I'dl like to generate some alphanumeric passwords in python. Some possible ways are:

import string
from random import sample, choice
chars = string.letters + string.digits
length = 8
''.join(sample(chars,length)) # way 1
''.join([choice(chars) for i in range(length)]) # way 2

But I don't like both because:

  • way 1 only unique chars selected and you can't generate passwords where length > len(chars)
  • way 2 we have i variable unused and I can't find good way how to avoid that

So, any other good options?

P.S. So here we are with some testing with timeit for 100000 iterations:

''.join(sample(chars,length)) # way 1; 2.5 seconds
''.join([choice(chars) for i in range(length)]) # way 2; 1.8 seconds (optimizer helps?)
''.join(choice(chars) for _ in range(length)) # way 3; 1.8 seconds
''.join(choice(chars) for _ in xrange(length)) # way 4; 1.73 seconds
''.join(map(lambda x: random.choice(chars), range(length))) # way 5; 2.27 seconds

So, the winner is ''.join(choice(chars) for _ in xrange(length)).

  • There's nothing really wrong with the second option. Is it too slow? Do you need it to be faster? Are you running out of memory? – DisplacedAussie Oct 4 '10 at 11:25
  • don't use list comprehension for the 2nd option. use generator expression. – SilentGhost Oct 4 '10 at 11:27
  • 3
    use _ instead. – SilentGhost Oct 4 '10 at 11:29
  • 1
    @SilengGhost: Nice trick with _ If you make it as answer I'll accept it. – HardQuestions Oct 4 '10 at 11:30
  • 14
    Just quick FYI, the draft PEP 0506 -- Adding A Secrets Module To The Standard Library just came out and it specifically links to this question and an answer. – livibetter Sep 20 '15 at 1:07

Python 3.6 onwards

You should use the secrets module to generate cryptographically safe passwords, which is available starting in Python 3.6. Adapted from the documentation:

import secrets
import string
alphabet = string.ascii_letters + string.digits
password = ''.join(secrets.choice(alphabet) for i in range(20)) # for a 20-character password
  • There is an example on the Python website for creating passwords using this method with password requirements such as number of digits: docs.python.org/3/library/… – Farhan.K Nov 7 '18 at 16:01

For the crypto-PRNG folks out there:

def generate_temp_password(length):
    if not isinstance(length, int) or length < 8:
        raise ValueError("temp password must have positive length")

    from os import urandom
    return "".join(chars[ord(c) % len(chars)] for c in urandom(length))

Note that for an even distribution, the chars string length ought to be an integral divisor of 128; otherwise, you'll need a different way to choose uniformly from the space.

  • 1
    You can eliminate the list in the last line via a generator expression: return "".join(chars[ord(c) % len(chars)] for c in urandom(length)) – Greg Glockner Mar 4 '15 at 20:38
  • 1
    This is the best answer, but you should clearify the answer so that anyone finding this via Google understands why it's the best one. – Emil Stenström Sep 29 '15 at 17:42
  • crypto-PRNG stands for "cryptograhically-secure Pseudorandom number generator". This answer is one of the best because it generates secure passwords. The default pseudorandom number generator in the random module is not secure. – Josiah Yoder Sep 15 '17 at 16:16
  • FWIW, after years of service, this code generated an obscene password. here is another post about the perils of alphanumeric password/id generation: softwareengineering.stackexchange.com/q/143405/32537 – Ben Mosher Aug 30 '18 at 12:01

WARNING this answer should be ignored due to critical security issues!

Option #2 seems quite reasonable except you could add a couple of improvements:

''.join(choice(chars) for _ in range(length))          # in py2k use xrange

_ is a conventional "I don't care what is in there" variable. And you don't need list comprehension there, generator expression works just fine for str.join. It is also not clear what "slow" means, if it is the only correct way.

  • 1
    With xrange in python 2.6 it's 5% faster than with range – HardQuestions Oct 4 '10 at 12:06
  • 39
    You should use secure random number generators for password generation or your passwords may be easily compromised. The default python RNG is not a secure one. "Python uses the Mersenne Twister as the core generator. ... The Mersenne Twister ... is completely unsuitable for cryptographic purposes." -docs.python.org/library/random.html – Fasaxc Jul 16 '12 at 17:56
  • 3
    I would like to backup Fasaxc on this. Please look at @livibetter's comment, use the secrets module from PEP0506. As livibetter stated, this article is referenced as a bad example. I know this is an old question that I am commenting on, but it's still one of the top search results. I'd recommend someone change the accepted answer to gerrit's. – Scott Greenup Aug 30 '17 at 1:37

I think this'll do the trick. random.SystemRandom uses the same underlying crypto random function as os.urandom but it uses the familiar random interface. This function won't be subject to the weird 128 byte thing as in Ben's answer.

import random
import string

def gen_random_string(char_set, length):
    if not hasattr(gen_random_string, "rng"):
        gen_random_string.rng = random.SystemRandom() # Create a static variable
    return ''.join([ gen_random_string.rng.choice(char_set) for _ in xrange(length) ])

password_charset = string.ascii_letters + string.digits
gen_random_string(password_charset, 32)
  • Why would you want to set rng as an attribute? – Eli Korvigo Jan 4 '18 at 8:20
  • This is so you don't have to initialize random.SystemRandom() each time. – Tim Ludwinski Jan 4 '18 at 17:12

I suggest the following for those stuck on python <3.6:

import os, math, string, struct

def generate_password(pass_len):
    symbols = string.printable.strip()
    return ''.join([symbols[x * len(symbols) / 256] for x in struct.unpack('%dB' % (pass_len,), os.urandom(pass_len))])

This has the advantage over Ben Mosher's solution that the each symbol from symbols has an equal change of occurring whereas using modulus slightly favors the first symbols in the alpabet. The alphabet of symbols is also larger in this suggestion.

  • throws errors like invalid literal for int() with base 10: '\xba' -- so need some fault tolerance added – Alvin Jun 14 '18 at 22:42
  • 1
    Huh, I can't really understand how I missed that. Updated answer with fixed code (added struct.unpack()) and also cleaned up index calculation. – gardarh Jun 16 '18 at 20:52

I wrote a script with my preferences, which mostly are concerned with avoiding mistakes when transcribing and remembering. (For example: remove somewhat ambiguous and no repeated characters.)

import optparse
import os
import random
import sys

DEFAULT_CHARS = "234679ADEFGHJKLMNPRTUWabdefghijkmnpqrstuwy"

def choices(options, length, choice=random.choice):
  return (choice(options) for _ in xrange(length))

def choices_non_repeated(options, length, choice=random.choice):
  assert len(options) > 1
  last = choice(options)
  count = 0
  while count < length:
    yield last
    count += 1

    while True:
      value = choice(options)
      if value != last:
        last = value

def main(args):
  op = optparse.OptionParser(add_help_option=False)
  op.add_option("--help", action="help",
    help="show help message and exit")
  op.add_option("-b", "--bare", action="store_true", default=False,
    help="print passwords without trailing newline")
  op.add_option("-c", "--chars", metavar="SET", nargs=1, default=DEFAULT_CHARS,
    help="character set to use (default: %default)")
  op.add_option("--repeat", action="store_true", default=False,
    help="allow repetition")
  op.add_option("-l", "--len", dest="max", nargs=1, type="int", default=DEFAULT_LEN,
    help="max length (default: %default)")
  op.add_option("--min", nargs=1, type="int", default=None,
    help="min length (defaults to max)")
  op.add_option("-n", "--count", nargs=1, type="int", default=None,
    help="number of passwords to generate (default: %default)")
  op.add_option("--cols", type="int", default=None,
    help="number of columns to use")
  opts, args = op.parse_args(args)
  if args:
    op.error("unknown arguments")

  if os.isatty(sys.stdin.fileno()) and (
    opts.count is None and opts.cols is None
    and not opts.bare
    opts.cols = 80 // (opts.max + 1)
    opts.count = opts.cols * 25
    if opts.count is None:
      opts.count = 1
    if opts.cols is None:
      opts.cols = 1

  if opts.bare and opts.cols != 1:
    op.error("bare output requires --cols=1")

  if opts.min == None:
    opts.min = opts.max

  if any(x < 1 for x in [opts.cols, opts.count, opts.min, opts.max]):
    op.error("values must be >= 1")

  choices_func = choices_non_repeated
  if opts.repeat:
    choices_func = choices
  elif len(set(opts.chars)) < 2:
    op.error("must allow repetition or provide a longer character set")
    return "op.error shouldn't return"

  col = 0
  for _ in xrange(opts.count):
    length = random.randint(opts.min, opts.max)
    password = "".join(choices_func(opts.chars, length))
    if not opts.bare:
      col += 1
      if col == opts.cols:
        col = 0
        sys.stdout.write(" ")

if __name__ == "__main__":

You may want to use map instead of list comprehensions:

''.join(map(lambda x: random.choice(chars), range(length)))
  • this is slow indeed. – SilentGhost Oct 4 '10 at 11:34
  • 1
    @SilentGhost: 8 microseconds on my PC. – RichieHindle Oct 4 '10 at 11:36
  • @Richie: compared to how many for generator expression? – SilentGhost Oct 4 '10 at 11:42
  • 3
    @SilentGhost: My point is that the ability to generate a hundred million passwords in one second is not "slow indeed". It's fast enough - time to move on to solving a real problem. :-) – RichieHindle Oct 4 '10 at 11:52
  • 10% faster than way 1; 20% slower than way 2 – HardQuestions Oct 4 '10 at 11:52

Your Answer

By clicking "Post Your Answer", you agree to our terms of service, privacy policy and cookie policy

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