// Matrix Construct // // Copyright (C) Matrix Construct Developers, Authors & Contributors // Copyright (C) 2016-2018 Jason Volk // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice is present in all copies. The // full license for this software is available in the LICENSE file. #pragma once #define HAVE_IRCD_CRH_H /// Collision-Resistant Hashing /// /// ircd::crh contains support for collision-resistant hash functions including /// cryptographic hash functions. namespace ircd::crh { IRCD_EXCEPTION(ircd::error, error) struct hash; struct sha1; struct sha256; struct ripemd160; } // Export aliases down to ircd:: namespace ircd { using crh::sha1; using crh::sha256; using crh::ripemd160; } /// Abstract interface to a hashing context for any algorithm in ircd::crh /// /// Use this type when dealing with algorithm-agnostic hashing. struct ircd::crh::hash { /// Returns the byte length of the mutable_buffer for digests virtual size_t length() const = 0; /// Samples the digest at the current state (without modifying) virtual void digest(const mutable_buffer &) const = 0; /// Samples the digest and modifies the state (depending on impl) virtual void finalize(const mutable_buffer &b); /// Appends to the message virtual void update(const const_buffer &) = 0; // conveniences for output template fixed_const_buffer digest() const; template operator fixed_const_buffer() const; // conveniences for input void operator()(const mutable_buffer &out, const const_buffer &in); hash &operator+=(const const_buffer &); virtual ~hash() noexcept; }; /// SHA-1 hashing device. struct ircd::crh::sha1 final :hash { struct ctx; static constexpr const size_t &digest_size { 160 / 8 }; using buf = fixed_const_buffer; protected: std::unique_ptr ctx; public: size_t length() const override; void digest(const mutable_buffer &) const override; void finalize(const mutable_buffer &) override; void update(const const_buffer &) override; sha1(const mutable_buffer &, const const_buffer &); // note: finalizes sha1(const const_buffer &); // note: finalizes sha1(); ~sha1() noexcept; }; /// SHA-256 hashing device. struct ircd::crh::sha256 final :hash { struct ctx; static constexpr const size_t &digest_size { 256 / 8 }; using buf = fixed_const_buffer; protected: std::unique_ptr ctx; public: size_t length() const override; void digest(const mutable_buffer &) const override; void finalize(const mutable_buffer &) override; void update(const const_buffer &) override; sha256(const mutable_buffer &, const const_buffer &); // note: finalizes sha256(const const_buffer &); // note: finalizes sha256(); ~sha256() noexcept; }; /// RIPEMD160 hashing device. struct ircd::crh::ripemd160 final :hash { struct ctx; static constexpr const size_t &digest_size { 160 / 8 }; using buf = fixed_const_buffer; protected: std::unique_ptr ctx; public: size_t length() const override; void digest(const mutable_buffer &) const override; void finalize(const mutable_buffer &) override; void update(const const_buffer &) override; ripemd160(const mutable_buffer &, const const_buffer &); // note: finalizes ripemd160(const const_buffer &); // note: finalizes ripemd160(); ~ripemd160() noexcept; }; /// Automatic gratification from hash::digest() template ircd::crh::hash::operator fixed_const_buffer() const { return digest(); } /// Digests the hash into the buffer of the specified SIZE and returns it template ircd::fixed_const_buffer ircd::crh::hash::digest() const { assert(SIZE >= length()); return fixed_const_buffer { [this](const auto &buffer) { this->digest(buffer); } }; }