module NS_Tests { /* Osmocom NS test suite for NS over framerelay or udp ip.access style in TTCN-3 * (C) 2021 sysmocom s.f.m.c. GmbH * Author: Alexander Couzens * All rights reserved. * * Released under the terms of GNU General Public License, Version 2 or * (at your option) any later version. * * SPDX-License-Identifier: GPL-2.0-or-later */ import from General_Types all; import from Osmocom_Types all; import from Osmocom_Gb_Types all; import from NS_Types all; import from BSSGP_Types all; import from UD_Types all; import from NS_Emulation all; import from Native_Functions all; import from IPL4asp_Types all; import from RAW_NS all; import from Osmocom_VTY_Functions all; import from TELNETasp_PortType all; type enumerated SnsRole { SNS_ROLE_BSS ('00'H), SNS_ROLE_SGSN ('01'H) }; modulepar { SnsRole mp_sns_role := SNS_ROLE_BSS; OsmoNsDialect mp_dialect := NS2_DIALECT_IPACCESS; NSConfiguration mp_nsconfig := { nsei := 96, role_sgsn := false, handle_sns := false, nsvc := { { provider := { ip := { address_family := AF_INET, local_udp_port := 21000, local_ip := "127.0.0.1", remote_udp_port := 23000, remote_ip := "127.0.0.1", data_weight := 2, signalling_weight := 2 } }, nsvci := 97 }, { provider := { ip := { address_family := AF_INET, local_udp_port := 21000, local_ip := "127.0.0.1", remote_udp_port := 23001, remote_ip := "127.0.0.1", data_weight := 1, signalling_weight := 1 } }, nsvci := 98 } } }; } type component RAW_Test_CT extends RAW_NS_CT { port TELNETasp_PT NSVTY; } private function f_init_vty() runs on RAW_Test_CT { map(self:NSVTY, system:NSVTY); f_vty_set_prompts(NSVTY); f_vty_transceive(NSVTY, "enable"); f_vty_config2(NSVTY, {}, "mirror-mode disable"); f_vty_transceive(NSVTY, "nsvc nsei " & int2str(mp_nsconfig.nsei) & " force-unconfigured"); if (mp_dialect == NS2_DIALECT_SNS) { f_vty_config2(NSVTY, {"ns", "nse " & int2str(mp_nsconfig.nsei)}, "ip-sns-bind local"); f_vty_config2(NSVTY, {"ns", "nse " & int2str(mp_nsconfig.nsei)}, "no ip-sns-bind local2"); f_vty_config2(NSVTY, {"ns", "bind udp local"}, "ip-sns signalling-weight 1 data-weight 1"); f_vty_config2(NSVTY, {"ns", "bind udp local2"}, "ip-sns signalling-weight 1 data-weight 1"); } } /* ensure no matching message is received within 'tout' */ function f_ensure_no_ns(integer idx := 0, boolean answer_alive := false, float tout := 3.0) runs on RAW_Test_CT { var PDU_NS nrf; timer T := tout; var default d := activate(ax_rx_fail_on_any_ns(idx)); T.start; alt { [answer_alive] as_rx_alive_tx_ack(); [] T.timeout { setverdict(pass); } } deactivate(d); } function f_fails_except_reset(integer idx := 0, float tout := 15.0) runs on RAW_Test_CT { var PDU_NS nrf; timer T := 15.0; T.start; alt { [] NSCP[idx].receive(tr_NS_RESET(*, *, *)) { repeat; } [] NSCP[idx].receive(PDU_NS: ?) -> value nrf { setverdict(fail, "Received unexpected NS: ", nrf); mtc.stop; } [] T.timeout { setverdict(pass); } } } testcase TC_tx_reset() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 10.0); /* do a NS Reset procedure */ f_outgoing_ns_reset(); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } testcase TC_tx_reset_tx_alive() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 10.0); /* do a NS Reset procedure */ f_outgoing_ns_reset(); /* check outgoing NS procedure */ f_outgoing_ns_alive(); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } testcase TC_tx_reset_rx_alive() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 10.0); /* do a NS Reset procedure */ f_outgoing_ns_reset(); activate(as_rx_ns_unblock_ack()); /* check outgoing NS procedure */ as_rx_alive_tx_ack(oneshot := true); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.2.1 transmit a UNIT DATA over a BLOCKED NSVC when ttcn3 blocked it * * TTCN -> NS: reset * TTCN <- NS: reset ack * TTCN -> NS: unblock * TTCN <- NS: unblock ack * TTCN -> NS: block * TTCN <- NS: block ack * TTCN -> NS: unitdata * TTCN <- NS: status (cause blocked) */ testcase TC_tx_block_unitdata_over_blocked() runs on RAW_Test_CT { f_tx_block(); f_sleep(1.0); NSCP[0].send(ts_NS_UNITDATA(t_SduCtrlB, 42, '0011234242230101'O)); f_ns_exp(tr_NS_STATUS(NS_CAUSE_NSVC_BLOCKED)); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.2.1 transmit a UNIT DATA over a BLOCKED NSVC when ns2 blocked it * * TTCN -> NS: reset * TTCN <- NS: reset ack * TTCN -> NS: unblock * TTCN <- NS: unblock ack * TTCN <- NS: block * TTCN -> NS: block ack * TTCN -> NS: unitdata * TTCN <- NS: status (cause blocked) */ testcase TC_rx_block_unitdata_over_blocked() runs on RAW_Test_CT { f_tx_block_by_vty(); f_sleep(1.0); NSCP[0].send(ts_NS_UNITDATA(t_SduCtrlB, 42, '0011234242230101'O)); f_ns_exp(tr_NS_STATUS(NS_CAUSE_NSVC_BLOCKED)); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.2 unblock procedure * * TTCN -> NS: reset * TTCN <- NS: reset ack * TTCN -> NS: unblock * TTCN <- NS: unblock ack */ function f_tx_unblock() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); /* do a NS Reset procedure */ f_outgoing_ns_reset(); /* send alive acks */ activate(as_rx_alive_tx_ack()); f_outgoing_ns_unblock(); setverdict(pass); } testcase TC_tx_unblock() runs on RAW_Test_CT { f_tx_unblock(); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.2 tx unblock retries * * TTCN -> NS: reset * TTCN <- NS: reset ack * TTCN -> NS: unblock * TTCN <- NS: unblock ack * TTCN -> NS: unblock * TTCN <- NS: unblock ack * TTCN -> NS: unblock * TTCN <- NS: unblock ack */ testcase TC_tx_unblock_retries() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); /* do a NS Reset procedure */ f_outgoing_ns_reset(); /* send alive acks */ activate(as_rx_alive_tx_ack()); f_outgoing_ns_unblock(); f_outgoing_ns_unblock(); f_outgoing_ns_unblock(); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.2 block procedure * * TTCN -> NS: reset * TTCN <- NS: reset ack * TTCN -> NS: unblock * TTCN <- NS: unblock ack * TTCN -> NS: block * TTCN <- NS: block ack */ function f_tx_block(float guard_secs := 30.0) runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := guard_secs); /* do a NS Reset procedure */ f_outgoing_ns_reset(); activate(as_rx_alive_tx_ack()); f_outgoing_ns_unblock(); f_sleep(1.0); f_outgoing_ns_block(NS_CAUSE_EQUIPMENT_FAILURE); setverdict(pass); f_sleep(1.0); } testcase TC_tx_block() runs on RAW_Test_CT { f_tx_block() f_clean_ns_codec(); } /* 48.016 7.2 block procedure by vty * * TTCN -> NS: reset * TTCN <- NS: reset ack * TTCN -> NS: unblock * TTCN <- NS: unblock ack * vty: block nsvc * TTCN <- NS: block * TTCN -> NS: block ack */ function f_tx_block_by_vty(float guard_secs := 30.0) runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := guard_secs); /* do a NS Reset procedure */ f_outgoing_ns_reset(); activate(as_rx_alive_tx_ack()); f_outgoing_ns_unblock(); f_sleep(1.0); f_vty_transceive(NSVTY, "nsvc " & int2str(mp_nsconfig.nsvc[0].nsvci) & " block"); alt { [] as_rx_ns_block_ack(oneshot := true, nsvci := mp_nsconfig.nsvc[0].nsvci); } setverdict(pass); } testcase TC_tx_block_by_vty() runs on RAW_Test_CT { f_tx_block_by_vty(30.0); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.2 block precedure by vty and reset the NSVC. * The NSVC should be still blocked after the reset. */ testcase TC_tx_block_by_vty_reset() runs on RAW_Test_CT { timer T := 10.0; f_tx_block_by_vty(60.0); f_outgoing_ns_reset(); var default d := activate(ax_rx_fail_on_any_ns()); T.start; alt { [] as_rx_alive_tx_ack(); [] T.timeout { setverdict(pass); } } deactivate(d); f_clean_ns_codec(); } /* 48.016 7.4.1 ignore unexpected NS_ALIVE ACK */ testcase TC_no_reset_alive_ack() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); NSCP[0].send(t_NS_ALIVE_ACK); f_fails_except_reset(); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.3.1 NS_RESET with wrong nsei */ testcase TC_reset_wrong_nsei() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); NSCP[0].send(ts_NS_RESET(NS_CAUSE_EQUIPMENT_FAILURE, g_nsconfig.nsvc[0].nsvci, g_nsconfig.nsei + 20)); NSCP[0].receive(tr_NS_RESET_ACK(g_nsconfig.nsvc[0].nsvci, g_nsconfig.nsei)); f_fails_except_reset(); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.3.1 NS_RESET with wrong nsvci */ testcase TC_reset_wrong_nsvci() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); NSCP[0].send(ts_NS_RESET(NS_CAUSE_EQUIPMENT_FAILURE, g_nsconfig.nsvc[0].nsvci + 20, g_nsconfig.nsei)); NSCP[0].receive(tr_NS_RESET_ACK(g_nsconfig.nsvc[0].nsvci, g_nsconfig.nsei)); f_fails_except_reset(); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.3.1 NS_RESET with wrong nsvci + nsei */ testcase TC_reset_wrong_nsei_nsvci() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); NSCP[0].send(ts_NS_RESET(NS_CAUSE_EQUIPMENT_FAILURE, g_nsconfig.nsvc[0].nsvci + 20, g_nsconfig.nsei + 20)); NSCP[0].receive(tr_NS_RESET_ACK(g_nsconfig.nsvc[0].nsvci, g_nsconfig.nsei)); f_fails_except_reset(); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.3.1 NS_RESET_ACK with wrong nsei */ testcase TC_reset_ack_wrong_nsei() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); NSCP[0].receive(tr_NS_RESET(*, g_nsconfig.nsvc[0].nsvci, g_nsconfig.nsei)); NSCP[0].send(ts_NS_RESET_ACK(g_nsconfig.nsvc[0].nsvci, g_nsconfig.nsei + 20)); f_fails_except_reset(); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.3.1 NS_RESET_ACK with wrong nsvci */ testcase TC_reset_ack_wrong_nsvci() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); NSCP[0].receive(tr_NS_RESET(*, g_nsconfig.nsvc[0].nsvci, g_nsconfig.nsei)); NSCP[0].send(ts_NS_RESET_ACK(g_nsconfig.nsvc[0].nsvci + 20, g_nsconfig.nsei)); f_fails_except_reset(); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.3.1 NS_RESET_ACK with wrong nsvci + nsei */ testcase TC_reset_ack_wrong_nsei_nsvci() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); NSCP[0].receive(tr_NS_RESET(*, g_nsconfig.nsvc[0].nsvci, g_nsconfig.nsei)); NSCP[0].send(ts_NS_RESET_ACK(g_nsconfig.nsvc[0].nsvci + 20, g_nsconfig.nsei + 20)); f_fails_except_reset(); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.3.1 ignore unexpected NS_RESET_ACK after NS_RESET+ALIVE */ testcase TC_ignore_reset_ack() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); /* do a NS Reset procedure */ f_outgoing_ns_reset(); /* unblock and alive */ alt { [] as_rx_ns_unblock_ack(oneshot := true); [] as_rx_alive_tx_ack(); } NSCP[0].send(ts_NS_RESET_ACK(g_nsconfig.nsvc[0].nsvci, g_nsconfig.nsei)); f_ensure_no_ns(answer_alive := true, tout := 15.0); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.3 NS_RESET retries */ testcase TC_reset_retries() runs on RAW_Test_CT { var integer reset := 0; f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); alt { [] NSCP[0].receive(tr_NS_RESET(*, *, *)) { reset := reset + 1; if (reset <= 3) { repeat; } else { setverdict(pass); } } } f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 behave RESET_ACK got dropped * TTCN -> NS: reset * TTCN <- NS: reset ack * TTCN <- NS: unblock * TTCN -> NS: reset * TTCN <- NS: reset ack * TTCN <- NS: unblock */ testcase TC_reset_on_block_reset() runs on RAW_Test_CT { var integer i := 0; f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); f_outgoing_ns_reset(); activate(as_rx_alive_tx_ack()); alt { [] NSCP[0].receive(t_NS_UNBLOCK) { NSCP[0].send(ts_NS_RESET(NS_CAUSE_EQUIPMENT_FAILURE, g_nsconfig.nsvc[0].nsvci, g_nsconfig.nsei)); i := i + 1; if (i < 3) { repeat; } else { setverdict(pass); } } [] NSCP[0].receive(tr_NS_RESET_ACK(g_nsconfig.nsvc[0].nsvci, g_nsconfig.nsei)) { repeat; } } f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.4 test procedure for frame relay with a single nsvci */ function f_alive_retries_single(boolean reset := false) runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 60.0); /* do a NS Reset procedure */ f_outgoing_ns_reset(); alt { [] as_rx_ns_unblock_ack(oneshot := true); [] as_rx_alive_tx_ack(); } /* wait for one alive and answer it */ as_rx_alive_tx_ack(oneshot := true); NSCP[0].receive(t_NS_ALIVE); NSCP[0].receive(t_NS_ALIVE); NSCP[0].receive(t_NS_ALIVE); NSCP[0].receive(t_NS_ALIVE); if (reset) { NSCP[0].receive(tr_NS_RESET(*, g_nsconfig.nsvc[0].nsvci, g_nsconfig.nsei)); } else { f_ensure_no_ns(tout := 10.0); } setverdict(pass); f_sleep(1.0); } testcase TC_alive_retries_single_reset() runs on RAW_Test_CT { f_alive_retries_single(reset := true); f_clean_ns_codec(); } testcase TC_alive_retries_single_no_resp() runs on RAW_Test_CT { f_alive_retries_single(reset := false); f_clean_ns_codec(); } /* 48.016 SNS test cases */ /* do a succesful SNS configuration */ testcase TC_sns_bss_config_success() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig); f_incoming_sns_size(); f_incoming_sns_config(); f_outgoing_sns_config(); setverdict(pass); f_clean_ns_codec(); } testcase TC_sns_bss_change_weight() runs on RAW_Test_CT { g_handle_rx_alive := true; f_init_vty(); f_init_ns_codec(mp_nsconfig); f_incoming_sns_size(); f_incoming_sns_config(); f_outgoing_sns_config(); activate(as_rx_alive_tx_ack()); f_vty_config2(NSVTY, {"ns", "bind udp local"}, "ip-sns signalling-weight 99 data-weight 99"); f_incoming_sns_chg_weight(); setverdict(pass); f_clean_ns_codec(); } /* receive 3x SNS_CHG_WEIGHT but never answer on it */ testcase TC_sns_bss_change_weight_timeout() runs on RAW_Test_CT { var integer i := 0; var template PDU_NS rx; var NSVCConfiguration nsvc_cfg; g_handle_rx_alive := true; f_init_vty(); f_init_ns_codec(mp_nsconfig); f_incoming_sns_size(); f_incoming_sns_config(); f_outgoing_sns_config(); activate(as_rx_alive_tx_ack()); f_vty_config2(NSVTY, {"ns", "bind udp local"}, "ip-sns signalling-weight 99 data-weight 99"); nsvc_cfg := g_nsconfig.nsvc[0]; if (nsvc_cfg.provider.ip.address_family == AF_INET) { var template IP4_Elements v4_elem := { tr_SNS_IPv4(nsvc_cfg.provider.ip.remote_ip, nsvc_cfg.provider.ip.remote_udp_port) }; rx := tr_SNS_CHG_WEIGHT(g_nsconfig.nsei, ?, v4 := v4_elem); } else { var template IP6_Elements v6_elem := { tr_SNS_IPv6(nsvc_cfg.provider.ip.remote_ip, nsvc_cfg.provider.ip.remote_udp_port) }; rx := tr_SNS_CHG_WEIGHT(g_nsconfig.nsei, ?, v4 := omit, v6 := v6_elem); } for (i := 0; i < 3; i := i + 1) { f_ns_exp(rx); } if (nsvc_cfg.provider.ip.address_family == AF_INET) { /* expect one single SNS-SIZE with RESET flag; 4x v4 EP; no v6 EP */ rx := f_ns_exp(tr_SNS_SIZE(g_nsconfig.nsei, rst_flag := true, max_nsvcs := ?, num_v4 := ?, num_v6 := omit), 0); } else { /* expect one single SNS-SIZE with RESET flag; no v4 EP; 4x v6 EP */ rx := f_ns_exp(tr_SNS_SIZE(g_nsconfig.nsei, rst_flag := true, max_nsvcs := ?, num_v4 := omit, num_v6 := ?), 0); } setverdict(pass); f_clean_ns_codec(); } testcase TC_sns_bss_add() runs on RAW_Test_CT { g_handle_rx_alive := true; f_init_vty(); f_init_ns_codec(mp_nsconfig); f_init_ns_codec(mp_nsconfig, 1); f_incoming_sns_size(); f_incoming_sns_config(); f_outgoing_sns_config(); activate(as_rx_alive_tx_ack()); f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "ip-sns-bind local2"); f_incoming_sns_add(idx_add := 1); as_rx_alive_tx_ack(oneshot := true, idx := 1); setverdict(pass); f_clean_ns_codec(); } testcase TC_sns_bss_del() runs on RAW_Test_CT { g_handle_rx_alive := true; f_init_vty(); f_init_ns_codec(mp_nsconfig); f_init_ns_codec(mp_nsconfig, 1); f_incoming_sns_size(); f_incoming_sns_config(); f_outgoing_sns_config(); activate(as_rx_alive_tx_ack()); f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "ip-sns-bind local2"); f_incoming_sns_add(idx_add := 1); as_rx_alive_tx_ack(oneshot := true, idx := 1); /* delete the endpoint */ f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "no ip-sns-bind local2"); f_incoming_sns_del(idx_del := 1); setverdict(pass); f_clean_ns_codec(); } /* 1. do SNS configuration * 2. add a bind * 3. receive the SNS_ADD * 4. before answering the SNS_ADD, change the weight via vty and remove the bind */ testcase TC_sns_bss_add_change_del() runs on RAW_Test_CT { var PDU_NS rx; var NSVCConfiguration nsvc_cfg; g_handle_rx_alive := true; f_init_vty(); f_init_ns_codec(mp_nsconfig); f_init_ns_codec(mp_nsconfig, 1); f_incoming_sns_size(); f_incoming_sns_config(); f_outgoing_sns_config(); activate(as_rx_alive_tx_ack()); f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "ip-sns-bind local2"); /* rx SNS ADD */ nsvc_cfg := g_nsconfig.nsvc[1]; if (nsvc_cfg.provider.ip.address_family == AF_INET) { var template (omit) IP4_Elements v4_elem := { ts_SNS_IPv4(nsvc_cfg.provider.ip.remote_ip, nsvc_cfg.provider.ip.remote_udp_port, 1, 1) }; rx := f_ns_exp(tr_SNS_ADD(g_nsconfig.nsei, ?, v4 := v4_elem), 0); } else { var template (omit) IP6_Elements v6_elem := { ts_SNS_IPv6(nsvc_cfg.provider.ip.remote_ip, nsvc_cfg.provider.ip.remote_udp_port, 1, 1) }; rx := f_ns_exp(tr_SNS_ADD(g_nsconfig.nsei, ?, omit, v6_elem), 0); } /* delete the endpoint */ f_vty_config2(NSVTY, {"ns", "bind udp local2"}, "ip-sns signalling-weight 99 data-weight 99"); f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "no ip-sns-bind local2"); /* accept the SNS_ADD */ NSCP[0].send(ts_SNS_ACK(g_nsconfig.nsei, rx.pDU_SNS_Add.transactionID)); f_incoming_sns_chg_weight(idx_chg := 1); f_incoming_sns_del(idx_del := 1, w_sig := 99, w_user := 99); setverdict(pass); f_clean_ns_codec(); } /* Ensure the ns2 code doesn't crash when calling force unconfigured while sending SNS SIZE */ testcase TC_sns_rx_size_force_unconf() runs on RAW_Test_CT { g_handle_rx_alive := true; f_init_vty(); f_init_ns_codec(mp_nsconfig); f_init_ns_codec(mp_nsconfig, 1); f_ns_exp(tr_SNS_SIZE(mp_nsconfig.nsei, rst_flag := true, max_nsvcs := ?, num_v4 := ?, num_v6 := omit)); f_vty_transceive(NSVTY, "nsvc nsei " & int2str(mp_nsconfig.nsei) & " force-unconfigured"); f_ns_exp(tr_SNS_SIZE(mp_nsconfig.nsei, rst_flag := true, max_nsvcs := ?, num_v4 := ?, num_v6 := omit)); setverdict(pass); f_clean_ns_codec(); } /* Test if SNS fails when all signalling NSVCs failes * 3GPP TS 48.016 ยง 7.4b.1.1 * 1. do success SNS configuration * 2. change sig weight of the seconds inactive bind * 3. add second bind to SNS * 4. stop reacting to NS_ALIVE on first NSVC (only NSVC with sig weight) * 5. expect SNS SIZE * * Broken: the test case tests the wrong side. The signalling * and data weight are valid for the other side. The correct * test case needs to add a second bind on the ttcn3 side. */ testcase TC_sns_bss_all_signalling_nsvcs_failed() runs on RAW_Test_CT { g_handle_rx_alive := true; f_init_vty(); f_init_ns_codec(mp_nsconfig); f_init_ns_codec(mp_nsconfig, 1); f_incoming_sns_size(); f_incoming_sns_config(); f_outgoing_sns_config(); var default d := activate(as_rx_alive_tx_ack()); f_vty_config2(NSVTY, {"ns", "bind udp local2"}, "ip-sns signalling-weight 0 data-weight 99"); f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "ip-sns-bind local2"); f_incoming_sns_add(idx_add := 1, w_sig := 0, w_user := 99); as_rx_alive_tx_ack(oneshot := true, idx := 1); activate(as_rx_alive_tx_ack(idx := 1)); /* 2x NSVCs up, stop first NSVC */ deactivate(d); /* libosmocore will rotate the SNS binds on failure */ NSCP[0].receive(t_NS_ALIVE); NSCP[0].receive(t_NS_ALIVE); NSCP[0].receive(t_NS_ALIVE); f_incoming_sns_size(idx := 1); setverdict(pass); f_clean_ns_codec(); } /* Test if SNS fails when removing a bind which has the last valid connection * * ns2 has 2 binds, ttcn3 1 bind. * * nsvcs: * ns2 ttcn3 * 1*-----------*1 * / * 2*-broken--/ * * remove the 1st ns2 bind. */ testcase TC_sns_bss_remove_bind_fail_sns() runs on RAW_Test_CT { g_handle_rx_alive := true; f_init_vty(); f_init_ns_codec(mp_nsconfig); f_init_ns_codec(mp_nsconfig, 1); f_incoming_sns_size(); f_incoming_sns_config(); f_outgoing_sns_config(); var default d := activate(as_rx_alive_tx_ack()); f_vty_config2(NSVTY, {"ns", "bind udp local2"}, "ip-sns signalling-weight 1 data-weight 1"); f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "ip-sns-bind local2"); f_incoming_sns_add(idx_add := 1, w_sig := 1, w_user := 1); /* 2nd bind won't have a valid connection to the ttcn3 */ NSCP[1].receive(t_NS_ALIVE); NSCP[1].receive(t_NS_ALIVE); NSCP[1].receive(t_NS_ALIVE); NSCP[1].receive(t_NS_ALIVE); NSCP[1].receive(t_NS_ALIVE); f_sleep(1.0); f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "no ip-sns-bind local"); setverdict(pass); f_clean_ns_codec(); } testcase TC_idle() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig, guard_secs := 30.0); /* do a NS Reset procedure */ f_outgoing_ns_reset(); activate(as_rx_alive_tx_ack()); f_outgoing_ns_unblock(); f_sleep(30.0); setverdict(pass); f_sleep(1.0); f_clean_ns_codec(); } testcase TC_sns_sgsn_config_success() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig); f_outgoing_sns_size(); f_outgoing_sns_config(); f_incoming_sns_config(); setverdict(pass); f_clean_ns_codec(); } /* Ensure a SIZE after a success full configuration is handled */ testcase TC_sns_sgsn_size_after_success() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig); f_outgoing_sns_size(); f_outgoing_sns_config(); f_incoming_sns_config(); NSCP[0].receive(t_NS_ALIVE); f_outgoing_sns_size(); f_outgoing_sns_config(); f_incoming_sns_config(); setverdict(pass); f_clean_ns_codec(); } /* Ensure a SNS SIZE ACK is transmitted from the correct port */ testcase TC_sns_sgsn_size_correct_port() runs on RAW_Test_CT { f_init_vty(); f_init_ns_codec(mp_nsconfig); f_init_ns_codec(mp_nsconfig, 1); f_outgoing_sns_size(max_nsvcs := 10); f_outgoing_sns_config(); f_incoming_sns_config(); NSCP[0].receive(t_NS_ALIVE); f_outgoing_sns_size(max_nsvcs := 10, idx := 1); setverdict(pass); f_clean_ns_codec(); } testcase TC_sns_sgsn_add() runs on RAW_Test_CT { g_handle_rx_alive := true; f_init_vty(); f_init_ns_codec(mp_nsconfig); f_init_ns_codec(mp_nsconfig, 1); f_outgoing_sns_size(max_nsvcs := 4, num_ip := 4); f_outgoing_sns_config(); f_incoming_sns_config(); activate(as_rx_alive_tx_ack()); f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "ip-sns-bind local2"); f_incoming_sns_add(idx_add := 1); as_rx_alive_tx_ack(oneshot := true, idx := 1); setverdict(pass); f_clean_ns_codec(); } testcase TC_sns_sgsn_del() runs on RAW_Test_CT { g_handle_rx_alive := true; f_init_vty(); f_init_ns_codec(mp_nsconfig); f_init_ns_codec(mp_nsconfig, 1); f_outgoing_sns_size(max_nsvcs := 4, num_ip := 4); f_outgoing_sns_config(); f_incoming_sns_config(); activate(as_rx_alive_tx_ack()); f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "ip-sns-bind local2"); f_incoming_sns_add(idx_add := 1); as_rx_alive_tx_ack(oneshot := true, idx := 1); /* delete the endpoint */ f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "no ip-sns-bind local2"); f_incoming_sns_del(idx_del := 1); setverdict(pass); f_clean_ns_codec(); } /* 1. do SNS configuration * 2. add a bind * 3. receive the SNS_ADD * 4. before answering the SNS_ADD, change the weight via vty and remove the bind */ testcase TC_sns_sgsn_add_change_del() runs on RAW_Test_CT { var PDU_NS rx; var NSVCConfiguration nsvc_cfg; g_handle_rx_alive := true; f_init_vty(); f_init_ns_codec(mp_nsconfig); f_init_ns_codec(mp_nsconfig, 1); f_outgoing_sns_size(max_nsvcs := 4, num_ip := 4); f_outgoing_sns_config(); f_incoming_sns_config(); activate(as_rx_alive_tx_ack()); f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "ip-sns-bind local2"); /* rx SNS ADD */ nsvc_cfg := g_nsconfig.nsvc[1]; if (nsvc_cfg.provider.ip.address_family == AF_INET) { var template (omit) IP4_Elements v4_elem := { ts_SNS_IPv4(nsvc_cfg.provider.ip.remote_ip, nsvc_cfg.provider.ip.remote_udp_port, 1, 1) }; rx := f_ns_exp(tr_SNS_ADD(g_nsconfig.nsei, ?, v4 := v4_elem), 0); } else { var template (omit) IP6_Elements v6_elem := { ts_SNS_IPv6(nsvc_cfg.provider.ip.remote_ip, nsvc_cfg.provider.ip.remote_udp_port, 1, 1) }; rx := f_ns_exp(tr_SNS_ADD(g_nsconfig.nsei, ?, omit, v6_elem), 0); } /* delete the endpoint */ f_vty_config2(NSVTY, {"ns", "bind udp local2"}, "ip-sns signalling-weight 99 data-weight 99"); f_vty_config2(NSVTY, {"ns", "nse " & int2str(g_nsconfig.nsei)}, "no ip-sns-bind local2"); /* accept the SNS_ADD */ NSCP[0].send(ts_SNS_ACK(g_nsconfig.nsei, rx.pDU_SNS_Add.transactionID)); f_incoming_sns_chg_weight(idx_chg := 1); f_incoming_sns_del(idx_del := 1, w_sig := 99, w_user := 99); setverdict(pass); f_clean_ns_codec(); } /* 48.016 7.2 transmit a UNITDATA over an ALIVE connection * * TTCN -> NS: reset * TTCN <- NS: reset ack * TTCN -> NS: unblock * TTCN <- NS: unblock ack * TTCN -> NS: unitdata * TTCN <- NS: unitdata (mirror) */ testcase TC_tx_unitdata() runs on RAW_Test_CT { f_tx_unblock(); f_vty_config2(NSVTY, {}, "mirror-mode enable"); NSCP[0].send(ts_NS_UNITDATA(t_SduCtrlB, 42, '0011234242230101'O)); f_ns_exp(tr_NS_UNITDATA(t_SduCtrlB, 42, '0011234242230101'O)); f_vty_config2(NSVTY, {}, "mirror-mode disable"); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.2 ensure tx status (blocked) is correctly parsed * * TTCN -> NS: reset * TTCN <- NS: reset ack * TTCN -> NS: unblock * TTCN <- NS: unblock ack * TTCN -> NS: unitdata * TTCN <- NS: unitdata (mirror) * TTCN -> NS: status (blocked) * TTCN -> NS: unitdata * TTCN <- NS: status (blocked) */ testcase TC_mirror_unitdata_tx_status_blocked() runs on RAW_Test_CT { f_tx_unblock(); f_vty_config2(NSVTY, {}, "mirror-mode enable"); NSCP[0].send(ts_NS_UNITDATA(t_SduCtrlB, 42, '0011234242230101'O)); var PDU_NS pdu := f_ns_exp(tr_NS_UNITDATA(t_SduCtrlB, 42, '0011234242230101'O)); NSCP[0].send(ts_NS_STATUS(NS_CAUSE_NSVC_BLOCKED, pdu)); NSCP[0].send(ts_NS_UNITDATA(t_SduCtrlB, 42, '0011234242230101'O)); f_ns_exp(tr_NS_STATUS(NS_CAUSE_NSVC_BLOCKED)); f_vty_config2(NSVTY, {}, "mirror-mode disable"); f_sleep(1.0); f_clean_ns_codec(); } /* 48.016 7.2 ensure tx status (blocked) is correctly parsed over a foreign NSVC * * 2x initialize NSVC (RESET/UNBLOCK) * TTCN 0-> NS: block (nsvci 1) * TTCN <-0 NS: block ack (nsvci 1) * TTCN 1-> NS: unit data (nsvci 1) * TTCN <-1 NS: status (blocked) */ testcase TC_tx_blocked_foreign_nsvc() runs on RAW_Test_CT { f_init_vty(); f_vty_config2(NSVTY, {}, "mirror-mode enable"); f_init_ns_codec(mp_nsconfig, idx := 0); f_init_ns_codec(mp_nsconfig, idx := 1); /* do a NS Reset procedure */ f_outgoing_ns_reset(idx := 0); f_outgoing_ns_reset(idx := 1); /* send alive acks */ activate(as_rx_alive_tx_ack(idx := 0)); activate(as_rx_alive_tx_ack(idx := 1)); f_outgoing_ns_unblock(idx := 0); f_outgoing_ns_unblock(idx := 1); /* both NSVC are alive and unblocked */ NSCP[0].send(ts_NS_BLOCK(NS_CAUSE_TRANSIT_NETWORK_FAILURE, g_nsconfig.nsvc[1].nsvci)); f_ns_exp(tr_NS_BLOCK_ACK(g_nsconfig.nsvc[1].nsvci)); NSCP[1].send(ts_NS_UNITDATA(t_SduCtrlB, 42, '0011234242230101'O)); f_ns_exp(tr_NS_STATUS(NS_CAUSE_NSVC_BLOCKED), idx := 1); setverdict(pass); f_clean_ns_codec(); } control { if (mp_dialect == NS2_DIALECT_STATIC_RESETBLOCK or mp_dialect == NS2_DIALECT_IPACCESS) { execute( TC_tx_reset() ); /* 48.016 7.2 Block procedure */ execute( TC_tx_block() ); execute( TC_tx_block_by_vty() ); execute( TC_tx_block_by_vty_reset() ); execute( TC_tx_block_unitdata_over_blocked() ); execute( TC_rx_block_unitdata_over_blocked() ); execute( TC_mirror_unitdata_tx_status_blocked() ); execute( TC_tx_blocked_foreign_nsvc() ); // execute( TC_block_other_nsvc() ); // reset, unblock, sleep(1), block over another nsvci /* 48.016 7.2 Unblock procedure */ execute( TC_tx_unblock() ); execute( TC_tx_unblock_retries() ); // execute( TC_rx_unblock_tx_unblock() ); // wait for an rx unblock pdu, send an unblock pdu, expect unblock ack pdu // execute( TC_unblockable() ); // block a NS-VCI via vty, try block procedure /* 48.016 7.2.1 Block Abnormal Condition */ /* 48.016 7.2.1 Unblock Abnormal Condition */ /* 48.016 7.3.1 Abnormal Condition */ execute( TC_reset_wrong_nsei() ); execute( TC_reset_wrong_nsvci() ); execute( TC_reset_wrong_nsei_nsvci() ); execute( TC_reset_ack_wrong_nsei() ); execute( TC_reset_ack_wrong_nsvci() ); execute( TC_reset_ack_wrong_nsei_nsvci() ); execute( TC_reset_retries() ); execute( TC_reset_on_block_reset() ); execute( TC_ignore_reset_ack() ); /* 48.016 7.4 Test procedure on frame relay */ execute( TC_tx_reset_tx_alive() ); execute( TC_tx_reset_rx_alive() ); /* 48.016 7.4.1 Abnormal Condition */ if (mp_dialect == NS2_DIALECT_STATIC_RESETBLOCK) { // execute( TC_alive_retries_multi() ); // check if alive retries works and block over an alive nsvc execute( TC_alive_retries_single_reset() ); } else if (mp_dialect == NS2_DIALECT_IPACCESS) { execute( TC_alive_retries_single_no_resp() ); } execute( TC_no_reset_alive_ack() ); execute( TC_tx_unitdata() ); } if (mp_dialect == NS2_DIALECT_SNS) { if (mp_sns_role == SNS_ROLE_BSS) { /* BSS test cases */ execute( TC_sns_bss_config_success() ); execute( TC_sns_bss_change_weight() ); execute( TC_sns_bss_change_weight_timeout() ); execute( TC_sns_bss_add() ); execute( TC_sns_bss_del() ); execute( TC_sns_bss_add_change_del() ); /* execute( TC_sns_bss_all_signalling_nsvcs_failed() ); */ execute( TC_sns_rx_size_force_unconf() ); execute( TC_sns_bss_remove_bind_fail_sns() ); } if (mp_sns_role == SNS_ROLE_SGSN) { execute( TC_sns_sgsn_config_success() ); execute( TC_sns_sgsn_add() ); execute( TC_sns_sgsn_del() ); execute( TC_sns_sgsn_add_change_del() ); execute( TC_sns_sgsn_size_correct_port() ); execute( TC_sns_sgsn_size_after_success() ); } } } }