I am trying to generate a random password in php.

However I am getting all 'a's and the return type is of type array and I would like it to be a string. Any ideas on how to correct the code?


function randomPassword() {
    $alphabet = "abcdefghijklmnopqrstuwxyzABCDEFGHIJKLMNOPQRSTUWXYZ0123456789";
    for ($i = 0; $i < 8; $i++) {
        $n = rand(0, count($alphabet)-1);
        $pass[$i] = $alphabet[$n];
    return $pass;
  • 9
    None of the answers use a secure random number generator, which you want for a password. – Scott Arciszewski Jul 4 '15 at 19:08
  • 4
    Visitors should be getting potentially-security-related information from a source that can be updated properly, not a question that's closed to new answers. I'm deleting the answers to this duplicate so that visitors will read the answers to the open question instead. (If this question is ever reopened, answers will be undeleted.) – Jeremy Jul 6 '15 at 5:47
  • 6
    @JeremyBanks Nowhere does the question state a cryptographically secure password is required. For some people, the answers using /dev/random are enough as the question doesn't ask for a "secure" password (and shouldn't be edited to contain that as it would alter the meaning of the original question). Although I'm all for security, I think this carpet bomb wasn't thought through fully. Like using mysql_*, the answers are still valid, but should be marked as insecure. Perhaps this is something that SO needs to include as extra software - the ability to warn of insecure code? – Jimbo Jul 6 '15 at 7:33
  • 6
    @JeremyBanks Can you please reinstate the answers to this question? Just because it is a duplicate it does not mean the answers are wrong (I accidentally voted to reopen, I agree it is a duplicate). It makes no sense to delete the answers, Consider instead removing this question and migrating the answers to the other question (I have seen it done before). – Naftali aka Neal Jul 6 '15 at 12:26
  • 7
    @JeremyBanks if you want something to not be reopened, lock it. Otherwise 99% people will reopen it and create a whole mess. Personally I totally disagree with deleting highly scored answers just like that, but can't fight you over this – Shadow The Vaccinated Wizard Jul 6 '15 at 12:36

24 Answers 24


Security warning: rand() is not a cryptographically secure pseudorandom number generator. Look elsewhere for generating a cryptographically secure pseudorandom string in PHP.

Try this (use strlen instead of count, because count on a string is always 1):

function randomPassword() {
    $alphabet = 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890';
    $pass = array(); //remember to declare $pass as an array
    $alphaLength = strlen($alphabet) - 1; //put the length -1 in cache
    for ($i = 0; $i < 8; $i++) {
        $n = rand(0, $alphaLength);
        $pass[] = $alphabet[$n];
    return implode($pass); //turn the array into a string


  • 27
    Seems more straightforward to use $pass .= $alphabet[$n]. – Matthew May 23 '11 at 19:33
  • 34
    Generating password using rand is a really bad idea. It's not a secure PRNG. (and no mt_rand isn't better either) – CodesInChaos Oct 31 '13 at 16:56
  • 19
    The question is about generating a password. Code to generate a password clearly needs to use secure random numbers. – CodesInChaos Oct 31 '13 at 17:18
  • 11
    For the same reason as this is not a duplicate question, this answer is incorrect, since the question is about generating a password and not a random string. This answer provides a terribly insecure approach to generating a password. Please use @user3260409's answer below, where openssl_random_pseudo_bytes() is used instead of rand() – Sorry-Im-a-N00b Mar 30 '15 at 0:21
  • 35
    I've seen your insecure code in production and want to stop it at the source. You NEED cryptographically secure randomness for passwords. – Scott Arciszewski Jul 6 '15 at 4:22


  • Use random_int() and the given random_str() below.
  • If you don't have random_int(), use random_compat.


Since you are generating a password, you need to ensure that the password you generate is unpredictable, and the only way to ensure this property is present in your implementation is to use a cryptographically secure pseudorandom number generator (CSPRNG).

The requirement for a CSPRNG can be relaxed for the general case of random strings, but not when security is involved.

The simple, secure, and correct answer to password generation in PHP is to use RandomLib and don't reinvent the wheel. This library has been audited by industry security experts, as well as myself.

For developers who prefer inventing your own solution, PHP 7.0.0 will provide random_int() for this purpose. If you're still on PHP 5.x, we wrote a PHP 5 polyfill for random_int() so you can use the new API before PHP 7 is released. Using our random_int() polyfill is probably safer than writing your own implementation.

With a secure random integer generator on hand, generating a secure random string is easier than pie:

 * Generate a random string, using a cryptographically secure 
 * pseudorandom number generator (random_int)
 * For PHP 7, random_int is a PHP core function
 * For PHP 5.x, depends on https://github.com/paragonie/random_compat
 * @param int $length      How many characters do we want?
 * @param string $keyspace A string of all possible characters
 *                         to select from
 * @return string
function random_str(
    $keyspace = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'
) {
    $str = '';
    $max = mb_strlen($keyspace, '8bit') - 1;
    if ($max < 1) {
        throw new Exception('$keyspace must be at least two characters long');
    for ($i = 0; $i < $length; ++$i) {
        $str .= $keyspace[random_int(0, $max)];
    return $str;
  • 3
    RandomLib has not been updated for over two years now. Using it on a recent PHP build (7.1.25 in my case) throws deprecation warnings for various mcrypt_* functions. I can see on an issue thread that you have forked the library due not being able to get a hold of @ircmaxell, but your fork says ‘build failing’ on Travis. Would you care to update this answer (which still shows up quite high on Google)? – Janus Bahs Jacquet Jan 14 '19 at 14:13
  • 1
    Good catch! It needs to be removed. – Scott Arciszewski Jan 21 '19 at 18:59

I know you are trying to generate your password in a specific way, but you might want to look at this method as well...

$bytes = openssl_random_pseudo_bytes(2);

$pwd = bin2hex($bytes);

It's taken from the php.net site and it creates a string which is twice the length of the number you put in the openssl_random_pseudo_bytes function. So the above would create a password 4 characters long.

In short...

$pwd = bin2hex(openssl_random_pseudo_bytes(4));

Would create a password 8 characters long.

Note however that the password only contains numbers 0-9 and small cap letters a-f!

  • 13
    If you want a password that's uppercase, lowercase, and numbers, try this: gist.github.com/zyphlar/7217f566fc83a9633959 – willbradley Dec 20 '14 at 22:35
  • 1
    @زياد Says who? If the generator was using 7-bit bytes I would agree with you, but openssl_random_pseudo_bytes() is a powerful full binary byte randomness generator and doesn't need any further shuffling. Also I'll take the chance to point out that it is dangerous to assume stacking multiple encryption methods will make anything more random, in some cases it can in fact be exactly the opposite because of accumulating hashing collisions. – Havenard Aug 7 '18 at 19:34

Tiny code with 2 line.

demo: http://codepad.org/5rHMHwnH

function rand_string( $length ) {

    $chars = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789";
    return substr(str_shuffle($chars),0,$length);


echo rand_string(8);

with rand_string you can define how much character will be create.

  • 21
    Nice, though you won't get any repeated characters using this approach, which might be undesirable. – Hobo Dec 15 '12 at 10:47
  • 11
    This function is terrible for generating long passwords. First, if $length is longer than the $chars string, then you will not receive a string as long as the length you input, but the length of the chars string. Also, you are guaranteed only 1 of each character with no duplicates. It also does not guarantee the use of a capital letter or a number which is quite often a requirement (except of course if your length is more than 26 due to the previous fault) – Programster Oct 5 '13 at 11:59
  • What about this @Programster and @Hobo ? substr(str_shuffle(str_repeat($chars,$length)),0,$length); – Charles-Édouard Coste Sep 21 '17 at 14:40
  • @Charles-EdouardCoste seems to work okay enough (especially if you throw in some special chars). Although it still doesn't guarantee at least one of each character type. The only thing that bothers me is repeating the entire character set by the length of the desired password but that ensures the chars in the generated password don't have to be unique and doesn't have a noticeable performance impact in a single use. – Programster Sep 27 '17 at 20:12
  • I concur. It's probably better not to choose an algorithm on its number of lines. By the way, if the main goal is just to generate a temporary password when creating a new user on a website, this would meet the needs, I guess. – Charles-Édouard Coste Sep 28 '17 at 9:05

If you are on PHP7 you could use the random_int() function:

function generate_password($length = 20){
  $chars =  'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz'.

  $str = '';
  $max = strlen($chars) - 1;

  for ($i=0; $i < $length; $i++)
    $str .= $chars[random_int(0, $max)];

  return $str;

Old answer below:

function generate_password($length = 20){
  $chars =  'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz'.

  $str = '';
  $max = strlen($chars) - 1;

  for ($i=0; $i < $length; $i++)
    $str .= $chars[mt_rand(0, $max)];

  return $str;
  • 12
    don't use mt_rand to generate a password. – CodesInChaos Oct 31 '13 at 17:00
  • 2
    @CodesInChaos it's better than rand() which is what the above example uses. openssl_random_pseudo_bytes() is preferred according to the PHP manual. – willbradley Dec 20 '14 at 21:58
  • 4
    @willbradley The quality of the seed is just as bad for mt_rand, so it's still unsuitable for any security use. – CodesInChaos Jan 14 '15 at 11:30
  • 2
    you see this is what annoys me +ChaosInCodes. You haven't looked at the question, you've just made some generic statements repeated a load of poorly held beliefs. In short: right piece of advice for a totally different question. Random passwords are fine. They are probably "x" use only. Quite honestly if you are designing your system without timed lockouts and DOS detection and "x tries then -> locked" then you are doing it wrong. IT is IMPOSSIBLE to guess a mt_rand password with such measures in place. Conversely using mt_rand will not make it EASIER to brute force a password. It just won't. – Mr Heelis Aug 9 '16 at 15:59
  • 1
    I wouldn't use \ in $chars – Pedro Lobito Nov 9 '17 at 2:00

In one line:

substr(str_shuffle('abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789') , 0 , 10 )
  • 11
    This prevents re-use of the same letters as they just shuffle around but don't occur more than once. – nickdnk May 7 '15 at 10:36
  • 8
    Needless to say, nobody should be optimizing their password generation function based on line count. Even if the RNG this used were secure (it's not), avoiding repeated characters while generating a 10-character password brings you down from ~52 bits of entropy to ~50 bits of entropy (~4x faster to crack). If you extended this out to 20 characters, the non-repetition would bring you down from ~103 bits to ~94 bits (~512x faster to crack). – Jeremy Jul 11 '15 at 0:47
  • 1
    This method reminds me of the flaw in the Enigma code Lol – hatef Jul 11 '15 at 21:23
  • 4
    substr(str_shuffle(str_repeat($chars,$length)),0,$length); Entropy restored – Charles-Édouard Coste Sep 21 '17 at 14:43

Your best bet is the RandomLib library by ircmaxell.

Usage example:

$factory = new RandomLib\Factory;
$generator = $factory->getGenerator(new SecurityLib\Strength(SecurityLib\Strength::MEDIUM));

$passwordLength = 8; // Or more
$randomPassword = $generator->generateString($passwordLength);

It produces strings which are more strongly random than the normal randomness functions like shuffle() and rand() (which is what you generally want for sensitive information like passwords, salts and keys).

  • 4
    This is the correct answer. Don't use rand() or mt_rand(). – Scott Arciszewski Jul 6 '15 at 13:10
  • 1
    It may be the most secure answer (not sure how it compares to random_bytes), but that doesn't make rand answers incorrect. – Cerbrus Jul 6 '15 at 13:36
  • 6
  • 8
    @Cerbrus: Sure this answer doesn't make answers using rand() incorrect. They are incorrect all on their own! – Deduplicator Jul 6 '15 at 15:18

I'm going to post an answer because some of the existing answers are close but have one of:

  • a smaller character space than you wanted so that either brute-forcing is easier or the password must be longer for the same entropy
  • a RNG that isn't considered cryptographically secure
  • a requirement for some 3rd party library and I thought it might be interesting to show what it might take to do it yourself

This answer will circumvent the count/strlen issue as the security of the generated password, at least IMHO, transcends how you're getting there. I'm also going to assume PHP > 5.3.0.

Let's break the problem down into the constituent parts which are:

  1. use some secure source of randomness to get random data
  2. use that data and represent it as some printable string

For the first part, PHP > 5.3.0 provides the function openssl_random_pseudo_bytes. Note that whilst most systems use a cryptographically strong algorithm, you have to check so we'll use a wrapper:

 * @param int $length
function strong_random_bytes($length)
    $strong = false; // Flag for whether a strong algorithm was used
    $bytes = openssl_random_pseudo_bytes($length, $strong);

    if ( ! $strong)
        // System did not use a cryptographically strong algorithm 
        throw new Exception('Strong algorithm not available for PRNG.');

    return $bytes;

For the second part, we'll use base64_encode since it takes a byte string and will produce a series of characters that have an alphabet very close to the one specified in the original question. If we didn't mind having +, / and = characters appear in the final string and we want a result at least $n characters long, we could simply use:

base64_encode(strong_random_bytes(intval(ceil($n * 3 / 4))));

The 3/4 factor is due to the fact that base64 encoding results in a string that has a length at least a third bigger than the byte string. The result will be exact for $n being a multiple of 4 and up to 3 characters longer otherwise. Since the extra characters are predominantly the padding character =, if we for some reason had a constraint that the password be an exact length, then we can truncate it to the length we want. This is especially because for a given $n, all passwords would end with the same number of these, so that an attacker who had access to a result password, would have up to 2 less characters to guess.

For extra credit, if we wanted to meet the exact spec as in the OP's question then we would have to do a little bit more work. I'm going to forgo the base conversion approach here and go with a quick and dirty one. Both need to generate more randomness than will be used in the result anyway because of the 62 entry long alphabet.

For the extra characters in the result, we can simply discard them from the resulting string. If we start off with 8 bytes in our byte-string, then up to about 25% of the base64 characters would be these "undesirable" characters, so that simply discarding these characters results in a string no shorter than the OP wanted. Then we can simply truncate it to get down to the exact length:

$dirty_pass = base64_encode(strong_random_bytes(8)));
$pass = substr(str_replace(['/', '+', '='], ['', '', ''], $dirty_pass, 0, 8);

If you generate longer passwords, the padding character = forms a smaller and smaller proportion of the intermediate result so that you can implement a leaner approach, if draining the entropy pool used for the PRNG is a concern.

  • 1
    Thanks for this addition. None of the existing answers noted that openssl_random_pseudo_bytes could produced a weak result. I didn't realize that was the case. – Jeremy Jul 11 '15 at 17:19

You want strlen($alphabet), not count of the constant alphabet (equivalent to 'alphabet').

However, rand is not a suitable random function for this purpose. Its output can easily be predicted as it is implicitly seeded with the current time. Additionally, rand is not cryptographically secure; it is therefore relatively easy to determine its internal state from output.

Instead, read from /dev/urandom to get cryptographically random data.


base_convert(uniqid('pass', true), 10, 36);

eg. e0m6ngefmj4


As I've mentioned in comments, the length means that brute force attacks would work better against it then timing attacks so it's not really relevant to worry about "how secure the random generator was." Security, specifically for this use case, needs to complement usability so the above solution is actually good enough for the required problem.

However, just in case you stumbled upon this answer while searching for a secure random string generator (as I assume some people have based on the responses), for something such as generating tokens, here is how a generator of such codes would look like:

function base64urlEncode($data) {
    return rtrim(strtr(base64_encode($data), '+/', '-_'), '=');

function secureId($length = 32) {

    if (function_exists('openssl_random_pseudo_bytes')) {
        $bytes = openssl_random_pseudo_bytes($length);
        return rtrim(strtr(base64_encode($bytes), '+/', '0a'), '=');
    else { // fallback to system bytes

        error_log("Missing support for openssl_random_pseudo_bytes");

        $pr_bits = '';

        $fp = @fopen('/dev/urandom', 'rb');
        if ($fp !== false) {
            $pr_bits .= @fread($fp, $length);

        if (strlen($pr_bits) < $length) {
            error_log('unable to read /dev/urandom');
            throw new \Exception('unable to read /dev/urandom');

        return base64urlEncode($pr_bits);
  • 1
    PS - this is PHP - just using \ to denote the global namespace. – Bob Gregor Apr 24 '13 at 1:33
  • Except that uniqid is not cryptographically secure. Use rand() instead: base_convert(rand(78364164096, 2821109907455), 10, 36); – Benubird Feb 20 '14 at 12:51
  • 7
    @Benubird rand() is not cryptographically secure either, according to the PHP manual. The manual suggests openssl_random_pseudo_bytes() instead. – willbradley Dec 20 '14 at 21:58
  • For most use cases, specifically where the attacker does not have access to the exact time, this is perfectly fine and produces a nice more-or-less human friendly "temporary" password. If we were to take this to the extreme the length here is far more troublesome then what function was used to generate the random number. – srcspider Jul 8 '15 at 10:44
  • I've added an example for generating fully secure strings, for those interested; but highly do not recommend using this when generating temporary passwords for users. Even using the secure version, the length problem still applies. – srcspider Jul 8 '15 at 10:55

Another one (linux only)

function randompassword()
    $fp = fopen ("/dev/urandom", 'r');
    if (!$fp) { die ("Can't access /dev/urandom to get random data. Aborting."); }
    $random = fread ($fp, 1024); # 1024 bytes should be enough
    fclose ($fp);
    return trim (base64_encode ( md5 ($random, true)), "=");
  • 1
    Reading 1024 bytes to compress into a 128-bit cryptographic hash of the entropy is a little wasteful. Also, fread() buffers to 8192 bytes by default, so you're always going to read that many from /dev/urandom with the given code. This also won't work on Windows. Kudos for using a CSPRNG, though. – Scott Arciszewski Jul 8 '15 at 9:33

Being a little smarter:

function strand($length){
  if($length > 0)
    return chr(rand(33, 126)) . strand($length - 1);

check it here.


Try This with Capital Letters, Small Letters, Numeric(s) and Special Characters

function generatePassword($_len) {

    $_alphaSmall = 'abcdefghijklmnopqrstuvwxyz';            // small letters
    $_alphaCaps  = strtoupper($_alphaSmall);                // CAPITAL LETTERS
    $_numerics   = '1234567890';                            // numerics
    $_specialChars = '`~!@#$%^&*()-_=+]}[{;:,<.>/?\'"\|';   // Special Characters

    $_container = $_alphaSmall.$_alphaCaps.$_numerics.$_specialChars;   // Contains all characters
    $password = '';         // will contain the desired pass

    for($i = 0; $i < $_len; $i++) {                                 // Loop till the length mentioned
        $_rand = rand(0, strlen($_container) - 1);                  // Get Randomized Length
        $password .= substr($_container, $_rand, 1);                // returns part of the string [ high tensile strength ;) ] 

    return $password;       // Returns the generated Pass

Let's Say we need 10 Digit Pass

echo generatePassword(10);  

Example Output(s) :




  • the rand function is not actually cryptographically secure so it might be quite a risk to generate a password using it – jeteon Jul 17 '15 at 22:06

Use this simple code for generate med-strong password 12 length

$password_string = '!@#$%*&abcdefghijklmnpqrstuwxyzABCDEFGHJKLMNPQRSTUWXYZ23456789';
$password = substr(str_shuffle($password_string), 0, 12);
  • This is actually (very?) wrong. It actually use every char from the alphabet only once, thus severely shrinks space of all possible values (relevant to cracking). – Radoslav Bodo Jun 21 '20 at 9:34

Quick One. Simple, clean and consistent format if that is what you want

$pw = chr(mt_rand(97,122)).mt_rand(0,9).chr(mt_rand(97,122)).mt_rand(10,99).chr(mt_rand(97,122)).mt_rand(100,999);

This is based off another answer on this page, https://stackoverflow.com/a/21498316/525649

This answer generates just hex characters, 0-9,a-f. For something that doesn't look like hex, try this:

  • base64_encode returns a wider spread of alphanumeric chars
  • rtrim removes the = sometimes at the end


  • 32eFVfGDg891Be5e7293e54z1D23110M3ZU3FMjb30Z9a740Ej0jz4
  • b280R72b48eOm77a25YCj093DE5d9549Gc73Jg8TdD9Z0Nj4b98760
  • 051b33654C0Eg201cfW0e6NA4b9614ze8D2FN49E12Y0zY557aUCb8
  • y67Q86ffd83G0z00M0Z152f7O2ADcY313gD7a774fc5FF069zdb5b7

This isn't very configurable for creating an interface for users, but for some purposes that's okay. Increase the number of chars to account for the lack of special characters.

  1. Create a file with this code in it.
  2. Call it like in the comments.

    * @usage  :
    *       include_once($path . '/Password.php');
    *       $Password = new Password;
    *       $pwd = $Password->createPassword(10);
    *       return $pwd;
    class Password {
        public function createPassword($length = 15) {
            $response = [];
            $response['pwd'] = $this->generate($length);
            $response['hashPwd'] = $this->hashPwd( $response['pwd'] );
            return $response;
        private function generate($length = 15) {
            $chars = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789!@#$%^&*(){}/?,><";
            return substr(str_shuffle($chars),0,$length);
        private function hashPwd($pwd) {
            return hash('sha256', $pwd);

I created a more comprehensive and secure password script. This will create a combination of two uppercase, two lowercase, two numbers and two special characters. Total 8 characters.

$char = [range('A','Z'),range('a','z'),range(0,9),['*','%','$','#','@','!','+','?','.']];
$pw = '';
for($a = 0; $a < count($char); $a++)
    $randomkeys = array_rand($char[$a], 2);
    $pw .= $char[$a][$randomkeys[0]].$char[$a][$randomkeys[1]];
$userPassword = str_shuffle($pw);
//define a function. It is only 3 lines!   
function generateRandomPassword($length = 5){
    $chars = "0123456789bcdfghjkmnpqrstvwxyzBCDFGHJKLMNPQRSTVWXYZ";
    return substr(str_shuffle($chars),0,$length);

echo generateRandomPassword(5); //random password legth: 5
echo generateRandomPassword(6); //random password legth: 6
echo generateRandomPassword(7); //random password legth: 7
  • This is actually (very?) wrong. It actually use every char from the alphabet only once, thus severely shrinks space of all possible values (relevant to cracking). – Radoslav Bodo Jun 21 '20 at 9:29

My answer is similar to some of the above, but I removed vowels, numbers 1 and 0, letters i,j, I, l, O,o, Q, q, X,x,Y,y,W,w. The reason is: the first ones are easy to mix up (like l and 1, depending on the font) and the rest (starting with Q) is because they don't exist in my language, so they might be a bit odd for super-end users. The string of characters is still long enough. Also, I know it would be ideal to use some special signs, but they also don't get along with some end-users.

function generatePassword($length = 8) {

$chars = '23456789bcdfhkmnprstvzBCDFHJKLMNPRSTVZ';
$shuffled = str_shuffle($chars);
$result = mb_substr($shuffled, 0, $length);

return $result;

Also, in this way, we avoid repeating the same letters and digits (match case not included)


Generates a strong password of length 8 containing at least one lower case letter, one uppercase letter, one digit, and one special character. You can change the length in the code too.

function checkForCharacterCondition($string) {
    return (bool) preg_match('/(?=.*([A-Z]))(?=.*([a-z]))(?=.*([0-9]))(?=.*([~`\!@#\$%\^&\*\(\)_\{\}\[\]]))/', $string);

$j = 1;

function generate_pass() {
    global $j;
    $allowedCharacters = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ~`!@#$%^&*()_{}[]';
    $pass = '';
    $length = 8;
    $max = mb_strlen($allowedCharacters, '8bit') - 1;
    for ($i = 0; $i < $length; ++$i) {
        $pass .= $allowedCharacters[random_int(0, $max)];

    if (checkForCharacterCondition($pass)){
        return '<br><strong>Selected password: </strong>'.$pass;
        echo 'Iteration '.$j.':  <strong>'.$pass.'</strong>  Rejected<br>';
        return generate_pass();


echo generate_pass();

This function will generate a password based on the rules in parameters

function random_password( $length = 8, $characters = true, $numbers = true, $case_sensitive = true, $hash = true ) {

    $password = '';

        $charLength = $length;
        if($numbers) $charLength-=2;
        if($case_sensitive) $charLength-=2;
        if($hash) $charLength-=2;
        $chars = "abcdefghijklmnopqrstuvwxyz";
        $password.= substr( str_shuffle( $chars ), 0, $charLength );

        $numbersLength = $length;
        if($characters) $numbersLength-=2;
        if($case_sensitive) $numbersLength-=2;
        if($hash) $numbersLength-=2;
        $chars = "0123456789";
        $password.= substr( str_shuffle( $chars ), 0, $numbersLength );

        $UpperCaseLength = $length;
        if($characters) $UpperCaseLength-=2;
        if($numbers) $UpperCaseLength-=2;
        if($hash) $UpperCaseLength-=2;
        $password.= substr( str_shuffle( $chars ), 0, $UpperCaseLength );

        $hashLength = $length;
        if($characters) $hashLength-=2;
        if($numbers) $hashLength-=2;
        if($case_sensitive) $hashLength-=2;
        $chars = "!@#$%^&*()_-=+;:,.?";
        $password.= substr( str_shuffle( $chars ), 0, $hashLength );

    $password = str_shuffle( $password );
    return $password;

Here's my take at random plain password generation helper.

It ensures that password has numbers, upper and lower case letters as well as a minimum of 3 special characters.

Length of the password will be between 11 and 30.

function plainPassword(): string
    $numbers = array_rand(range(0, 9), rand(3, 9));
    $uppercase = array_rand(array_flip(range('A', 'Z')), rand(2, 8));
    $lowercase = array_rand(array_flip(range('a', 'z')), rand(3, 8));
    $special = array_rand(array_flip(['@', '#', '$', '!', '%', '*', '?', '&']), rand(3, 5));

    $password = array_merge(


    return implode($password);
function password_generate($n, $l, $s) 
  $numbers = '1234567890';
  $letters = '1234567890ABCDEFGHIJKLMNOPQRSTUVWXYZabcefghijklmnopqrstuvwxyz';
  $special = '--!=!@@#++%';
  return substr(str_shuffle($numbers), 0, $n).substr(str_shuffle($letters), 0, $l).substr(str_shuffle($special), 0, $s);

echo password_generate(2,9,1);
  • For password generation purposes, only a secure random generator should be used, such as random_bytes or random_int. Many other solutions for random value generation, including those involving time(), microtime(), uniqid(), rand(), mt_rand(), str_shuffle(), array_rand(), and shuffle(), are much more predictable and are unsuitable if the random string will serve as a password or another secret value. See: stackoverflow.com/questions/4570980/… – Peter O. Apr 5 at 12:01

Not the answer you're looking for? Browse other questions tagged or ask your own question.