Exemple #1
0
    def create_aut_env(self):  # Spaeter on Button Click z.B.
        ''' this method creates the simulation'''               
        
        api_log_path = os.path.join(os.path.dirname(__file__), "../logs/api.log")
        api.show_logging(logging.INFO, api_log_path, True)
        my_env = api.create_environment(2500)
        
        ecu_spec = SimpleECUSpec([], 200, 200)
        ecu_group_1 = api.set_ecus(my_env, 10, 'SecureECU', ecu_spec)
        
        ecu_spec = SimpleECUSpec(['SEC 1'], 200, 200)
        ecu_spec.set_ecu_setting('t_ecu_auth_trigger_process', 100)
        ecu_spec.set_ecu_setting('t_ecu_auth_trigger_intervall', 1000)
        
        sec_mod_group = api.set_ecus(my_env, 1, 'SecLwAuthSecurityModule', ecu_spec)
        
        bus_spec = SimpleBusSpec(['CAN_0'])
        bus_group = api.set_busses(my_env, 1, 'StdCANBus', bus_spec)
        api.connect_bus_by_obj(my_env, 'CAN_0', ecu_group_1 + sec_mod_group)
        
        api.register_ecu_groups_to_secmod(my_env, sec_mod_group[0].ecu_id, [ecu_group_1])
        
        certeros = api.create_cert_manager()
        for ecu in APICore()._ecu_list_from_groups([[ecu_group_1]]):  # UNINTENDED HACK
            api.generate_valid_ecu_cert_cfg(certeros, ecu.ecu_id, CAEnum.CA_L313, 'SEC 1', 0, float('inf'))
        api.generate_valid_sec_mod_cert_cfg(certeros, 'SEC 1', CAEnum.CA_L313, 0, float('inf'))
        api.apply_certification(my_env, certeros)
        
        
        stream_1 = MessageStream(my_env.get_env(), 'SecureECU_0', ['SecureECU_1', 'SecureECU_4', 'SecureECU_5'], 13, float('inf'), 0, float('inf'))
        stream_2 = MessageStream(my_env.get_env(), 'SecureECU_1', ['SecureECU_3', 'SecureECU_2', 'SecureECU_5'], 12, float('inf'), 0, float('inf'))
        stream_3 = MessageStream(my_env.get_env(), 'SecureECU_0', ['SecureECU_4', 'SecureECU_1', 'SecureECU_5'], 222, float('inf'), 0, float('inf'))
        stream_4 = MessageStream(my_env.get_env(), 'SecureECU_3', ['SecureECU_0', 'SecureECU_1', 'SecureECU_5'], 11, float('inf'), 0, float('inf'))
        stream_5 = MessageStream(my_env.get_env(), 'SecureECU_4', ['SecureECU_2', 'SecureECU_1', 'SecureECU_3'], 500, float('inf'), 0, float('inf'))
        api.add_allowed_stream(my_env, 'SEC 1', stream_1)
        api.add_allowed_stream(my_env, 'SEC 1', stream_2)
        api.add_allowed_stream(my_env, 'SEC 1', stream_3)
        api.add_allowed_stream(my_env, 'SEC 1', stream_4)
        api.add_allowed_stream(my_env, 'SEC 1', stream_5)
        
        t_set = TimingFunctionSet()
        ecu_func_set = StdSecurLwSecModTimingFunctions(main_library_tag='CyaSSL')
        t_set.set_mapping_from_function_set('SEC 1', ecu_func_set)
        api.apply_timing_functions_set(my_env, 'SEC 1', t_set)
          
        t_set2 = TimingFunctionSet() 
        ecu_func_set = StdSecurECUTimingFunctions(main_library_tag='CyaSSL')
        
        for ecu in APICore()._ecu_list_from_groups([[ecu_group_1]]):  # UNINTENDED HACK
            t_set2.set_mapping_from_function_set(ecu.ecu_id, ecu_func_set) 
            api.apply_timing_functions_set(my_env, ecu.ecu_id, t_set2)

        api.connect_monitor(my_env, self.monitor, 50)
        api.build_simulation(my_env)
        
        ''' start this in a new thread'''
        sim = SimulationThread(self, my_env)
        sim.start()
Exemple #2
0
# set gateway delay to 0.000002 seconds
ecu_spec.set_ecu_setting('t_transition_process', 0.000002)

# create the gateway
gateway_group_1 = api.set_ecus(sim_env, 1, 'CANGateway', ecu_spec)

# create another gateway with same specification
gateway_group_2 = api.set_ecus(sim_env, 1, 'CANGateway', ecu_spec)

 
#===============================================================================
#     Create Architecture
#===============================================================================
 
# create the bus specifications
bus_spec = SimpleBusSpec(['CAN_0', 'CAN_1', 'CAN_2'])
bus_group = api.set_busses(sim_env, 3, 'StdCANBus', bus_spec)
 
# Connect ECUs and Gateways to the busses
# Connect CAN 0 via GW1 to CAN 1 // Connect CAN 1 via GW 2 to CAN 2
api.connect_bus_by_obj(sim_env, 'CAN_0', ecu_group_1  + gateway_group_1) 
api.connect_bus_by_obj(sim_env, 'CAN_1', gateway_group_1 + ecu_group_3 + gateway_group_2)
api.connect_bus_by_obj(sim_env, 'CAN_2', ecu_group_4 + gateway_group_2)


#===========================================================================
#     Monitoring and Export of Results
#===========================================================================

# create a Monitor and connect it to the environment
monitor = Monitor()
Exemple #3
0
    def prepare_configuration(self, simpy_env, life_time):
        ''' this method prepares the configuration on the side of the 
            ECU simulation. It sets up the defined environment by mapping
            the ECU Ids as they are defined in the battery management system
            on the ECUs and the defined specs. So the constellation used is
            implemented here.
            
            Input:  simpy_env    simpy.Environment        environment used in the battery management system
                    life_time    float                    life time of the simulation
            Output: -
        '''
        # lifetime
        life_time = 50000
                
        # logging
#         api_log_path = os.path.join(os.path.dirname(__file__), "../logs/api.log")
#         api.show_logging(logging.INFO, api_log_path, True)
        
        # create environment
        sim_env = api.create_environment(life_time)
        sim_env.set_env(simpy_env)
        ecu_list = []
        
        # generate a ecu from the ECU specs setting the adapter
        for ecu_id in self.available_can_adapters():            
            # logging.info("ECU ID %s: " % ecu_id)
            
            # define individual ECU Spec 
            ecu_spec = copy.deepcopy(self._ecu_spec)
            ecu_class_name = self._ecu_class_name
            if ecu_id in self._individual_spec:
                ecu_spec = self._individual_spec[ecu_id][0]
                ecu_class_name = self._individual_spec[ecu_id][1]
            ecu_spec.ecu_id_list = [str(ecu_id)]
            
            # create ecu            
            ecu = api.set_ecus(sim_env, 1, ecu_class_name, ecu_spec)[0]
            ecu_list += [ecu]
            
            # connect ecu to adapter
            ecu.connect_adapter(self.can_bus_adapter[ecu_id])
        
        # add security module
        # create ECU specification
        ecu_spec = SimpleECUSpec(['SEC 1'], 200000, 200000)  # 200 KB
        ecu_spec.set_ecu_setting('t_ecu_auth_trigger_process', 0)  
        ecu_spec.set_ecu_setting('t_ecu_auth_trigger_intervall', 80000)  
        ecu_spec.set_apply_jitter(0.0001)
        sec_mod_group = api.set_ecus(sim_env, 1, 'SecLwAuthSecurityModule', ecu_spec)
        security_module = sec_mod_group[0]
        
        # connect to one bus
        # create the bus specifications
        bus_spec = SimpleBusSpec(['CAN_0'])
        api.set_busses(sim_env, 1, 'StdCANBus', bus_spec)
        api.connect_bus_by_obj(sim_env, 'CAN_0', ecu_list + sec_mod_group) 
                
        # security constellation
        all_ecu_groups = [ecu_list]
        api.register_ecu_groups_to_secmod(sim_env, sec_mod_group[0].ecu_id, all_ecu_groups)         
        certificate_manager = api.create_cert_manager()
        all_created_ecus = api.ecu_list_from_groups([all_ecu_groups])
        ecu_ids = [str(ecu.ecu_id) for ecu in all_created_ecus]        
        for ecu_id in ecu_ids:
            api.generate_valid_ecu_cert_cfg(certificate_manager, ecu_id, CAEnum.CA_L313, security_module.ecu_id, 0, float('inf'))
        api.generate_valid_sec_mod_cert_cfg(certificate_manager, security_module.ecu_id, CAEnum.CA_L313, ecu_ids, 0, float('inf'))
        api.apply_certification(sim_env, certificate_manager)
         
        # define allowed streams -------------------------------------------------------------- TODO very IMPORTANT
        for broadcast_stream_id in [0x0080, 0x0081, 0x0082, 0x0083, 0x0012, 0x0013, 0x0020, 0x00A0, 0x00A1 ]:
            for ecu_id in ecu_ids:
                lst = copy.deepcopy(ecu_ids)
                lst.remove(ecu_id)                
                stream = MessageStream(ecu_id, lst, broadcast_stream_id, float('inf'), 0, float('inf'))
                api.add_allowed_stream(sim_env, security_module.ecu_id, stream)
        #  -------------------------------------------------------------- TODO very IMPORTANT
        
        # set gateways
        api.autoset_gateway_filters(sim_env, sec_mod_group[0].ecu_id)

        # set timing functions
        function_set = TimingFunctionSet()        
        ecu_func_set = StdSecurLwSecModTimingFunctions(main_library_tag='CyaSSL')        
        ecu_func_set.library_tags['t_ecu_auth_reg_msg_validate_cert'] = 'Crypto_Lib_SW'
        function_set.set_mapping_from_function_set(security_module.ecu_id, ecu_func_set)
        api.apply_timing_functions_set(sim_env, security_module.ecu_id, function_set)
        function_set_2 = TimingFunctionSet() 
        ecu_func_set = StdSecurECUTimingFunctions(main_library_tag='CyaSSL')
        ecu_func_set.library_tags['t_adv_msg_secmodcert_enc'] = 'Crypto_Lib_SW'
        for ecu_id in ecu_ids:
            function_set_2.set_mapping_from_function_set(ecu_id, ecu_func_set) 
            api.apply_timing_functions_set(sim_env, ecu_id, function_set_2)
             
        # add monitor
        if self._monitor and self._result_reader:
            api.connect_monitor(sim_env, self._monitor, 0.5)  
            api.connect_result_reader(sim_env, self._monitor, self._result_reader)
             
            # run view if defined 
            if self._view:
                self._view.show(self._result_reader, self._view_options, self.q_application)                

        # run simulation
        api.open_simulation_stop_button(sim_env)
        api.build_simulation(sim_env)
        api.run_simulation(sim_env)