discuz authcode classic php encryption and decryption function analysis_PHP tutorial

The principle is as follows, if:
Encryption
Plain text: 1010 1001
Key: 1110 0011
Cipher text: 0100 1010
The cipher text is 0100 1010. The need for decryption is XORed with the key Just click
Decrypt
Cipher text: 0100 1010
Key: 1110 0011
Plain text: 1010 1001
There is no sophisticated algorithm, the key is very important, so, The key lies in how to generate the key.
Let’s take a look at how Kangsheng’s authcode is done

Copy the code The code is as follows:

// Parameter explanation
// $string: plain text or cipher text
// $operation: DECODE means decryption, others means encryption
// $key: secret key
// $expiry: ciphertext validity period
function authcode($string, $operation = 'DECODE', $key = '', $expiry = 0) {
// Dynamic key length, the same plaintext will generate different ciphertext, relying on dynamic encryption Key
$ckey_length = 4;

// Key
$key = md5($key ? $key : $GLOBALS['discuz_auth_key']);

// Key a will participate in encryption and decryption
$keya = md5(substr($key, 0, 16));
// Key b will be used for data integrity verification
$keyb = md5( substr($key, 16, 16));
// Key c is used to change the generated ciphertext
$keyc = $ckey_length ? ($operation == 'DECODE' ? substr($string, 0 , $ckey_length):
substr(md5(microtime()), -$ckey_length)) : '';
// The key involved in the operation
$cryptkey = $keya.md5($keya. $keyc);
$key_length = strlen($cryptkey);
// Plain text, the first 10 bits are used to save the timestamp, and the data validity is verified during decryption, and 10 to 26 bits are used to save $keyb(cryptkey) Key b), the data integrity will be verified through this key when decrypting
// If decoding, it will start from the $ckey_length bit, because the dynamic key is stored in the $ckey_length bit before the ciphertext to ensure correct decryption
$string = $operation == 'DECODE' ? base64_decode(substr($string, $ckey_length)) :
sprintf('%010d', $expiry ? $expiry + time() : 0).substr( md5($string.$keyb), 0, 16).$string;
$string_length = strlen($string);
$result = '';
$box = range(0, 255) ;
$rndkey = array();
// Generate key book
for($i = 0; $i <= 255; $i++) {
$rndkey[$i] = ord($cryptkey[$i % $key_length]);
}
//Use a fixed algorithm to disrupt the key book and increase randomness. It seems very complicated, but in fact it will not increase the number of keys. Strength of text
for($j = $i = 0; $i < 256; $i++) {
$j = ($j + $box[$i] + $rndkey[$i]) % 256;
$tmp = $box[$i];
$box[$i] = $box[$j];
$box[$j] = $tmp;
}
//Core encryption and decryption part
for($a = $j = $i = 0; $i < $string_length; $i++) {
$a = ($a + 1) % 256 ;
$j = ($j + $box[$a]) % 256;
$tmp = $box[$a];
$box[$a] = $box[$j] ;
$box[$j] = $tmp;
// Get the key from the key book, perform XOR, and then convert it into characters
$result .= chr(ord($string[$ i]) ^ ($box[($box[$a] + $box[$j]) % 256]));
}
if($operation == 'DECODE') {
// substr($result, 0, 10) == 0 Verify data validity
// substr($result, 0, 10) - time() > 0 Verify data validity
// substr( $result, 10, 16) == substr(md5(substr($result, 26).$keyb), 0, 16) Verify data integrity
// Verify data validity, please see the format of unencrypted plaintext
if((substr($result, 0, 10) == 0 || substr($result, 0, 10) - time() > 0) &&
substr($result, 10, 16) == substr(md5(substr($result, 26).$keyb), 0, 16)) {
return substr($result, 26);
} else {
return '';
}
} else {
// Save the dynamic key in the ciphertext, which is why the same plaintext can be decrypted after producing different ciphertexts
// Because the encrypted password The text may contain some special characters and may be lost during the copying process, so use base64 encoding
return $keyc.str_replace('=', '', base64_encode($result));
}
}

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