boost/nondet_random.hpp
/* boost nondet_random.hpp header file * * Copyright Jens Maurer 2000 * Distributed under the Boost Software License, Version 1.0. (See * accompanying file LICENSE_1_0.txt or copy at * http://www.boost.org/LICENSE_1_0.txt) * * $Id: nondet_random.hpp 62347 2010-05-31 16:44:36Z steven_watanabe $ * * Revision history * 2000-02-18 Portability fixes (thanks to Beman Dawes) */ // See http://www.boost.org/libs/random for documentation. #ifndef BOOST_NONDET_RANDOM_HPP #define BOOST_NONDET_RANDOM_HPP #include <string> // std::abs #include <algorithm> // std::min #include <boost/config/no_tr1/cmath.hpp> #include <boost/config.hpp> #include <boost/utility.hpp> // noncopyable #include <boost/integer_traits.hpp> // compile-time integral limits #include <boost/random/detail/auto_link.hpp> namespace boost { /** * Class \random_device models a \nondeterministic_random_number_generator. * It uses one or more implementation-defined stochastic processes to * generate a sequence of uniformly distributed non-deterministic random * numbers. For those environments where a non-deterministic random number * generator is not available, class random_device must not be implemented. See * * @blockquote * "Randomness Recommendations for Security", D. Eastlake, S. Crocker, * J. Schiller, Network Working Group, RFC 1750, December 1994 * @endblockquote * * for further discussions. * * @xmlnote * Some operating systems abstract the computer hardware enough * to make it difficult to non-intrusively monitor stochastic processes. * However, several do provide a special device for exactly this purpose. * It seems to be impossible to emulate the functionality using Standard * C++ only, so users should be aware that this class may not be available * on all platforms. * @endxmlnote * * <b>Implementation Note for Linux</b> * * On the Linux operating system, token is interpreted as a filesystem * path. It is assumed that this path denotes an operating system * pseudo-device which generates a stream of non-deterministic random * numbers. The pseudo-device should never signal an error or end-of-file. * Otherwise, @c std::ios_base::failure is thrown. By default, * \random_device uses the /dev/urandom pseudo-device to retrieve * the random numbers. Another option would be to specify the /dev/random * pseudo-device, which blocks on reads if the entropy pool has no more * random bits available. * * <b>Implementation Note for Windows</b> * * On the Windows operating system, token is interpreted as the name * of a cryptographic service provider. By default \random_device uses * MS_DEF_PROV. * * <b>Performance</b> * * The test program <a href="\boost/libs/random/performance/nondet_random_speed.cpp"> * nondet_random_speed.cpp</a> measures the execution times of the * nondet_random.hpp implementation of the above algorithms in a tight * loop. The performance has been evaluated on a Pentium Pro 200 MHz * with gcc 2.95.2, Linux 2.2.13, glibc 2.1.2. * * <table cols="2"> * <tr><th>class</th><th>time per invocation [usec]</th></tr> * <tr><td> @xmlonly <classname alt="boost::random_device">random_device</classname> @endxmlonly </td><td>92.0</td></tr> * </table> * * The measurement error is estimated at +/- 1 usec. */ class random_device : private noncopyable { public: typedef unsigned int result_type; BOOST_STATIC_CONSTANT(bool, has_fixed_range = true); BOOST_STATIC_CONSTANT(result_type, min_value = integer_traits<result_type>::const_min); BOOST_STATIC_CONSTANT(result_type, max_value = integer_traits<result_type>::const_max); /** * Returns: The smallest value that the \random_device can produce. */ result_type min BOOST_PREVENT_MACRO_SUBSTITUTION () const { return min_value; } /** * Returns: The largest value that the \random_device can produce. */ result_type max BOOST_PREVENT_MACRO_SUBSTITUTION () const { return max_value; } /** * Constructs a @c random_device, optionally using the given token as an * access specification (for example, a URL) to some implementation-defined * service for monitoring a stochastic process. */ BOOST_RANDOM_DECL explicit random_device(const std::string& token = default_token); BOOST_RANDOM_DECL ~random_device(); /** * Returns: An entropy estimate for the random numbers returned by * operator(), in the range min() to log2( max()+1). A deterministic * random number generator (e.g. a pseudo-random number engine) * has entropy 0. * * Throws: Nothing. */ BOOST_RANDOM_DECL double entropy() const; /** * Returns: A random value in the range [min, max] */ BOOST_RANDOM_DECL unsigned int operator()(); private: BOOST_RANDOM_DECL static const char * const default_token; /* * std:5.3.5/5 [expr.delete]: "If the object being deleted has incomplete * class type at the point of deletion and the complete class has a * non-trivial destructor [...], the behavior is undefined". * This disallows the use of scoped_ptr<> with pimpl-like classes * having a non-trivial destructor. */ class impl; impl * pimpl; }; // TODO: put Schneier's Yarrow-160 algorithm here. } // namespace boost #endif /* BOOST_NONDET_RANDOM_HPP */