module OPCAP_CLIENT_Tests { import from OPCAP_Adapter all; import from OPCAP_Types all; import from OPCAP_Templates all; import from IPL4asp_Types all; import from IPL4asp_PortType all; import from Osmocom_Types all; import from Osmocom_VTY_Functions all; import from TELNETasp_PortType all; import from Socket_API_Definitions all; type record IpPort { charstring ip, integer udp_port }; modulepar { /* local IP address listening for OPCAP connections */ charstring mp_local_opcap_ip := "127.0.0.1"; /* local TCP base port for inbound OPCAP connections */ integer mp_local_opcap_port := 5000; /* IP + port for simulating user traffic */ IpPort mp_traffic_a := { "127.0.0.23", 44423 }; IpPort mp_traffic_b := { "127.0.0.42", 44442 }; }; type component test_CT extends OPCAP_Adapter_CT { timer g_Tguard := 30.0; port TELNETasp_PT VTY; /* port to generate IP traffic that may or may not be captured */ port IPL4asp_PT IP; var integer g_traffic_conn_id; }; private altstep as_Tguard() runs on test_CT { [] g_Tguard.timeout { setverdict(fail, "global guard timeout"); mtc.stop; } } /* initialize one of the OPCAP servers, wait for client to connect */ private function f_init_one_srv(integer idx, template (present) uint32_t linktype) runs on test_CT { /* start guard timer */ activate(as_Tguard()); g_Tguard.start; log("Waiting for client-", idx, " connection..."); /* wait for connection */ f_bind(mp_local_opcap_ip, mp_local_opcap_port+idx, idx); f_wait_client_connect(idx); /* wait for file header */ f_opcap_exp(tr_OPCAP_FILE_HDR(linktype), idx); }; /* global initialization */ private function f_init() runs on test_CT { map(self:VTY, system:VTY); f_vty_set_prompts(VTY); f_vty_transceive(VTY, "enable"); map(self:IP, system:IP); var IPL4asp_Types.Result res /* 0 -> 1 */ res := f_IPL4_connect(IP, mp_traffic_b.ip, mp_traffic_b.udp_port, mp_traffic_a.ip, mp_traffic_a.udp_port, -1, { udp:={} }); g_traffic_conn_id := res.connId; } /* generate user traffic from A -> B */ function f_trafic_pkt_ab(octetstring payload) runs on test_CT { IP.send(ASP_Send:{g_traffic_conn_id, omit, payload}) } /* expect a specified UDP payload on the OPCAP connection 'idx' */ function f_opcap_exp_udp(octetstring udp_payload, integer idx) runs on test_CT { var octetstring rx_tail; var integer udp_payload_len, rx_pdu_len; var OPCAP_PDU rx_pdu; udp_payload_len := lengthof(udp_payload); /* sadly I couldn't figure out how to create an octetstring template * for 'match an octetstring ending in 'udp_payload' */ rx_pdu := f_opcap_exp(tr_OPCAP_PKT(?), idx); rx_pdu_len := lengthof(rx_pdu.u.packet.payload); rx_tail := substr(rx_pdu.u.packet.payload, rx_pdu_len - udp_payload_len, udp_payload_len); if (rx_tail != udp_payload) { log("captured UDP payload: ", rx_tail, " but expected: ", udp_payload); setverdict(fail); } else { setverdict(pass); } } /* create an additional pcap-store-connection via the VTY */ function f_vty_create_addl_connection(integer idx) runs on test_CT { f_vty_config3(VTY, { "client", "pcap-store-connectio second-" & int2str(idx) }, { "server ip " & mp_local_opcap_ip, "server port " & int2str(mp_local_opcap_port + idx), "connect" } ); } /* wait for inbound client connection and reception of link header */ testcase TC_connect_rx_hdr() runs on test_CT { f_init(); f_init_one_srv(0, ?); setverdict(pass); } /* check if client connection is re-started after a close */ testcase TC_reconnect(integer idx := 0) runs on test_CT { f_init(); f_init_one_srv(idx, ?); f_sleep(2.0); log("Disconnecting client-", idx); f_disconnect(idx); f_wait_client_connect(idx); f_opcap_exp(tr_OPCAP_FILE_HDR(?), idx); setverdict(pass); } /* capture a packet that's within the filter */ testcase TC_capture() runs on test_CT { f_init(); f_init_one_srv(0, ?); for (var integer i := 0; i < 10; i := i + 1) { var octetstring udp_payload; /* we assume 1400 is low enough to avoid IP fragmentation */ udp_payload := f_rnd_octstring(f_rnd_int(1400)); f_trafic_pkt_ab(udp_payload); f_opcap_exp_udp(udp_payload, 0); } } /* wait for inbound client connections and reception of link header */ testcase TC_multi_connect_rx_hdr() runs on test_CT { f_init(); f_init_one_srv(0, ?); f_vty_create_addl_connection(1); f_init_one_srv(1, ?); setverdict(pass); } /* ensure a packet that's within the filter is sent to secondary clients */ testcase TC_multi_capture() runs on test_CT { f_init(); f_init_one_srv(0, ?); f_vty_create_addl_connection(1); f_init_one_srv(1, ?); for (var integer i := 0; i < 10; i := i + 1) { var octetstring udp_payload; /* we assume 1400 is low enough to avoid IP fragmentation */ udp_payload := f_rnd_octstring(f_rnd_int(1400)); f_trafic_pkt_ab(udp_payload); /* expect packet to arrive on both simulated servers */ f_opcap_exp_udp(udp_payload, 0); f_opcap_exp_udp(udp_payload, 1); } } /* TODO: ensure a packet outside the filter is dropped */ /* TODO: capture of truncated packet */ /* TODO: stall the receive window */ /* TODO: different link type (ethernet, not SLL) */ control { execute( TC_connect_rx_hdr() ); execute( TC_reconnect() ); execute( TC_capture() ); execute( TC_multi_connect_rx_hdr() ); execute( TC_multi_capture() ); }; };