I was just looking into how to solve this same problem, but I also want my function to create a token that can be used for password retrieval as well. This means that I need to limit the ability of the token to be guessed. Because `uniqid`

is based on the time, and according to php.net "the return value is little different from microtime()", `uniqid`

does not meet the criteria. PHP recommends using `openssl_random_pseudo_bytes()`

instead to generate cryptographically secure tokens.

A quick, short and to the point answer is:

```
bin2hex(openssl_random_pseudo_bytes($bits))
```

which will generate a random string of alphanumeric characters of length = $bits * 2. Unfortunately this only has an alphabet of `[a-f][0-9]`

, but it works.

Below is the strongest function I could make that satisfies the criteria (This is an implemented version of Erik's answer).

```
function crypto_rand_secure($min, $max) {
$range = $max - $min;
if ($range < 0) return $min; // not so random...
$log = log($range, 2);
$bytes = (int) ($log / 8) + 1; // length in bytes
$bits = (int) $log + 1; // length in bits
$filter = (int) (1 << $bits) - 1; // set all lower bits to 1
do {
$rnd = hexdec(bin2hex(openssl_random_pseudo_bytes($bytes)));
$rnd = $rnd & $filter; // discard irrelevant bits
} while ($rnd >= $range);
return $min + $rnd;
}
function getToken($length){
$token = "";
$codeAlphabet = "ABCDEFGHIJKLMNOPQRSTUVWXYZ";
$codeAlphabet.= "abcdefghijklmnopqrstuvwxyz";
$codeAlphabet.= "0123456789";
for($i=0;$i<$length;$i++){
$token .= $codeAlphabet[crypto_rand_secure(0,strlen($codeAlphabet))];
}
return $token;
}
```

`crypto_rand_secure($min, $max)`

works as a drop in replacement for `rand()`

or `mt_rand`

. It uses openssl_random_pseudo_bytes to help create a random number between $min and $max.

`getToken($length)`

creates an alphabet to use within the token and then creates a string of length `$length`

.

**EDIT:** I neglected to cite source - http://us1.php.net/manual/en/function.openssl-random-pseudo-bytes.php#104322

`Scott`

as the correct answer. Scott is using OpenSSL's cryptographically secure psudo-random number generator (CSPRNG) which will choose the most secure source of entropy based on your platform. – Rook Sep 18 '13 at 19:50