# phpman > perldoc > Crypt::Random::Seed

## NAME
    [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown) - Simple method to get strong randomness

## VERSION
    Version 0.03

## SYNOPSIS
      use [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown);

      my $source = new [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown);
      die "No strong sources exist" unless defined $source;
      my $seed_string = $source->[random_bytes(4)](https://www.chedong.com/phpMan.php/man/randombytes/4/markdown);
      my @seed_values = $source->[random_values(4)](https://www.chedong.com/phpMan.php/man/randomvalues/4/markdown);

      # Only non-blocking sources
      my $nonblocking_source = [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown)->new( NonBlocking=>1 );

      # Blacklist sources (never choose the listed sources)
      my $nowin32_source = [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown)->new( Never=>['Win32'] );

      # Whitelist sources (only choose from these sources)
      my $devr_source = [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown)->new( Only=>['TESHA2'] );

      # Supply a custom source.
      my $user_src = [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown)->new( Source=>sub { myfunc(shift) } );
      # Or supply a list of [name, sub, is_blocking, is_strong]
      $user_src = [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown)->new(
         Source=>['MyRandomFunction',sub {myfunc(shift)},0,1] );

      # Given a source there are a few things we can do:
      say "My randomness source is ", $source->name();
      say "I am a blocking source" if $source->is_blocking();
      say "I am a strong randomness source" if $source->is_strong()
      say "Four 8-bit numbers:",
          join(",", map { ord $source->[random_bytes(1)](https://www.chedong.com/phpMan.php/man/randombytes/1/markdown) } 1..4);'
      say "Four 32-bit numbers:", join(",", $source->[random_values(4)](https://www.chedong.com/phpMan.php/man/randomvalues/4/markdown));

## DESCRIPTION
    A simple mechanism to get strong randomness. The main purpose of this module is to provide a
    simple way to generate a seed for a PRNG such as [Math::Random::ISAAC](https://www.chedong.com/phpMan.php/perldoc/Math%3A%3ARandom%3A%3AISAAC/markdown), for use in cryptographic
    key generation, or as the seed for an upstream module such as [Bytes::Random::Secure](https://www.chedong.com/phpMan.php/perldoc/Bytes%3A%3ARandom%3A%3ASecure/markdown). Flags for
    requiring non-blocking sources are allowed, as well as a very simple method for plugging in a
    source.

    The randomness sources used are, in order:

    User supplied.
        If the constructor is called with a Source defined, then it is used. It is not checked vs.
        other flags (NonBlocking, Never, Only).

    Win32 Crypto API.
        This will use "CryptGenRandom" on Windows 2000 and "RtlGenRand" on Windows XP and newer.
        According to MSDN, these are well-seeded CSPRNGs (FIPS 186-2 or AES-CTR), so will be
        non-blocking.

    EGD / PRNGD.
        This looks for sockets that speak the EGD <<http://egd.sourceforge.net/>> protocol, including
        PRNGD <<http://prngd.sourceforge.net/>>. These are userspace entropy daemons that are commonly
        used by OpenSSL, OpenSSH, and GnuGP. The locations searched are "/var/run/egd-pool",
        "/dev/egd-pool", "/etc/egd-pool", and "/etc/entropy". EGD is blocking, while PRNGD is
        non-blocking (like the Win32 API, it is really a seeded CSPRNG). However there is no way to
        tell them apart, so we treat it as blocking. If your O/S supports /dev/random, consider
        HAVEGED <<http://www.issihosts.com/haveged/>> as an alternative (a system daemon that refills
        /dev/random as needed).

    /dev/random.
        The strong source of randomness on most UNIX-like systems. Cygwin uses this, though it maps
        to the Win32 API. On almost all systems this is a blocking source of randomness -- if it
        runs out of estimated entropy, it will hang until more has come into the system. If this is
        an issue, which it often is on embedded devices, running a tool such as HAVEGED
        <<http://www.issihosts.com/haveged/>> will help immensely.

    /dev/urandom.
        A nonblocking source of randomness that we label as weak, since it will continue providing
        output even if the actual entropy has been exhausted.

    TESHA2.
        [Crypt::Random::TESHA2](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ATESHA2/markdown) is a Perl module that generates random bytes from an entropy pool fed
        with timer/scheduler variations. Measurements and tests are performed on installation to
        determine whether the source is considered strong or weak. This is entirely in portable
        userspace, which is good for ease of use, but really requires user verification that it is
        working as expected if we expect it to be strong. The concept is similar to
        [Math::TrulyRandom](https://www.chedong.com/phpMan.php/perldoc/Math%3A%3ATrulyRandom/markdown) though updated to something closer to what TrueRand 2.1 does vs. the
        obsolete version 1 that [Math::TrulyRandom](https://www.chedong.com/phpMan.php/perldoc/Math%3A%3ATrulyRandom/markdown) implements. It is very slow and has wide speed
        variability across platforms : I've seen numbers ranging from 40 to 150,000 bits per second.

    A source can also be supplied in the constructor. Each of these sources will have its debatable
    points about perceived strength. E.g. Why is /dev/urandom considered weak while Win32 is strong?
    Can any userspace method such as TrueRand or TESHA2 be considered strong?

  SOURCE TABLE
    This table summarizes the default sources:

      +------------------+-------------+------------+--------------------+
      |      SOURCE      |  STRENGTH   |  BLOCKING  |       NOTE         |
      |------------------+-------------+------------+--------------------|
      | RtlGenRandom     |   [Strong(1)](https://www.chedong.com/phpMan.php/man/Strong/1/markdown) |     No     | Default WinXP+     |
      |------------------+-------------+------------+--------------------|
      | CryptGenRandom   |   [Strong(1)](https://www.chedong.com/phpMan.php/man/Strong/1/markdown) |     No     | Default Win2000    |
      |------------------+-------------+------------+--------------------|
      | EGD              |   Strong    |    [Yes(2)](https://www.chedong.com/phpMan.php/man/Yes/2/markdown)  | also PRNGD, etc.   |
      |------------------+-------------+------------+--------------------|
      | /dev/random      |   Strong    |    Yes     | Typical UNIX       |
      |------------------+-------------+------------+--------------------|
      | /dev/urandom     |    Weak     |     No     | Typical UNIX NB    |
      |------------------+-------------+------------+--------------------|
      | TESHA2-strong    |   Strong    |     No     |                    |
      |------------------+-------------+------------+--------------------|
      | TESHA2-weak      |    Weak     |     No     |                    |
      +------------------+-------------+------------+--------------------+

    The alias 'Win32' can be used in whitelist and blacklist and will match both the Win32 sources
    "RtlGenRandom" and "CryptGenRandom". The alias 'TESHA2' may be similarly used and matches both
    the weak and strong sources.

      1) Both CryptGenRandom and RtlGenRandom are considered strong by this
         package, even though both are seeded CSPRNGs so should be the equal of
         /dev/urandom in this respect.  The CryptGenRandom function used in
         Windows 2000 has some known issues so should be considered weaker.

      2) EGD is blocking, PRNGD is not.  We cannot tell the two apart.  There are
         other software products that use the same protocol, and each will act
         differently.  E.g. EGD mixes in system entropy on every request, while
         PRNGD mixes on a time schedule.

  STRENGTH
    In theory, a strong generator will provide true entropy. Even if a third party knew a previous
    result and the entire state of the generator at any time up to when their value was returned,
    they could still not effectively predict the result of the next returned value. This implies the
    generator must either be blocking to wait for entropy (e.g. /dev/random) or go through some
    possibly time-consuming process to gather it (TESHA2, EGD, the HAVEGE daemon refilling
    /dev/random). Note: strong in this context means practically strong, as most computers don't
    have a true hardware entropy generator. The goal is to make all the attackers ill-gotten
    knowledge give them no better solution than if they did not have the information.

    Creating a satisfactory strength measurement is problematic. The Win32 Crypto API is considered
    "strong" by most customers and every other Perl module, however it is a well seeded CSPRNG
    according to the MSDN docs, so is not a strong source based on the definition in the previous
    paragraph. Similarly, almost all sources consider /dev/urandom to be weak, as once it runs out
    of entropy it returns a deterministic function based on its state (albeit one that cannot be run
    either direction from a returned result if the internal state is not known).

    Because of this confusion, I have removed the "Weak" configuration option that was present in
    version 0.01. It will now be ignored. You should be able to use a combination of whitelist,
    blacklist, and the source's "is_strong" return value to decide if this meets your needs. On
    Win32, you really only have a choice of Win32 and TESHA2. The former is going to be what most
    people want, and can be chosen even with non-blocking set. On most UNIX systems, "/dev/random"
    will be chosen for blocking and "/dev/urandom" for non-blocking, which is what should be done in
    most cases.

  BLOCKING
    EGD and /dev/random are blocking sources. This means that if they run out of estimated entropy,
    they will pause until they've collected more. This means your program also pauses. On typical
    workstations this may be a few seconds or even minutes. On an isolated network server this may
    cause a delay of hours or days. EGD is proactive about gathering more entropy as fast as it can.
    Running a tool such as the HAVEGE daemon or timer_entropyd can make /dev/random act like a
    non-blocking source, as the entropy daemon will wake up and refill the pool almost instantly.

    Win32, PRNGD, and /dev/urandom are fast nonblocking sources. When they run out of entropy, they
    use a CSPRNG to keep supplying data at high speed. However this means that there is no
    additional entropy being supplied.

    TESHA2 is nonblocking, but can be very slow. /dev/random can be faster if run on a machine with
    lots of activity. On an isolated server, TESHA2 may be much faster. Also note that the blocking
    sources such as EGD and /dev/random both try to maintain reasonably large entropy pools, so
    small requests can be supplied without blocking.

  IN PRACTICE
    Use the default to get the best source known. If you know more about the sources available, you
    can use a whitelist, blacklist, or a custom source. In general, to get the best source
    (typically Win32 or /dev/random):

      my $source = [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown)->new();

    To get a good non-blocking source (Win32 or /dev/urandom):

      my $source = [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown)->new(NonBlocking => 1);

## METHODS
  new
    The constructor with no arguments will find the first available source in its fixed list and
    return an object that performs the defined methods. If no sources could be found (quite unusual)
    then the returned value will be undef.

    Optional parameters are passed in as a hash and may be mixed.

   NonBlocking => *boolean*
    Only non-blocking sources will be allowed. In practice this means EGD and /dev/random will not
    be chosen (except on FreeBSD where it is non-blocking).

   Only => [*list of strings*]
    Takes an array reference containing one or more string source names. No source whose name does
    not match one of these strings will be chosen. The string 'Win32' will match either of the Win32
    sources, and 'TESHA2' will match both the strong and weak versions.

   Never => [*list of strings*]
    Takes an array reference containing one or more string source names. No source whose name
    matches one of these strings will be chosen. The string 'Win32' will match either of the Win32
    sources, and 'TESHA2' will match both the strong and weak versions.

   Source => sub { *...* }
    Uses the given anonymous subroutine as the generator. The subroutine will be given an integer
    (the argument to "random_bytes") and should return random data in a string of the given length.
    For the purposes of the other object methods, the returned object will have the name 'User', and
    be considered non-blocking and non-strong.

   Source => ['*name*', sub { *...* }, *is_blocking*, *is_strong*]
    Similar to the simpler source routine, but also allows the other source parameters to be
    defined. The name may not be one of the standard names listed in the "name" section.

  random_bytes($n)
    Takes an integer and returns a string of that size filled with random data. Returns an empty
    string if the argument is not defined or is not more than zero.

  random_values($n)
    Takes an integer and returns an array of that many random 32-bit values. Returns an empty array
    if the argument is not defined or is not more than zero.

  name
    Returns the text name of the random source. This will be one of: "User" for user defined,
    "CryptGenRandom" for Windows 2000 Crypto API, "RtlGenRand" for Windows XP and newer Crypto API,
    "EGD" for a known socket speaking the EGD protocol, "/dev/random" for the UNIX-like strong
    randomness source, "/dev/urandom" for the UNIX-like non-blocking randomness source,
    "TESHA2-strong" for the userspace entropy method when considered strong, "TESHA2-weak" for the
    userspace entropy method when considered weak. Other methods may be supported in the future.
    User supplied sources may be named anything other than one of the defined names.

  is_strong
    Returns 1 or 0 indicating whether the source is considered a strong source of randomness. See
    the "STRENGTH" section for more discussion of what this means, and the source table for what we
    think of each source.

  is_blocking
    Returns 1 or 0 indicating whether the source can block on read. Be aware that even if a source
    doesn't block, it may be extremely slow.

## AUTHORS
    Dana Jacobsen <<dana@acm.org>>

## ACKNOWLEDGEMENTS
    To the best of my knowledge, Max Kanat-Alexander was the original author of the Perl code that
    uses the Win32 API. I used his code as a reference.

    David Oswald gave me a lot of help with API discussions and code reviews.

## SEE ALSO
    The first question one may ask is "Why yet another module of this type?" None of the modules on
    CPAN quite fit my needs, hence this. Some alternatives:

### [Crypt::Random::Source](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASource/markdown)
    A comprehensive system using multiple plugins. It has a nice API, but uses [Any::Moose](https://www.chedong.com/phpMan.php/perldoc/Any%3A%3AMoose/markdown) which
    means you're loading up Moose or Mouse just to read a few bytes from /dev/random. It also has a
    very long dependency chain, with on the order of 40 modules being installed as prerequisites
    (depending of course on whether you use any of them on other projects). Lastly, it requires at
    least Perl 5.8, which may or may not matter to you. But it matters to some other module builders
    who end up with the restriction in their modules.

### [Crypt::URandom](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3AURandom/markdown)
    A great little module that is almost what I was looking for. [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown) will act the
    same if given the constructor:

      my $source = [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown)->new(
         NonBlocking => 1,
         Only => [qw(/dev/random /dev/urandom Win32)]
      );
      croak "No randomness source available" unless defined $source;

    Or you can leave out the "Only" and have TESHA2 as a backup.

### [Crypt::Random](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom/markdown)
    Requires [Math::Pari](https://www.chedong.com/phpMan.php/perldoc/Math%3A%3APari/markdown) which makes it unacceptable in some environments. Has more features (numbers
    in arbitrary bigint intervals or bit sizes). [Crypt::Random::Seed](https://www.chedong.com/phpMan.php/perldoc/Crypt%3A%3ARandom%3A%3ASeed/markdown) is taking a simpler approach,
    just handling returning octets and letting upstream modules handle the rest.

### [Data::Entropy](https://www.chedong.com/phpMan.php/perldoc/Data%3A%3AEntropy/markdown)
    An interesting module that contains a source encapsulation (defaults to system rand, but has
    many plugins), a good CSPRNG (AES in counter mode), and the [Data::Entropy::Algorithms](https://www.chedong.com/phpMan.php/perldoc/Data%3A%3AEntropy%3A%3AAlgorithms/markdown) module
    with many ways to get bits, ints, bigints, floats, bigfloats, shuffles, and so forth. From my
    perspective, the algorithms module is the highlight, with a lot of interesting code.

### Upstream modules
    Some modules that could use this module to help them: [Bytes::Random::Secure](https://www.chedong.com/phpMan.php/perldoc/Bytes%3A%3ARandom%3A%3ASecure/markdown),
    [Math::Random::ISAAC](https://www.chedong.com/phpMan.php/perldoc/Math%3A%3ARandom%3A%3AISAAC/markdown), [Math::Random::Secure](https://www.chedong.com/phpMan.php/perldoc/Math%3A%3ARandom%3A%3ASecure/markdown), and [Math::Random::MT](https://www.chedong.com/phpMan.php/perldoc/Math%3A%3ARandom%3A%3AMT/markdown) to name a few.

## COPYRIGHT
    Copyright 2013 by Dana Jacobsen <<dana@acm.org>>

    This program is free software; you can redistribute it and/or modify it under the same terms as
    Perl itself.

    The software is provided "AS IS", without warranty of any kind, express or implied, including
    but not limited to the warranties of merchantability, fitness for a particular purpose and
    noninfringement. In no event shall the authors or copyright holders be liable for any claim,
    damages or other liability, whether in an action of contract, tort or otherwise, arising from,
    out of or in connection with the software or the use or other dealings in the software.