/* * XMSS WOTS Public Key * (C) 2016 Matthias Gierlings * * Botan is released under the Simplified BSD License (see license.txt) **/ #ifndef BOTAN_XMSS_WOTS_PUBLICKEY_H__ #define BOTAN_XMSS_WOTS_PUBLICKEY_H__ #include #include #include #include #include #include #include #include #include #include #include #include namespace Botan { typedef std::vector> wots_keysig_t; /** * A Winternitz One Time Signature public key for use with Extended Hash-Based * Signatures. **/ class BOTAN_DLL XMSS_WOTS_PublicKey : virtual public Public_Key { public: class TreeSignature { public: TreeSignature() : m_ots_sig(), m_auth_path() {} TreeSignature(const wots_keysig_t& ots_sig, const wots_keysig_t& auth_path) : m_ots_sig(ots_sig), m_auth_path(auth_path) {} TreeSignature(wots_keysig_t&& ots_sig, wots_keysig_t&& auth_path) : m_ots_sig(std::move(ots_sig)), m_auth_path(std::move(auth_path)) {} const wots_keysig_t& ots_signature() const { return m_ots_sig; } wots_keysig_t& ots_signature() { return m_ots_sig; } const wots_keysig_t& authentication_path() const { return m_auth_path; } wots_keysig_t& authentication_path() { return m_auth_path; } private: wots_keysig_t m_ots_sig; wots_keysig_t m_auth_path; }; /** * Creates a XMSS_WOTS_PublicKey for the signature method identified by * oid. The public seed for this key will be initialized with a * uniformly random n-byte value, where "n" is the element size of the * selected signature method. * * @param oid Identifier for the selected signature method. **/ XMSS_WOTS_PublicKey(XMSS_WOTS_Parameters::ots_algorithm_t oid) : m_wots_params(oid), m_hash(m_wots_params.hash_function_name()) {} /** * Creates a XMSS_WOTS_PublicKey for the signature method identified by * oid. The public seed for this key will be initialized with a * uniformly random n-byte value, where "n" is the element size of the * selected signature method. * * @param oid Identifier for the selected signature method. * @param rng A random number generate used to generate the public seed. **/ XMSS_WOTS_PublicKey(XMSS_WOTS_Parameters::ots_algorithm_t oid, RandomNumberGenerator& rng) : m_wots_params(oid), m_hash(m_wots_params.hash_function_name()), m_public_seed(rng.random_vec(m_wots_params.element_size())) {} /** * Creates a XMSS_WOTS_PrivateKey for the signature method identified by * oid, with a precomputed public seed. * * @param oid Identifier for the selected signature method. * @param public_seed A precomputed public seed of n-bytes length. **/ XMSS_WOTS_PublicKey(XMSS_WOTS_Parameters::ots_algorithm_t oid, secure_vector public_seed) : m_wots_params(oid), m_hash(m_wots_params.hash_function_name()), m_public_seed(public_seed) {} /** * Creates a XMSS_WOTS_PublicKey for the signature method identified by * oid. The public seed will be initialized with a precomputed seed and * and precomputed key data which should be derived from a * XMSS_WOTS_PrivateKey. * * @param oid Ident:s/ifier for the selected signature methods. * @param public_seed A precomputed public seed of n-bytes length. * @param key Precomputed raw key data of the XMSS_WOTS_PublicKey. **/ XMSS_WOTS_PublicKey(XMSS_WOTS_Parameters::ots_algorithm_t oid, secure_vector&& public_seed, wots_keysig_t&& key) : m_wots_params(oid), m_hash(m_wots_params.hash_function_name()), m_key(std::move(key)), m_public_seed(std::move(public_seed)) {} /** * Creates a XMSS_WOTS_PublicKey for the signature method identified by * oid. The public seed will be initialized with a precomputed seed and * and precomputed key data which should be derived from a * XMSS_WOTS_PrivateKey. * * @param oid Identifier for the selected signature methods. * @param public_seed A precomputed public seed of n-bytes length. * @param key Precomputed raw key data of the XMSS_WOTS_PublicKey. **/ XMSS_WOTS_PublicKey(XMSS_WOTS_Parameters::ots_algorithm_t oid, const secure_vector& public_seed, const wots_keysig_t& key) : m_wots_params(oid), m_hash(m_wots_params.hash_function_name()), m_key(key), m_public_seed(public_seed) {} /** * Creates a XMSS_WOTS_PublicKey form a message and signature using * Algorithm 6 WOTS_pkFromSig defined in the XMSS standard. This * overload is used to verify a message using a public key. * * @param oid WOTSP algorithm identifier. * @param msg A message. * @param sig A WOTS signature for msg. * @param adrs An XMSS_Address. * @param public_seed The public public_seed. **/ XMSS_WOTS_PublicKey(XMSS_WOTS_Parameters::ots_algorithm_t oid, const secure_vector& msg, const wots_keysig_t& sig, XMSS_Address& adrs, const secure_vector& public_seed) : m_wots_params(oid), m_hash(m_wots_params.hash_function_name()), m_key(pub_key_from_signature(msg, sig, adrs, public_seed)), m_public_seed(public_seed) {} /** * Retrieves the i-th element out of the length len chain of * n-byte elements contained in the public key. * * @param i index of the element. * @returns n-byte element addressed by i. **/ const secure_vector& operator[](size_t i) const { return m_key[i]; } secure_vector& operator[](size_t i) { return m_key[i]; } /** * Convert the key into the raw key data. The key becomes a length * len vector of n-byte elements. **/ operator const wots_keysig_t& () const { return m_key; }; /** * Convert the key into the raw key data. The key becomes a length * len vector of n-byte elements. **/ operator wots_keysig_t& () { return m_key; } const secure_vector& public_seed() const { return m_public_seed; } secure_vector& public_seed() { return m_public_seed; } void set_public_seed(const secure_vector& public_seed) { m_public_seed = public_seed; } void set_public_seed(secure_vector&& public_seed) { m_public_seed = std::move(public_seed); } const wots_keysig_t& key_data() const { return m_key; } wots_keysig_t& key_data() { return m_key; } void set_key_data(const wots_keysig_t& key_data) { m_key = key_data; } void set_key_data(wots_keysig_t&& key_data) { m_key = std::move(key_data); } const XMSS_WOTS_Parameters& wots_parameters() const { return m_wots_params; } virtual std::string algo_name() const override { return m_wots_params.name(); } virtual AlgorithmIdentifier algorithm_identifier() const override { throw Not_Implemented("No AlgorithmIdentifier available for XMSS-WOTS."); } virtual bool check_key(RandomNumberGenerator&, bool) const override { return true; } virtual std::unique_ptr create_verification_op(const std::string&, const std::string& provider) const override; virtual size_t estimated_strength() const override { return m_wots_params.estimated_strength(); } virtual size_t key_length() const override { return m_wots_params.estimated_strength(); } virtual std::vector public_key_bits() const override { throw Not_Implemented("No key format defined for XMSS-WOTS"); } bool operator==(const XMSS_WOTS_PublicKey& key) { return m_key == key.m_key; } bool operator!=(const XMSS_WOTS_PublicKey& key) { return !(*this == key); } protected: /** * Algorithm 2: Chaining Function. * * Takes an n-byte input string and transforms it into a the function * result iterating the cryptographic hash function "F" steps times on * the input x using the outputs of the PRNG "G". * * * @param[out] x An n-byte input string, that will be transformed into * the chaining function result. * @param start_idx The start index. * @param steps A number of steps. * @param adrs An OTS Hash Address. * @param public_seed A public seed. * **/ void chain(secure_vector& x, size_t start_idx, size_t steps, XMSS_Address& adrs, const secure_vector& public_seed); XMSS_WOTS_Parameters m_wots_params; XMSS_Hash m_hash; wots_keysig_t m_key; secure_vector m_public_seed; private: /** * Algorithm 6: "WOTS_pkFromSig" * Computes a Winternitz One Time Signature+ public key from a message and * its signature. * * @param msg A message. * @param sig The signature for msg. * @param adrs An address. * @param public_seed A public_seed. * * @return Temporary WOTS+ public key. **/ wots_keysig_t pub_key_from_signature( const secure_vector& msg, const wots_keysig_t& sig, XMSS_Address& adrs, const secure_vector& public_seed); }; } #endif