I'am converting a module writing in Python to Perl 6. In the module, there is a method called create_key, which use os.urandom for cryptographic use:

def create_key(size):
    return binascii.hexlify(os.urandom(size))[:16]

The doc describes os.urandom as:

Return a string of size random bytes suitable for cryptographic use.

In Perl 6, there is a class called Buf, but there is no random method for it. So how to implement os.urandom(size) using Perl 6?

  • 3
    So I'm probably being really dumb but would (0..255).roll($size) do the trick? You could then populate a Buf from that if you like? – Scimon Jan 2 at 13:15
  • 1
    @Scimon Thanks you. As you suggested, I use (Buf.new: (0..255).roll($size)).unpack("H*").substr(0, 16), perhaps this may work. – chenyf Jan 2 at 13:40
  • 1
    @chenyf please bear in mind that unpack is still experimental. If what you want is simply a set of 16 random hex digits, say flat('A'..'F', 0..9).roll(16) is probably enough. – jjmerelo Jan 2 at 16:00
  • @jjmerelo thank you. I will choose a suitable one. – chenyf Jan 3 at 1:29

You could always just use Python's urandom

sub py-urandom( UInt $size ){
  use Inline::Python;

  state $py = Inline::Python.new; # reuse the same instance
  once $py.import('os');          # load the Python os library only once

  $py.call('os','urandom', $size);

say py-urandom(10)».fmt('%02X').join;  # 1473A7D5455F15D3726B

To get the above to work required installing the python-dev operating system package. Then installing Inline::Python with zef.

You could use binascii.hexlify as well

sub create-key ( UInt $size ) {
  use Inline::Python;

  state $py = Inline::Python.new;
  once $py.import('os');
  once $py.import('binascii');

  $py.call('binascii','hexlify', $py.call('os','urandom',$size)).decode('ascii');

I'm sure there is a better way to do the above, but this is the first time I have used Inline::Python. (Which should be obvious because I had to install python-dev to answer this question)

Another way, which may be better in the long-run is to just call getrandom, getentropy, or CryptGenRandom depending on if it is running on Linux, OpenBSD, or Windows. Basically copy the implementation of os.urandom.

Below is a quickly written example.

sub urandom ( UInt $size ){
  use NativeCall;

  my constant is-win = $*DISTRO.is-win;
  my constant is-openbsd = $*DISTRO.name eq 'openbsd';

  if is-win {
    fail "urandom doesn't handle Windows yet";
    # It is more involved on Windows, and I don't use Windows

  } elsif is-openbsd {
    # note that this is untested as I don't use OpenBSD
    if $size > 256 {
      fail "urandom doesn't handle more than 256 on OpenBSD"
      # note that this could be changed to load it in 256 byte chunks

    sub getentropy( Buf \buf, size_t \buflen --> int32 ) is native {}

    my Buf $buf .= allocate($size);
    my $result = getentropy( $buf, $size );

    fail if $result !== 0;

  } else { # presumably Linux or other UNIX-like

    sub getrandom (Buf \buf, size_t \buflen, uint32 \flags --> ssize_t) is native {}

    my Buf $buf .= allocate($size);
    my $total = getrandom( $buf, $size, 0 );

    fail unless $total == $size; # could be changed to call it for the rest
say urandom(10)».fmt('%02X').join; # 0EF9EDB3EBC724C0E9CE

If you are on a system with /dev/urandom, you could just read from that instead.

sub urandom ( UInt $size ){
  my $urandom will leave {.close}
    = '/dev/urandom'.IO.open(:bin,:ro);
  $urandom.read( $size )

say urandom(10)».fmt('%02X').join; # 01B6C41AD0A77732C328

The best route would be to use a module that already does the above like Crypt::Random.
It implements the code required for Windows that I didn't, but it uses the /dev/urandom file on *NIX systems.

# alias &Crypt::Random::crypt_random_buf as &urandom
my &urandom = do {
  use Crypt::Random;

say urandom(10)».fmt('%02X').join; # 841720513678B1811E2D
  • Thank you, both NativeCall solution and the Crypt::Random module is suitable for me. – chenyf Jan 3 at 1:32

Using the method or sub roll will not give you random bytes suitable for cryptographic use. They just use the built-in pseudorandom number generator that perl6 offers, which is a mersenne twister in the case of rakudo on moarvm.

What you will want instead is a library like for example Crypt::Random, which mimics arc4random and is described to use /dev/urandom on unices and CryptGenRandom on windows. You can find it on github or install it directly with zef install Crypt::Random.

Using the crypt_random_buf sub from that module will give you a buf of the size you want, which you can then turn into a string of hex digits just like in the other answer, with .list.fmt("%x","").

  • Thank you @timotimo. This module works well. – chenyf Jan 3 at 1:34
sub urandom(Int:D \size) { Buf.new: (^256).roll(size) }
say urandom(16);  # Buf:0x<98 43 10 A7 5A FD 62 4B AB 1E 42 6D 24 70 E6 89>

alternately, as string:

say urandom(16).list.fmt("%x","");  # bfa1c6fef9784ba31b17cdb135ce6622

or put that inside of the urandom sub:

sub urandom(Int:D \size) { Buf.new((^256).roll(size)).list.fmt("%x","") }
say urandom(16);  # bfa1c6fef9784ba31b17cdb135ce6622
  • thank you, same as Scimon suggested, works as expected. – chenyf Jan 3 at 1:36

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.