/* * PKCS#11 ECC * (C) 2016 Daniel Neus, Sirrix AG * (C) 2016 Philipp Weber, Sirrix AG * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_P11_ECC_H__ #define BOTAN_P11_ECC_H__ #include #include #if defined(BOTAN_HAS_ECC_PUBLIC_KEY_CRYPTO) #include #include #include #include #include #include namespace Botan { namespace PKCS11 { class Session; /// Properties for generating a PKCS#11 EC public key class BOTAN_DLL EC_PublicKeyGenerationProperties final : public PublicKeyProperties { public: /// @param ec_params DER-encoding of an ANSI X9.62 Parameters value EC_PublicKeyGenerationProperties(const std::vector& ec_params); /// @return the DER-encoding of the ec parameters according to ANSI X9.62 inline const std::vector& ec_params() const { return m_ec_params; } private: const std::vector m_ec_params; }; /// Properties for importing a PKCS#11 EC public key class BOTAN_DLL EC_PublicKeyImportProperties final : public PublicKeyProperties { public: /** * @param ec_params DER-encoding of an ANSI X9.62 Parameters value * @param ec_point DER-encoding of ANSI X9.62 ECPoint value Q */ EC_PublicKeyImportProperties(const std::vector& ec_params, const std::vector& ec_point); /// @return the DER-encoding of the ec parameters according to ANSI X9.62 inline const std::vector& ec_params() const { return m_ec_params; } /// @return the DER-encoding of the ec public point according to ANSI X9.62 inline const std::vector& ec_point() const { return m_ec_point; } private: const std::vector m_ec_params; const std::vector m_ec_point; }; /// Represents a PKCS#11 EC public key class BOTAN_DLL PKCS11_EC_PublicKey : public virtual EC_PublicKey, public Object { public: static const ObjectClass Class = ObjectClass::PublicKey; /** * Creates a PKCS11_EC_PublicKey object from an existing PKCS#11 EC public key * @param session the session to use * @param handle the handle of the ecc public key */ PKCS11_EC_PublicKey(Session& session, ObjectHandle handle); /** * Imports an EC public key * @param session the session to use * @param props the attributes of the public key */ PKCS11_EC_PublicKey(Session& session, const EC_PublicKeyImportProperties& props); size_t max_input_bits() const override; }; /// Properties for generating a PKCS#11 EC private key class BOTAN_DLL EC_PrivateKeyGenerationProperties final : public PrivateKeyProperties { public: EC_PrivateKeyGenerationProperties() : PrivateKeyProperties(KeyType::Ec) {} }; /// Properties for importing a PKCS#11 EC private key class BOTAN_DLL EC_PrivateKeyImportProperties final : public PrivateKeyProperties { public: /** * @param ec_params DER-encoding of an ANSI X9.62 Parameters value * @param value ANSI X9.62 private value d */ EC_PrivateKeyImportProperties(const std::vector& ec_params, const BigInt& value); /// @return the DER-encoding of the ec parameters according to ANSI X9.62 inline const std::vector& ec_params() const { return m_ec_params; } /// @return the value of the ec private key inline const BigInt& value() const { return m_value; } private: const std::vector m_ec_params; const BigInt m_value; }; // note: don't inherit from PKCS11_EC_PublicKey: a private key object IS NOT A public key object on a smartcard (-> two different objects) // note: don't inherit from EC_PublicKey: the public key can not be extracted from a PKCS11-EC-PrivateKey (its only attributes are CKA_EC_PARAMS and CKA_VALUE) /// Represents a PKCS#11 EC private key class BOTAN_DLL PKCS11_EC_PrivateKey : public virtual Private_Key, public Object { public: static const ObjectClass Class = ObjectClass::PrivateKey; /** * Creates a PKCS11_EC_PrivateKey object from an existing PKCS#11 EC private key * @param session the session to use * @param handle the handle of the EC private key */ PKCS11_EC_PrivateKey(Session& session, ObjectHandle handle); /** * Imports an EC private key * @param session the session to use * @param props the attributes of the private key */ PKCS11_EC_PrivateKey(Session& session, const EC_PrivateKeyImportProperties& props); /** * Generates a PKCS#11 EC private key * @param session the session to use * @param ec_params DER-encoding of an ANSI X9.62 Parameters value * @param props the attributes of the private key * @note no persistent public key object will be created */ PKCS11_EC_PrivateKey(Session& session, const std::vector& ec_params, const EC_PrivateKeyGenerationProperties& props); /// @returns the domain of the EC private key inline const EC_Group& domain() const { return m_domain_params; } /** * Sets the associated public point of this private key * @param point the public point * @param point_encoding encoding of the point (default DER-encoded) */ void set_public_point(const PointGFp& point, PublicPointEncoding point_encoding = PublicPointEncoding::Der) { m_public_key = point; m_point_encoding = point_encoding; } /** * Gets the public_point * @note: the public key must be set using `set_public_point` * because it is not possible to infer the public key from a PKCS#11 EC private key * @return the public point of the private key * @throws Exception if the public point was not set using set_public_point() */ const PointGFp& public_point() const { if(m_public_key.is_zero()) { throw Exception("Public point not set. Inferring the public key from a PKCS#11 ec private key is not possible."); } return m_public_key; } /// @return the encoding format for the public point when it is passed to cryptoki functions as an argument PublicPointEncoding point_encoding() const { return m_point_encoding; } // Private_Key methods std::size_t max_input_bits() const override; std::vector x509_subject_public_key() const override; std::size_t estimated_strength() const override; bool check_key(RandomNumberGenerator&, bool) const override; AlgorithmIdentifier algorithm_identifier() const override; private: EC_Group m_domain_params; PointGFp m_public_key; PublicPointEncoding m_point_encoding; }; } } #endif #endif