/* * ECDSA * (C) 2007 Falko Strenzke, FlexSecure GmbH * Manuel Hartl, FlexSecure GmbH * (C) 2008-2010 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_ECC_PUBLIC_KEY_BASE_H_ #define BOTAN_ECC_PUBLIC_KEY_BASE_H_ #include #include namespace Botan { /** * This class represents abstract ECC public keys. When encoding a key * via an encoder that can be accessed via the corresponding member * functions, the key will decide upon its internally stored encoding * information whether to encode itself with or without domain * parameters, or using the domain parameter oid. Furthermore, a public * key without domain parameters can be decoded. In that case, it * cannot be used for verification until its domain parameters are set * by calling the corresponding member function. */ class BOTAN_PUBLIC_API(2,0) EC_PublicKey : public virtual Public_Key { public: /** * Create a public key. * @param dom_par EC domain parameters * @param pub_point public point on the curve */ EC_PublicKey(const EC_Group& dom_par, const PointGFp& pub_point); /** * Load a public key. * @param alg_id the X.509 algorithm identifier * @param key_bits DER encoded public key bits */ EC_PublicKey(const AlgorithmIdentifier& alg_id, const std::vector& key_bits); EC_PublicKey(const EC_PublicKey& other) = default; EC_PublicKey& operator=(const EC_PublicKey& other) = default; virtual ~EC_PublicKey() = default; /** * Get the public point of this key. * @throw Invalid_State is thrown if the * domain parameters of this point are not set * @result the public point of this key */ const PointGFp& public_point() const { return m_public_key; } AlgorithmIdentifier algorithm_identifier() const override; std::vector public_key_bits() const override; bool check_key(RandomNumberGenerator& rng, bool strong) const override; /** * Get the domain parameters of this key. * @throw Invalid_State is thrown if the * domain parameters of this point are not set * @result the domain parameters of this key */ const EC_Group& domain() const { return m_domain_params; } /** * Set the domain parameter encoding to be used when encoding this key. * @param enc the encoding to use */ void set_parameter_encoding(EC_Group_Encoding enc); /** * Return the DER encoding of this keys domain in whatever format * is preset for this particular key */ std::vector DER_domain() const { return domain().DER_encode(domain_format()); } /** * Get the domain parameter encoding to be used when encoding this key. * @result the encoding to use */ EC_Group_Encoding domain_format() const { return m_domain_encoding; } size_t key_length() const override; size_t estimated_strength() const override; protected: EC_PublicKey() : m_domain_params{}, m_public_key{}, m_domain_encoding(EC_DOMPAR_ENC_EXPLICIT) {} EC_Group m_domain_params; PointGFp m_public_key; EC_Group_Encoding m_domain_encoding; }; /** * This abstract class represents ECC private keys */ class BOTAN_PUBLIC_API(2,0) EC_PrivateKey : public virtual EC_PublicKey, public virtual Private_Key { public: /* * If x=0, creates a new private key in the domain * using the given rng. If with_modular_inverse is set, * the public key will be calculated by multiplying * the base point with the modular inverse of * x (as in ECGDSA and ECKCDSA), otherwise by * multiplying directly with x (as in ECDSA). */ EC_PrivateKey(RandomNumberGenerator& rng, const EC_Group& domain, const BigInt& x, bool with_modular_inverse=false); /* * Creates a new private key object from the * ECPrivateKey structure given in key_bits. * If with_modular_inverse is set, * the public key will be calculated by multiplying * the base point with the modular inverse of * x (as in ECGDSA and ECKCDSA), otherwise by * multiplying directly with x (as in ECDSA). */ EC_PrivateKey(const AlgorithmIdentifier& alg_id, const secure_vector& key_bits, bool with_modular_inverse=false); secure_vector private_key_bits() const override; /** * Get the private key value of this key object. * @result the private key value of this key object */ const BigInt& private_value() const; EC_PrivateKey(const EC_PrivateKey& other) = default; EC_PrivateKey& operator=(const EC_PrivateKey& other) = default; ~EC_PrivateKey() = default; protected: EC_PrivateKey() = default; BigInt m_private_key; }; } #endif