PHP encryption and decryption functions

Regarding Discuz’s encryption and decryption function, I believe everyone knows something about it. The authcode function can be said to have made a significant contribution to the PHP world. I really find that the discuz function is so wonderfully written.
After studying this algorithm, it can be summarized into the following three points:
1. Dynamicity. The same string uses the same key, and the ciphertext encrypted is different every time. There is only one decryption method, which is actually Put the decrypted information on top of the ciphertext.
2. For timeliness, you can add a deadline parameter in seconds. This actually adds a valid time to the ciphertext.
3. Uniformity, the same function is used for encryption and decryption, and a relatively simple XOR algorithm is used.
Because this function has the above functions, it is applicable to many environments. It is generally used to prevent interface brushing when users log in and develop APIs.
// $string： 明文 或 密文 // $operation：DECODE表示解密,其它表示加密 // $key： 密匙 // $expiry：密文有效期 function authcode($string, $operation = 'DECODE', $key = '', $expiry = 0) { // 动态密匙长度，相同的明文会生成不同密文就是依靠动态密匙 $ckey_length = 4; // 密匙 $key = md5($key ? $key : $GLOBALS['discuz_auth_key']); // 密匙a会参与加解密 $keya = md5(substr($key, 0, 16)); // 密匙b会用来做数据完整性验证 $keyb = md5(substr($key, 16, 16)); // 密匙c用于变化生成的密文 $keyc = $ckey_length ? ($operation == 'DECODE' ? substr($string, 0, $ckey_length): substr(md5(microtime()), -$ckey_length)) : ''; // 参与运算的密匙 $cryptkey = $keya.md5($keya.$keyc); $key_length = strlen($cryptkey); // 明文，前10位用来保存时间戳，解密时验证数据有效性，10到26位用来保存$keyb(密匙b)，解密时会通过这个密匙验证数据完整性 // 如果是解码的话，会从第$ckey_length位开始，因为密文前$ckey_length位保存 动态密匙，以保证解密正确 $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); $rndkey = array(); // 产生密匙簿 for($i = 0; $i <= 255; $i++) { $rndkey[$i] = ord($cryptkey[$i % $key_length]); } // 用固定的算法，打乱密匙簿，增加随机性，好像很复杂，实际上并不会增加密文的强度 for($j = $i = 0; $i < 256; $i++) { $j = ($j + $box[$i] + $rndkey[$i]) % 256; $tmp = $box[$i]; $box[$i] = $box[$j]; $box[$j] = $tmp; } // 核心加解密部分 for($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; // 从密匙簿得出密匙进行异或，再转成字符 $result .= chr(ord($string[$i]) ^ ($box[($box[$a] + $box[$j]) % 256])); } if($operation == 'DECODE') { // substr($result, 0, 10) == 0 验证数据有效性 // substr($result, 0, 10) - time() > 0 验证数据有效性 // substr($result, 10, 16) == substr(md5(substr($result, 26).$keyb), 0, 16) 验证数据完整性 // 验证数据有效性，请看未加密明文的格式 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 { // 把动态密匙保存在密文里，这也是为什么同样的明文，生产不同密文后能解密的原因 // 因为加密后的密文可能是一些特殊字符，复制过程可能会丢失，所以用base64编码 return $keyc.str_replace('=', '', base64_encode($result)); } }

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The above introduces the PHP encryption and decryption functions, including aspects of the content. I hope it will be helpful to friends who are interested in PHP tutorials.