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How to generate a random number in bash?

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5  
How random does it need to be? –  bdonlan Jul 28 '09 at 16:03

10 Answers 10

Yes, $RANDOM. It's often useful in combination with simple shell arithmetic. For instance, to generate a random number between 1 and 10:

$ echo $[ 1 + $[ RANDOM % 10 ]]
5

The actual generator is in variables.c, the function brand(). Older versions were a simple linear generator. Version 4.0 of bash uses a generator with a citation to a 1985 paper, which presumably means it's a decent source of pseudorandom numbers. I wouldn't use it for a simulation (and certainly not for crypto), but it's probably adequate for basic scripting tasks.

If you're doing something that requires serious random numbers you can use /dev/random or /dev/urandom if they're available. Ie:

$ dd if=/dev/urandom count=4 bs=1 | od -t d
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3  
Be careful here. While this is fine in a pinch, doing arithmetic on random numbers can dramatically affect the randomness of your result. in the case of $RANDOM % 10, 8 and 9 are measurably (though marginally) less probable than 0-7, even if $RANDOM is a robust source of random data. –  dimo414 Feb 22 '14 at 22:51
    
@dimo414 I'm curious to "marginally", do you have a source where I can find out more about this? –  PascalvKooten May 26 '14 at 6:27
5  
By moduloing your random input, you are "pigeon-holing" the results. Since $RANDOM's range is 0-32767 the numbers 0-7 map to 3277 different possible inputs, but 8 and 9 can only be produced 3276 different ways (because 32768 and 32769 aren't possible). This is a minor issue for quick hacks, but means the result is not uniformly random. Random libraries, like Java's Random, offer functions to properly return a uniform random number in the given range, rather than simply mod-ing a non-divisible number. –  dimo414 May 26 '14 at 16:07
    
@dimo414: depending on PRNG, applying % n may be even worse. Look at the last picture in Test PRNG using gray bitmap. It shows the obvious skew –  J.F. Sebastian Sep 24 '14 at 7:29
    
@J.F.Sebastian very true - the problem with modulo is it can break the uniformity of any RNG, not just bad PRNGs, but thanks for calling this out. –  dimo414 Sep 24 '14 at 13:41

Please see $RANDOM:

$RANDOM is an internal Bash function (not a constant) that returns a pseudorandom integer in the range 0 - 32767. It should not be used to generate an encryption key.

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Try this from your shell:

$ od -A n -t d -N 1 /dev/urandom

Here, -t d specifies that the output format should be signed decimal; -N 1 says to read one byte from /dev/urandom.

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you can also get random number from awk

awk 'BEGIN {
   # seed
   srand()
   for (i=1;i<=1000;i++){
     print int(1 + rand() * 100)
   }
}'
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+1 you know, at first I though why would you ever want to do it like this, but actually I quite like it. –  zelanix Jan 29 '14 at 2:34

If you are using a linux system you can get a random number out of /dev/random or /dev/urandom. Be carefull /dev/random will block if there are not enough random numbers available. If you need speed over randomness use /dev/urandom.

These "files" will be filled with random numbers generated by the operating system. It depends on the implementation of /dev/random on your system if you get true or pseudo random numbers. True random numbers are generated with help form noise gathered from device drivers like mouse, hard drive, network.

You can get random numbers from the file with dd

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There is $RANDOM. I don't know exactly how it works. But it works. For testing, you can do :

echo $RANDOM
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I have taken a few of these ideas and made a function that should perform quickly if lots of random numbers are required.

calling od is expensive if you need lots of random numbers. Instead I call it once and store 1024 random numbers from /dev/urandom. When rand is called, the last random number is returned and scaled. It is then removed from cache. When cache is empty, another 1024 random numbers is read.

Example:

rand 10; echo $RET

Returns a random number in RET between 0 and 9 inclusive.

declare -ia RANDCACHE
declare -i RET RAWRAND=$(( (1<<32)-1 ))

function rand(){  # pick a random number from 0 to N-1. Max N is 2^32
  local -i N=$1
  [[ ${#RANDCACHE[*]} -eq 0 ]] && { RANDCACHE=( $(od -An -tu4 -N1024 /dev/urandom) ); }  # refill cache
  RET=$(( (RANDCACHE[-1]*N+1)/RAWRAND ))  # pull last random number and scale
  unset RANDCACHE[${#RANDCACHE[*]}-1]     # pop read random number
};

# test by generating a lot of random numbers, then effectively place them in bins and count how many are in each bin.

declare -i c; declare -ia BIN

for (( c=0; c<100000; c++ )); do
  rand 10
  BIN[RET]+=1  # add to bin to check distribution
done

for (( c=0; c<10; c++ )); do
  printf "%d %d\n" $c ${BIN[c]} 
done

UPDATE: That does not work so well for all N. It also wastes random bits if used with small N. Noting that (in this case) a 32 bit random number has enough entropy for 9 random numbers between 0 and 9 (10*9=1,000,000,000 <= 2*32) we can extract multiple random numbers from each 32 random source value.

#!/bin/bash

declare -ia RCACHE

declare -i RET             # return value
declare -i ENT=2           # keep track of unused entropy as 2^(entropy)
declare -i RND=RANDOM%ENT  # a store for unused entropy - start with 1 bit

declare -i BYTES=4         # size of unsigned random bytes returned by od
declare -i BITS=8*BYTES    # size of random data returned by od in bits
declare -i CACHE=16        # number of random numbers to cache
declare -i MAX=2**BITS     # quantum of entropy per cached random number
declare -i c

function rand(){  # pick a random number from 0 to 2^BITS-1
  [[ ${#RCACHE[*]} -eq 0 ]] && { RCACHE=( $(od -An -tu$BYTES -N$CACHE /dev/urandom) ); }  # refill cache - could use /dev/random if CACHE is small
  RET=${RCACHE[-1]}              # pull last random number and scale
  unset RCACHE[${#RCACHE[*]}-1]  # pop read random number
};

function randBetween(){
  local -i N=$1
  [[ ENT -lt N ]] && {  # not enough entropy to supply ln(N)/ln(2) bits
    rand; RND=RET       # get more random bits
    ENT=MAX             # reset entropy
  }
  RET=RND%N  # random number to return
  RND=RND/N  # remaining randomness
  ENT=ENT/N  # remaining entropy
};

declare -ia BIN

for (( c=0; c<100000; c++ )); do
  randBetween 10
  BIN[RET]+=1
done

for c in ${BIN[*]}; do
  echo $c
done
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I tried this - it took 10 seconds of 100% cpu and then printed 10 numbers that didn't look random at ALL. –  Carlo Wood Nov 18 '14 at 18:13
    
I remember now. This code generates 100,000 random numbers. It puts each in a 'bin' to look at how random it is. There are 10 bins. These numbers should be similar if each random number between 0 and 9 is equally likely. If you want to print each number, echo $RET after randBetween 10. –  philcolbourn Nov 20 '14 at 13:07

Generate random number in the range of 0 to n (signed 16-bit integer). Result set in $RAND variable. For example:

#!/bin/bash

random()
{
    local range=${1:-1}

    RAND=`od -t uI -N 4 /dev/urandom | awk '{print $2}'`
    let "RAND=$RAND%($range+1)"
}

n=10
while [ $(( n -=1 )) -ge "0" ]; do
    random 500
    echo "$RAND"
done
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Random number between 0 and 9 inclusive.

echo $((RANDOM%10))
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This has a very bad distribution. Do not use. Use $((RANDOM%10)) instead for a much better distribution. –  gniourf_gniourf Dec 6 '13 at 18:52
1  
My bad, didn't read the man page properly. $RANDOM only goes from 0 to 32767. It should have said "Random number mostly between 1 and 3, with a few wingers" ;) –  David Newcomb Dec 7 '13 at 14:00

What about:

perl -e 'print int rand 10, "\n"; '
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