/* * PKCS#11 Object * (C) 2016 Daniel Neus, Sirrix AG * (C) 2016 Philipp Weber, Sirrix AG * * Botan is released under the Simplified BSD License (see license.txt) */ #include #include namespace Botan { namespace PKCS11 { AttributeContainer::AttributeContainer(ObjectClass object_class) { add_class(object_class); } void AttributeContainer::add_class(ObjectClass object_class) { m_numerics.push_back(static_cast< uint64_t >(object_class)); add_attribute(AttributeType::Class, reinterpret_cast< uint8_t* >(&m_numerics.back()), sizeof(ObjectClass)); } void AttributeContainer::add_string(AttributeType attribute, const std::string& value) { m_strings.push_back(value); add_attribute(attribute, reinterpret_cast< const uint8_t* >(m_strings.back().data()), value.size()); } void AttributeContainer::add_binary(AttributeType attribute, const uint8_t* value, size_t length) { m_vectors.push_back(secure_vector(value, value + length)); add_attribute(attribute, reinterpret_cast< const uint8_t* >(m_vectors.back().data()), length); } void AttributeContainer::add_bool(AttributeType attribute, bool value) { m_numerics.push_back(value ? True : False); add_attribute(attribute, reinterpret_cast< uint8_t* >(&m_numerics.back()), sizeof(Bbool)); } void AttributeContainer::add_attribute(AttributeType attribute, const uint8_t* value, uint32_t size) { bool exists = false; // check if the attribute has been added already for(auto& existing_attribute : m_attributes) { if(existing_attribute.type == static_cast< CK_ATTRIBUTE_TYPE >(attribute)) { // remove old entries m_strings.erase(std::remove_if(m_strings.begin(), m_strings.end(), [ &existing_attribute ](const std::string& data) { return data.data() == existing_attribute.pValue; }), m_strings.end()); m_numerics.erase(std::remove_if(m_numerics.begin(), m_numerics.end(), [ &existing_attribute ](const uint64_t& data) { return &data == existing_attribute.pValue; }), m_numerics.end()); m_vectors.erase(std::remove_if(m_vectors.begin(), m_vectors.end(), [ &existing_attribute ](const secure_vector& data) { return data.data() == existing_attribute.pValue; }), m_vectors.end()); existing_attribute.pValue = const_cast< uint8_t* >(value); existing_attribute.ulValueLen = size; exists = true; break; } } if(!exists) { m_attributes.push_back(Attribute{ static_cast< CK_ATTRIBUTE_TYPE >(attribute), const_cast< uint8_t* >(value), size }); } } // ==================================================================================================== ObjectFinder::ObjectFinder(Session& session, const std::vector& search_template) : m_session(session), m_search_terminated(false) { module()->C_FindObjectsInit(m_session.get().handle(), const_cast< Attribute* >(search_template.data()), search_template.size()); } ObjectFinder::~ObjectFinder() BOTAN_NOEXCEPT { try { if(m_search_terminated == false) { module()->C_FindObjectsFinal(m_session.get().handle(), nullptr); } } catch(...) { // ignore error during noexcept function } } std::vector ObjectFinder::find(uint32_t max_count) const { std::vector result(max_count); Ulong objectCount = 0; module()->C_FindObjects(m_session.get().handle(), result.data(), max_count, &objectCount); if(objectCount < max_count) { result.resize(objectCount); } return result; } void ObjectFinder::finish() { module()->C_FindObjectsFinal(m_session.get().handle()); m_search_terminated = true; } // ==================================================================================================== ObjectProperties::ObjectProperties(ObjectClass object_class) : AttributeContainer(object_class), m_object_class(object_class) {} // ==================================================================================================== StorageObjectProperties::StorageObjectProperties(ObjectClass object_class) : ObjectProperties(object_class) {} // ==================================================================================================== DataObjectProperties::DataObjectProperties() : StorageObjectProperties(ObjectClass::Data) {} // ==================================================================================================== CertificateProperties::CertificateProperties(CertificateType cert_type) : StorageObjectProperties(ObjectClass::Certificate), m_cert_type(cert_type) { add_numeric(AttributeType::CertificateType, static_cast< CK_CERTIFICATE_TYPE >(m_cert_type)); } // ==================================================================================================== KeyProperties::KeyProperties(ObjectClass object_class, KeyType key_type) : StorageObjectProperties(object_class), m_key_type(key_type) { add_numeric(AttributeType::KeyType, static_cast< CK_ULONG >(m_key_type)); } // ==================================================================================================== PublicKeyProperties::PublicKeyProperties(KeyType key_type) : KeyProperties(ObjectClass::PublicKey, key_type) {} // ==================================================================================================== PrivateKeyProperties::PrivateKeyProperties(KeyType key_type) : KeyProperties(ObjectClass::PrivateKey, key_type) {} // ==================================================================================================== SecretKeyProperties::SecretKeyProperties(KeyType key_type) : KeyProperties(ObjectClass::SecretKey, key_type) {} // ==================================================================================================== DomainParameterProperties::DomainParameterProperties(KeyType key_type) : StorageObjectProperties(ObjectClass::DomainParameters), m_key_type(key_type) { add_numeric(AttributeType::KeyType, static_cast< CK_ULONG >(m_key_type)); } // ==================================================================================================== Object::Object(Session& session, ObjectHandle handle) : m_session(session), m_handle(handle) {} Object::Object(Session& session, const ObjectProperties& obj_props) : m_session(session), m_handle(0) { m_session.get().module()->C_CreateObject(m_session.get().handle(), obj_props.data(), obj_props.count(), &m_handle); } secure_vector Object::get_attribute_value(AttributeType attribute) const { std::map> attribute_map = { { attribute, secure_vector() } }; module()->C_GetAttributeValue(m_session.get().handle(), m_handle, attribute_map); return attribute_map.at(attribute); } void Object::set_attribute_value(AttributeType attribute, const secure_vector& value) const { std::map> attribute_map = { { attribute, value } }; module()->C_SetAttributeValue(m_session.get().handle(), m_handle, attribute_map); } void Object::destroy() const { module()->C_DestroyObject(m_session.get().handle(), m_handle); } ObjectHandle Object::copy(const AttributeContainer& modified_attributes) const { ObjectHandle copied_handle; module()->C_CopyObject(m_session.get().handle(), m_handle, modified_attributes.data(), modified_attributes.count(), &copied_handle); return copied_handle; } } }