2

I have created a little password generation script. I'm curious to what improvements can be made for it except input error handling, usage information etc. It's the core functionality I'm interested in seeing improvements upon.

This is what it does (and what I like it to do):

  1. Keep it easy to change which Lowercase characters (L), Uppercase characters (U), Numbers (N) and Symbols (S) that are used in passwords.
  2. I'd like it to find a new password of legnth 10 for me in max two seconds.
  3. It should take a variable length of the password string as an argument.
  4. Only a password containing at least one L, U, N and S should be accepted.

Here is the code:

#!/bin/bash

PASSWORDLENGTH=$1
RNDSOURCE=/dev/urandom
L="acdefghjkmnpqrtuvwxy"
U="ABDEFGHJLQRTY"
N="012345679"
S="\-/\\)?=+.%#"

until [ $(echo $password | grep [$L] | grep [$U] | grep [$N] | grep -c [$S] ) == 1 ]; do
    password=$(cat $RNDSOURCE | tr -cd "$L$U$N$S" | head -c $PASSWORDLENGTH)
    echo In progress: $password # It's simply for debug purposes, ignore it
done
echo Final password: $password

My questions are:

  • Is there a nicer way of checking if the password is acceptable than the way I'm doing it?
  • What about the actual password generation?
  • Any coding style improvements? (The short variable names are temporary. Though I'm using uppercase names for "constants" [I know there formally are none] and lowercase for variables. Do you like it?)

Let's vote on the most improved version. :-)

For me it was just an exercise mostly for fun and as a learning experience, albeit I will start using it instead of the generation from KeepassX which I'm using now. It will be interesting to see which improvements and suggestions will come from more experienced Bashistas (I made that word up).


I created a little basic script to measure performance: (In case someone thinks it's fun)

#!/bin/bash

SAMPLES=100
SCALE=3

echo -e "PL\tMax\tMin\tAvg"
for p in $(seq 4 50); do
    bcstr=""; max=-98765; min=98765
    for s in $(seq 1 $SAMPLES); do
        gt=$(\time -f %e ./genpassw.sh $p 2>&1 1>/dev/null)
        bcstr="$gt + $bcstr"
        max=$(echo "if($max < $gt ) $gt else $max" | bc)
        min=$(echo "if($min > $gt ) $gt else $min" | bc)
    done
    bcstr="scale=$SCALE;($bcstr 0)/$SAMPLES"
    avg=$(echo $bcstr | bc)
    echo -e "$p\t$max\t$min\t$avg"
done
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  • 1
    Check secpwgen (or maybe pwgen), it's already doing this :) Sep 23, 2009 at 15:35
  • I will check out all suggestions and I appreciate them! However I do have specific requirements on the characters to be used (I've written them on paper and removed the ones who are too similar to avoid confusion). The question is more about the coding exercise than solving it using "any possible way", I'd like a Bash solution which works with as few dependencies as possible on non-standard applications (which might not be installed).
    – user14070
    Sep 23, 2009 at 15:54
  • Hey, what's your hostname? ;) Sep 23, 2009 at 23:14
  • Yes, because the password generator is flawed? Point out an error in it and I'll send you a personal thank you card by snail mail. :-)
    – user14070
    Sep 24, 2009 at 18:34
  • 2>&1 1>/dev/null -- I may be wrong, but I think this is backwards. You want to first alter fd1 and then dup fd2 to match.
    – bstpierre
    Sep 25, 2009 at 1:51

3 Answers 3

0

You're throwing away a bunch of randomness in your input stream. Keep those bytes around and translate them into your character set. Replace the password=... statement in your loop with the following:

ALL="$L$U$N$S"
password=$(tr "\000-\377" "$ALL$ALL$ALL$ALL$ALL" < $RNDSOURCE | head -c $PASSWORDLENGTH)

The repetition of $ALL is to ensure that there are >=255 characters in the "map to" set.

I also removed the gratuitous use of cat.

(Edited to clarify that what appears above is not intended to replace the full script, just the inner loop.)

Edit: Here's a much faster strategy that doesn't call out to external programs:

#!/bin/bash

PASSWORDLENGTH=$1
RNDSOURCE=/dev/urandom
L="acdefghjkmnpqrtuvwxy"
U="ABDEFGHJLQRTY"
N="012345679"
# (Use this with tr.)
#S='\-/\\)?=+.%#'
# (Use this for bash.)
S='-/\)?=+.%#'

ALL="$L$U$N$S"

# This function echoes a random index into it's argument.
function rndindex() { echo $(($RANDOM % ${#1})); }

# Make sure the password contains at least one of each class.
password="${L:$(rndindex $L):1}${U:$(rndindex $U):1}${N:$(rndindex $N):1}${S:$(rndindex $S):1}"

# Add random other characters to the password until it is the desired length.
while [[ ${#password} -lt $PASSWORDLENGTH ]]
do
  password=$password${ALL:$(rndindex $ALL):1}
done

# Now shuffle it.
chars=$password
password=""
while [[ ${#password} -lt $PASSWORDLENGTH ]]
do
  n=$(rndindex $chars)
  ch=${chars:$n:1}
  password="$password$ch"
  if [[ $n == $(( ${#chars} - 1 )) ]]; then
      chars="${chars:0:$n}"
  elif [[ $n == 0 ]]; then
      chars="${chars:1}"
  else
      chars="${chars:0:$n}${chars:$((n+1))}"
  fi
done
echo $password

Timing tests show this runs 5-20x faster than the original script, and the time is more predictable from one run to the next.

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  • 1
    While it's highly likely that at least one character from each group will be represented, it's not guaranteed using your method. Sep 23, 2009 at 22:12
  • My intent was simply to replace the inner part of the loop. Sorry that wasn't clear. I believe the grep in the until clause will guarantee all classes are represented.
    – bstpierre
    Sep 23, 2009 at 23:07
  • At length 45 and above (not practical in real life) my script seems faster than yours. I guess it's the break even point for all those calls to external programs. I found it a bit interesting. :-) Apart from that your timing tests seem accurate. I like how you're not using any external programs. I'll have another go at this soon and learn from your way of doing it! Thanks for your reply!
    – user14070
    Sep 25, 2009 at 0:56
  • @bstpierre: Your script should run in linear time proportional to $PASSWORDLENGTH or O(n) and is thus predictable and consistent. @Kent: Your script runs in time proportional to the reciprocal of $PASSWORDLENGTH (the probability that a search for the inclusion of required characters succeeds improves as the length increases). However, it is possible that even for a long password many passes might need to be run, so the time is not predictable. I'm not sure what the O notation would be for this. The break even point is more related to the probability and less so to the external calls. Sep 25, 2009 at 16:38
  • @Dennis: Yes my brute force way is slow due to probability for passwords of around length <10. After that however it's still slow, but at this point there aren't many loops as the passwords are acceptable to begin with (see pastebin.com/f41083780 for some test data). At this point I would argue it's due to the external calls. And that's what I meant at approximately length 45, where my way is faster in practice (but as I pointed out, such long passwords are of no practical value [for me]). Sorry for not being clear in my comment above. :-)
    – user14070
    Sep 27, 2009 at 2:23
0

you could just use uuidgen or pwgen to generate your random passwords, maybe later shuffling some letters around or something of the sort

3
  • Maybe, but it doesn't use the exact symbols I used in my own script which is a must for me (as I took half an hour to come up with them).
    – user14070
    Sep 23, 2009 at 15:55
  • there is also an application called pwgen that generates passwords randomly
    – dsm
    Sep 23, 2009 at 15:58
  • I might look into that too. Primarly I'm looking for comments on if this script could have been written in a more elegant or efficient way. Using a third party application could be a good thing, but I actually think my script is as secure as anything pwgen etc comes up with.
    – user14070
    Sep 23, 2009 at 19:19
0

secpwgen is very good (it can also generate easier to remember diceware passwords) - but has almost disappeared from the net. I managed to track down a copy of the 1.3 source & put it on github.

It is also now part of Alpine Linux.

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