/* * XMSS Index Registry * (C) 2016 Matthias Gierlings * * Botan is released under the Simplified BSD License (see license.txt) **/ #ifndef BOTAN_XMSS_INDEX_REGISTRY_H__ #define BOTAN_XMSS_INDEX_REGISTRY_H__ #include #include #include #include #include #include #include #include #include #include namespace Botan { /** * A registry for XMSS private keys, keeps track of the leaf index for * independend copies of the same key. **/ class XMSS_Index_Registry { public: XMSS_Index_Registry(const XMSS_Index_Registry&) = delete; XMSS_Index_Registry& operator=(const XMSS_Index_Registry&) = delete; /** * Retrieves a handle to the process-wide unique XMSS index registry. * * @return Reference to unique XMSS index registry. **/ static XMSS_Index_Registry& get_instance() { static XMSS_Index_Registry self; return self; } /** * Retrieves the last unused leaf index for the private key identified * by private_seed and prf. The leaf index will be updated properly * across independent copies of private_key. * * @param private_seed Part of the unique identifier for an * XMSS_PrivateKey. * @param prf Part of the unique identifier for an XMSS_PrivateKey. * * @return last unused leaf index for private_key. **/ std::shared_ptr> get(const secure_vector& private_seed, const secure_vector& prf); private: XMSS_Index_Registry() = default; static const std::string m_index_hash_function; /** * Creates a unique 64-bit id for an XMSS_Private key, by interpreting * the first 64-bit of HASH(PRIVATE_SEED || PRF) as 64 bit integer * value. * * @return unique integral identifier for an XMSS private key. **/ uint64_t make_key_id(const secure_vector& private_seed, const secure_vector& prf) const; /** * Retrieves the index position of a key within the registry or * max(size_t) if key has not been found. * * @param unique id of the XMSS private key (see make_key_id()). * * @return index position of key or max(size_t) if key not found. **/ size_t get(uint64_t id) const; /** * If XMSS_PrivateKey identified by id is already registered, the * position of the according registry entry is returned. If last_unused * is bigger than the last unused index stored for the key identified by * id the unused leaf index for this key is set to last_unused. If no key * matching id is registed yet, an entry of id is added, with the last * unused leaf index initialized to the value of last_unused. * * @last_unused Initial value for the last unused leaf index of the * registered key. * * @return positon of leaf index registry entry for key identified * by id. **/ size_t add(uint64_t id, size_t last_unused = 0); std::vector m_key_ids; std::vector>> m_leaf_indices; mutex_type m_mutex; }; } #endif