/* * EntropySource * (C) 2008-2009 Jack Lloyd * * Distributed under the terms of the Botan license */ #ifndef BOTAN_ENTROPY_SOURCE_BASE_H__ #define BOTAN_ENTROPY_SOURCE_BASE_H__ #include #include namespace Botan { /** * Class used to accumulate the poll results of EntropySources */ class BOTAN_DLL Entropy_Accumulator { public: /** * Initialize an Entropy_Accumulator * @param goal is how many bits we would like to collect */ Entropy_Accumulator(size_t goal) : entropy_goal(goal), collected_bits(0) {} virtual ~Entropy_Accumulator() {} /** * Get a cached I/O buffer (purely for minimizing allocation * overhead to polls) * * @param size requested size for the I/O buffer * @return cached I/O buffer for repeated polls */ secure_vector& get_io_buffer(size_t size) { io_buffer.resize(size); return io_buffer; } /** * @return number of bits collected so far */ size_t bits_collected() const { return static_cast(collected_bits); } /** * @return if our polling goal has been achieved */ bool polling_goal_achieved() const { return (collected_bits >= entropy_goal); } /** * @return how many bits we need to reach our polling goal */ size_t desired_remaining_bits() const { if(collected_bits >= entropy_goal) return 0; return static_cast(entropy_goal - collected_bits); } /** * 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) { add_bytes(reinterpret_cast(bytes), length); collected_bits += entropy_bits_per_byte * length; } /** * 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); } private: virtual void add_bytes(const byte bytes[], size_t length) = 0; secure_vector io_buffer; size_t entropy_goal; double collected_bits; }; /** * Entropy accumulator that puts the input into a Buffered_Computation */ class BOTAN_DLL Entropy_Accumulator_BufferedComputation : public Entropy_Accumulator { public: /** * @param sink the hash or MAC we are feeding the poll data into * @param goal is how many bits we want to collect in this poll */ Entropy_Accumulator_BufferedComputation(Buffered_Computation& sink, size_t goal) : Entropy_Accumulator(goal), entropy_sink(sink) {} private: virtual void add_bytes(const byte bytes[], size_t length) { entropy_sink.update(bytes, length); } Buffered_Computation& entropy_sink; }; /** * Abstract interface to a source of (hopefully unpredictable) system entropy */ class BOTAN_DLL EntropySource { public: /** * @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 ~EntropySource() {} }; } #endif