/* * EntropySource * (C) 2008,2009,2014,2015 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_ENTROPY_H__ #define BOTAN_ENTROPY_H__ #include #include #include namespace Botan { /** * Class used to accumulate the poll results of EntropySources */ class BOTAN_DLL Entropy_Accumulator final { public: /** * Initialize an Entropy_Accumulator * * @param accum will be called with poll results, first params the data and * length, the second a best estimate of min-entropy for the entire buffer; * out of an abundance of caution this will be zero for many sources. * accum should return true if it wants the polling to stop, though it may * still be called again a few more times, and should be careful to return * true then as well. */ explicit Entropy_Accumulator(std::function accum) : m_accum_fn(accum) {} /** * @return if our polling goal has been achieved */ bool polling_goal_achieved() const { return m_done; } bool polling_finished() const { return m_done; } /** * Add entropy to the accumulator * @param bytes the input bytes * @param length specifies how many bytes the input is * @param entropy_bits_per_byte is a best guess at how much * entropy per byte is in this input */ void add(const void* bytes, size_t length, double entropy_bits_per_byte) { m_done = m_accum_fn(reinterpret_cast(bytes), length, entropy_bits_per_byte * length) || m_done; } /** * Add entropy to the accumulator * @param v is some value * @param entropy_bits_per_byte is a best guess at how much * entropy per byte is in this input */ template void add(const T& v, double entropy_bits_per_byte) { add(&v, sizeof(T), entropy_bits_per_byte); } secure_vector& get_io_buf(size_t sz) { m_io_buf.resize(sz); return m_io_buf; } private: std::function m_accum_fn; secure_vector m_io_buf; bool m_done = false; }; /** * Abstract interface to a source of entropy */ class BOTAN_DLL Entropy_Source { public: /* * Return a new entropy source of a particular type, or null * Each entropy source may require substantial resources (eg, a file handle * or socket instance), so try to share them among multiple RNGs, or just * use the preconfigured global list accessed by global_entropy_sources() */ static std::unique_ptr create(const std::string& type); /** * @return name identifying this entropy source */ virtual std::string name() const = 0; /** * Perform an entropy gathering poll * @param accum is an accumulator object that will be given entropy */ virtual void poll(Entropy_Accumulator& accum) = 0; virtual ~Entropy_Source() {} }; class BOTAN_DLL Entropy_Sources final { public: static Entropy_Sources& global_sources(); void add_source(std::unique_ptr src); std::vector enabled_sources() const; void poll(Entropy_Accumulator& accum); bool poll_just(Entropy_Accumulator& accum, const std::string& src); Entropy_Sources() {} explicit Entropy_Sources(const std::vector& sources); ~Entropy_Sources(); private: std::vector m_srcs; }; } #endif