My password strength criteria is as below :

  • 8 characters length
  • 2 letters in Upper Case
  • 1 Special Character (!@#$&*)
  • 2 numerals (0-9)
  • 3 letters in Lower Case

Can somebody please give me regex for same. All conditions must be met by password .

  • 2
    Are you really willing to trust your password security measures to the Internet at large? – Borealid Feb 28 '11 at 12:47
  • 10
    @Borealid: publishing your password policies should usually not significantly impact your security. If it does, then your policies are bad ("Only password and hello123 are valid passwords!"). – Joachim Sauer Feb 28 '11 at 12:50
  • 3
    @Joachim Sauer: That's not what I meant. What I meant was that the poster is probably just going to trust whatever regex he receives. Not such a good idea. – Borealid Feb 28 '11 at 12:51
  • 3
    Actually this regex is going to be in service code , i will be testing for diff cases not blindly trust it :) – Ajay Kelkar Feb 28 '11 at 15:08
  • 8
    Complex password rules will usually not lead to more safe passwords, important is only a minimum length. People cannot remember tons of strong passwords, and such rules can interfere with good password schemes. People can get very inventive to bypass such rules, e.g. by using weak passwords like "Password-2014". Often you end up with weaker passwords instead of stronger ones. – martinstoeckli Oct 24 '14 at 12:28
up vote 364 down vote accepted

You can do these checks using positive look ahead assertions:


Rubular link


^                         Start anchor
(?=.*[A-Z].*[A-Z])        Ensure string has two uppercase letters.
(?=.*[!@#$&*])            Ensure string has one special case letter.
(?=.*[0-9].*[0-9])        Ensure string has two digits.
(?=.*[a-z].*[a-z].*[a-z]) Ensure string has three lowercase letters.
.{8}                      Ensure string is of length 8.
$                         End anchor.
  • 76
    For anyone who wants a length of at least n, replace .{8} with .{n,} – NullUserException Oct 15 '12 at 16:33
  • 11
    +1 for a complete explanation. My password rules are different but based on your answer I can adapt the regex. – Morvael Nov 12 '13 at 10:59
  • 13
    Thank you for describing whats happening in the regex. This serves as a great learning example for those of us who've never really got on with the syntax. – user673046 Nov 22 '13 at 6:11
  • 3
    I also appreciate the explanation of the regex. To many times I use complex regex that I found, without really understanding what is going on. – Nicholas Smith Jan 27 '14 at 17:54
  • 2
    Positive look ahead is exactly the thing to use for this kind of things. Here's mine : ^(?=.*[A-Z])(?=.*[a-z])(?=.*[0-9]).{8,24}$ (between 8 and 24 chars, at least one of each type among lowercase, uppercase, and numbers) – AFract Aug 31 '15 at 15:43

You can use zero-length positive look-aheads to specify each of your constraints separately:


If your regex engine doesn't support the \p notation and pure ASCII is enough, then you can replace \p{Lu} with [A-Z] and \p{Ll} with [a-z].

Answers given above are perfect but I suggest to use multiple smaller regex rather than a big one.
Splitting the long regex have some advantages:

  • easiness to write and read
  • easiness to debug
  • easiness to add/remove part of regex

Generally this approach keep code easily maintainable.

Having said that, I share a piece of code that I write in Swift as example:

struct RegExp {

     Check password complexity

     - parameter password:         password to test
     - parameter length:           password min length
     - parameter patternsToEscape: patterns that password must not contains
     - parameter caseSensitivty:   specify if password must conforms case sensitivity or not
     - parameter numericDigits:    specify if password must conforms contains numeric digits or not

     - returns: boolean that describes if password is valid or not
    static func checkPasswordComplexity(password password: String, length: Int, patternsToEscape: [String], caseSensitivty: Bool, numericDigits: Bool) -> Bool {
        if (password.length < length) {
            return false
        if caseSensitivty {
            let hasUpperCase = RegExp.matchesForRegexInText("[A-Z]", text: password).count > 0
            if !hasUpperCase {
                return false
            let hasLowerCase = RegExp.matchesForRegexInText("[a-z]", text: password).count > 0
            if !hasLowerCase {
                return false
        if numericDigits {
            let hasNumbers = RegExp.matchesForRegexInText("\\d", text: password).count > 0
            if !hasNumbers {
                return false
        if patternsToEscape.count > 0 {
            let passwordLowerCase = password.lowercaseString
            for pattern in patternsToEscape {
                let hasMatchesWithPattern = RegExp.matchesForRegexInText(pattern, text: passwordLowerCase).count > 0
                if hasMatchesWithPattern {
                    return false
        return true

    static func matchesForRegexInText(regex: String, text: String) -> [String] {
        do {
            let regex = try NSRegularExpression(pattern: regex, options: [])
            let nsString = text as NSString
            let results = regex.matchesInString(text,
                options: [], range: NSMakeRange(0, nsString.length))
            return { nsString.substringWithRange($0.range)}
        } catch let error as NSError {
            print("invalid regex: \(error.localizedDescription)")
            return []
  • Also, when using complex regex like above, it is very easy to open yourself to catastrophic backtracking ( This can go unnoticed until one day your server hangs with 100% CPU because a user used a "strange" password. Example: ^([a-z0-9]+){8,}$ (can you see the error?) – aKzenT Sep 22 '17 at 18:10
  • upvote for very good tips – Sopheak Sok Sep 26 at 3:46

I would suggest adding

(?!.*pass|.*word|.*1234|.*qwer|.*asdf) exclude common passwords

codaddict's solution works fine, but this one is a bit more efficient: (Python syntax)

password = re.compile(r"""(?#!py password Rev:20160831_2100)
    # Validate password: 2 upper, 1 special, 2 digit, 1 lower, 8 chars.
    ^                        # Anchor to start of string.
    (?=(?:[^A-Z]*[A-Z]){2})  # At least two uppercase.
    (?=[^!@#$&*]*[!@#$&*])   # At least one "special".
    (?=(?:[^0-9]*[0-9]){2})  # At least two digit.
    .{8,}                    # Password length is 8 or more.
    $                        # Anchor to end of string.
    """, re.VERBOSE)

The negated character classes consume everything up to the desired character in a single step, requiring zero backtracking. (The dot star solution works just fine, but does require some backtracking.) Of course with short target strings such as passwords, this efficiency improvement will be negligible.

  • Could you please check if is it correct? I'm in doubt because of opening round bracket in first line between triple doublequote and question mark. I can see that Python comment (hash) is later. I cannot see correspondent closing round bracket near end anchor (dollar sign). Should mention I'm not a regex profy. – lospejos Nov 2 '16 at 16:51
  • @lospejos - The # is not the start of a regular one line comment. This hash is part of a comment group which begins with a (?# and ends with a ). There are no unbalanced parens in this regex. – ridgerunner Jun 16 '17 at 15:45
import re


def IsStrongPW(password):
    if == None or == None or == None or == None:
        return False
        return True

while True:
    userpw=input("please input your passord to check: \n")
    if userpw == "exit":

For PHP, this works fine!

    return true;
    return fasle;

in this case the result is true

Thsks for @ridgerunner

Another solution:

import re

passwordRegex = re.compile(r'''(
    ^(?=.*[A-Z].*[A-Z])                # at least two capital letters
    (?=.*[!@#$&*])                     # at least one of these special c-er
    (?=.*[0-9].*[0-9])                 # at least two numeric digits
    (?=.*[a-z].*[a-z].*[a-z])          # at least three lower case letters
    .{8,}                              # at least 8 total digits
    )''', re.VERBOSE)

def userInputPasswordCheck():
    print('Enter a potential password:')
    while True:
        m = input()
        mo = 
        if (not mo):
Your password should have at least one special charachter,
two digits, two uppercase and three lowercase charachter. Length: 8+ ch-ers.

Enter another password:''')          
           print('Password is strong')

Password must meet at least 3 out of the following 4 complexity rules,

[at least 1 uppercase character (A-Z) at least 1 lowercase character (a-z) at least 1 digit (0-9) at least 1 special character — do not forget to treat space as special characters too]

at least 10 characters

at most 128 characters

not more than 2 identical characters in a row (e.g., 111 not allowed)

'^(?!.(.)\1{2}) ((?=.[a-z])(?=.[A-Z])(?=.[0-9])|(?=.[a-z])(?=.[A-Z])(?=.[^a-zA-Z0-9])|(?=.[A-Z])(?=.[0-9])(?=.[^a-zA-Z0-9])|(?=.[a-z])(?=.[0-9])(?=.*[^a-zA-Z0-9])).{10,127}$'







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