/** * @file * @brief Unit test for object * @author Steve Karg * @date February 2024 * * SPDX-License-Identifier: MIT */ #include #include #include #include #include #include #ifndef BACDL_BSC #define BACDL_BSC #endif /** * @addtogroup bacnet_tests * @{ */ /** * @brief Test */ #if defined(CONFIG_ZTEST_NEW_API) ZTEST(netport_tests, test_network_port) #else static void test_network_port(void) #endif { unsigned port = 0; bool status = false; unsigned count = 0; uint8_t address[16] = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 }; uint8_t test_address[16] = { 0 }; uint8_t mac_len; uint8_t ip_prefix; uint32_t object_instance = 0; uint8_t port_type[] = { PORT_TYPE_ETHERNET, PORT_TYPE_ARCNET, PORT_TYPE_MSTP, PORT_TYPE_PTP, PORT_TYPE_LONTALK, PORT_TYPE_BIP, PORT_TYPE_ZIGBEE, PORT_TYPE_VIRTUAL, PORT_TYPE_NON_BACNET, PORT_TYPE_BIP6, PORT_TYPE_BSC, PORT_TYPE_MAX }; const int known_fail_property_list[] = { PROP_IP_DNS_SERVER, PROP_BBMD_BROADCAST_DISTRIBUTION_TABLE, PROP_BBMD_FOREIGN_DEVICE_TABLE, PROP_FD_BBMD_ADDRESS, PROP_IPV6_DNS_SERVER, PROP_ISSUER_CERTIFICATE_FILES, PROP_SC_HUB_FUNCTION_CONNECTION_STATUS, PROP_SC_DIRECT_CONNECT_CONNECTION_STATUS, PROP_SC_FAILED_CONNECTION_REQUESTS, -1 }; while (port_type[port] != PORT_TYPE_MAX) { Network_Port_Init(); object_instance = 1234; status = Network_Port_Object_Instance_Number_Set(0, object_instance); zassert_true(status, NULL); status = Network_Port_Type_Set(object_instance, port_type[port]); zassert_true(status, NULL); count = Network_Port_Count(); zassert_true(count > 0, NULL); status = Network_Port_Description_Set(object_instance, "Test Port"); zassert_true(status, NULL); status = Network_Port_Out_Of_Service_Set(object_instance, true); zassert_true(status, NULL); status = Network_Port_Out_Of_Service(object_instance); zassert_true(status, NULL); status = Network_Port_Out_Of_Service_Set(object_instance, false); zassert_true(status, NULL); status = Network_Port_Out_Of_Service(object_instance); zassert_false(status, NULL); status = Network_Port_Reliability_Set( object_instance, RELIABILITY_NO_FAULT_DETECTED); zassert_true(status, NULL); status = Network_Port_Network_Number_Set(object_instance, 0); zassert_true(status, NULL); status = Network_Port_Quality_Set(object_instance, PORT_QUALITY_UNKNOWN); zassert_true(status, NULL); status = Network_Port_MAC_Address_Set(object_instance, NULL, 0); zassert_false(status, NULL); mac_len = Network_Port_MAC_Address_Value(object_instance, NULL, 0); if (mac_len > 0) { /* test for ports that have a MAC address */ zassert_not_equal(mac_len, 0, NULL); status = Network_Port_MAC_Address_Set(object_instance, address, mac_len); zassert_true(status, NULL); zassert_equal( Network_Port_MAC_Address_Value( object_instance, test_address, sizeof(test_address)), mac_len, NULL); zassert_mem_equal(test_address, address, mac_len, NULL); } status = Network_Port_APDU_Length_Set(object_instance, MAX_APDU); zassert_true(status, NULL); status = Network_Port_Link_Speed_Set(object_instance, 0); zassert_true(status, NULL); status = Network_Port_Changes_Pending_Set(object_instance, false); zassert_true(status, NULL); Network_Port_Changes_Pending_Activate_Callback_Set( object_instance, NULL); Network_Port_Changes_Pending_Discard(object_instance); Network_Port_Changes_Pending_Discard_Callback_Set( object_instance, NULL); if (port_type[port] == PORT_TYPE_MSTP) { status = Network_Port_MSTP_MAC_Address_Set(object_instance, 127); zassert_true(status, NULL); address[0] = Network_Port_MSTP_MAC_Address(object_instance); zassert_equal(address[0], 127, NULL); status = Network_Port_MSTP_Max_Info_Frames_Set(object_instance, 1); zassert_true(status, NULL); zassert_equal( Network_Port_MSTP_Max_Info_Frames(object_instance), 1, NULL); } if (port_type[port] == PORT_TYPE_BIP) { status = Network_Port_IP_Address_Set(object_instance, 1, 2, 3, 4); zassert_true(status, NULL); status = Network_Port_IP_Subnet_Prefix_Set(object_instance, 24); zassert_true(status, NULL); ip_prefix = Network_Port_IP_Subnet_Prefix(object_instance); zassert_equal(ip_prefix, 24, NULL); status = Network_Port_IP_Gateway_Set(object_instance, 5, 6, 7, 8); zassert_true(status, NULL); status = Network_Port_IP_DHCP_Enable_Set(object_instance, true); zassert_true(status, NULL); status = Network_Port_IP_DHCP_Enable(object_instance); zassert_true(status, NULL); status = Network_Port_IP_DNS_Server_Set( object_instance, 0, 9, 10, 11, 12); zassert_true(status, NULL); status = Network_Port_BIP_Port_Set(object_instance, 47808); zassert_true(status, NULL); status = Network_Port_BIP_Mode_Set( object_instance, BACNET_IP_MODE_NORMAL); zassert_true(status, NULL); zassert_equal( Network_Port_BIP_Mode(object_instance), BACNET_IP_MODE_NORMAL, NULL); status = Network_Port_BBMD_Accept_FD_Registrations_Set( object_instance, true); zassert_true(status, NULL); status = Network_Port_BBMD_BD_Table_Set(object_instance, NULL); zassert_true(status, NULL); zassert_is_null(Network_Port_BBMD_BD_Table(object_instance), NULL); status = Network_Port_BBMD_FD_Table_Set(object_instance, NULL); zassert_true(status, NULL); zassert_is_null(Network_Port_BBMD_FD_Table(object_instance), NULL); status = Network_Port_Remote_BBMD_IP_Address( object_instance, NULL, NULL, NULL, NULL); zassert_true(status, NULL); status = Network_Port_Remote_BBMD_IP_Address_Set( object_instance, 1, 2, 3, 4); zassert_true(status, NULL); status = Network_Port_Remote_BBMD_BIP_Port_Set(object_instance, 47808); zassert_true(status, NULL); zassert_equal( Network_Port_Remote_BBMD_BIP_Port(object_instance), 47808, NULL); status = Network_Port_Remote_BBMD_BIP_Lifetime_Set(object_instance, 60); zassert_true(status, NULL); zassert_equal( Network_Port_Remote_BBMD_BIP_Lifetime(object_instance), 60, NULL); } if (port_type[port] == PORT_TYPE_BIP6) { status = Network_Port_IPv6_Address_Set(object_instance, address); zassert_true(status, NULL); status = Network_Port_BBMD_IP6_Accept_FD_Registrations_Set( object_instance, true); zassert_true(status, NULL); zassert_true( Network_Port_BBMD_IP6_Accept_FD_Registrations(object_instance), NULL); status = Network_Port_BBMD_IP6_BD_Table_Set(object_instance, NULL); zassert_true(status, NULL); zassert_is_null( Network_Port_BBMD_IP6_BD_Table(object_instance), NULL); status = Network_Port_BBMD_IP6_FD_Table_Set(object_instance, NULL); zassert_true(status, NULL); zassert_is_null( Network_Port_BBMD_IP6_FD_Table(object_instance), NULL); status = Network_Port_Remote_BBMD_IP6_Address(object_instance, address); zassert_true(status, NULL); status = Network_Port_Remote_BBMD_IP6_Address_Set( object_instance, address); zassert_true(status, NULL); status = Network_Port_Remote_BBMD_BIP6_Port_Set(object_instance, 47808); zassert_true(status, NULL); zassert_equal( Network_Port_Remote_BBMD_BIP6_Port(object_instance), 47808, NULL); status = Network_Port_Remote_BBMD_BIP6_Lifetime_Set(object_instance, 60); zassert_true(status, NULL); zassert_equal( Network_Port_Remote_BBMD_BIP6_Lifetime(object_instance), 60, NULL); status = Network_Port_BIP6_Mode_Set( object_instance, BACNET_IP_MODE_NORMAL); zassert_true(status, NULL); zassert_equal( Network_Port_BIP6_Mode(object_instance), BACNET_IP_MODE_NORMAL, NULL); status = Network_Port_IPv6_Address_Set(object_instance, address); zassert_true(status, NULL); status = Network_Port_IPv6_Subnet_Prefix_Set(object_instance, 24); zassert_true(status, NULL); status = Network_Port_IPv6_Gateway_Set(object_instance, address); zassert_true(status, NULL); status = Network_Port_IPv6_DNS_Server_Set(object_instance, 0, address); zassert_true(status, NULL); status = Network_Port_IPv6_Multicast_Address_Set( object_instance, address); zassert_true(status, NULL); status = Network_Port_IPv6_DHCP_Server_Set(object_instance, address); zassert_true(status, NULL); status = Network_Port_BIP6_Port_Set(object_instance, 47808); zassert_true(status, NULL); zassert_equal(Network_Port_BIP6_Port(object_instance), 47808, NULL); status = Network_Port_IPv6_Gateway_Zone_Index_Set( object_instance, "eth0"); zassert_true(status, NULL); zassert_equal( strcmp( Network_Port_IPv6_Zone_Index_ASCII(object_instance), "eth0"), 0, NULL); status = Network_Port_IPv6_Auto_Addressing_Enable_Set( object_instance, true); zassert_true(status, NULL); zassert_true( Network_Port_IPv6_Auto_Addressing_Enable(object_instance), NULL); } /* generic R/W property test */ bacnet_object_properties_read_write_test( OBJECT_NETWORK_PORT, object_instance, Network_Port_Property_Lists, Network_Port_Read_Property, Network_Port_Write_Property, known_fail_property_list); bacnet_object_name_ascii_test( object_instance, Network_Port_Name_Set, Network_Port_Object_Name_ASCII); port++; Network_Port_Changes_Activate(); Network_Port_Changes_Discard(); Network_Port_Cleanup(); } return; } /** * @} */ static void test_network_port_pending_param(void) { #ifdef BACDL_BSC /* for decode value data */ unsigned count = 0; uint32_t object_instance = 0; bool status = false; #if (BSC_CONF_HUB_FUNCTIONS_NUM != 0) || (BSC_CONF_HUB_CONNECTORS_NUM != 0) bool val; BACNET_CHARACTER_STRING str; #endif #define PRIMARY_HUB_URL1 "SC_Primary_Hub_URI_test" #define PRIMARY_HUB_URL2 "SC_Primary_Hub_URI_test2" #define FAILOVER_HUB_URL1 "SC_Failover_Hub_URI_test" #define FAILOVER_HUB_URL2 "SC_Failover_Hub_URI_test2" #define HUB_BINDING1 "SC_Hub_Function_Binding_test:12345" #define HUB_BINDING2 "SC_Hub_Function_Binding_test2:11111" #define DIRECT_BINDING1 "SC_Direct_Connect_Binding_test:54321" #define DIRECT_BINDING2 "SC_Direct_Connect_Binding_test2:22222" #define DIRECT_BINDING1 "SC_Direct_Connect_Binding_test:54321" #define DIRECT_BINDING2 "SC_Direct_Connect_Binding_test2:22222" #define URL1 "SC_Direct_Connect_Accept_URI1" #define URL2 "SC_Direct_Connect_Accept_URI2" Network_Port_Init(); object_instance = 1234; status = Network_Port_Object_Instance_Number_Set(0, object_instance); zassert_true(status, NULL); status = Network_Port_Type_Set(object_instance, PORT_TYPE_BSC); zassert_true(status, NULL); count = Network_Port_Count(); zassert_true(count > 0, NULL); Network_Port_Max_BVLC_Length_Accepted_Set(object_instance, 1200); Network_Port_Max_NPDU_Length_Accepted_Set(object_instance, 1100); Network_Port_SC_Minimum_Reconnect_Time_Set(object_instance, 2); Network_Port_SC_Maximum_Reconnect_Time_Set(object_instance, 5); Network_Port_SC_Connect_Wait_Timeout_Set(object_instance, 40); Network_Port_SC_Disconnect_Wait_Timeout_Set(object_instance, 10); Network_Port_SC_Heartbeat_Timeout_Set(object_instance, 3); // write properties #if BSC_CONF_HUB_FUNCTIONS_NUM != 0 Network_Port_SC_Primary_Hub_URI_Set(object_instance, PRIMARY_HUB_URL1); Network_Port_SC_Failover_Hub_URI_Set(object_instance, FAILOVER_HUB_URL1); Network_Port_SC_Hub_Function_Enable_Set(object_instance, false); Network_Port_SC_Hub_Function_Binding_Set(object_instance, HUB_BINDING1); Network_Port_SC_Hub_Function_Accept_URI_Set(object_instance, 0, URL1); #endif /* BSC_CONF_HUB_FUNCTIONS_NUM!=0 */ #if BSC_CONF_HUB_CONNECTORS_NUM != 0 Network_Port_SC_Direct_Connect_Initiate_Enable_Set(object_instance, false); Network_Port_SC_Direct_Connect_Accept_Enable_Set(object_instance, false); Network_Port_SC_Direct_Connect_Binding_Set( object_instance, DIRECT_BINDING1); Network_Port_SC_Direct_Connect_Accept_URI_Set(object_instance, 0, URL1); #endif /* BSC_CONF_HUB_CONNECTORS_NUM!=0 */ // write dirty properties Network_Port_Max_BVLC_Length_Accepted_Dirty_Set(object_instance, 1250); Network_Port_Max_NPDU_Length_Accepted_Dirty_Set(object_instance, 1150); Network_Port_SC_Minimum_Reconnect_Time_Dirty_Set(object_instance, 3); Network_Port_SC_Maximum_Reconnect_Time_Dirty_Set(object_instance, 4); Network_Port_SC_Connect_Wait_Timeout_Dirty_Set(object_instance, 50); Network_Port_SC_Disconnect_Wait_Timeout_Dirty_Set(object_instance, 15); Network_Port_SC_Heartbeat_Timeout_Dirty_Set(object_instance, 6); #if BSC_CONF_HUB_FUNCTIONS_NUM != 0 Network_Port_SC_Primary_Hub_URI_Dirty_Set( object_instance, PRIMARY_HUB_URL2); Network_Port_SC_Failover_Hub_URI_Dirty_Set( object_instance, FAILOVER_HUB_URL2); Network_Port_SC_Hub_Function_Enable_Dirty_Set(object_instance, true); Network_Port_SC_Hub_Function_Binding_Dirty_Set( object_instance, HUB_BINDING2); Network_Port_SC_Hub_Function_Accept_URI_Dirty_Set(object_instance, 0, URL2); #endif /* BSC_CONF_HUB_FUNCTIONS_NUM!=0 */ #if BSC_CONF_HUB_CONNECTORS_NUM != 0 Network_Port_SC_Direct_Connect_Initiate_Enable_Dirty_Set( object_instance, true); Network_Port_SC_Direct_Connect_Accept_Enable_Dirty_Set( object_instance, true); Network_Port_SC_Direct_Connect_Binding_Dirty_Set( object_instance, DIRECT_BINDING2); Network_Port_SC_Direct_Connect_Accept_URI_Dirty_Set( object_instance, 0, URL2); #endif /* BSC_CONF_HUB_CONNECTORS_NUM!=0 */ // check old value zassert_true( Network_Port_Max_BVLC_Length_Accepted(object_instance) == 1200, NULL); zassert_true( Network_Port_Max_NPDU_Length_Accepted(object_instance) == 1100, NULL); zassert_true( Network_Port_SC_Minimum_Reconnect_Time(object_instance) == 2, NULL); zassert_true( Network_Port_SC_Maximum_Reconnect_Time(object_instance) == 5, NULL); zassert_true( Network_Port_SC_Connect_Wait_Timeout(object_instance) == 40, NULL); zassert_true( Network_Port_SC_Disconnect_Wait_Timeout(object_instance) == 10, NULL); zassert_true(Network_Port_SC_Heartbeat_Timeout(object_instance) == 3, NULL); #if BSC_CONF_HUB_FUNCTIONS_NUM != 0 Network_Port_SC_Primary_Hub_URI(object_instance, &str); zassert_true( strncmp( characterstring_value(&str), PRIMARY_HUB_URL1, characterstring_length(&str)) == 0, NULL); Network_Port_SC_Failover_Hub_URI(object_instance, &str); zassert_true( strncmp( characterstring_value(&str), FAILOVER_HUB_URL1, characterstring_length(&str)) == 0, NULL); val = Network_Port_SC_Hub_Function_Enable(object_instance); zassert_true(val == false, NULL); Network_Port_SC_Hub_Function_Binding(object_instance, &str); zassert_true( strncmp( characterstring_value(&str), HUB_BINDING1, characterstring_length(&str)) == 0, NULL); Network_Port_SC_Hub_Function_Accept_URI(object_instance, 0, &str); zassert_true( strncmp( characterstring_value(&str), URL1, characterstring_length(&str)) == 0, NULL); #endif /* BSC_CONF_HUB_FUNCTIONS_NUM!=0 */ #if BSC_CONF_HUB_CONNECTORS_NUM != 0 val = Network_Port_SC_Direct_Connect_Initiate_Enable(object_instance); zassert_true(val == false, NULL); val = Network_Port_SC_Direct_Connect_Accept_Enable(object_instance); zassert_true(val == false, NULL); Network_Port_SC_Direct_Connect_Binding(object_instance, &str); zassert_true( strncmp( characterstring_value(&str), DIRECT_BINDING1, characterstring_length(&str)) == 0, NULL); Network_Port_SC_Direct_Connect_Accept_URI(object_instance, 0, &str); zassert_true( strncmp( characterstring_value(&str), URL1, characterstring_length(&str)) == 0, NULL); #endif /* BSC_CONF_HUB_CONNECTORS_NUM!=0 */ // apply Network_Port_Changes_Pending_Activate(object_instance); // check new value zassert_true( Network_Port_Max_BVLC_Length_Accepted(object_instance) == 1250, NULL); zassert_true( Network_Port_Max_NPDU_Length_Accepted(object_instance) == 1150, NULL); zassert_true( Network_Port_SC_Minimum_Reconnect_Time(object_instance) == 3, NULL); zassert_true( Network_Port_SC_Maximum_Reconnect_Time(object_instance) == 4, NULL); zassert_true( Network_Port_SC_Connect_Wait_Timeout(object_instance) == 50, NULL); zassert_true( Network_Port_SC_Disconnect_Wait_Timeout(object_instance) == 15, NULL); zassert_true(Network_Port_SC_Heartbeat_Timeout(object_instance) == 6, NULL); #if BSC_CONF_HUB_FUNCTIONS_NUM != 0 Network_Port_SC_Primary_Hub_URI(object_instance, &str); zassert_true( strncmp( characterstring_value(&str), PRIMARY_HUB_URL2, characterstring_length(&str)) == 0, NULL); Network_Port_SC_Failover_Hub_URI(object_instance, &str); zassert_true( strncmp( characterstring_value(&str), FAILOVER_HUB_URL2, characterstring_length(&str)) == 0, NULL); val = Network_Port_SC_Hub_Function_Enable(object_instance); zassert_true(val == true, NULL); Network_Port_SC_Hub_Function_Binding(object_instance, &str); zassert_true( strncmp( characterstring_value(&str), HUB_BINDING2, characterstring_length(&str)) == 0, NULL); Network_Port_SC_Hub_Function_Accept_URI(object_instance, 0, &str); zassert_true( strncmp( characterstring_value(&str), URL2, characterstring_length(&str)) == 0, NULL); #endif /* BSC_CONF_HUB_FUNCTIONS_NUM!=0 */ #if BSC_CONF_HUB_CONNECTORS_NUM != 0 val = Network_Port_SC_Direct_Connect_Initiate_Enable(object_instance); zassert_true(val == true, NULL); val = Network_Port_SC_Direct_Connect_Accept_Enable(object_instance); zassert_true(val == true, NULL); Network_Port_SC_Direct_Connect_Binding(object_instance, &str); zassert_true( strncmp( characterstring_value(&str), DIRECT_BINDING2, characterstring_length(&str)) == 0, NULL); Network_Port_SC_Direct_Connect_Accept_URI(object_instance, 0, &str); zassert_true( strncmp( characterstring_value(&str), URL2, characterstring_length(&str)) == 0, NULL); #endif /* BSC_CONF_HUB_CONNECTORS_NUM!=0 */ #endif /* BACDL_BSC */ return; } static void test_network_port_sc_direct_connect_accept_uri(void) { #if defined(BACDL_BSC) && (BSC_CONF_HUB_CONNECTORS_NUM != 0) #define URL1 "SC_Direct_Connect_Accept_URI1" #define URL2 "SC_Direct_Connect_Accept_URI2" #define URL3 "SC_Direct_Connect_Accept_URI3" #define URL_SMALL "bla-bla-bla" #define URL_BIG "big-bla-big-bla-big-bla-big-bla-big-bla" char urls0[] = URL1 " " URL2 " " URL3; char urls1[] = URL1 " " URL_SMALL " " URL3; char urls2[] = URL1 " " URL_BIG " " URL3; char urls3[] = URL1 " " URL_BIG " " URL3 " " URL_SMALL; char urls4[] = URL1 " " URL_BIG " " URL3 " " URL_SMALL " " URL_BIG; unsigned count = 0; uint32_t object_instance = 0; bool status = false; BACNET_CHARACTER_STRING str = { 0 }; Network_Port_Init(); object_instance = 1234; status = Network_Port_Object_Instance_Number_Set(0, object_instance); zassert_true(status, NULL); count = Network_Port_Count(); zassert_true(count > 0, NULL); // init Network_Port_SC_Direct_Connect_Accept_URIs_Set(object_instance, urls0); zassert_true( strcmp( Network_Port_SC_Direct_Connect_Accept_URIs_char(object_instance), urls0) == 0, NULL); zassert_true( Network_Port_SC_Direct_Connect_Accept_URI(object_instance, 0, &str), NULL); zassert_true( strncmp( characterstring_value(&str), URL1, characterstring_length(&str)) == 0, NULL); zassert_true( Network_Port_SC_Direct_Connect_Accept_URI(object_instance, 1, &str), NULL); zassert_true( strncmp( characterstring_value(&str), URL2, characterstring_length(&str)) == 0, NULL); zassert_true( Network_Port_SC_Direct_Connect_Accept_URI(object_instance, 2, &str), NULL); zassert_true( strncmp( characterstring_value(&str), URL3, characterstring_length(&str)) == 0, NULL); // change zassert_true( Network_Port_SC_Direct_Connect_Accept_URI_Set( object_instance, 1, URL_SMALL), NULL); zassert_true( strcmp( Network_Port_SC_Direct_Connect_Accept_URIs_char(object_instance), urls1) == 0, NULL); zassert_true( Network_Port_SC_Direct_Connect_Accept_URI_Set( object_instance, 1, URL_BIG), NULL); zassert_true( strcmp( Network_Port_SC_Direct_Connect_Accept_URIs_char(object_instance), urls2) == 0, NULL); // append zassert_true( Network_Port_SC_Direct_Connect_Accept_URI_Set( object_instance, 4, URL_SMALL), NULL); zassert_true( strcmp( Network_Port_SC_Direct_Connect_Accept_URIs_char(object_instance), urls3) == 0, NULL); zassert_true( Network_Port_SC_Direct_Connect_Accept_URI_Set( object_instance, 4, URL_BIG), NULL); zassert_true( strcmp( Network_Port_SC_Direct_Connect_Accept_URIs_char(object_instance), urls4) == 0, NULL); // check last zassert_true( Network_Port_SC_Direct_Connect_Accept_URI(object_instance, 0, &str), NULL); zassert_true(strcmp(characterstring_value(&str), URL1) == 0, NULL); zassert_true( Network_Port_SC_Direct_Connect_Accept_URI(object_instance, 1, &str), NULL); zassert_true(strcmp(characterstring_value(&str), URL_BIG) == 0, NULL); zassert_true( Network_Port_SC_Direct_Connect_Accept_URI(object_instance, 2, &str), NULL); zassert_true(strcmp(characterstring_value(&str), URL3) == 0, NULL); zassert_true( Network_Port_SC_Direct_Connect_Accept_URI(object_instance, 3, &str), NULL); zassert_true(strcmp(characterstring_value(&str), URL_SMALL) == 0, NULL); zassert_true( Network_Port_SC_Direct_Connect_Accept_URI(object_instance, 4, &str), NULL); zassert_true( strncmp( characterstring_value(&str), URL_BIG, characterstring_length(&str)) == 0, NULL); #endif /* BACDL_BSC && BSC_CONF_HUB_CONNECTORS_NUM!=0 */ return; } #define BACFILE_START 0 static void test_network_port_sc_certificates(void) { #ifdef BACDL_BSC unsigned count = 0; uint32_t instance = 0; uint32_t file_instance = 0; bool status = false; char *filename_ca_cert = "ca_cert.pem"; char *filename_cert = "cert.pem"; char *filename_key = "key.pem"; Network_Port_Init(); instance = 1234; status = Network_Port_Object_Instance_Number_Set(0, instance); zassert_true(status, NULL); count = Network_Port_Count(); zassert_true(count > 0, NULL); bacfile_init(); // CA certificate status = bacfile_create(BSC_ISSUER_CERTIFICATE_FILE_1_INSTANCE); zassert_true(status, NULL); bacfile_pathname_set( BSC_ISSUER_CERTIFICATE_FILE_1_INSTANCE, filename_ca_cert); status = Network_Port_Issuer_Certificate_File_Set( instance, 0, BSC_ISSUER_CERTIFICATE_FILE_1_INSTANCE); zassert_true(status, NULL); file_instance = Network_Port_Issuer_Certificate_File(instance, 0); zassert_equal(file_instance, BSC_ISSUER_CERTIFICATE_FILE_1_INSTANCE, NULL); status = bacfile_create(BSC_OPERATIONAL_CERTIFICATE_FILE_INSTANCE); zassert_true(status, NULL); bacfile_pathname_set( BSC_OPERATIONAL_CERTIFICATE_FILE_INSTANCE, filename_cert); status = Network_Port_Operational_Certificate_File_Set( instance, BSC_OPERATIONAL_CERTIFICATE_FILE_INSTANCE); zassert_true(status, NULL); file_instance = Network_Port_Operational_Certificate_File(instance); zassert_equal( file_instance, BSC_OPERATIONAL_CERTIFICATE_FILE_INSTANCE, NULL); status = bacfile_create(BSC_CERTIFICATE_SIGNING_REQUEST_FILE_INSTANCE); zassert_true(status, NULL); bacfile_pathname_set( BSC_CERTIFICATE_SIGNING_REQUEST_FILE_INSTANCE, filename_key); status = Network_Port_Certificate_Key_File_Set( instance, BSC_CERTIFICATE_SIGNING_REQUEST_FILE_INSTANCE); zassert_true(status, NULL); file_instance = Network_Port_Certificate_Key_File(instance); zassert_equal( file_instance, BSC_CERTIFICATE_SIGNING_REQUEST_FILE_INSTANCE, NULL); // reset // check bacfile after reset #endif /* BACDL_BSC */ return; } static void test_network_port_sc_status_encode_decode(void) { #ifdef BACDL_BSC unsigned count = 0; uint32_t instance = 0; bool status = false; BACNET_DATE_TIME ts = { { 2202, 5, 7, 3 }, { 12, 34, 22, 10 } }; BACNET_HOST_N_PORT_DATA peer_address = { 1, "\xef\x00\x00\x10", 50001 }; uint8_t peer_VMAC[BACNET_PEER_VMAC_LENGTH] = { 1, 2, 3, 4, 5, 6 }; uint8_t peer_UUID[16] = { 0 }; BACNET_HOST_N_PORT_DATA peer_address2 = { 1, "\xef\x00\x00\x10", 50002 }; BACNET_READ_PROPERTY_DATA rpdata; BACNET_OBJECT_PROPERTY_VALUE object_value; BACNET_APPLICATION_DATA_VALUE value; /* for decode value data */ uint8_t apdu[MAX_APDU]; int len; int len2; char str[512]; const char REQ_STR[] = "{1946/05/07-12:34:22.10, 239.0.0.16:50001, 1.2.3.4.5.6, " "00000000-0000-0000-0000-000000000000, 38, \"error details\"}"; const char HUB_STATUS_STR[] = "{1946/05/07-12:34:22.10, " "239.0.0.16:50001, 1.2.3.4.5.6, " "00000000-0000-0000-0000-000000000000, 38, " "\"error details\"}"; const char DIRECT_STATUS_STR[] = "{connect url, 3, 1946/05/07-12:34:22.10, 1946/05/07-12:34:22.10, " "239.0.0.16:50001, 1.2.3.4.5.6, 00000000-0000-0000-0000-000000000000, " "38, \"error message of direct status\"}"; const char PRIMARY_HUB_STATUS[] = "{2, 1946/05/07-12:34:22.10, " "1946/05/07-12:34:22.10, 38, \"error message\"}"; const char FAILOVER_HUB_STATUS[] = "{3, 1946/05/07-12:34:22.10, " "1946/05/07-12:34:22.10, 14, \"again error message\"}"; Network_Port_Init(); instance = 1234; status = Network_Port_Object_Instance_Number_Set(0, instance); zassert_true(status, NULL); count = Network_Port_Count(); zassert_true(count > 0, NULL); rpdata.application_data = &apdu[0]; rpdata.application_data_len = sizeof(apdu); rpdata.object_type = OBJECT_NETWORK_PORT; rpdata.object_instance = instance; object_value.object_type = rpdata.object_type; object_value.object_instance = rpdata.object_instance; object_value.value = &value; /* SC_Failed_Connection_Requests */ count = Network_Port_SC_Failed_Connection_Requests_Count(instance); zassert_equal(count, 0, NULL); status = Network_Port_SC_Failed_Connection_Requests_Add( instance, &ts, &peer_address, peer_VMAC, peer_UUID, ERROR_CODE_VT_SESSION_ALREADY_CLOSED, "error details"); zassert_true(status, NULL); count = Network_Port_SC_Failed_Connection_Requests_Count(instance); zassert_equal(count, 1, NULL); object_value.object_property = rpdata.object_property = PROP_SC_FAILED_CONNECTION_REQUESTS; if (property_list_bacnet_array_member( rpdata.object_type, rpdata.object_property)) { object_value.array_index = rpdata.array_index = 0; len = Network_Port_Read_Property(&rpdata); zassert_not_equal(len, -1, NULL); object_value.array_index = rpdata.array_index = 1; len = Network_Port_Read_Property(&rpdata); zassert_not_equal(len, -1, NULL); } object_value.array_index = rpdata.array_index = BACNET_ARRAY_ALL; len = Network_Port_Read_Property(&rpdata); zassert_true(len > 0, NULL); len2 = bacapp_decode_known_property( apdu, len, &value, rpdata.object_type, rpdata.object_property); zassert_equal(len2, len, NULL); len = bacapp_snprintf_value(NULL, 0, &object_value); zassert_true((len > 0) && (len < sizeof(str) - 1), NULL); len2 = bacapp_snprintf_value(str, len + 1, &object_value); zassert_equal(len2, len, NULL); zassert_true(strncmp(str, REQ_STR, strlen(REQ_STR)) == 0, NULL); #if BSC_CONF_HUB_FUNCTIONS_NUM != 0 /* SC_Hub_Function_Connection_Status */ count = Network_Port_SC_Hub_Function_Connection_Status_Count(instance); zassert_equal(count, 0, NULL); status = Network_Port_SC_Hub_Function_Connection_Status_Add( instance, BACNET_SC_CONNECTION_STATE_CONNECTED, &ts, &ts, &peer_address, peer_VMAC, peer_UUID, ERROR_CODE_VT_SESSION_ALREADY_CLOSED, "hided error message"); zassert_true(status, NULL); status = Network_Port_SC_Hub_Function_Connection_Status_Add( instance, BACNET_SC_CONNECTION_STATE_FAILED_TO_CONNECT, &ts, &ts, &peer_address2, peer_VMAC, peer_UUID, ERROR_CODE_VT_SESSION_ALREADY_CLOSED, "error message of hub status"); zassert_true(status, NULL); count = Network_Port_SC_Hub_Function_Connection_Status_Count(instance); zassert_equal(count, 2, NULL); object_value.object_property = rpdata.object_property = PROP_SC_HUB_FUNCTION_CONNECTION_STATUS; if (property_list_bacnet_array_member( rpdata.object_type, rpdata.object_property)) { object_value.array_index = rpdata.array_index = 0; len = Network_Port_Read_Property(&rpdata); zassert_not_equal(len, -1, NULL); // context (error: property is not BacArray) object_value.array_index = rpdata.array_index = 1; len = Network_Port_Read_Property(&rpdata); zassert_not_equal(len, -1, NULL); } len = bacapp_snprintf_value(NULL, 0, &object_value); zassert_true((len > 0) && (len < sizeof(str) - 1), NULL); len2 = bacapp_snprintf_value(str, len + 1, &object_value); zassert_equal(len2, len, NULL); zassert_true( strncmp(str, HUB_STATUS_STR, strlen(HUB_STATUS_STR)) == 0, NULL); /* SC_Primary_Hub_Connection_Status */ status = Network_Port_SC_Primary_Hub_Connection_Status_Set( instance, BACNET_SC_CONNECTION_STATE_DISCONNECTED_WITH_ERRORS, &ts, &ts, ERROR_CODE_VT_SESSION_ALREADY_CLOSED, "error message"); zassert_true(status, NULL); rpdata.array_index = BACNET_ARRAY_ALL; object_value.object_property = rpdata.object_property = PROP_SC_PRIMARY_HUB_CONNECTION_STATUS; // context len = Network_Port_Read_Property(&rpdata); zassert_true(len > 0, NULL); len2 = bacapp_decode_known_property( apdu, len, &value, rpdata.object_type, rpdata.object_property); zassert_equal(len2, len, NULL); len = bacapp_snprintf_value(NULL, 0, &object_value); zassert_true((len > 0) && (len < sizeof(str) - 1), NULL); len2 = bacapp_snprintf_value(str, len + 1, &object_value); zassert_equal(len2, len, NULL); zassert_true( strncmp(str, PRIMARY_HUB_STATUS, strlen(PRIMARY_HUB_STATUS)) == 0, NULL); /* SC_Failover_Hub_Connection_Status */ status = Network_Port_SC_Failover_Hub_Connection_Status_Set( instance, BACNET_SC_CONNECTION_STATE_FAILED_TO_CONNECT, &ts, &ts, ERROR_CODE_INVALID_TIME_STAMP, "again error message"); zassert_true(status, NULL); object_value.object_property = rpdata.object_property = PROP_SC_FAILOVER_HUB_CONNECTION_STATUS; // context len = Network_Port_Read_Property(&rpdata); zassert_true(len > 0, NULL); len2 = bacapp_decode_known_property( apdu, len, &value, rpdata.object_type, rpdata.object_property); zassert_equal(len2, len, NULL); len = bacapp_snprintf_value(NULL, 0, &object_value); zassert_true((len > 0) && (len < sizeof(str) - 1), NULL); len2 = bacapp_snprintf_value(str, len + 1, &object_value); zassert_equal(len2, len, NULL); zassert_true( strncmp(str, FAILOVER_HUB_STATUS, strlen(FAILOVER_HUB_STATUS)) == 0, NULL); #endif /* BSC_CONF_HUB_FUNCTIONS_NUM!=0 */ #if BSC_CONF_HUB_CONNECTORS_NUM != 0 /* SC_Hub_Function_Connection_Status */ count = Network_Port_SC_Direct_Connect_Connection_Status_Count(instance); zassert_equal(count, 0, NULL); status = Network_Port_SC_Direct_Connect_Connection_Status_Add( instance, "connect url", BACNET_SC_CONNECTION_STATE_FAILED_TO_CONNECT, &ts, &ts, &peer_address, peer_VMAC, peer_UUID, ERROR_CODE_VT_SESSION_ALREADY_CLOSED, "error message of direct status"); zassert_true(status, NULL); count = Network_Port_SC_Direct_Connect_Connection_Status_Count(instance); zassert_equal(count, 1, NULL); object_value.object_property = rpdata.object_property = PROP_SC_DIRECT_CONNECT_CONNECTION_STATUS; if (property_list_bacnet_array_member( rpdata.object_type, rpdata.object_property)) { object_value.array_index = rpdata.array_index = 0; len = Network_Port_Read_Property(&rpdata); zassert_not_equal(len, -1, NULL); object_value.array_index = rpdata.array_index = 1; len = Network_Port_Read_Property(&rpdata); zassert_not_equal(len, -1, NULL); } object_value.array_index = rpdata.array_index = BACNET_ARRAY_ALL; len = Network_Port_Read_Property(&rpdata); zassert_true(len > 0, NULL); len2 = bacapp_decode_known_property( apdu, len, &value, rpdata.object_type, rpdata.object_property); zassert_equal(len2, len, NULL); len = bacapp_snprintf_value(NULL, 0, &object_value); zassert_true((len > 0) && (len < sizeof(str) - 1), NULL); len2 = bacapp_snprintf_value(str, len + 1, &object_value); zassert_equal(len2, len, NULL); zassert_true( strncmp(str, DIRECT_STATUS_STR, strlen(DIRECT_STATUS_STR)) == 0, NULL); #endif /* BSC_CONF_HUB_CONNECTORS_NUM!=0 */ #endif /* BACDL_BSC */ return; } #if defined(CONFIG_ZTEST_NEW_API) ZTEST_SUITE(netport_tests, NULL, NULL, NULL, NULL, NULL); #else void test_main(void) { ztest_test_suite( netport_tests, ztest_unit_test(test_network_port), ztest_unit_test(test_network_port_pending_param), ztest_unit_test(test_network_port_sc_direct_connect_accept_uri), ztest_unit_test(test_network_port_sc_certificates), ztest_unit_test(test_network_port_sc_status_encode_decode)); ztest_run_test_suite(netport_tests); } #endif