hash_algo  = 'sha256';
        $sha2len    = 32;
        $ivlen = openssl_cipher_iv_length($cipher);
        $iv = substr($encrypted_string, 0, $ivlen);
        $hmac = substr($encrypted_string, $ivlen, $sha2len);
        $ciphertext_raw = substr($encrypted_string, $ivlen+$sha2len);
        $original_plaintext = openssl_decrypt($ciphertext_raw, $cipher, $encryption_key, $options, $iv);
        $calcmac = hash_hmac($hash_algo, $ciphertext_raw, $encryption_key, true);
        if(function_exists('hash_equals')) {
            if (hash_equals($hmac, $calcmac)) return $original_plaintext;
        } else {
            if ($this->hash_equals_custom($hmac, $calcmac)) return $original_plaintext;
        }
    }
    /**
     * (Optional)
     * hash_equals() function polyfilling.
     * PHP 5.6+ timing attack safe comparison
     */
    function hash_equals_custom($knownString, $userString) {
        if (function_exists('mb_strlen')) {
            $kLen = mb_strlen($knownString, '8bit');
            $uLen = mb_strlen($userString, '8bit');
        } else {
            $kLen = strlen($knownString);
            $uLen = strlen($userString);
        }
        if ($kLen !== $uLen) {
            return false;
        }
        $result = 0;
        for ($i = 0; $i < $kLen; $i++) {
            $result |= (ord($knownString[$i]) ^ ord($userString[$i]));
        }
        return 0 === $result;
    }
}

define('ENCRYPTION_KEY', '__^%&Q@$&*!@#$%^&*^__');
$string = "This is the original string!";

$OpensslEncryption = new Openssl_EncryptDecrypt;
$encrypted = $OpensslEncryption->encrypt($string, ENCRYPTION_KEY);
$decrypted = $OpensslEncryption->decrypt($encrypted, ENCRYPTION_KEY);
6
  • 1
    This is better and much safer version. Thanks, it works as expected too.
    – user11856197
    Jul 30, 2019 at 7:59
  • 4
    how do you create and where do you keep the encryption key? Apr 12, 2020 at 8:52
  • 1
    OK! I understood, I've changed openssl_random_pseudo_bytes function to static 16 char string.. Thank You!!! Jul 8, 2020 at 14:34
  • 1
    I used this in my project with some changes in order to use it statically. Thank you!!!! Dec 24, 2020 at 16:55
  • 1
    $cipher = 'AES-256-CTR'; is better
    – yes sure
    Dec 11, 2022 at 21:10
11

These are compact methods to encrypt / decrypt strings with PHP using AES256 CBC:

function encryptString($plaintext, $password, $encoding = null) {
    $iv = openssl_random_pseudo_bytes(16);
    $ciphertext = openssl_encrypt($plaintext, "AES-256-CBC", hash('sha256', $password, true), OPENSSL_RAW_DATA, $iv);
    $hmac = hash_hmac('sha256', $ciphertext.$iv, hash('sha256', $password, true), true);
    return $encoding == "hex" ? bin2hex($iv.$hmac.$ciphertext) : ($encoding == "base64" ? base64_encode($iv.$hmac.$ciphertext) : $iv.$hmac.$ciphertext);
}

function decryptString($ciphertext, $password, $encoding = null) {
    $ciphertext = $encoding == "hex" ? hex2bin($ciphertext) : ($encoding == "base64" ? base64_decode($ciphertext) : $ciphertext);
    if (!hash_equals(hash_hmac('sha256', substr($ciphertext, 48).substr($ciphertext, 0, 16), hash('sha256', $password, true), true), substr($ciphertext, 16, 32))) return null;
    return openssl_decrypt(substr($ciphertext, 48), "AES-256-CBC", hash('sha256', $password, true), OPENSSL_RAW_DATA, substr($ciphertext, 0, 16));
}

Usage:

$enc = encryptString("mysecretText", "myPassword");
$dec = decryptString($enc, "myPassword");

EDIT: This is a new version of functions that use AES256 GCM and PBKDF2 as key derivation, more secure.

function str_encryptaesgcm($plaintext, $password, $encoding = null) {
    if ($plaintext != null && $password != null) {
        $keysalt = openssl_random_pseudo_bytes(16);
        $key = hash_pbkdf2("sha512", $password, $keysalt, 20000, 32, true);
        $iv = openssl_random_pseudo_bytes(openssl_cipher_iv_length("aes-256-gcm"));
        $tag = "";
        $encryptedstring = openssl_encrypt($plaintext, "aes-256-gcm", $key, OPENSSL_RAW_DATA, $iv, $tag, "", 16);
        return $encoding == "hex" ? bin2hex($keysalt.$iv.$encryptedstring.$tag) : ($encoding == "base64" ? base64_encode($keysalt.$iv.$encryptedstring.$tag) : $keysalt.$iv.$encryptedstring.$tag);
    }
}

function str_decryptaesgcm($encryptedstring, $password, $encoding = null) {
    if ($encryptedstring != null && $password != null) {
        $encryptedstring = $encoding == "hex" ? hex2bin($encryptedstring) : ($encoding == "base64" ? base64_decode($encryptedstring) : $encryptedstring);
        $keysalt = substr($encryptedstring, 0, 16);
        $key = hash_pbkdf2("sha512", $password, $keysalt, 20000, 32, true);
        $ivlength = openssl_cipher_iv_length("aes-256-gcm");
        $iv = substr($encryptedstring, 16, $ivlength);
        $tag = substr($encryptedstring, -16);
        return openssl_decrypt(substr($encryptedstring, 16 + $ivlength, -16), "aes-256-gcm", $key, OPENSSL_RAW_DATA, $iv, $tag);
    }
}

Usage:

$enc = str_encryptaesgcm("mysecretText", "myPassword", "base64"); // return a base64 encrypted string, you can also choose hex or null as encoding.
$dec = str_decryptaesgcm($enc, "myPassword", "base64");
10

If you don't want to use library (which you should) then use something like this (PHP 7):

function sign($message, $key) {
    return hash_hmac('sha256', $message, $key) . $message;
}

function verify($bundle, $key) {
    return hash_equals(
      hash_hmac('sha256', mb_substr($bundle, 64, null, '8bit'), $key),
      mb_substr($bundle, 0, 64, '8bit')
    );
}

function getKey($password, $keysize = 16) {
    return hash_pbkdf2('sha256',$password,'some_token',100000,$keysize,true);
}

function encrypt($message, $password) {
    $iv = random_bytes(16);
    $key = getKey($password);
    $result = sign(openssl_encrypt($message,'aes-256-ctr',$key,OPENSSL_RAW_DATA,$iv), $key);
    return bin2hex($iv).bin2hex($result);
}

function decrypt($hash, $password) {
    $iv = hex2bin(substr($hash, 0, 32));
    $data = hex2bin(substr($hash, 32));
    $key = getKey($password);
    if (!verify($data, $key)) {
      return null;
    }
    return openssl_decrypt(mb_substr($data, 64, null, '8bit'),'aes-256-ctr',$key,OPENSSL_RAW_DATA,$iv);
}

$string_to_encrypt='John Smith';
$password='password';
$encrypted_string=encrypt($string_to_encrypt, $password);
$decrypted_string=decrypt($encrypted_string, $password);
4
  • Can this be a replacement to stackoverflow.com/a/16606352/126833 ? I've using the former until my host upgraded to PHP 7.2.
    – anjanesh
    Jul 23, 2018 at 10:21
  • @anjanesh you won't be able to decrypt old data with this one (different algorithms + this one also checks signature)
    – Ascon
    Jul 24, 2018 at 13:09
  • 2
    In your case probably this should do: define("ENCRYPTION_KEY", "123456*"); $string = "This is the original data string!"; $encrypted = openssl_encrypt($string, 'BF-ECB', ENCRYPTION_KEY); $decrypted = openssl_decrypt($encrypted,'BF-ECB',ENCRYPTION_KEY);
    – Ascon
    Jul 24, 2018 at 13:30
  • This is Super !
    – anjanesh
    Jul 24, 2018 at 17:13
8

Historical Note: This was written at the time of PHP4. This is what we call "legacy code" now.

I have left this answer for historical purposes - but some of the methods are now deprecated, DES encryption method is not a recommended practice, etc.

I have not updated this code for two reasons: 1) I no longer work with encryption methods by hand in PHP, and 2) this code still serves the purpose it was intended for: to demonstrate the minimum, simplistic concept of how encryption can work in PHP.

If you find a similarly simplistic, "PHP encryption for dummies" kind of source that can get people started in 10-20 lines of code or less, let me know in comments.

Beyond that, please enjoy this Classic Episode of early-era PHP4 minimalistic encryption answer.


Ideally you have - or can get - access to the mcrypt PHP library, as its certainly popular and very useful a variety of tasks. Here's a run down of the different kinds of encryption and some example code: Encryption Techniques in PHP

//Listing 3: Encrypting Data Using the mcrypt_ecb Function 

<?php 
echo("<h3> Symmetric Encryption </h3>"); 
$key_value = "KEYVALUE"; 
$plain_text = "PLAINTEXT"; 
$encrypted_text = mcrypt_ecb(MCRYPT_DES, $key_value, $plain_text, MCRYPT_ENCRYPT); 
echo ("<p><b> Text after encryption : </b>"); 
echo ( $encrypted_text ); 
$decrypted_text = mcrypt_ecb(MCRYPT_DES, $key_value, $encrypted_text, MCRYPT_DECRYPT); 
echo ("<p><b> Text after decryption : </b>"); 
echo ( $decrypted_text ); 
?> 

A few warnings:

1) Never use reversible, or "symmetric" encryption when a one-way hash will do.

2) If the data is truly sensitive, like credit card or social security numbers, stop; you need more than any simple chunk of code will provide, but rather you need a crypto library designed for this purpose and a significant amount of time to research the methods necessary. Further, the software crypto is probably <10% of security of sensitive data. It's like rewiring a nuclear power station - accept that the task is dangerous and difficult and beyond your knowledge if that's the case. The financial penalties can be immense, so better to use a service and ship responsibility to them.

3) Any sort of easily implementable encryption, as listed here, can reasonably protect mildly important information that you want to keep from prying eyes or limit exposure in the case of accidental/intentional leak. But seeing as how the key is stored in plain text on the web server, if they can get the data they can get the decryption key.

Be that as it may, have fun :)

8
  • 2
    Thanks! But some issues. I'm getting M�������f=�_= strange characters as the encrypted one. Can't i get simple characters? Like: 2a2ffa8f13220befbe30819047e23b2c. Also, can't i change the LENGTH of $key_value (fixed to 8 ???) and the LENGTH of output $encrypted_text? (can't it be 32 or 64 long or whatever longer??) May 17, 2013 at 4:32
  • 3
    @夏期劇場 The result of encryption is binary data. If you need it to be human readable, use base64 or hex encoding on it. 'Can't I change the length of key value?' Different symmetrical encryption algorithms have different requirements for key value. 'and the LENGTH of output...' The length of the encrypted text has to be at least as long as the original text, or else there is not enough information to recreate the original text. (This is an application of the Pigeonhole principle.) BTW, you should use AES instead of DES. DES is easily breakable and not secure anymore.
    – Patashu
    May 17, 2013 at 6:54
  • comment referring 2) if the data is truly sensitive: can you link a crypto library? what services are there to which I can "ship responsibility" to? I've googled but I seems I can't hit the correct keywords to get good results. Jan 8, 2015 at 7:47
  • 8
    mcrypt_ecb has been DEPRECATED as of PHP 5.5.0 Relying on this function is highly discouraged. php.net/manual/en/function.mcrypt-ecb.php Jan 9, 2015 at 22:15
  • 1
    @BrianDHall The reason this still gets down-votes is because ECB mode isn't safe (use CBC, CTR, GCM, or Poly1305), DES is weak (you want AES, which is MCRYPT_RIJNDAEL_128), and ciphertexts should be authenticated (hash_hmac(), verified with hash_equals()). May 11, 2015 at 7:54
1

In PHP, Encryption and Decryption of a string is possible using one of the Cryptography Extensions called OpenSSL function for encrypt and decrypt.

openssl_encrypt() Function: The openssl_encrypt() function is used to encrypt the data.

Syntax is as follows :

string openssl_encrypt( string $data, string $method, string $key, $options = 0, string $iv, string $tag= NULL, string $aad, int $tag_length = 16 )

Parameters are as follows :

$data: It holds the string or data which need to be encrypted.

$method: The cipher method is adopted using openssl_get_cipher_methods() function.

$key: It holds the encryption key.

$options: It holds the bitwise disjunction of the flags OPENSSL_RAW_DATA and OPENSSL_ZERO_PADDING.

$iv: It holds the initialization vector which is not NULL.

$tag: It holds the authentication tag which is passed by reference when using AEAD cipher mode (GCM or CCM).

$aad: It holds the additional authentication data.

$tag_length: It holds the length of the authentication tag. The length of authentication tag lies between 4 to 16 for GCM mode.

Return Value: It returns the encrypted string on success or FALSE on failure.

openssl_decrypt() Function The openssl_decrypt() function is used to decrypt the data.

Syntax is as follows :

string openssl_decrypt( string $data, string $method, string $key, int $options = 0, string $iv, string $tag, string $aad)

Parameters are as follows :

$data: It holds the string or data which need to be encrypted.

$method: The cipher method is adopted using openssl_get_cipher_methods() function.

$key: It holds the encryption key.

$options: It holds the bitwise disjunction of the flags OPENSSL_RAW_DATA and OPENSSL_ZERO_PADDING.

$iv: It holds the initialization vector which is not NULL.

$tag: It holds the authentication tag using AEAD cipher mode (GCM or CCM). When authentication fails openssl_decrypt() returns FALSE.

$aad: It holds the additional authentication data.

Return Value: It returns the decrypted string on success or FALSE on failure.

Approach: First declare a string and store it into variable and use openssl_encrypt() function to encrypt the given string and use openssl_decrypt() function to descrypt the given string.

You can find the examples at : https://www.geeksforgeeks.org/how-to-encrypt-and-decrypt-a-php-string/

0

Below code work in php for all string with special character

   // Encrypt text --

    $token = "9611222007552";

      $cipher_method = 'aes-128-ctr';
      $enc_key = openssl_digest(php_uname(), 'SHA256', TRUE);  
      $enc_iv = openssl_random_pseudo_bytes(openssl_cipher_iv_length($cipher_method));  
      $crypted_token = openssl_encrypt($token, $cipher_method, $enc_key, 0, $enc_iv) . "::" . bin2hex($enc_iv);
    echo    $crypted_token;
    //unset($token, $cipher_method, $enc_key, $enc_iv);

    // Decrypt text  -- 

    list($crypted_token, $enc_iv) = explode("::", $crypted_token);  
      $cipher_method = 'aes-128-ctr';
      $enc_key = openssl_digest(php_uname(), 'SHA256', TRUE);
      $token = openssl_decrypt($crypted_token, $cipher_method, $enc_key, 0, hex2bin($enc_iv));
    echo   $token;
    //unset($crypted_token, $cipher_method, $enc_key, $enc_iv);

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