/* * (C) 2016 Daniel Neus * (C) 2016 Philipp Weber * * Botan is released under the Simplified BSD License (see license.txt) */ #include "tests.h" #include "test_pkcs11.h" #include #include #include #include #include #include #include #if defined(BOTAN_HAS_PKCS11) #include #endif #if defined(BOTAN_HAS_DYNAMIC_LOADER) #include #endif namespace Botan_Tests { namespace { #if defined(BOTAN_HAS_PKCS11) #if defined(BOTAN_HAS_DYNAMIC_LOADER) using namespace Botan; using namespace PKCS11; class RAII_LowLevel { public: RAII_LowLevel() : m_module(Test::pkcs11_lib()), m_func_list(nullptr), m_low_level(), m_session_handle(0), m_is_session_open(false), m_is_logged_in(false) { LowLevel::C_GetFunctionList(m_module, &m_func_list); m_low_level.reset(new LowLevel(m_func_list)); C_InitializeArgs init_args = { nullptr, nullptr, nullptr, nullptr, static_cast(Flag::OsLockingOk), nullptr }; m_low_level->C_Initialize(&init_args); } ~RAII_LowLevel() BOTAN_NOEXCEPT { if(m_is_session_open) { if(m_is_logged_in) { m_low_level.get()->C_Logout(m_session_handle, nullptr); } m_low_level.get()->C_CloseSession(m_session_handle, nullptr); } m_low_level.get()->C_Finalize(nullptr, nullptr); } std::vector get_slots(bool token_present) const { std::vector slots; m_low_level.get()->C_GetSlotList(token_present, slots); if(slots.empty()) { throw Exception("No slot with attached token found"); } return slots; } inline SessionHandle open_session(Flags session_flags) { std::vector slots = get_slots(true); m_low_level.get()->C_OpenSession(slots.at(0), session_flags, nullptr, nullptr, &m_session_handle); m_is_session_open = true; return m_session_handle; } inline SessionHandle open_rw_session_with_user_login() { Flags session_flags = PKCS11::flags(Flag::SerialSession | Flag::RwSession); SessionHandle handle = open_session(session_flags); login(UserType::User, PIN_SECVEC); return handle; } inline SessionHandle get_session_handle() const { if(!m_is_session_open) { throw Exception("no open session"); } return m_session_handle; } inline void close_session() { if(!m_is_session_open) { throw Exception("no open session"); } m_low_level.get()->C_CloseSession(m_session_handle); m_is_session_open = false; } inline void login(UserType user_type, const secure_vector& pin) { if(!m_is_session_open) { throw Exception("no open session"); } if(m_is_logged_in) { throw Exception("Already logged in"); } m_low_level.get()->C_Login(m_session_handle, user_type, pin); m_is_logged_in = true; } inline void logout() { if(!m_is_logged_in) { throw Exception("Not logged in"); } m_low_level.get()->C_Logout(m_session_handle); m_is_logged_in = false; } LowLevel* get() const { return m_low_level.get(); } private: Dynamically_Loaded_Library m_module; FunctionListPtr m_func_list; std::unique_ptr m_low_level; SessionHandle m_session_handle; bool m_is_session_open; bool m_is_logged_in; }; bool no_op(ReturnValue*) { return true; } using PKCS11_BoundTestFunction = std::function; // tests all 3 variants Test::Result test_function(const std::string& name, const PKCS11_BoundTestFunction& test_func, const std::string& revert_fn_name, const PKCS11_BoundTestFunction& revert_func, bool expect_failure, ReturnValue expected_return_value) { std::string test_name = revert_fn_name.empty() ? "PKCS 11 low level - " + name : "PKCS 11 low level - " + name + "/" + revert_fn_name; Test::Result result(test_name); // test throw variant if(expect_failure) { result.test_throws(name + " fails as expected", [ test_func ]() { test_func(ThrowException); }); } else { test_func(ThrowException); result.test_success(name + " did not throw and completed successfully"); if(!revert_fn_name.empty()) { revert_func(ThrowException); result.test_success(revert_fn_name + " did not throw and completed successfully"); } } // test bool return variant bool success = test_func(nullptr); result.test_eq(name, success, !expect_failure); if(success && !revert_fn_name.empty()) { success = revert_func(nullptr); result.test_eq(revert_fn_name, success, !expect_failure); } // test ReturnValue variant ReturnValue rv; success = test_func(&rv); result.test_eq(name, success, !expect_failure); if(!expect_failure) { result.test_rc_ok(name, static_cast< uint32_t >(rv)); } else { result.test_rc_fail(name, "return value should be: " + std::to_string(static_cast< uint32_t >(expected_return_value)), static_cast< uint32_t >(rv)); } if(success && !revert_fn_name.empty()) { success = revert_func(&rv); result.test_eq(revert_fn_name, success, !expect_failure); result.test_rc_ok(revert_fn_name, static_cast< uint32_t >(rv)); } return result; } Test::Result test_function(const std::string& name, const PKCS11_BoundTestFunction& test_func, bool expect_failure, ReturnValue expected_return_value) { return test_function(name, test_func, std::string(), no_op, expect_failure, expected_return_value); } Test::Result test_function(const std::string& name, const PKCS11_BoundTestFunction& test_func) { return test_function(name, test_func, std::string(), no_op, false, ReturnValue::OK); } Test::Result test_function(const std::string& name, const PKCS11_BoundTestFunction& test_func, const std::string& revert_fn_name, const PKCS11_BoundTestFunction& revert_func) { return test_function(name, test_func, revert_fn_name, revert_func, false, ReturnValue::OK); } Test::Result test_low_level_ctor() { Test::Result result("PKCS 11 low level - LowLevel ctor"); Dynamically_Loaded_Library pkcs11_module(Test::pkcs11_lib()); FunctionListPtr func_list(nullptr); LowLevel::C_GetFunctionList(pkcs11_module, &func_list); LowLevel p11_low_level(func_list); result.test_success("LowLevel ctor does complete for valid function list"); result.test_throws("LowLevel ctor fails for invalid function list pointer", []() { LowLevel p11_low_level2(nullptr); }); return result; } Test::Result test_c_get_function_list() { Dynamically_Loaded_Library pkcs11_module(Test::pkcs11_lib()); FunctionListPtr func_list = nullptr; return test_function("C_GetFunctionList", std::bind(&LowLevel::C_GetFunctionList, std::ref(pkcs11_module), &func_list, std::placeholders::_1)); } Test::Result test_initialize_finalize() { Dynamically_Loaded_Library pkcs11_module(Test::pkcs11_lib()); FunctionListPtr func_list = nullptr; LowLevel::C_GetFunctionList(pkcs11_module, &func_list); LowLevel p11_low_level(func_list); // setting Flag::OsLockingOk should be the normal use case C_InitializeArgs init_args = { nullptr, nullptr, nullptr, nullptr, static_cast(Flag::OsLockingOk), nullptr }; auto init_bind = std::bind(&LowLevel::C_Initialize, p11_low_level, &init_args, std::placeholders::_1); auto finalize_bind = std::bind(&LowLevel::C_Finalize, p11_low_level, nullptr, std::placeholders::_1); return test_function("C_Initialize", init_bind, "C_Finalize", finalize_bind); } Test::Result test_c_get_info() { RAII_LowLevel p11_low_level; Info info = {}; Test::Result result = test_function("C_GetInfo", std::bind(&LowLevel::C_GetInfo, *p11_low_level.get(), &info, std::placeholders::_1)); result.test_ne("C_GetInfo crypto major version", info.cryptokiVersion.major, 0); return result; } Test::Result test_c_get_slot_list() { RAII_LowLevel p11_low_level; std::vector slot_vec; // assumes at least one smartcard reader is attached bool token_present = false; auto binder = std::bind(static_cast< bool (LowLevel::*)(bool, std::vector&, ReturnValue*) const> (&LowLevel::C_GetSlotList), *p11_low_level.get(), std::ref(token_present), std::ref(slot_vec), std::placeholders::_1); Test::Result result = test_function("C_GetSlotList", binder); result.test_ne("C_GetSlotList number of slots without attached token > 0", slot_vec.size(), 0); // assumes at least one smartcard reader with connected smartcard is attached slot_vec.clear(); token_present = true; result.merge(test_function("C_GetSlotList", binder)); result.test_ne("C_GetSlotList number of slots with attached token > 0", slot_vec.size(), 0); return result; } Test::Result test_c_get_slot_info() { RAII_LowLevel p11_low_level; std::vector slot_vec = p11_low_level.get_slots(false); SlotInfo slot_info = {}; Test::Result result = test_function("C_GetSlotInfo", std::bind(&LowLevel::C_GetSlotInfo, *p11_low_level.get(), slot_vec.at(0), &slot_info, std::placeholders::_1)); std::string slot_desc(reinterpret_cast< char* >(slot_info.slotDescription)); result.test_ne("C_GetSlotInfo returns non empty description", slot_desc.size(), 0); return result; } Test::Result test_c_get_token_info() { RAII_LowLevel p11_low_level; std::vector slot_vec = p11_low_level.get_slots(true); TokenInfo token_info = {}; Test::Result result = test_function("C_GetTokenInfo", std::bind(&LowLevel::C_GetTokenInfo, *p11_low_level.get(), slot_vec.at(0), &token_info, std::placeholders::_1)); std::string serial(reinterpret_cast< char* >(token_info.serialNumber)); result.test_ne("C_GetTokenInfo returns non empty serial number", serial.size(), 0); return result; } Test::Result test_c_wait_for_slot_event() { RAII_LowLevel p11_low_level; Flags flags = PKCS11::flags(Flag::DontBlock); SlotId slot_id = 0; return test_function("C_WaitForSlotEvent", std::bind(&LowLevel::C_WaitForSlotEvent, *p11_low_level.get(), flags, &slot_id, nullptr, std::placeholders::_1), true, ReturnValue::NoEvent); } Test::Result test_c_get_mechanism_list() { RAII_LowLevel p11_low_level; std::vector slot_vec = p11_low_level.get_slots(true); std::vector mechanisms; auto binder = std::bind(static_cast< bool (LowLevel::*)(SlotId, std::vector&, ReturnValue*) const> (&LowLevel::C_GetMechanismList), *p11_low_level.get(), slot_vec.at(0), std::ref(mechanisms), std::placeholders::_1); Test::Result result = test_function("C_GetMechanismList", binder); result.confirm("C_GetMechanismList returns non empty mechanisms list", !mechanisms.empty()); return result; } Test::Result test_c_get_mechanism_info() { RAII_LowLevel p11_low_level; std::vector slot_vec = p11_low_level.get_slots(true); std::vector mechanisms; p11_low_level.get()->C_GetMechanismList(slot_vec.at(0), mechanisms); MechanismInfo mechanism_info = {}; return test_function("C_GetMechanismInfo", std::bind(&LowLevel::C_GetMechanismInfo, *p11_low_level.get(), slot_vec.at(0), mechanisms.at(0), &mechanism_info, std::placeholders::_1)); } Test::Result test_c_init_token() { RAII_LowLevel p11_low_level; std::vector slot_vec = p11_low_level.get_slots(true); const std::string label = "Botan PKCS#11 tests"; auto sec_vec_binder = std::bind( static_cast< bool (LowLevel::*)(SlotId, const secure_vector&, const std::string&, ReturnValue*) const> (&LowLevel::C_InitToken>), *p11_low_level.get(), slot_vec.at(0), std::ref(SO_PIN_SECVEC), std::ref(label), std::placeholders::_1); return test_function("C_InitToken", sec_vec_binder); } Test::Result test_open_close_session() { RAII_LowLevel p11_low_level; std::vector slot_vec = p11_low_level.get_slots(true); // public read only session Flags flags = PKCS11::flags(Flag::SerialSession); SessionHandle session_handle = 0; auto open_session_bind = std::bind(&LowLevel::C_OpenSession, *p11_low_level.get(), slot_vec.at(0), std::ref(flags), nullptr, nullptr, &session_handle, std::placeholders::_1); auto close_session_bind = std::bind(&LowLevel::C_CloseSession, *p11_low_level.get(), std::ref(session_handle), std::placeholders::_1); Test::Result result = test_function("C_OpenSession", open_session_bind, "C_CloseSession", close_session_bind); // public read write session flags = PKCS11::flags(Flag::SerialSession | Flag::RwSession); result.merge(test_function("C_OpenSession", open_session_bind, "C_CloseSession", close_session_bind)); return result; } Test::Result test_c_close_all_sessions() { RAII_LowLevel p11_low_level; std::vector slot_vec = p11_low_level.get_slots(true); auto open_two_sessions = [ &slot_vec, &p11_low_level ]() -> void { // public read only session Flags flags = PKCS11::flags(Flag::SerialSession); SessionHandle first_session_handle = 0, second_session_handle = 0; p11_low_level.get()->C_OpenSession(slot_vec.at(0), flags, nullptr, nullptr, &first_session_handle); flags = PKCS11::flags(Flag::SerialSession | Flag::RwSession); p11_low_level.get()->C_OpenSession(slot_vec.at(0), flags, nullptr, nullptr, &second_session_handle); }; open_two_sessions(); Test::Result result("PKCS 11 low level - C_CloseAllSessions"); // test throw variant p11_low_level.get()->C_CloseAllSessions(slot_vec.at(0)); result.test_success("C_CloseAllSessions does not throw"); // test bool return variant open_two_sessions(); bool success = p11_low_level.get()->C_CloseAllSessions(slot_vec.at(0), nullptr); result.test_eq("C_CloseAllSessions", success, true); // test ReturnValue variant open_two_sessions(); ReturnValue rv = static_cast< ReturnValue >(-1); success = p11_low_level.get()->C_CloseAllSessions(slot_vec.at(0), &rv); result.test_eq("C_CloseAllSessions", success, true); result.test_rc_ok("C_CloseAllSessions", static_cast< uint32_t >(rv)); return result; } Test::Result test_c_get_session_info() { RAII_LowLevel p11_low_level; std::vector slot_vec = p11_low_level.get_slots(true); // public read only session Flags flags = PKCS11::flags(Flag::SerialSession); SessionHandle session_handle = p11_low_level.open_session(flags); SessionInfo session_info = {}; Test::Result result = test_function("C_GetSessionInfo", std::bind(&LowLevel::C_GetSessionInfo, *p11_low_level.get(), session_handle, &session_info, std::placeholders::_1)); result.confirm("C_GetSessionInfo returns same slot id as during call to C_OpenSession", session_info.slotID == slot_vec.at(0)); result.confirm("C_GetSessionInfo returns same flags as during call to C_OpenSession", session_info.flags == flags); result.confirm("C_GetSessionInfo returns public read only session state", session_info.state == static_cast(SessionState::RoPublicSession)); return result; } Test::Result login_logout_helper(const RAII_LowLevel& p11_low_level, SessionHandle handle, UserType user_type, const std::string& pin) { secure_vector pin_as_sec_vec(pin.begin(), pin.end()); auto login_secvec_binder = std::bind(static_cast< bool (LowLevel::*)(SessionHandle, UserType, const secure_vector&, ReturnValue*) const> (&LowLevel::C_Login>), *p11_low_level.get(), handle, user_type, std::ref(pin_as_sec_vec), std::placeholders::_1); auto logout_binder = std::bind(static_cast< bool (LowLevel::*)(SessionHandle, ReturnValue*) const> (&LowLevel::C_Logout), *p11_low_level.get(), handle, std::placeholders::_1); return test_function("C_Login", login_secvec_binder, "C_Logout", logout_binder); } Test::Result test_c_login_logout_security_officier() { RAII_LowLevel p11_low_level; // can only login to R/W session Flags session_flags = PKCS11::flags(Flag::SerialSession | Flag::RwSession); SessionHandle session_handle = p11_low_level.open_session(session_flags); return login_logout_helper(p11_low_level, session_handle, UserType::SO, SO_PIN); } Test::Result test_c_login_logout_user() { RAII_LowLevel p11_low_level; // R/O session Flags session_flags = PKCS11::flags(Flag::SerialSession); SessionHandle session_handle = p11_low_level.open_session(session_flags); Test::Result result = login_logout_helper(p11_low_level, session_handle, UserType::User, PIN); p11_low_level.close_session(); // R/W session session_flags = PKCS11::flags(Flag::SerialSession | Flag::RwSession); session_handle = p11_low_level.open_session(session_flags); result.merge(login_logout_helper(p11_low_level, session_handle, UserType::User, PIN)); return result; } Test::Result test_c_init_pin() { RAII_LowLevel p11_low_level; // C_InitPIN can only be called in the "R/W SO Functions" state Flags session_flags = PKCS11::flags(Flag::SerialSession | Flag::RwSession); SessionHandle session_handle = p11_low_level.open_session(session_flags); p11_low_level.login(UserType::SO, SO_PIN_SECVEC); auto sec_vec_binder = std::bind( static_cast< bool (LowLevel::*)(SessionHandle, const secure_vector&, ReturnValue*) const> (&LowLevel::C_InitPIN>), *p11_low_level.get(), session_handle, std::ref(PIN_SECVEC), std::placeholders::_1); return test_function("C_InitPIN", sec_vec_binder); } Test::Result test_c_set_pin() { RAII_LowLevel p11_low_level; // C_SetPIN can only be called in the "R / W Public Session" state, "R / W SO Functions" state, or "R / W User Functions" state Flags session_flags = PKCS11::flags(Flag::SerialSession | Flag::RwSession); SessionHandle session_handle = p11_low_level.open_session(session_flags); // now we are in "R / W Public Session" state: this will change the pin of the user auto get_pin_bind = [ &session_handle, &p11_low_level ](const secure_vector& old_pin, const secure_vector& new_pin) -> PKCS11_BoundTestFunction { return std::bind(static_cast< bool (LowLevel::*)(SessionHandle, const secure_vector&, const secure_vector&, ReturnValue*) const> (&LowLevel::C_SetPIN>), *p11_low_level.get(), session_handle, old_pin, new_pin, std::placeholders::_1); }; const std::string test_pin("654321"); const auto test_pin_secvec = secure_vector(test_pin.begin(), test_pin.end()); PKCS11_BoundTestFunction set_pin_bind = get_pin_bind(PIN_SECVEC, test_pin_secvec); PKCS11_BoundTestFunction revert_pin_bind = get_pin_bind(test_pin_secvec, PIN_SECVEC); Test::Result result = test_function("C_SetPIN", set_pin_bind, "C_SetPIN", revert_pin_bind); // change pin in "R / W User Functions" state p11_low_level.login(UserType::User, PIN_SECVEC); result.merge(test_function("C_SetPIN", set_pin_bind, "C_SetPIN", revert_pin_bind)); p11_low_level.logout(); // change so_pin in "R / W SO Functions" state const std::string test_so_pin = "87654321"; secure_vector test_so_pin_secvec(test_so_pin.begin(), test_so_pin.end()); p11_low_level.login(UserType::SO, SO_PIN_SECVEC); PKCS11_BoundTestFunction set_so_pin_bind = get_pin_bind(SO_PIN_SECVEC, test_so_pin_secvec); PKCS11_BoundTestFunction revert_so_pin_bind = get_pin_bind(test_so_pin_secvec, SO_PIN_SECVEC); result.merge(test_function("C_SetPIN", set_so_pin_bind, "C_SetPIN", revert_so_pin_bind)); return result; } // Simple data object ObjectClass object_class = ObjectClass::Data; std::string label = "A data object"; std::string data = "Sample data"; Bbool btrue = True; std::array dtemplate = { { { static_cast(AttributeType::Class), &object_class, sizeof(object_class) }, { static_cast(AttributeType::Token), &btrue, sizeof(btrue) }, { static_cast(AttributeType::Label), const_cast< char* >(label.c_str()), label.size() }, { static_cast(AttributeType::Value), const_cast< char* >(data.c_str()), data.size() } } }; ObjectHandle create_simple_data_object(const RAII_LowLevel& p11_low_level) { ObjectHandle object_handle; p11_low_level.get()->C_CreateObject(p11_low_level.get_session_handle(), dtemplate.data(), dtemplate.size(), &object_handle); return object_handle; } Test::Result test_c_create_object_c_destroy_object() { RAII_LowLevel p11_low_level; SessionHandle session_handle = p11_low_level.open_rw_session_with_user_login(); ObjectHandle object_handle(0); auto create_bind = std::bind(&LowLevel::C_CreateObject, *p11_low_level.get(), session_handle, dtemplate.data(), dtemplate.size(), &object_handle, std::placeholders::_1); auto destroy_bind = std::bind(&LowLevel::C_DestroyObject, *p11_low_level.get(), session_handle, std::ref(object_handle), std::placeholders::_1); return test_function("C_CreateObject", create_bind, "C_DestroyObject", destroy_bind); } Test::Result test_c_get_object_size() { RAII_LowLevel p11_low_level; Flags session_flags = PKCS11::flags(Flag::SerialSession | Flag::RwSession); SessionHandle session_handle = p11_low_level.open_session(session_flags); p11_low_level.login(UserType::User, PIN_SECVEC); ObjectHandle object_handle = create_simple_data_object(p11_low_level); Ulong object_size = 0; auto bind = std::bind(&LowLevel::C_GetObjectSize, *p11_low_level.get(), session_handle, object_handle, &object_size, std::placeholders::_1); Test::Result result = test_function("C_GetObjectSize", bind); result.test_ne("Object size", object_size, 0); // cleanup p11_low_level.get()->C_DestroyObject(session_handle, object_handle); return result; } Test::Result test_c_get_attribute_value() { RAII_LowLevel p11_low_level; SessionHandle session_handle = p11_low_level.open_rw_session_with_user_login(); ObjectHandle object_handle = create_simple_data_object(p11_low_level); std::map < AttributeType, secure_vector> getter = { { AttributeType::Label, secure_vector() }, { AttributeType::Value, secure_vector() } }; auto bind = std::bind(static_cast< bool (LowLevel::*)(SessionHandle, ObjectHandle, std::map>&, ReturnValue*) const> (&LowLevel::C_GetAttributeValue>), *p11_low_level.get(), session_handle, object_handle, std::ref(getter), std::placeholders::_1); Test::Result result = test_function("C_GetAttributeValue", bind); std::string _label(getter[ AttributeType::Label ].begin(), getter[ AttributeType::Label ].end()); std::string value(getter[ AttributeType::Value ].begin(), getter[ AttributeType::Value ].end()); result.test_eq("label", _label, "A data object"); result.test_eq("value", value, "Sample data"); // cleanup p11_low_level.get()->C_DestroyObject(session_handle, object_handle); return result; } std::map < AttributeType, std::vector> get_attribute_values(const RAII_LowLevel& p11_low_level, SessionHandle session_handle, ObjectHandle object_handle, const std::vector& attribute_types) { std::map < AttributeType, std::vector> received_attributes; for(const auto& type : attribute_types) { received_attributes.emplace(type, std::vector()); } p11_low_level.get()->C_GetAttributeValue(session_handle, object_handle, received_attributes); return received_attributes; } Test::Result test_c_set_attribute_value() { RAII_LowLevel p11_low_level; Flags session_flags = PKCS11::flags(Flag::SerialSession | Flag::RwSession); SessionHandle session_handle = p11_low_level.open_session(session_flags); p11_low_level.login(UserType::User, PIN_SECVEC); ObjectHandle object_handle = create_simple_data_object(p11_low_level); std::string new_label = "A modified data object"; std::map < AttributeType, secure_vector> new_attributes = { { AttributeType::Label, secure_vector(new_label.begin(), new_label.end()) } }; auto bind = std::bind(static_cast< bool (LowLevel::*)(SessionHandle, ObjectHandle, std::map>&, ReturnValue*) const> (&LowLevel::C_SetAttributeValue>), *p11_low_level.get(), session_handle, object_handle, std::ref(new_attributes), std::placeholders::_1); Test::Result result = test_function("C_SetAttributeValue", bind); // get attributes and check if they are changed correctly std::vector types = { AttributeType::Label, AttributeType::Value }; auto received_attributes = get_attribute_values(p11_low_level, session_handle, object_handle, types); std::string retrieved_label(received_attributes[ AttributeType::Label ].begin(), received_attributes[ AttributeType::Label ].end()); result.test_eq("label", new_label, retrieved_label); // cleanup p11_low_level.get()->C_DestroyObject(session_handle, object_handle); return result; } Test::Result test_c_copy_object() { RAII_LowLevel p11_low_level; SessionHandle session_handle = p11_low_level.open_rw_session_with_user_login(); ObjectHandle object_handle = create_simple_data_object(p11_low_level); ObjectHandle copied_object_handle = 0; std::string copied_label = "A copied data object"; Attribute copy_attribute_values = { static_cast< CK_ATTRIBUTE_TYPE >(AttributeType::Label), const_cast< char* >(copied_label.c_str()), copied_label.size() }; auto binder = std::bind(&LowLevel::C_CopyObject, *p11_low_level.get(), session_handle, object_handle, ©_attribute_values, 1, &copied_object_handle, std::placeholders::_1); Test::Result result = test_function("C_CopyObject", binder); // get attributes and check if its copied correctly std::vector types = { AttributeType::Label, AttributeType::Value }; auto received_attributes = get_attribute_values(p11_low_level, session_handle, copied_object_handle, types); std::string retrieved_label(received_attributes[ AttributeType::Label ].begin(), received_attributes[ AttributeType::Label ].end()); result.test_eq("label", copied_label, retrieved_label); // cleanup p11_low_level.get()->C_DestroyObject(session_handle, object_handle); p11_low_level.get()->C_DestroyObject(session_handle, copied_object_handle); return result; } class LowLevelTests : public Test { public: std::vector run() override { std::vector results; std::vector> fns = { test_c_get_function_list ,test_low_level_ctor ,test_initialize_finalize ,test_c_get_info ,test_c_get_slot_list ,test_c_get_slot_info ,test_c_get_token_info ,test_c_wait_for_slot_event ,test_c_get_mechanism_list ,test_c_get_mechanism_info ,test_open_close_session ,test_c_close_all_sessions ,test_c_get_session_info ,test_c_init_token ,test_c_login_logout_security_officier /* only possible if token is initialized */ ,test_c_init_pin ,test_c_login_logout_user /* only possible if token is initialized and user pin is set */ ,test_c_set_pin ,test_c_create_object_c_destroy_object ,test_c_get_object_size ,test_c_get_attribute_value ,test_c_set_attribute_value ,test_c_copy_object }; for(size_t i = 0; i != fns.size(); ++i) { try { results.push_back(fns[ i ]()); } catch(PKCS11_ReturnError& e) { results.push_back(Test::Result::Failure("PKCS11 low level test " + std::to_string(i), e.what())); if(e.get_return_value() == ReturnValue::PinIncorrect) { break; // Do not continue to not potentially lock the token } } catch(std::exception& e) { results.push_back(Test::Result::Failure("PKCS11 low level test " + std::to_string(i), e.what())); } } return results; } }; BOTAN_REGISTER_TEST("pkcs11-lowlevel", LowLevelTests); #endif #endif } }