| module SGSN_Tests { |
| |
| /* Osmocom SGSN test suite in TTCN-3 |
| * (C) 2018-2019 Harald Welte <laforge@gnumonks.org> |
| * (C) 2018-2019 sysmocom - s.f.m.c. GmbH |
| * 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 |
| */ |
| |
| friend module SGSN_Tests_Iu; |
| friend module SGSN_Tests_NS; |
| |
| import from General_Types all; |
| import from Osmocom_Types all; |
| import from GSM_Types all; |
| import from Native_Functions all; |
| import from NS_Types all; |
| import from NS_Emulation all; |
| import from BSSGP_Types all; |
| import from BSSGP_Emulation all; |
| import from Osmocom_Gb_Types all; |
| import from SCCPasp_Types all; |
| |
| import from MobileL3_CommonIE_Types all; |
| import from MobileL3_GMM_SM_Types all; |
| import from MobileL3_Types all; |
| import from L3_Templates all; |
| import from L3_Common all; |
| |
| import from GSUP_Emulation all; |
| import from GSUP_Types all; |
| import from IPA_Emulation all; |
| |
| import from RAN_Adapter all; |
| import from RAN_Emulation all; |
| import from RANAP_Templates all; |
| import from RANAP_PDU_Descriptions all; |
| import from RANAP_IEs all; |
| |
| import from GTP_Emulation all; |
| import from GTP_Templates all; |
| import from GTP_CodecPort all; |
| import from GTPC_Types all; |
| import from GTPU_Types all; |
| |
| import from LLC_Types all; |
| import from LLC_Templates all; |
| |
| import from SNDCP_Types all; |
| |
| import from TELNETasp_PortType all; |
| import from Osmocom_VTY_Functions all; |
| |
| import from GSM_RR_Types all; |
| |
| import from MobileL3_MM_Types all; |
| |
| |
| modulepar { |
| /* IP/port on which we run our internal GSUP/HLR emulation */ |
| charstring mp_hlr_ip := "127.0.0.1"; |
| integer mp_hlr_port := 4222; |
| charstring mp_ggsn_ip := "127.0.0.103"; |
| integer mp_echo_interval := 5; /* in seconds. Only used in test enabling g_use_echo */ |
| charstring mp_sgsn_gtp_ip := "127.0.0.10"; |
| |
| NSConfigurations mp_nsconfig := { |
| { |
| nsei := 96, |
| role_sgsn := false, |
| handle_sns := false, |
| nsvc := { |
| { |
| provider := { |
| ip := { |
| address_family := AF_INET, |
| local_udp_port := 21010, |
| local_ip := "127.0.0.1", |
| remote_udp_port := 23000, |
| remote_ip := "127.0.0.1", |
| data_weight := 1, |
| signalling_weight := 1 |
| } |
| }, |
| nsvci := 97 |
| } |
| } |
| }, |
| { |
| nsei := 97, |
| role_sgsn := false, |
| handle_sns := false, |
| nsvc := { |
| { |
| provider := { |
| ip := { |
| address_family := AF_INET, |
| local_udp_port := 21011, |
| local_ip := "127.0.0.1", |
| remote_udp_port := 23000, |
| remote_ip := "127.0.0.1", |
| data_weight := 1, |
| signalling_weight := 1 |
| } |
| }, |
| nsvci := 98 |
| } |
| } |
| }, |
| { |
| nsei := 98, |
| role_sgsn := false, |
| handle_sns := false, |
| nsvc := { |
| { |
| provider := { |
| ip := { |
| address_family := AF_INET, |
| local_udp_port := 21012, |
| local_ip := "127.0.0.1", |
| remote_udp_port := 23000, |
| remote_ip := "127.0.0.1", |
| data_weight := 1, |
| signalling_weight := 1 |
| } |
| }, |
| nsvci := 99 |
| } |
| } |
| } |
| }; |
| |
| RAN_Configurations mp_ranap_cfg := { |
| { |
| transport := RANAP_TRANSPORT_IuCS, |
| sccp_service_type := "mtp3_itu", |
| sctp_addr := { 23908, "127.0.0.1", 2905, "127.0.0.1" }, |
| own_pc := 195, |
| own_ssn := 142, |
| peer_pc := 188, /* 0.23.4 */ |
| peer_ssn := 142, |
| sio := '83'O, |
| rctx := 2 |
| } |
| } |
| }; |
| |
| const integer NUM_BVC_PER_NSE := 1; |
| type record GbInstance { |
| NS_CT vc_NS, |
| BSSGP_CT vc_BSSGP, |
| BSSGP_BVC_CT vc_BSSGP_BVC[NUM_BVC_PER_NSE], |
| BssgpConfig cfg |
| }; |
| |
| const integer NUM_GB := 3; |
| type record length(NUM_GB) of GbInstance GbInstances; |
| type record length(NUM_GB) of NSConfiguration NSConfigurations; |
| type record length(NUM_GB) of BssgpCellId BssgpCellIds; |
| |
| const integer NUM_RNC := 1; |
| type record of RAN_Configuration RAN_Configurations; |
| |
| type component test_CT { |
| var GbInstances g_gb; |
| var RAN_Adapter g_ranap[NUM_RNC]; |
| var boolean g_ranap_enable := false; |
| |
| var GSUP_Emulation_CT vc_GSUP; |
| var IPA_Emulation_CT vc_GSUP_IPA; |
| /* only to get events from IPA underneath GSUP */ |
| port IPA_CTRL_PT GSUP_IPA_EVENT; |
| |
| /* only needed at start to get the per-BVC references */ |
| port BSSGP_CT_PROC_PT PROC; |
| |
| /* used by RIM related test */ |
| port BSSGP_PT RIM[NUM_GB]; |
| port GTPEM_PT GTPC; |
| |
| var GTP_Emulation_CT vc_GTP; |
| |
| port TELNETasp_PT SGSNVTY; |
| |
| var boolean g_initialized := false; |
| var boolean g_use_echo := false; |
| }; |
| |
| type component BSSGP_ConnHdlr extends BSSGP_Client_CT, GSUP_ConnHdlr, GTP_ConnHdlr, RAN_ConnHdlr { |
| var BSSGP_ConnHdlrPars g_pars; |
| timer g_Tguard; |
| var LLC_Entities llc; |
| } |
| |
| type record SGSN_ConnHdlrNetworkPars { |
| boolean expect_ptmsi, |
| boolean expect_auth, |
| boolean expect_ciph |
| }; |
| |
| type record BSSGP_ConnHdlrPars { |
| /* IMEI of the simulated ME */ |
| hexstring imei, |
| /* IMSI of the simulated MS */ |
| hexstring imsi, |
| /* MSISDN of the simulated MS (probably unused) */ |
| hexstring msisdn, |
| /* P-TMSI allocated to the simulated MS */ |
| OCT4 p_tmsi optional, |
| OCT3 p_tmsi_sig optional, |
| /* TLLI of the simulated MS */ |
| OCT4 tlli, |
| OCT4 tlli_old optional, |
| RoutingAreaIdentificationV ra optional, |
| BssgpCellIds bssgp_cell_id, |
| /* Tracks the RNC state. If true next L3 message will be sent with InitiualUe */ |
| boolean rnc_send_initial_ue, |
| AuthVector vec optional, |
| SGSN_ConnHdlrNetworkPars net, |
| float t_guard, |
| /* only in IuPS / RANAP case */ |
| SCCP_PAR_Address sccp_addr_local optional, |
| SCCP_PAR_Address sccp_addr_peer optional |
| }; |
| |
| /* Passed in RAN-INFO message from emulated neighbor using RIM */ |
| const octetstring si1_default := '198fb100000000000000000000000000007900002b'O; |
| const octetstring si3_default := '1b753000f110236ec9033c2747407900003c0b2b2b'O; |
| const octetstring si13_default := '009000185a6fc9e08410ab2b2b2b2b2b2b2b2b2b2b'O; |
| const octetstring si_default := si1_default & si3_default & si13_default; |
| |
| private function f_cellid_to_RAI(in BssgpCellId cell_id) return RoutingAreaIdentificationV { |
| /* mcc_mnc is encoded as of 24.008 10.5.5.15 */ |
| var BcdMccMnc mcc_mnc := cell_id.ra_id.lai.mcc_mnc; |
| |
| var RoutingAreaIdentificationV ret := { |
| mccDigit1 := mcc_mnc[0], |
| mccDigit2 := mcc_mnc[1], |
| mccDigit3 := mcc_mnc[2], |
| mncDigit3 := mcc_mnc[3], |
| mncDigit1 := mcc_mnc[4], |
| mncDigit2 := mcc_mnc[5], |
| lac := int2oct(cell_id.ra_id.lai.lac, 2), |
| rac := int2oct(cell_id.ra_id.rac, 1) |
| } |
| return ret; |
| }; |
| |
| private function f_init_gb(inout GbInstance gb, charstring id, integer offset) runs on test_CT { |
| gb.vc_NS := NS_CT.create(id & "-NS" & int2str(offset)); |
| gb.vc_BSSGP := BSSGP_CT.create(id & "-BSSGP" & int2str(offset)); |
| /* connect lower end of BSSGP emulation with NS upper port */ |
| connect(gb.vc_BSSGP:BSCP, gb.vc_NS:NS_SP); |
| |
| gb.vc_NS.start(NSStart(mp_nsconfig[offset])); |
| gb.vc_BSSGP.start(BssgpStart(gb.cfg, testcasename())); |
| /* resolve the per-BVC component references */ |
| for (var integer i := 0; i < lengthof(gb.cfg.bvc); i := i+1) { |
| connect(self:PROC, gb.vc_BSSGP:PROC); |
| gb.vc_BSSGP_BVC[i] := f_bssgp_get_bvci_ct(gb.cfg.bvc[i].bvci, PROC); |
| disconnect(self:PROC, gb.vc_BSSGP:PROC); |
| } |
| /* connect RIM related port */ |
| connect(gb.vc_BSSGP:RIM, self:RIM[offset]); |
| } |
| |
| private function f_init_gsup(charstring id) runs on test_CT { |
| id := id & "-GSUP"; |
| var GsupOps ops := { |
| create_cb := refers(GSUP_Emulation.ExpectedCreateCallback) |
| }; |
| |
| vc_GSUP_IPA := IPA_Emulation_CT.create(id & "-IPA"); |
| vc_GSUP := GSUP_Emulation_CT.create(id); |
| |
| map(vc_GSUP_IPA:IPA_PORT, system:IPA_CODEC_PT); |
| connect(vc_GSUP:GSUP, vc_GSUP_IPA:IPA_GSUP_PORT); |
| /* we use this hack to get events like ASP_IPA_EVENT_UP */ |
| connect(vc_GSUP_IPA:IPA_CTRL_PORT, self:GSUP_IPA_EVENT); |
| |
| vc_GSUP.start(GSUP_Emulation.main(ops, id)); |
| vc_GSUP_IPA.start(IPA_Emulation.main_server(mp_hlr_ip, mp_hlr_port)); |
| |
| /* wait for incoming connection to GSUP port before proceeding */ |
| timer T := 10.0; |
| T.start; |
| alt { |
| [] GSUP_IPA_EVENT.receive(tr_ASP_IPA_EV(ASP_IPA_EVENT_UP)) { } |
| [] T.timeout { |
| setverdict(fail, "No connection to GSUP Port"); |
| mtc.stop; |
| } |
| } |
| } |
| |
| private function f_init_gtp(charstring id) runs on test_CT { |
| id := id & "-GTP"; |
| |
| var GtpEmulationCfg gtp_cfg := { |
| gtpc_bind_ip := mp_ggsn_ip, |
| gtpc_bind_port := GTP1C_PORT, |
| gtpu_bind_ip := mp_ggsn_ip, |
| gtpu_bind_port := GTP1U_PORT, |
| sgsn_role := false |
| }; |
| |
| vc_GTP := GTP_Emulation_CT.create(id); |
| vc_GTP.start(GTP_Emulation.main(gtp_cfg)); |
| } |
| |
| friend function f_init_vty() runs on test_CT { |
| map(self:SGSNVTY, system:SGSNVTY); |
| f_vty_set_prompts(SGSNVTY); |
| f_vty_transceive(SGSNVTY, "enable"); |
| f_vty_transceive(SGSNVTY, "reset sgsn state"); |
| f_vty_config(SGSNVTY, "sgsn", "auth-policy remote"); |
| } |
| |
| private function f_vty_enable_echo_interval(boolean enable) runs on test_CT { |
| if (enable) { |
| f_vty_config(SGSNVTY, "sgsn", "ggsn 0 echo-interval " & int2str(mp_echo_interval)); |
| } else { |
| f_vty_config(SGSNVTY, "sgsn", "ggsn 0 no echo-interval"); |
| } |
| } |
| |
| |
| /* mcc_mnc is 24.008 10.5.5.15 encoded. 262 42 */ |
| function f_init(BcdMccMnc mcc_mnc := '262F42'H) runs on test_CT { |
| var integer i; |
| |
| if (g_initialized == true) { |
| return; |
| } |
| g_initialized := true; |
| g_gb[0].cfg := { |
| nsei := 96, |
| sgsn_role := false, |
| bvc := { |
| { |
| bvci := 196, |
| cell_id := { |
| ra_id := { |
| lai := { |
| mcc_mnc := mcc_mnc, |
| lac := 13135 |
| }, |
| rac := 0 |
| }, |
| cell_id := 20960 |
| }, |
| depth := BSSGP_DECODE_DEPTH_L3, |
| create_cb := refers(BSSGP_Emulation.DefaultCreateCallback) |
| } |
| } |
| }; |
| g_gb[1].cfg := { |
| nsei := 97, |
| sgsn_role := false, |
| bvc := { |
| { |
| bvci := 210, |
| cell_id := { |
| ra_id := { |
| lai := { |
| mcc_mnc := mcc_mnc, |
| lac := 13200 |
| }, |
| rac := 0 |
| }, |
| cell_id := 20961 |
| }, |
| depth := BSSGP_DECODE_DEPTH_L3, |
| create_cb := refers(BSSGP_Emulation.DefaultCreateCallback) |
| } |
| } |
| }; |
| g_gb[2].cfg := { /* [2] configured to have same RAC as [1] */ |
| nsei := 98, |
| sgsn_role := false, |
| bvc := { |
| { |
| bvci := 220, |
| cell_id := { |
| ra_id := { |
| lai := { |
| mcc_mnc := mcc_mnc, |
| lac := 13200 |
| }, |
| rac := 0 |
| }, |
| cell_id := 20962 |
| }, |
| depth := BSSGP_DECODE_DEPTH_L3, |
| create_cb := refers(BSSGP_Emulation.DefaultCreateCallback) |
| } |
| } |
| }; |
| |
| f_init_vty(); |
| f_init_gb(g_gb[0], "SGSN_Test-Gb0", 0); |
| f_init_gb(g_gb[1], "SGSN_Test-Gb1", 1); |
| f_init_gb(g_gb[2], "SGSN_Test-Gb2", 2); |
| |
| if (g_ranap_enable) { |
| for (i := 0; i < NUM_RNC; i := i+1) { |
| f_ran_adapter_init(g_ranap[i], mp_ranap_cfg[i], "SGSN_Test_" & int2str(i), RNC_RanOps); |
| f_ran_adapter_start(g_ranap[i]); |
| } |
| } |
| f_init_gsup("SGSN_Test"); |
| f_init_gtp("SGSN_Test"); |
| f_vty_enable_echo_interval(g_use_echo); |
| } |
| |
| function f_cleanup() runs on test_CT { |
| var integer i; |
| if (g_ranap_enable) { |
| for (i := 0; i < NUM_RNC; i := i+1) { |
| f_ran_adapter_cleanup(g_ranap[i]); |
| } |
| } |
| self.stop; |
| } |
| |
| private function RncUnitdataCallback(RANAP_PDU ranap) |
| runs on RAN_Emulation_CT return template RANAP_PDU { |
| var template RANAP_PDU resp := omit; |
| |
| log ("RANAP_RncUnitDataCallback"); |
| /* answer all RESET with RESET ACK */ |
| if (match(ranap, tr_RANAP_Reset)) { |
| log("RANAP_RncUnitdataCallback: Responding to RESET with RESET-ACK"); |
| var CN_DomainIndicator dom; |
| dom := ranap.initiatingMessage.value_.Reset.protocolIEs[1].value_.cN_DomainIndicator; |
| resp := ts_RANAP_ResetAck(dom); |
| } |
| return resp; |
| } |
| |
| const RanOps RNC_RanOps := { |
| ranap_create_cb := refers(RAN_Emulation.RanapExpectedCreateCallback), |
| ranap_unitdata_cb := refers(RncUnitdataCallback), |
| ps_domain := true, |
| decode_dtap := true, |
| role_ms := true, |
| protocol := RAN_PROTOCOL_RANAP, |
| transport := RANAP_TRANSPORT_IuCS, |
| use_osmux := false, |
| sccp_addr_local := omit, |
| sccp_addr_peer := omit |
| }; |
| |
| type function void_fn(charstring id) runs on BSSGP_ConnHdlr; |
| |
| /* helper function to create, connect and start a BSSGP_ConnHdlr component */ |
| function f_start_handler(void_fn fn, charstring id, GbInstances gb, integer imsi_suffix, |
| float t_guard := 30.0) |
| runs on test_CT return BSSGP_ConnHdlr { |
| var BSSGP_ConnHdlr vc_conn; |
| var SGSN_ConnHdlrNetworkPars net_pars := { |
| expect_ptmsi := true, |
| expect_auth := true, |
| expect_ciph := false |
| }; |
| var BSSGP_ConnHdlrPars pars := { |
| imei := f_gen_imei(imsi_suffix), |
| imsi := f_gen_imsi(imsi_suffix), |
| msisdn := f_gen_msisdn(imsi_suffix), |
| p_tmsi := omit, |
| p_tmsi_sig := omit, |
| tlli := f_gprs_tlli_random(), |
| tlli_old := omit, |
| ra := omit, |
| bssgp_cell_id := { |
| gb[0].cfg.bvc[0].cell_id, |
| gb[1].cfg.bvc[0].cell_id, |
| gb[2].cfg.bvc[0].cell_id |
| }, |
| rnc_send_initial_ue := true, |
| vec := omit, |
| net := net_pars, |
| t_guard := t_guard, |
| sccp_addr_local := omit, |
| sccp_addr_peer := omit |
| }; |
| |
| if (g_ranap_enable) { |
| pars.sccp_addr_local := g_ranap[0].sccp_addr_own; |
| pars.sccp_addr_peer := g_ranap[0].sccp_addr_peer; |
| } |
| |
| vc_conn := BSSGP_ConnHdlr.create(id); |
| |
| connect(vc_conn:BSSGP[0], gb[0].vc_BSSGP_BVC[0]:BSSGP_SP); |
| connect(vc_conn:BSSGP_SIG[0], gb[0].vc_BSSGP_BVC[0]:BSSGP_SP_SIG); |
| connect(vc_conn:BSSGP_PROC[0], gb[0].vc_BSSGP_BVC[0]:BSSGP_PROC); |
| connect(vc_conn:BSSGP_GLOBAL[0], gb[0].vc_BSSGP:GLOBAL); |
| |
| connect(vc_conn:BSSGP[1], gb[1].vc_BSSGP_BVC[0]:BSSGP_SP); |
| connect(vc_conn:BSSGP_SIG[1], gb[1].vc_BSSGP_BVC[0]:BSSGP_SP_SIG); |
| connect(vc_conn:BSSGP_PROC[1], gb[1].vc_BSSGP_BVC[0]:BSSGP_PROC); |
| connect(vc_conn:BSSGP_GLOBAL[1], gb[1].vc_BSSGP:GLOBAL); |
| |
| connect(vc_conn:BSSGP[2], gb[2].vc_BSSGP_BVC[0]:BSSGP_SP); |
| connect(vc_conn:BSSGP_SIG[2], gb[2].vc_BSSGP_BVC[0]:BSSGP_SP_SIG); |
| connect(vc_conn:BSSGP_PROC[2], gb[2].vc_BSSGP_BVC[0]:BSSGP_PROC); |
| connect(vc_conn:BSSGP_GLOBAL[2], gb[2].vc_BSSGP:GLOBAL); |
| |
| /* FIXME: support multiple RNCs */ |
| if (g_ranap_enable) { |
| connect(vc_conn:BSSAP, g_ranap[0].vc_RAN:CLIENT); |
| connect(vc_conn:BSSAP_PROC, g_ranap[0].vc_RAN:PROC); |
| } |
| |
| connect(vc_conn:GSUP, vc_GSUP:GSUP_CLIENT); |
| connect(vc_conn:GSUP_PROC, vc_GSUP:GSUP_PROC); |
| |
| connect(vc_conn:GTP, vc_GTP:CLIENT); |
| connect(vc_conn:GTP_PROC, vc_GTP:CLIENT_PROC); |
| |
| vc_conn.start(f_handler_init(fn, id, pars)); |
| return vc_conn; |
| } |
| |
| private altstep as_Tguard() runs on BSSGP_ConnHdlr { |
| [] g_Tguard.timeout { |
| setverdict(fail, "Tguard timeout"); |
| mtc.stop; |
| } |
| } |
| |
| /* first function called in every ConnHdlr */ |
| private function f_handler_init(void_fn fn, charstring id, BSSGP_ConnHdlrPars pars) |
| runs on BSSGP_ConnHdlr { |
| /* do some common stuff like setting up g_pars */ |
| g_pars := pars; |
| |
| llc := f_llc_create(false); |
| |
| /* register with BSSGP core */ |
| f_bssgp_client_register(g_pars.imsi, g_pars.tlli); |
| /* tell GSUP dispatcher to send this IMSI to us */ |
| f_create_gsup_expect(hex2str(g_pars.imsi)); |
| /* tell GTP dispatcher to send this IMSI to us */ |
| f_gtp_register_imsi(g_pars.imsi); |
| |
| g_Tguard.start(pars.t_guard); |
| activate(as_Tguard()); |
| |
| /* call the user-supplied test case function */ |
| fn.apply(id); |
| f_bssgp_client_unregister(g_pars.imsi); |
| } |
| |
| /* TODO: |
| * Detach without Attach |
| * SM procedures without attach / RAU |
| * ATTACH / RAU |
| ** with / without authentication |
| ** with / without P-TMSI allocation |
| * re-transmissions of LLC frames |
| * PDP Context activation |
| ** with different GGSN config in SGSN VTY |
| ** with different PDP context type (v4/v6/v46) |
| ** timeout from GGSN |
| ** multiple / secondary PDP context |
| */ |
| |
| testcase TC_wait_ns_up() runs on test_CT { |
| f_init(); |
| f_sleep(20.0); |
| f_cleanup(); |
| } |
| |
| friend function is_gb(integer ran_index) return boolean { |
| return ran_index < NUM_GB; |
| } |
| friend function is_iu(integer ran_index) return boolean { |
| return ran_index >= NUM_GB; |
| } |
| |
| function f_send_llc(template (value) PDU_LLC llc_pdu, integer ran_index := 0) runs on BSSGP_ConnHdlr { |
| var octetstring llc_enc := enc_PDU_LLC(valueof(llc_pdu)); |
| BSSGP[ran_index].send(ts_BSSGP_UL_UD(g_pars.tlli, g_pars.bssgp_cell_id[ran_index], llc_enc)); |
| } |
| |
| private function f_send_l3_gmm_llc(template (value) PDU_L3_MS_SGSN l3_mo, integer ran_index := 0) runs on BSSGP_ConnHdlr { |
| var octetstring l3_enc := enc_PDU_L3_MS_SGSN(valueof(l3_mo)); |
| var BIT4 sapi := f_llc_sapi_by_l3_mo(valueof(l3_mo)); |
| var integer n_u := f_llc_get_n_u_tx(llc[bit2int(sapi)]); |
| f_send_llc(ts_LLC_UI(l3_enc, sapi, '0'B, n_u), ran_index); |
| } |
| |
| /* trigger sending of a RANAP InitialUE and wait for SCCP connection confirmation */ |
| function f_send_l3_initial_ue(template (value) PDU_L3_MS_SGSN l3_mo) runs on BSSGP_ConnHdlr { |
| log("Sending InitialUE: ", l3_mo); |
| var octetstring l3_enc := enc_PDU_L3_MS_SGSN(valueof(l3_mo)); |
| var RANAP_PDU ranap; |
| var LAI lai := { |
| pLMNidentity := '62F224'O, |
| lAC := '1234'O, |
| iE_Extensions := omit |
| }; |
| var SAI sai := { |
| pLMNidentity := lai.pLMNidentity, |
| lAC := lai.lAC, |
| sAC := '0000'O, /* FIXME */ |
| iE_Extensions := omit |
| }; |
| var IuSignallingConnectionIdentifier sigc_id := int2bit(23, 24); /* FIXME */ |
| var GlobalRNC_ID grnc_id := { |
| pLMNidentity := lai.pLMNidentity, |
| rNC_ID := 2342 /* FIXME */ |
| }; |
| |
| ranap := valueof(ts_RANAP_initialUE_CS(lai, sai, l3_enc, sigc_id, grnc_id)); |
| BSSAP.send(ts_RANAP_Conn_Req(g_pars.sccp_addr_peer, g_pars.sccp_addr_local, ranap)); |
| alt { |
| [] BSSAP.receive(RAN_Conn_Prim:MSC_CONN_PRIM_CONF_IND) {} |
| [] BSSAP.receive(RAN_Conn_Prim:MSC_CONN_PRIM_DISC_IND) { |
| setverdict(fail, "DISC.ind from SCCP"); |
| mtc.stop; |
| } |
| } |
| } |
| |
| /* send a L3 (GMM/SM) message over whatever is the appropriate lower-layer bearer */ |
| function f_send_l3(template (value) PDU_L3_MS_SGSN l3_mo, integer ran_index := 0) runs on BSSGP_ConnHdlr { |
| if (is_iu(ran_index)) { |
| if (g_pars.rnc_send_initial_ue) { |
| g_pars.rnc_send_initial_ue := false; |
| f_send_l3_initial_ue(l3_mo); |
| } else { |
| BSSAP.send(ts_PDU_DTAP_PS_MO(l3_mo)); |
| } |
| } else { |
| f_send_l3_gmm_llc(l3_mo, ran_index); |
| } |
| } |
| |
| altstep as_mm_identity(integer ran_index := 0) runs on BSSGP_ConnHdlr { |
| var MobileIdentityLV mi; |
| [is_gb(ran_index)] BSSGP[ran_index].receive(tr_GMM_ID_REQ('001'B)) { |
| mi := valueof(ts_MI_IMSI_LV(g_pars.imsi)); |
| f_send_l3(ts_GMM_ID_RESP(mi), ran_index); |
| repeat; |
| } |
| [is_iu(ran_index)] BSSAP.receive(tr_PDU_DTAP_PS_MT(tr_GMM_ID_REQ('001'B))) { |
| mi := valueof(ts_MI_IMSI_LV(g_pars.imsi)); |
| f_send_l3(ts_GMM_ID_RESP(mi), ran_index); |
| repeat; |
| } |
| [is_gb(ran_index)] BSSGP[ran_index].receive(tr_GMM_ID_REQ('010'B)) { |
| mi := valueof(ts_MI_IMEI_LV(g_pars.imei)); |
| f_send_l3(ts_GMM_ID_RESP(mi), ran_index); |
| repeat; |
| } |
| [is_iu(ran_index)] BSSAP.receive(tr_PDU_DTAP_PS_MT(tr_GMM_ID_REQ('010'B))) { |
| mi := valueof(ts_MI_IMEI_LV(g_pars.imei)); |
| f_send_l3(ts_GMM_ID_RESP(mi), ran_index); |
| repeat; |
| } |
| } |
| |
| /* receive a L3 (GMM/SM) message over whatever is the appropriate lower-layer bearer */ |
| function f_receive_l3(template PDU_L3_SGSN_MS rx_tpl := ?, integer ran_index := 0) |
| runs on BSSGP_ConnHdlr return PDU_L3_SGSN_MS { |
| var PDU_DTAP_PS_MT mt; |
| var PDU_L3_SGSN_MS l3_mt; |
| alt { |
| [is_gb(ran_index)] BSSGP[ran_index].receive(rx_tpl) -> value l3_mt { } |
| [is_iu(ran_index)] BSSAP.receive(tr_PDU_DTAP_PS_MT(rx_tpl)) -> value mt { |
| l3_mt := mt.dtap; |
| } |
| } |
| return l3_mt; |
| } |
| |
| /* perform GMM authentication (if expected). |
| * Note, for umts_aka_challenge to work, the revisionLevelIndicatior needs to |
| * be 1 to mark R99 capability, in the GMM Attach Request, see f_gmm_attach(). */ |
| function f_gmm_auth (boolean umts_aka_challenge := false, boolean force_gsm_sres := false, integer ran_index := 0) runs on BSSGP_ConnHdlr { |
| var PDU_L3_MS_SGSN l3_mo; |
| var PDU_L3_SGSN_MS l3_mt; |
| var default di := activate(as_mm_identity(ran_index)); |
| if (g_pars.net.expect_auth) { |
| var GSUP_IE auth_tuple; |
| var template AuthenticationParameterAUTNTLV autn; |
| |
| if (umts_aka_challenge) { |
| g_pars.vec := f_gen_auth_vec_3g(); |
| autn := { |
| elementIdentifier := '28'O, |
| lengthIndicator := lengthof(g_pars.vec.autn), |
| autnValue := g_pars.vec.autn |
| }; |
| |
| auth_tuple := valueof(ts_GSUP_IE_AuthTuple2G3G(g_pars.vec.rand, |
| g_pars.vec.sres, |
| g_pars.vec.kc, |
| g_pars.vec.ik, |
| g_pars.vec.ck, |
| g_pars.vec.autn, |
| g_pars.vec.res)); |
| log("GSUP sends 2G and 3G auth tuples", auth_tuple); |
| } else { |
| g_pars.vec := f_gen_auth_vec_2g(); |
| autn := omit; |
| auth_tuple := valueof(ts_GSUP_IE_AuthTuple2G(g_pars.vec.rand, |
| g_pars.vec.sres, |
| g_pars.vec.kc)); |
| log("GSUP sends only 2G auth tuple", auth_tuple); |
| } |
| |
| GSUP.receive(tr_GSUP_SAI_REQ(g_pars.imsi)); |
| GSUP.send(ts_GSUP_SAI_RES(g_pars.imsi, auth_tuple)); |
| |
| var template PDU_L3_SGSN_MS auth_ciph_req := tr_GMM_AUTH_REQ(g_pars.vec.rand); |
| auth_ciph_req.msgs.gprs_mm.authenticationAndCipheringRequest.authenticationParameterAUTN := autn; |
| l3_mt := f_receive_l3(auth_ciph_req, ran_index); |
| var BIT4 ac_ref := l3_mt.msgs.gprs_mm.authenticationAndCipheringRequest.acReferenceNumber.valueField; |
| var template PDU_L3_MS_SGSN auth_ciph_resp := ts_GMM_AUTH_RESP_2G(ac_ref, g_pars.vec.sres); |
| |
| if (umts_aka_challenge and not force_gsm_sres) { |
| /* set UMTS response instead */ |
| auth_ciph_resp.msgs.gprs_mm.authenticationAndCipheringResponse.authenticationParResp := { |
| valueField := substr(g_pars.vec.res, 0, 4) |
| }; |
| auth_ciph_resp.msgs.gprs_mm.authenticationAndCipheringResponse.authenticationRespParExt := { |
| elementIdentifier := '21'O, |
| lengthIndicator := lengthof(g_pars.vec.res) - 4, |
| valueField := substr(g_pars.vec.res, 4, lengthof(g_pars.vec.res) - 4) |
| }; |
| } |
| |
| l3_mo := valueof(auth_ciph_resp); |
| if (ispresent(l3_mt.msgs.gprs_mm.authenticationAndCipheringRequest.imeisvRequest) and |
| l3_mt.msgs.gprs_mm.authenticationAndCipheringRequest.imeisvRequest.valueField == '001'B) { |
| l3_mo.msgs.gprs_mm.authenticationAndCipheringResponse.imeisv := |
| valueof(ts_MI_IMEISV_TLV(g_pars.imei & '0'H)); |
| } |
| f_send_l3(l3_mo, ran_index); |
| |
| /* Security Mode Command + Complete on Iu case */ |
| if (is_iu(ran_index)) { |
| BSSAP.receive(tr_RANAP_SecurityModeCmd(uia_algs := ?, uia_key := oct2bit(g_pars.vec.ik), |
| key_sts := ?)) { |
| var IntegrityProtectionAlgorithm uia_chosen := 0; /* 0 = standard_UMTS_integrity_algorithm_UIA1 */ |
| BSSAP.send(ts_RANAP_SecurityModeComplete(uia_chosen)); |
| BSSAP.receive(tr_RANAP_CommonId(imsi_hex2oct(g_pars.imsi))) |
| } |
| } |
| } else { |
| /* wait for identity procedure */ |
| f_sleep(1.0); |
| } |
| |
| deactivate(di); |
| } |
| |
| function f_upd_ptmsi_and_tlli(OCT4 p_tmsi, integer ran_index := 0) runs on BSSGP_ConnHdlr { |
| g_pars.p_tmsi := p_tmsi; |
| /* update TLLI */ |
| g_pars.tlli_old := g_pars.tlli; |
| g_pars.tlli := g_pars.p_tmsi or4b 'c0000000'O; |
| if (is_gb(ran_index)) { |
| f_bssgp_client_llgmm_assign(g_pars.tlli_old, g_pars.tlli, BSSGP_PROC[ran_index]); |
| } |
| } |
| |
| function f_process_attach_accept(PDU_GMM_AttachAccept aa, integer ran_index := 0) runs on BSSGP_ConnHdlr { |
| /* mandatory IE */ |
| var hexstring aa_plmn := f_RAI_to_plmn_hexstr(aa.routingAreaIdentification); |
| /* we cannot use ran_index here, as it would overflow the cell_id object, since ran_idx > NUM_GB |
| * indicates an Iu RAN connection. All cells are expected to run the same MCC/MNC anyway... */ |
| if (not (g_pars.bssgp_cell_id[0].ra_id.lai.mcc_mnc == aa_plmn)) { |
| setverdict(fail, "mismatching PLMN in Attach Accept: " & hex2str(aa_plmn) |
| & "; expected " & hex2str(g_pars.bssgp_cell_id[ran_index].ra_id.lai.mcc_mnc)); |
| mtc.stop; |
| } |
| g_pars.ra := aa.routingAreaIdentification; |
| if (ispresent(aa.allocatedPTMSI)) { |
| if (not g_pars.net.expect_ptmsi) { |
| setverdict(fail, "unexpected P-TMSI allocation"); |
| mtc.stop; |
| } |
| f_upd_ptmsi_and_tlli(aa.allocatedPTMSI.mobileIdentityLV.mobileIdentityV.oddEvenInd_identity.tmsi_ptmsi.octets, |
| ran_index); |
| } |
| if (ispresent(aa.msIdentity)) { |
| setverdict(fail, "unexpected TMSI allocation in non-combined attach"); |
| mtc.stop; |
| } |
| /* P-TMSI.sig */ |
| if (ispresent(aa.ptmsiSignature)) { |
| g_pars.p_tmsi_sig := aa.ptmsiSignature.valueField; |
| } |
| /* updateTimer */ |
| // aa.readyTimer |
| /* T3302, T3319, T3323, T3312_ext, T3324 */ |
| } |
| |
| function f_process_rau_accept(PDU_GMM_RoutingAreaUpdateAccept ra, integer ran_index := 0) runs on BSSGP_ConnHdlr { |
| /* mandatory IE */ |
| g_pars.ra := ra.routingAreaId; |
| if (ispresent(ra.allocatedPTMSI)) { |
| if (not g_pars.net.expect_ptmsi) { |
| setverdict(fail, "unexpected P-TMSI allocation"); |
| mtc.stop; |
| } |
| f_upd_ptmsi_and_tlli(ra.allocatedPTMSI.mobileIdentityLV.mobileIdentityV.oddEvenInd_identity.tmsi_ptmsi.octets, |
| ran_index); |
| } |
| if (ispresent(ra.msIdentity)) { |
| setverdict(fail, "unexpected TMSI allocation in non-combined attach"); |
| mtc.stop; |
| } |
| /* P-TMSI.sig */ |
| if (ispresent(ra.ptmsiSignature)) { |
| g_pars.p_tmsi_sig := ra.ptmsiSignature.valueField; |
| } |
| /* updateTimer */ |
| // aa.readyTimer |
| /* T3302, T3319, T3323, T3312_ext, T3324 */ |
| } |
| |
| |
| function f_random_RAI(HEX0_3n mcc := '262'H, HEX0_3n mnc := '42'H) return RoutingAreaIdentificationV { |
| return f_RAI(mcc, mnc, f_rnd_octstring(2), f_rnd_octstring(1)); |
| } |
| |
| /* return a MobileIdentityLV: P-TMSI if we have one, IMSI otherwise */ |
| private function f_mi_get_lv() runs on BSSGP_ConnHdlr return MobileIdentityLV { |
| if (ispresent(g_pars.p_tmsi)) { |
| return valueof(ts_MI_TMSI_LV(g_pars.p_tmsi)); |
| } else { |
| return valueof(ts_MI_IMSI_LV(g_pars.imsi)); |
| } |
| } |
| |
| private function f_gmm_gsup_lu_isd() runs on BSSGP_ConnHdlr { |
| var GSUP_PDU gsup; |
| /* Expect MSC to perform LU with HLR */ |
| GSUP.receive(tr_GSUP_UL_REQ(g_pars.imsi)); |
| gsup := valueof(ts_GSUP_ISD_REQ(g_pars.imsi, g_pars.msisdn)); |
| gsup.ies := gsup.ies & { valueof(ts_GSUP_IE_PdpInfo(char2oct("*"), '0121'O, ''O)) }; |
| GSUP.send(gsup); |
| GSUP.receive(tr_GSUP_ISD_RES(g_pars.imsi)); |
| GSUP.send(ts_GSUP_UL_RES(g_pars.imsi)); |
| } |
| |
| friend function f_gmm_attach(boolean umts_aka_challenge, boolean force_gsm_sres, integer ran_index := 0, |
| template (omit) RoutingAreaIdentificationV old_ra := omit) runs on BSSGP_ConnHdlr { |
| var RoutingAreaIdentificationV old_ra_val; |
| var template PDU_L3_MS_SGSN attach_req; |
| var PDU_L3_SGSN_MS l3_mt; |
| |
| if (istemplatekind(old_ra, "omit")) { |
| old_ra_val := f_random_RAI(); |
| } else { |
| old_ra_val := valueof(old_ra); |
| } |
| |
| attach_req := ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra_val, false, false, omit, omit); |
| /* indicate R99 capability of the MS to enable UMTS AKA in presence of |
| * 3G auth vectors */ |
| attach_req.msgs.gprs_mm.attachRequest.msNetworkCapability.msNetworkCapabilityV.revisionLevelIndicatior := '1'B; |
| /* The thing is, if the solSACapability is 'omit', then the |
| * revisionLevelIndicatior is at the wrong place! */ |
| attach_req.msgs.gprs_mm.attachRequest.msNetworkCapability.msNetworkCapabilityV.solSACapability := '0'B; |
| |
| f_send_l3(attach_req, ran_index); |
| f_gmm_auth(umts_aka_challenge, force_gsm_sres, ran_index); |
| /* Expect SGSN to perform LU with HLR */ |
| f_gmm_gsup_lu_isd(); |
| |
| l3_mt := f_receive_l3(tr_GMM_ATTACH_ACCEPT('001'B, ?, ?), ran_index); |
| f_process_attach_accept(l3_mt.msgs.gprs_mm.attachAccept, ran_index); |
| |
| /* FIXME: Extract P-TMSI, if any. Only send Complete if necessary */ |
| f_send_l3(ts_GMM_ATTACH_COMPL, ran_index); |
| |
| /* IuPS case: Expect Iu Release */ |
| if (is_iu(ran_index)) { |
| as_iu_release_compl_disc(); |
| } |
| |
| /* Race condition |
| * It has shown, that GMM_ATTACH_COMPL might take some time to arrive at the SGSN through the layers. |
| * In TC hlr_location_cancel_request_update, the GMM_ATTACH_COMPL came 2ms too late, so that the Location Cancel Request |
| * arrived before it. This results in a test case failure. |
| * Delay execution by 50 ms |
| */ |
| f_sleep(0.05); |
| } |
| |
| friend function f_bssgp_suspend(integer ran_idx := 0) runs on BSSGP_ConnHdlr return OCT1 { |
| timer T := 5.0; |
| var PDU_BSSGP rx_pdu; |
| BSSGP_GLOBAL[ran_idx].send(ts_BSSGP_SUSPEND(g_pars.tlli, g_pars.bssgp_cell_id[ran_idx].ra_id)); |
| T.start; |
| alt { |
| [] BSSGP_GLOBAL[ran_idx].receive(tr_BSSGP_SUSPEND_ACK(g_pars.tlli, g_pars.bssgp_cell_id[ran_idx].ra_id, ?)) -> value rx_pdu { |
| return rx_pdu.pDU_BSSGP_SUSPEND_ACK.suspend_Reference_Number.suspend_Reference_Number_value; |
| } |
| [] BSSGP_GLOBAL[ran_idx].receive(tr_BSSGP_SUSPEND_NACK(g_pars.tlli, g_pars.bssgp_cell_id[ran_idx].ra_id, ?)) -> value rx_pdu { |
| setverdict(fail, "SUSPEND-NACK in response to SUSPEND for TLLI ", g_pars.tlli); |
| mtc.stop; |
| } |
| [] T.timeout { |
| setverdict(fail, "No SUSPEND-ACK in response to SUSPEND for TLLI ", g_pars.tlli); |
| mtc.stop; |
| } |
| } |
| return '00'O; |
| } |
| |
| friend function f_bssgp_resume(OCT1 susp_ref, integer ran_idx := 0) runs on BSSGP_ConnHdlr { |
| timer T := 5.0; |
| BSSGP_GLOBAL[ran_idx].send(ts_BSSGP_RESUME(g_pars.tlli, g_pars.bssgp_cell_id[ran_idx].ra_id, susp_ref)); |
| T.start; |
| alt { |
| [] BSSGP_GLOBAL[ran_idx].receive(tr_BSSGP_RESUME_ACK(g_pars.tlli, g_pars.bssgp_cell_id[ran_idx].ra_id)); |
| [] BSSGP_GLOBAL[ran_idx].receive(tr_BSSGP_RESUME_NACK(g_pars.tlli, g_pars.bssgp_cell_id[ran_idx].ra_id, |
| ?)) { |
| setverdict(fail, "RESUME-NACK in response to RESUME for TLLI ", g_pars.tlli); |
| mtc.stop; |
| } |
| [] T.timeout { |
| setverdict(fail, "No RESUME-ACK in response to SUSPEND for TLLI ", g_pars.tlli); |
| mtc.stop; |
| } |
| } |
| } |
| |
| |
| private function f_TC_attach(charstring id) runs on BSSGP_ConnHdlr { |
| f_gmm_attach(false, false); |
| setverdict(pass); |
| } |
| |
| testcase TC_attach() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach), testcasename(), g_gb, 1); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| testcase TC_attach_mnc3() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init('023042'H); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach), testcasename(), g_gb, 1001); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_umts_aka_umts_res(charstring id) runs on BSSGP_ConnHdlr { |
| f_gmm_attach(true, false); |
| setverdict(pass); |
| } |
| testcase TC_attach_umts_aka_umts_res() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_umts_aka_umts_res), testcasename(), g_gb, 1002); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_umts_aka_gsm_sres(charstring id) runs on BSSGP_ConnHdlr { |
| f_gmm_attach(true, true); |
| setverdict(pass); |
| } |
| testcase TC_attach_umts_aka_gsm_sres() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_umts_aka_gsm_sres), testcasename(), g_gb, 1003); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* MS never responds to ID REQ, expect ATTACH REJECT */ |
| private function f_TC_attach_auth_id_timeout(charstring id) runs on BSSGP_ConnHdlr { |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra, false, false, omit, omit)); |
| alt { |
| [] BSSGP[0].receive(tr_GMM_ID_REQ(?)) { |
| /* don't send ID Response */ |
| repeat; |
| } |
| [] BSSGP[0].receive(tr_GMM_ATTACH_REJECT('09'O)) { |
| setverdict(pass); |
| } |
| [] BSSGP[0].receive(tr_GMM_ATTACH_REJECT(?)) { |
| setverdict(fail, "Wrong Attach Reject Cause"); |
| mtc.stop; |
| } |
| } |
| } |
| testcase TC_attach_auth_id_timeout() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_auth_id_timeout), testcasename(), g_gb, 2, 40.0); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* HLR never responds to SAI REQ, expect ATTACH REJECT */ |
| private function f_TC_attach_auth_sai_timeout(charstring id) runs on BSSGP_ConnHdlr { |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra, false, false, omit, omit)); |
| alt { |
| [] as_mm_identity(); |
| [] GSUP.receive(tr_GSUP_SAI_REQ(g_pars.imsi)); { } |
| } |
| /* don't send SAI-response from HLR */ |
| BSSGP[0].receive(tr_GMM_ATTACH_REJECT(?)); |
| setverdict(pass); |
| } |
| testcase TC_attach_auth_sai_timeout() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_auth_sai_timeout), testcasename(), g_gb, 3); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* HLR rejects SAI, expect ATTACH REJECT */ |
| private function f_TC_attach_auth_sai_reject(charstring id) runs on BSSGP_ConnHdlr { |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra, false, false, omit, omit)); |
| alt { |
| [] as_mm_identity(); |
| [] GSUP.receive(tr_GSUP_SAI_REQ(g_pars.imsi)); { |
| GSUP.send(ts_GSUP_SAI_ERR(g_pars.imsi, 23)); |
| } |
| } |
| BSSGP[0].receive(tr_GMM_ATTACH_REJECT(?)); |
| setverdict(pass); |
| } |
| testcase TC_attach_auth_sai_reject() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_auth_sai_reject), testcasename(), g_gb, 4); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* HLR never responds to UL REQ, expect ATTACH REJECT */ |
| private function f_TC_attach_gsup_lu_timeout(charstring id) runs on BSSGP_ConnHdlr { |
| var PDU_L3_SGSN_MS l3_mt; |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra, false, false, omit, omit)); |
| f_gmm_auth(); |
| /* Expect MSC to perform LU with HLR */ |
| GSUP.receive(tr_GSUP_UL_REQ(g_pars.imsi)); |
| /* Never follow-up with ISD_REQ or UL_RES */ |
| alt { |
| [] BSSGP[0].receive(tr_GMM_ATTACH_REJECT(?)) { |
| setverdict(pass); |
| } |
| [] BSSGP[0].receive(tr_GMM_ATTACH_ACCEPT('001'B, ?, ?)) -> value l3_mt { |
| f_process_attach_accept(l3_mt.msgs.gprs_mm.attachAccept); |
| setverdict(fail); |
| mtc.stop; |
| } |
| } |
| } |
| testcase TC_attach_gsup_lu_timeout() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_gsup_lu_timeout), testcasename(), g_gb, 5); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* HLR rejects UL REQ, expect ATTACH REJECT */ |
| private function f_TC_attach_gsup_lu_reject(charstring id) runs on BSSGP_ConnHdlr { |
| var PDU_L3_SGSN_MS l3_mt; |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra, false, false, omit, omit)); |
| f_gmm_auth(); |
| /* Expect MSC to perform LU with HLR */ |
| GSUP.receive(tr_GSUP_UL_REQ(g_pars.imsi)) { |
| GSUP.send(ts_GSUP_UL_ERR(g_pars.imsi, 0)); |
| } |
| alt { |
| [] BSSGP[0].receive(tr_GMM_ATTACH_REJECT(?)) { |
| setverdict(pass); |
| } |
| [] BSSGP[0].receive(tr_GMM_ATTACH_ACCEPT('001'B, ?, ?)) -> value l3_mt { |
| f_process_attach_accept(l3_mt.msgs.gprs_mm.attachAccept); |
| setverdict(fail); |
| mtc.stop; |
| } |
| } |
| } |
| testcase TC_attach_gsup_lu_reject() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_gsup_lu_reject), testcasename(), g_gb, 6); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| |
| /* Attempt of combined GPRS + IMSI attach: network should ACK only GPRS attach */ |
| private function f_TC_attach_combined(charstring id) runs on BSSGP_ConnHdlr { |
| var PDU_L3_SGSN_MS l3_mt; |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra, true, false, omit, omit)); |
| f_gmm_auth(); |
| /* Expect MSC to perform LU with HLR */ |
| f_gmm_gsup_lu_isd(); |
| |
| BSSGP[0].receive(tr_GMM_ATTACH_ACCEPT('001'B, ?, ?)) -> value l3_mt { |
| f_process_attach_accept(l3_mt.msgs.gprs_mm.attachAccept); |
| } |
| f_send_l3(ts_GMM_ATTACH_COMPL); |
| setverdict(pass); |
| } |
| testcase TC_attach_combined() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_combined), testcasename(), g_gb, 7); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Attempt of GPRS ATTACH in 'accept all' mode */ |
| private function f_TC_attach_accept_all(charstring id) runs on BSSGP_ConnHdlr { |
| var PDU_L3_SGSN_MS l3_mt; |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| |
| g_pars.net.expect_auth := false; |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra, false, false, omit, omit)); |
| f_gmm_auth(); |
| BSSGP[0].receive(tr_GMM_ATTACH_ACCEPT('001'B, ?, ?)) -> value l3_mt { |
| f_process_attach_accept(l3_mt.msgs.gprs_mm.attachAccept); |
| } |
| f_send_l3(ts_GMM_ATTACH_COMPL); |
| setverdict(pass); |
| } |
| testcase TC_attach_accept_all() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| f_vty_config(SGSNVTY, "sgsn", "auth-policy accept-all"); |
| vc_conn := f_start_handler(refers(f_TC_attach_accept_all), testcasename(), g_gb, 8); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Attempt of GPRS ATTACH in 'accept all' mode */ |
| private function f_TC_attach_closed_foreign(charstring id) runs on BSSGP_ConnHdlr { |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| |
| /* Simulate a foreign IMSI */ |
| g_pars.imsi := '001010123456789'H; |
| f_bssgp_client_register(g_pars.imsi, g_pars.tlli); |
| |
| g_pars.net.expect_auth := false; |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra, false, false, omit, omit)); |
| alt { |
| [] as_mm_identity(); |
| [] BSSGP[0].receive(tr_GMM_ATTACH_REJECT('07'O)) { |
| setverdict(pass); |
| } |
| [] BSSGP[0].receive(tr_GMM_ATTACH_REJECT(?)) { |
| setverdict(pass); |
| } |
| [] BSSGP[0].receive(tr_GMM_ATTACH_ACCEPT(*, *, *)) { |
| setverdict(fail); |
| mtc.stop; |
| } |
| } |
| } |
| testcase TC_attach_closed() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| f_vty_config(SGSNVTY, "sgsn", "auth-policy closed"); |
| /* test with foreign IMSI: Must Reject */ |
| vc_conn := f_start_handler(refers(f_TC_attach_closed_foreign), testcasename(), g_gb, 9); |
| vc_conn.done; |
| /* test with home IMSI: Must Accept */ |
| vc_conn := f_start_handler(refers(f_TC_attach_accept_all), testcasename(), g_gb, 10); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Routing Area Update from Unknown TLLI -> REJECT */ |
| private function f_TC_rau_unknown(charstring id) runs on BSSGP_ConnHdlr { |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| |
| f_send_l3(ts_GMM_RAU_REQ(f_mi_get_lv(), GPRS_UPD_T_RA, old_ra, false, omit, omit)); |
| alt { |
| [] BSSGP[0].receive(tr_GMM_RAU_REJECT('0a'O)) { /* gmm cause: implicitly detached */ |
| setverdict(pass); |
| } |
| /* FIXME: Expect XID RESET? */ |
| [] BSSGP[0].receive { repeat; } |
| } |
| } |
| testcase TC_rau_unknown() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_rau_unknown), testcasename(), g_gb, 11); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_rau(charstring id) runs on BSSGP_ConnHdlr { |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| |
| f_routing_area_update(g_pars.ra); |
| |
| } |
| testcase TC_attach_rau() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_rau), testcasename(), g_gb, 12); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* general GPRS DETACH helper */ |
| function f_detach_mo(BIT3 detach_type, boolean power_off, boolean expect_purge, integer ran_index := 0) runs on BSSGP_ConnHdlr { |
| var PDU_L3_SGSN_MS l3_mt; |
| timer T := 5.0; |
| f_send_l3(ts_GMM_DET_REQ_MO(detach_type, power_off), ran_index); |
| if (expect_purge) { |
| GSUP.receive(tr_GSUP_PURGE_MS_REQ(g_pars.imsi, OSMO_GSUP_CN_DOMAIN_PS)); |
| GSUP.send(ts_GSUP_PURGE_MS_RES(g_pars.imsi)); |
| } |
| T.start; |
| alt { |
| [not expect_purge] GSUP.receive(tr_GSUP_PURGE_MS_REQ(?)) { |
| setverdict(fail, "Unexpected GSUP PURGE MS for unregistered TLLI"); |
| mtc.stop; |
| } |
| [power_off] BSSGP[ran_index].receive(tr_GMM_DET_ACCEPT_MT) -> value l3_mt { |
| g_pars.ra := omit; |
| setverdict(fail, "Unexpected DETACH ACCEPT in power-off DETACH"); |
| mtc.stop; |
| /* TODO: check if any PDP contexts are deactivated on network side? */ |
| } |
| [power_off] T.timeout { |
| setverdict(pass); |
| } |
| [not power_off] BSSGP[ran_index].receive(tr_GMM_DET_ACCEPT_MT) -> value l3_mt { |
| g_pars.ra := omit; |
| setverdict(pass); |
| /* TODO: check if any PDP contexts are deactivated on network side? */ |
| } |
| [] BSSGP[ran_index].receive(PDU_L3_SGSN_MS:?) -> value l3_mt { |
| if (power_off) { |
| setverdict(fail, "Unexpected Layer 3 package received in power-off DETACH"); |
| } else { |
| setverdict(fail, "Unexpected Layer 3 package received in normal DETACH"); |
| } |
| mtc.stop; |
| } |
| [] BSSGP[ran_index].receive { repeat; } |
| } |
| } |
| |
| /* IMSI DETACH (non-power-off) for unknown TLLI */ |
| private function f_TC_detach_unknown_nopoweroff(charstring id) runs on BSSGP_ConnHdlr { |
| f_detach_mo(c_GMM_DTT_MO_GPRS, false, false); |
| } |
| testcase TC_detach_unknown_nopoweroff() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_detach_unknown_nopoweroff), testcasename(), g_gb, 13); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* IMSI DETACH (power-off) for unknown TLLI */ |
| private function f_TC_detach_unknown_poweroff(charstring id) runs on BSSGP_ConnHdlr { |
| f_detach_mo(c_GMM_DTT_MO_GPRS, true, false); |
| } |
| testcase TC_detach_unknown_poweroff() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_detach_unknown_poweroff), testcasename(), g_gb, 14); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* IMSI DETACH (non-power-off) for known TLLI */ |
| private function f_TC_detach_nopoweroff(charstring id) runs on BSSGP_ConnHdlr { |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| |
| f_detach_mo(c_GMM_DTT_MO_GPRS, false, true); |
| } |
| testcase TC_detach_nopoweroff() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_detach_nopoweroff), testcasename(), g_gb, 15); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* IMSI DETACH (power-off) for known TLLI */ |
| private function f_TC_detach_poweroff(charstring id) runs on BSSGP_ConnHdlr { |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| |
| f_detach_mo(c_GMM_DTT_MO_GPRS, true, true); |
| } |
| testcase TC_detach_poweroff() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_detach_poweroff), testcasename(), g_gb, 16); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| type record PdpActPars { |
| BIT3 tid, /* L3 Transaction ID */ |
| BIT4 nsapi, /* SNDCP NSAPI */ |
| BIT4 sapi, /* LLC SAPI */ |
| QoSV qos, /* QoS parameters */ |
| PDPAddressV addr, /* IP address */ |
| octetstring apn optional, /* APN name */ |
| ProtocolConfigOptionsV pco optional, /* protoco config opts */ |
| OCT1 exp_rej_cause optional, /* expected SM reject cause */ |
| OCT1 gtp_resp_cause, /* GTP response cause */ |
| OCT4 chg_id, /* GTP Charging Identifier */ |
| |
| OCT4 ggsn_tei_c, /* GGSN TEI Control*/ |
| OCT4 ggsn_tei_u, /* GGSN TEI User */ |
| octetstring ggsn_ip_c, /* GGSN IP Control */ |
| octetstring ggsn_ip_u, /* GGSN IP User */ |
| OCT1 ggsn_restart_ctr, /* GGSN Restart Counter */ |
| |
| OCT4 sgsn_tei_c optional, /* SGSN TEI Control */ |
| OCT4 sgsn_tei_u optional, /* SGSN TEI User */ |
| octetstring sgsn_ip_c optional, /* SGSN IP Control */ |
| octetstring sgsn_ip_u optional /* SGSN IP USer */ |
| }; |
| |
| |
| private function f_process_gtp_ctx_act_req(inout PdpActPars apars, PDU_GTPC gtpc) runs on BSSGP_ConnHdlr { |
| var GTPC_PDUs gtpc_rx := gtpc.gtpc_pdu; |
| apars.sgsn_tei_c := gtpc_rx.createPDPContextRequest.teidControlPlane.teidControlPlane; |
| apars.sgsn_tei_u := gtpc_rx.createPDPContextRequest.teidDataI.teidDataI; |
| apars.sgsn_ip_c := gtpc_rx.createPDPContextRequest.sgsn_addr_signalling.addressf; |
| apars.sgsn_ip_u := gtpc_rx.createPDPContextRequest.sgsn_addr_traffic.addressf; |
| f_gtp_register_teid(apars.ggsn_tei_c); |
| f_gtp_register_teid(apars.ggsn_tei_u); |
| } |
| |
| function f_pdp_ctx_act(inout PdpActPars apars, boolean send_recovery := false, integer ran_index := 0) |
| runs on BSSGP_ConnHdlr { |
| var boolean exp_rej := ispresent(apars.exp_rej_cause); |
| var Gtp1cUnitdata g_ud; |
| var template Recovery_gtpc recovery := omit; |
| |
| if (send_recovery) { |
| recovery := ts_Recovery(apars.ggsn_restart_ctr); |
| } |
| |
| f_send_l3(ts_SM_ACT_PDP_REQ(apars.tid, apars.nsapi, apars.sapi, apars.qos, apars.addr, |
| apars.apn, apars.pco), ran_index); |
| GTP.receive(tr_GTPC_MsgType(?, createPDPContextRequest, ?)) -> value g_ud { |
| f_process_gtp_ctx_act_req(apars, g_ud.gtpc); |
| var integer seq_nr := oct2int(g_ud.gtpc.opt_part.sequenceNumber); |
| GTP.send(ts_GTPC_CreatePdpResp(g_ud.peer, seq_nr, |
| apars.sgsn_tei_c, apars.gtp_resp_cause, |
| apars.ggsn_tei_c, apars.ggsn_tei_u, |
| apars.nsapi, |
| apars.ggsn_ip_c, apars.ggsn_ip_u, apars.chg_id, |
| omit, recovery)); |
| } |
| alt { |
| [exp_rej] BSSGP[ran_index].receive(tr_SM_ACT_PDP_REJ(apars.tid, apars.exp_rej_cause)) { |
| setverdict(pass); |
| } |
| [exp_rej] BSSGP[ran_index].receive(tr_SM_ACT_PDP_ACCEPT) { |
| setverdict(fail, "Unexpected PDP CTX ACT ACC"); |
| mtc.stop; |
| } |
| [not exp_rej] BSSGP[ran_index].receive(tr_SM_ACT_PDP_REJ(apars.tid, ?)) { |
| setverdict(fail, "Unexpected PDP CTX ACT FAIL"); |
| mtc.stop; |
| } |
| [not exp_rej] BSSGP[ran_index].receive(tr_SM_ACT_PDP_REJ(apars.tid, ?)) { |
| setverdict(fail, "Unexpected PDP CTX ACT FAIL"); |
| mtc.stop; |
| } |
| [not exp_rej] BSSGP[ran_index].receive(tr_SM_ACT_PDP_ACCEPT(apars.tid, apars.sapi)) { |
| setverdict(pass); |
| } |
| [] as_xid(apars, ran_index); |
| } |
| } |
| |
| function f_pdp_ctx_deact_mo(inout PdpActPars apars, OCT1 cause, integer ran_index := 0) |
| runs on BSSGP_ConnHdlr { |
| var boolean exp_rej := ispresent(apars.exp_rej_cause); |
| var Gtp1cUnitdata g_ud; |
| |
| f_send_l3(ts_SM_DEACT_PDP_REQ_MO(apars.tid, cause, false, omit), ran_index); |
| GTP.receive(tr_GTPC_MsgType(?, deletePDPContextRequest, apars.ggsn_tei_c)) -> value g_ud { |
| var integer seq_nr := oct2int(g_ud.gtpc.opt_part.sequenceNumber); |
| BSSGP[ran_index].clear; |
| GTP.send(ts_GTPC_DeletePdpResp(g_ud.peer, seq_nr, apars.sgsn_tei_c, '7F'O)); |
| } |
| alt { |
| [] BSSGP[ran_index].receive(tr_SM_DEACT_PDP_ACCEPT_MT(apars.tid)) { |
| setverdict(pass); |
| } |
| [] as_xid(apars, ran_index); |
| } |
| } |
| |
| function f_pdp_ctx_deact_mt(inout PdpActPars apars, boolean error_ind := false, integer ran_index := 0) |
| runs on BSSGP_ConnHdlr { |
| var Gtp1cUnitdata g_ud; |
| var integer seq_nr := 23; |
| var GtpPeer peer := valueof(ts_GtpPeerC(apars.sgsn_ip_c)); |
| |
| BSSGP[ran_index].clear; |
| if (error_ind) { |
| GTP.send(ts_GTPU_ErrorIndication(peer, 0 /* seq */, apars.ggsn_tei_u, apars.ggsn_ip_u)); |
| } else { |
| GTP.send(ts_GTPC_DeletePDP(peer, seq_nr, apars.sgsn_tei_c, apars.nsapi, '1'B)); |
| } |
| |
| timer T := 5.0; |
| T.start; |
| |
| alt { |
| [] BSSGP[ran_index].receive(tr_SM_DEACT_PDP_REQ_MT(apars.tid, ?, true)) { |
| f_send_l3(ts_SM_DEACT_PDP_ACCEPT_MO(apars.tid), ran_index); |
| } |
| [not error_ind] GTP.receive(tr_GTPC_MsgType(?, deletePDPContextResponse, apars.ggsn_tei_c)) { |
| repeat; |
| } |
| [] T.timeout { |
| setverdict(fail, "Waiting for SM_DEACT_PDP_REQ_MT"); |
| } |
| } |
| } |
| |
| |
| /* Table 10.5.156/3GPP TS 24.008 */ |
| template (value) QoSV t_QosDefault := { |
| reliabilityClass := '011'B, /* unacknowledged GTP+LLC, acknowledged RLC */ |
| delayClass := '100'B, /* best effort */ |
| spare1 := '00'B, |
| precedenceClass := '010'B, /* normal */ |
| spare2 := '0'B, |
| peakThroughput := '0000'B, /* subscribed */ |
| meanThroughput := '00000'B, /* subscribed */ |
| spare3 := '000'B, |
| deliverErroneusSDU := omit, |
| deliveryOrder := omit, |
| trafficClass := omit, |
| maxSDUSize := omit, |
| maxBitrateUplink := omit, |
| maxBitrateDownlink := omit, |
| sduErrorRatio := omit, |
| residualBER := omit, |
| trafficHandlingPriority := omit, |
| transferDelay := omit, |
| guaranteedBitRateUplink := omit, |
| guaranteedBitRateDownlink := omit, |
| sourceStatisticsDescriptor := omit, |
| signallingIndication := omit, |
| spare4 := omit, |
| maxBitrateDownlinkExt := omit, |
| guaranteedBitRateDownlinkExt := omit, |
| maxBitrateUplinkExt := omit, |
| guaranteedBitRateUplinkExt := omit, |
| maxBitrateDownlinkExt2 := omit, |
| guaranteedBitRateDownlinkExt2 := omit, |
| maxBitrateUplinkExt2 := omit, |
| guaranteedBitRateUplinkExt2 := omit |
| } |
| |
| /* 10.5.6.4 / 3GPP TS 24.008 */ |
| template (value) PDPAddressV t_AddrIPv4dyn := { |
| pdpTypeOrg := '0001'B, /* IETF */ |
| spare := '0000'B, |
| pdpTypeNum := '21'O, /* IPv4 */ |
| addressInfo := omit |
| } |
| template (value) PDPAddressV t_AddrIPv6dyn := { |
| pdpTypeOrg := '0001'B, /* IETF */ |
| spare := '0000'B, |
| pdpTypeNum := '53'O, /* IPv6 */ |
| addressInfo := omit |
| } |
| |
| template (value) PdpActPars t_PdpActPars(charstring ggsn_ip) := { |
| tid := '000'B, |
| nsapi := '0101'B, /* < 5 are reserved */ |
| sapi := '0011'B, /* 3/5/9/11 */ |
| qos := t_QosDefault, |
| addr := t_AddrIPv4dyn, |
| apn := omit, |
| pco := omit, |
| exp_rej_cause := omit, |
| gtp_resp_cause := int2oct(128, 1), |
| chg_id := f_rnd_octstring(4), |
| |
| /* FIXME: make below dynamic !! */ |
| ggsn_tei_c := f_rnd_octstring(4), |
| ggsn_tei_u := f_rnd_octstring(4), |
| ggsn_ip_c := f_inet_addr(ggsn_ip), |
| ggsn_ip_u := f_inet_addr(ggsn_ip), |
| ggsn_restart_ctr := int2oct(2, 1), |
| |
| sgsn_tei_c := omit, |
| sgsn_tei_u := omit, |
| sgsn_ip_c := omit, |
| sgsn_ip_u := omit |
| } |
| |
| template (value) GtpPeer ts_GtpPeerU(octetstring ip) := { |
| connId := 1, |
| remName := f_inet_ntoa(ip), |
| remPort := GTP1U_PORT |
| } |
| |
| template (value) GtpPeer ts_GtpPeerC(octetstring ip) := { |
| connId := 1, |
| remName := f_inet_ntoa(ip), |
| remPort := GTP1C_PORT |
| } |
| |
| private function f_gtpu_send(inout PdpActPars apars, octetstring payload) runs on BSSGP_ConnHdlr { |
| var GtpPeer peer := valueof(ts_GtpPeerU(apars.sgsn_ip_u)); |
| GTP.send(ts_GTP1U_GPDU(peer, 0 /*seq*/, apars.sgsn_tei_u, payload)); |
| } |
| |
| private altstep as_xid(PdpActPars apars, integer ran_index := 0) runs on BSSGP_ConnHdlr { |
| [] BSSGP[ran_index].receive(tr_LLC_XID_MT_CMD(?, apars.sapi)) { |
| repeat; |
| } |
| } |
| |
| template PDU_SN tr_SN_UD(template BIT4 nsapi, template octetstring payload) := { |
| pDU_SN_UNITDATA := { |
| nsapi := nsapi, |
| moreBit := ?, |
| snPduType := '1'B, |
| firstSegmentIndicator := ?, |
| spareBit := ?, |
| pcomp := ?, |
| dcomp := ?, |
| npduNumber := ?, |
| segmentNumber := ?, |
| npduNumberContinued := ?, |
| dataSegmentSnUnitdataPdu := payload |
| } |
| } |
| |
| /* simple case: single segment, no compression */ |
| template (value) PDU_SN ts_SN_UD(BIT4 nsapi, octetstring payload) := { |
| pDU_SN_UNITDATA := { |
| nsapi := nsapi, |
| moreBit := '0'B, |
| snPduType := '1'B, |
| firstSegmentIndicator := '1'B, |
| spareBit := '0'B, |
| pcomp := '0000'B, |
| dcomp := '0000'B, |
| npduNumber := '0000'B, |
| segmentNumber := '0000'B, |
| npduNumberContinued := '00'O, |
| dataSegmentSnUnitdataPdu := payload |
| } |
| } |
| |
| /* Transceive given 'payload' as MT message from GTP -> OsmoSGSN -> Gb */ |
| private function f_gtpu_xceive_mt(inout PdpActPars apars, octetstring payload, integer ran_index := 0, boolean expect_fwd := true) |
| runs on BSSGP_ConnHdlr { |
| timer T := 5.0; |
| /* Send PDU via GTP from our simulated GGSN to the SGSN */ |
| f_gtpu_send(apars, payload); |
| T.start; |
| /* Expect PDU via BSSGP/LLC on simulated PCU from SGSN */ |
| alt { |
| [] as_xid(apars, ran_index); |
| //[] BSSGP[ran_index].receive(tr_BD_SNDCP(apars.sapi, tr_SN_UD(apars.nsapi, payload))); |
| [expect_fwd] BSSGP[ran_index].receive(tr_SN_UD(apars.nsapi, payload)); |
| [expect_fwd] T.timeout { |
| setverdict(fail, "Timeout waiting for GTP-U to appear on BSSGP"); |
| mtc.stop; |
| } |
| [not expect_fwd] BSSGP[ran_index].receive(tr_SN_UD(apars.nsapi, payload)) { |
| setverdict(fail, "GTP-U forwarded to BSSGP but not expected") |
| mtc.stop; |
| } |
| [not expect_fwd] T.timeout {} |
| } |
| } |
| |
| /* Transceive given 'payload' as MO message from Gb -> OsmoSGSN -> GTP */ |
| private function f_gtpu_xceive_mo(inout PdpActPars apars, octetstring payload, integer ran_index := 0, uint9_t n_u := 0) |
| runs on BSSGP_ConnHdlr { |
| /* Send PDU via SNDCP/LLC/BSSGP/NS via simulated MS/PCU to the SGSN */ |
| var GtpPeer peer := valueof(ts_GtpPeerU(apars.sgsn_ip_u)); |
| var PDU_SN sndcp := valueof(ts_SN_UD(apars.nsapi, payload)); |
| BSSGP[ran_index].send(ts_LLC_UI(enc_PDU_SN(sndcp), apars.sapi, '0'B, n_u)); |
| /* Expect PDU via GTP from SGSN on simulated GGSN */ |
| alt { |
| [] GTP.receive(tr_GTPU_GPDU(peer, apars.ggsn_tei_u, payload)); |
| } |
| } |
| |
| private function f_TC_attach_pdp_act(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| |
| f_pdp_ctx_act(apars); |
| } |
| testcase TC_attach_pdp_act() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_pdp_act), testcasename(), g_gb, 17); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* PDP Context activation for not-attached subscriber; expect fail */ |
| private function f_TC_pdp_act_unattached(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| f_send_l3(ts_SM_ACT_PDP_REQ(apars.tid, apars.nsapi, apars.sapi, apars.qos, apars.addr, |
| apars.apn, apars.pco)); |
| alt { |
| /* We might want toalso actually expect a PDPC CTX ACT REJ? */ |
| [] BSSGP[0].receive(tr_GMM_DET_REQ_MT(?, ?)) { |
| setverdict(pass); |
| } |
| [] GTP.receive(tr_GTPC_MsgType(?, createPDPContextRequest, ?)) { |
| setverdict(fail, "Unexpected GTP PDP CTX ACT"); |
| mtc.stop; |
| } |
| [] BSSGP[0].receive(tr_SM_ACT_PDP_ACCEPT(?, ?)) { |
| setverdict(fail, "Unexpected SM PDP CTX ACT ACK"); |
| mtc.stop; |
| } |
| [] BSSGP[0].receive { repeat; } |
| } |
| } |
| testcase TC_pdp_act_unattached() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_pdp_act_unattached), testcasename(), g_gb, 18); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* ATTACH + PDP CTX ACT + user plane traffic */ |
| private function f_TC_attach_pdp_act_user(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| /* then transceive a downlink PDU */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100)); |
| f_gtpu_xceive_mo(apars, f_rnd_octstring(200)); |
| } |
| testcase TC_attach_pdp_act_user() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_pdp_act_user), testcasename(), g_gb, 19); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* ATTACH + PDP CTX ACT; reject from GGSN */ |
| private function f_TC_attach_pdp_act_ggsn_reject(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| |
| apars.gtp_resp_cause := int2oct(199, 1); /* no resources available */ |
| apars.exp_rej_cause := '1a'O; /* insufficient resources */ |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| } |
| testcase TC_attach_pdp_act_ggsn_reject() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_pdp_act_ggsn_reject), testcasename(), g_gb, 20); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* ATTACH + PDP CTX ACT + user plane traffic + PDP CTX DEACT in MO direction */ |
| private function f_TC_attach_pdp_act_user_deact_mo(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| /* then transceive a downlink PDU */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100)); |
| f_gtpu_xceive_mo(apars, f_rnd_octstring(200)); |
| |
| f_pdp_ctx_deact_mo(apars, '00'O); |
| } |
| testcase TC_attach_pdp_act_user_deact_mo() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_pdp_act_user_deact_mo), testcasename(), g_gb, 21); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* ATTACH + PDP CTX ACT + user plane traffic + PDP CTX DEACT in MT direction */ |
| private function f_TC_attach_pdp_act_user_deact_mt(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| /* then transceive a downlink PDU */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100)); |
| f_gtpu_xceive_mo(apars, f_rnd_octstring(200)); |
| |
| f_pdp_ctx_deact_mt(apars, false); |
| } |
| testcase TC_attach_pdp_act_user_deact_mt() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_pdp_act_user_deact_mt), testcasename(), g_gb, 22); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Test MS sending a duplicate Deact PDP Ctx (OS#3956). */ |
| private function f_TC_attach_pdp_act_deact_dup(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| var Gtp1cUnitdata g_ud; |
| var integer i; |
| var OCT1 cause_regular_deact := '24'O; |
| |
| /* first perform regular attach + PDP context act */ |
| f_TC_attach(id); |
| f_pdp_ctx_act(apars); |
| |
| f_send_l3_gmm_llc(ts_SM_DEACT_PDP_REQ_MO(apars.tid, cause_regular_deact, false, omit), 0); |
| f_send_l3_gmm_llc(ts_SM_DEACT_PDP_REQ_MO(apars.tid, cause_regular_deact, false, omit), 0); |
| |
| for (i := 0; i < 2; i := i+1) { |
| GTP.receive(tr_GTPC_MsgType(?, deletePDPContextRequest, apars.ggsn_tei_c)) -> value g_ud { |
| var integer seq_nr := oct2int(g_ud.gtpc.opt_part.sequenceNumber); |
| log("Received deletePDPContextResponse " & int2str(i) & ", seq_nr=" & int2str(seq_nr)); |
| GTP.send(ts_GTPC_DeletePdpResp(g_ud.peer, seq_nr, apars.sgsn_tei_c, '7F'O)); |
| } |
| } |
| |
| alt { |
| [] BSSGP[0].receive(tr_SM_DEACT_PDP_ACCEPT_MT(apars.tid)) { |
| setverdict(pass); |
| } |
| [] as_xid(apars, 0); |
| } |
| |
| /* Make sure second DeactPdpAccept is sent: */ |
| timer T := 2.0; |
| T.start; |
| alt { |
| [] BSSGP[0].receive(tr_SM_DEACT_PDP_ACCEPT_MT(apars.tid)) { |
| setverdict(fail, "Second SM_DEACT_PDP_ACCEPT_MT received"); |
| } |
| [] T.timeout { |
| setverdict(pass); |
| } |
| } |
| |
| setverdict(pass); |
| } |
| testcase TC_attach_pdp_act_deact_dup() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_pdp_act_deact_dup), testcasename(), g_gb, 46); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* ATTACH + ATTACH (2nd) */ |
| private function f_TC_attach_forget_tlli_attach(charstring id) runs on BSSGP_ConnHdlr { |
| g_pars.t_guard := 5.0; |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| |
| /* second to perform regular attach */ |
| f_TC_attach(id); |
| } |
| |
| |
| testcase TC_attach_second_attempt() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_forget_tlli_attach), testcasename(), g_gb, 22); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_echo_timeout(charstring id) runs on BSSGP_ConnHdlr { |
| var Gtp1cUnitdata g_ud; |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| var integer seq_nr; |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| |
| /* Wait to receive first echo request and send initial Restart counter */ |
| GTP.receive(tr_GTPC_MsgType(?, echoRequest, ?)) -> value g_ud { |
| BSSGP[0].clear; |
| seq_nr := oct2int(g_ud.gtpc.opt_part.sequenceNumber); |
| GTP.send(ts_GTPC_PONG(g_ud.peer, seq_nr, apars.ggsn_restart_ctr)); |
| f_sleep(int2float(mp_echo_interval)); /* wait until around next echo is expected */ |
| } |
| |
| /* At some point next echo request not answered will timeout and SGSN |
| should drop the pdp ctx. Around T3 (3secs) * 6 (+ extra, a lot due to OS#4178): */ |
| timer T := 3.0 * 6.0 + 16.0; |
| T.start; |
| alt { |
| [] BSSGP[0].receive(tr_SM_DEACT_PDP_REQ_MT(apars.tid, ?, true)) { |
| f_send_l3_gmm_llc(ts_SM_DEACT_PDP_ACCEPT_MO(apars.tid)); |
| setverdict(pass); |
| } |
| [] GTP.receive(tr_GTPC_MsgType(?, deletePDPContextRequest, apars.ggsn_tei_c)) -> value g_ud { |
| /* SGSN currently doesn't send this message because it expects GGSN to be non-reachable anyway */ |
| seq_nr := oct2int(g_ud.gtpc.opt_part.sequenceNumber); |
| log("Received deletePDPContextRequest seq_nr=" & int2str(seq_nr)); |
| GTP.send(ts_GTPC_DeletePdpResp(g_ud.peer, seq_nr, apars.sgsn_tei_c, '7F'O)); |
| repeat; |
| } |
| [] GTP.receive(tr_GTPC_MsgType(?, echoRequest, ?)) -> value g_ud { |
| seq_nr := oct2int(g_ud.gtpc.opt_part.sequenceNumber); |
| log("Received EchoRequest seq_nr=" & int2str(seq_nr)); |
| repeat; |
| } |
| [] T.timeout { |
| setverdict(fail, "BSSGP DeactPdpReq not received"); |
| mtc.stop; |
| } |
| [] as_xid(apars); |
| } |
| T.stop |
| |
| setverdict(pass); |
| } |
| /* ATTACH + trigger Recovery procedure through CreatePdpResp */ |
| testcase TC_attach_echo_timeout() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| g_use_echo := true; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_echo_timeout), testcasename(), g_gb, 67, 50.0); |
| vc_conn.done; |
| g_use_echo := false; |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_restart_ctr_echo(charstring id) runs on BSSGP_ConnHdlr { |
| var Gtp1cUnitdata g_ud; |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* Activate a pdp context against the GGSN */ |
| f_pdp_ctx_act(apars); |
| /* Wait to receive first echo request and send initial Restart counter */ |
| GTP.receive(tr_GTPC_MsgType(?, echoRequest, ?)) -> value g_ud { |
| var integer seq_nr := oct2int(g_ud.gtpc.opt_part.sequenceNumber); |
| GTP.send(ts_GTPC_PONG(g_ud.peer, seq_nr, apars.ggsn_restart_ctr)); |
| } |
| /* Wait to receive second echo request and send incremented Restart |
| counter. This will fake a restarted GGSN, and pdp ctx allocated |
| should be released by SGSN */ |
| apars.ggsn_restart_ctr := int2oct(oct2int(apars.ggsn_restart_ctr) + 1, 1); |
| GTP.receive(tr_GTPC_MsgType(?, echoRequest, ?)) -> value g_ud { |
| var integer seq_nr := oct2int(g_ud.gtpc.opt_part.sequenceNumber); |
| GTP.send(ts_GTPC_PONG(g_ud.peer, seq_nr, apars.ggsn_restart_ctr)); |
| } |
| var OCT1 cause_network_failure := int2oct(38, 1) |
| alt { |
| [] BSSGP[0].receive(tr_SM_DEACT_PDP_REQ_MT(apars.tid, cause_network_failure, true)) { |
| f_send_l3(ts_SM_DEACT_PDP_ACCEPT_MO(apars.tid)); |
| setverdict(pass); |
| } |
| [] as_xid(apars); |
| } |
| setverdict(pass); |
| } |
| /* ATTACH + trigger Recovery procedure through EchoResp */ |
| testcase TC_attach_restart_ctr_echo() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| g_use_echo := true |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_restart_ctr_echo), testcasename(), g_gb, 23, 30.0); |
| vc_conn.done; |
| g_use_echo := false |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_restart_ctr_create(charstring id) runs on BSSGP_ConnHdlr { |
| var Gtp1cUnitdata g_ud; |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| var integer seq_nr := 23; |
| var GtpPeer peer; |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| |
| /* Use this CTX ACT to send initial Restart counter to SGSN. */ |
| apars.gtp_resp_cause := int2oct(199, 1); /* no resources available */ |
| apars.exp_rej_cause := '1a'O; /* insufficient resources */ |
| f_pdp_ctx_act(apars, true); |
| |
| /* Increment restart_ctr. This will fake a restarted GGSN when CreatePdpResp is |
| /* received. */ |
| apars.ggsn_restart_ctr := int2oct(oct2int(apars.ggsn_restart_ctr) + 1, 1); |
| |
| /* FIXME: Once we can easily handle different pdp ctx simultaneously, it |
| would be great to have an active pdp context here before triggering |
| Recovery, and making sure the the DEACT request is sent by the SGSN. |
| */ |
| |
| /* Activate a pdp context against the GGSN, send incremented Recovery |
| IE. This should trigger the recovery path, but still this specific |
| CTX activation should work. */ |
| apars.exp_rej_cause := omit; /* default value for tests */ |
| apars.gtp_resp_cause := int2oct(128, 1); /* default value for tests */ |
| f_pdp_ctx_act(apars, true); |
| |
| setverdict(pass); |
| } |
| /* ATTACH + trigger Recovery procedure through CreatePdpResp */ |
| testcase TC_attach_restart_ctr_create() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_restart_ctr_create), testcasename(), g_gb, 24, 30.0); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* ATTACH + PDP CTX ACT + user plane traffic + PDP CTX DEACT in MT direction + trigger T3395 */ |
| private function f_TC_attach_pdp_act_deact_mt_t3395_expire(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| var integer seq_nr := 23; |
| var GtpPeer peer; |
| var integer i; |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| |
| BSSGP[0].clear; |
| peer := valueof(ts_GtpPeerC(apars.sgsn_ip_c)); |
| GTP.send(ts_GTPC_DeletePDP(peer, seq_nr, apars.sgsn_tei_c, apars.nsapi, '1'B)); |
| |
| for (i := 0; i < 5; i := i+1) { |
| alt { |
| [] BSSGP[0].receive(tr_SM_DEACT_PDP_REQ_MT(apars.tid, ?, true)) {} |
| [] as_xid(apars); |
| } |
| } |
| |
| GTP.receive(tr_GTPC_MsgType(?, deletePDPContextResponse, apars.ggsn_tei_c)) {} |
| |
| f_send_l3(ts_SM_DEACT_PDP_ACCEPT_MO(apars.tid)); |
| setverdict(pass); |
| } |
| testcase TC_attach_pdp_act_deact_mt_t3395_expire() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_pdp_act_deact_mt_t3395_expire), testcasename(), g_gb, 25, 60.0); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* ATTACH + PDP CTX ACT dropped + retrans */ |
| private function f_TC_attach_pdp_act_deact_gtp_retrans(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| var Gtp1cUnitdata g_ud_first, g_ud_second; |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| |
| /* then activate PDP context on the Gb side */ |
| f_send_l3_gmm_llc(ts_SM_ACT_PDP_REQ(apars.tid, apars.nsapi, apars.sapi, apars.qos, apars.addr, |
| apars.apn, apars.pco), 0); |
| |
| GTP.receive(tr_GTPC_MsgType(?, createPDPContextRequest, ?)) -> value g_ud_first {} |
| log("First createPDPContextRequest received, dropping & waiting for retransmission"); |
| GTP.receive(tr_GTPC_MsgType(?, createPDPContextRequest, ?)) -> value g_ud_second { |
| if (g_ud_first != g_ud_second) { |
| setverdict(fail, "Retransmitted GTP message createPDPContextRequest is different from original one!"); |
| mtc.stop; |
| } |
| f_process_gtp_ctx_act_req(apars, g_ud_second.gtpc); |
| var integer seq_nr := oct2int(g_ud_second.gtpc.opt_part.sequenceNumber); |
| GTP.send(ts_GTPC_CreatePdpResp(g_ud_second.peer, seq_nr, |
| apars.sgsn_tei_c, apars.gtp_resp_cause, |
| apars.ggsn_tei_c, apars.ggsn_tei_u, |
| apars.nsapi, |
| apars.ggsn_ip_c, apars.ggsn_ip_u, apars.chg_id, |
| omit, omit)); |
| } |
| BSSGP[0].receive(tr_SM_ACT_PDP_ACCEPT) {} |
| |
| /* Now the same with Deact */ |
| f_send_l3_gmm_llc(ts_SM_DEACT_PDP_REQ_MO(apars.tid, '00'O, false, omit), 0); |
| GTP.receive(tr_GTPC_MsgType(?, deletePDPContextRequest, apars.ggsn_tei_c)) -> value g_ud_first {} |
| log("First deletePDPContextRequest received, dropping & waiting for retransmission"); |
| GTP.receive(tr_GTPC_MsgType(?, deletePDPContextRequest, apars.ggsn_tei_c)) -> value g_ud_second { |
| if (g_ud_first != g_ud_second) { |
| setverdict(fail, "Retransmitted GTP message deletePDPContextRequest is different from original one!"); |
| mtc.stop; |
| } |
| var integer seq_nr := oct2int(g_ud_second.gtpc.opt_part.sequenceNumber); |
| BSSGP[0].clear; |
| GTP.send(ts_GTPC_DeletePdpResp(g_ud_second.peer, seq_nr, apars.sgsn_tei_c, '7F'O)); |
| } |
| alt { |
| [] BSSGP[0].receive(tr_SM_DEACT_PDP_ACCEPT_MT(apars.tid)) { |
| setverdict(pass); |
| } |
| [] as_xid(apars, 0); |
| } |
| |
| setverdict(pass); |
| } |
| testcase TC_attach_pdp_act_deact_gtp_retrans() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_pdp_act_deact_gtp_retrans), testcasename(), g_gb, 27); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Test that SGSN GTP response retransmit queue works fine */ |
| private function f_TC_attach_pdp_act_deact_gtp_retrans_resp(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| var integer seq_nr := 23; |
| var Gtp1cUnitdata g_ud_first, g_ud_second; |
| var template Gtp1cUnitdata g_delete_req; |
| /* first perform regular attach + PDP context act */ |
| f_TC_attach(id); |
| f_pdp_ctx_act(apars); |
| |
| /* Now perform an MT DeleteCtxReq and emulate GGSN didn't receive response and sends a duplicated DeleteCtxReq */ |
| BSSGP[0].clear; |
| var GtpPeer peer := valueof(ts_GtpPeerC(apars.sgsn_ip_c)); |
| g_delete_req := ts_GTPC_DeletePDP(peer, seq_nr, apars.sgsn_tei_c, apars.nsapi, '1'B); |
| GTP.send(g_delete_req); |
| alt { |
| [] BSSGP[0].receive(tr_SM_DEACT_PDP_REQ_MT(apars.tid, ?, true)) { |
| f_send_l3_gmm_llc(ts_SM_DEACT_PDP_ACCEPT_MO(apars.tid), 0); |
| } |
| [] as_xid(apars, 0); |
| } |
| GTP.receive(tr_GTPC_MsgType(?, deletePDPContextResponse, apars.ggsn_tei_c)) -> value g_ud_first { |
| if (g_ud_first.gtpc.gtpc_pdu.deletePDPContextResponse.cause.causevalue != '80'O) { |
| setverdict(fail, "Received deletePDPContextResponse cause is not 'Request accepted'"); |
| mtc.stop; |
| } |
| }; |
| |
| /* Send duplicate DeleteCtxReq */ |
| log("First deletePDPContextResponse received, dropping & retransmitting retransmission of deletePDPContextRequest"); |
| GTP.send(g_delete_req); |
| GTP.receive(tr_GTPC_MsgType(?, deletePDPContextResponse, apars.ggsn_tei_c)) -> value g_ud_second { |
| if (g_ud_first != g_ud_second) { |
| setverdict(fail, "Retransmitted GTP message deletePDPContextResponse is different from original one!"); |
| mtc.stop; |
| } |
| } |
| |
| /* Let's send now a new DeleteCtxReq (increased seq_nr) to make sure it |
| * is handled differently by SGSN (expect "non-existent" cause) */ |
| g_delete_req := ts_GTPC_DeletePDP(peer, seq_nr + 1, apars.sgsn_tei_c, apars.nsapi, '1'B); |
| GTP.send(g_delete_req); |
| /* Response with cause "non-existent" must be sent with TEID 0 according to specs */ |
| GTP.receive(tr_GTPC_MsgType(?, deletePDPContextResponse, '00000000'O)) -> value g_ud_second { |
| if (g_ud_second.gtpc.gtpc_pdu.deletePDPContextResponse.cause.causevalue != 'C0'O) { |
| setverdict(fail, "Received deletePDPContextResponse cause is not 'Non-existent'"); |
| mtc.stop; |
| } |
| } |
| |
| setverdict(pass); |
| } |
| testcase TC_attach_pdp_act_deact_gtp_retrans_resp() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_pdp_act_deact_gtp_retrans_resp), testcasename(), g_gb, 28); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_hlr_location_cancel_request_update(charstring id) runs on BSSGP_ConnHdlr { |
| /* MS: perform regular attach */ |
| f_TC_attach(id); |
| |
| /* HLR: cancel the location request */ |
| GSUP.send(ts_GSUP_CL_REQ(g_pars.imsi, OSMO_GSUP_CANCEL_TYPE_UPDATE)); |
| GSUP.receive(tr_GSUP_CL_RES(g_pars.imsi)); |
| |
| /* ensure no Detach Request got received */ |
| timer T := 5.0; |
| T.start; |
| alt { |
| [] BSSGP[0].receive(tr_GMM_DET_REQ_MT(*, *, *)) { |
| T.stop; |
| setverdict(fail, "Unexpected GMM Detach Request"); |
| mtc.stop; |
| } |
| [] T.timeout { |
| setverdict(pass); |
| mtc.stop; |
| } |
| [] BSSGP[0].receive { |
| repeat; |
| } |
| } |
| } |
| |
| /* ATTACH + PDP CTX ACT + user plane traffic + ERROR IND in MT direction */ |
| private function f_TC_attach_pdp_act_user_error_ind_ggsn(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| /* then transceive a downlink PDU */ |
| f_gtpu_xceive_mo(apars, f_rnd_octstring(200)); |
| |
| /* Send Error indication as response from upload PDU and expect deact towards MS */ |
| f_pdp_ctx_deact_mt(apars, true); |
| } |
| testcase TC_attach_pdp_act_user_error_ind_ggsn() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_pdp_act_user_error_ind_ggsn), testcasename(), g_gb, 26); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| testcase TC_hlr_location_cancel_request_update() runs on test_CT { |
| /* MS <-> SGSN: GMM Attach |
| * HLR -> SGSN: Cancel Location Request |
| * HLR <- SGSN: Cancel Location Ack |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_hlr_location_cancel_request_update), testcasename(), g_gb, 31); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| |
| private function f_TC_hlr_location_cancel_request_withdraw(charstring id) runs on BSSGP_ConnHdlr { |
| /* MS: perform regular attach */ |
| f_TC_attach(id); |
| |
| /* HLR: cancel the location request */ |
| GSUP.send(ts_GSUP_CL_REQ(g_pars.imsi, OSMO_GSUP_CANCEL_TYPE_WITHDRAW)); |
| GSUP.receive(tr_GSUP_CL_RES(g_pars.imsi)); |
| GSUP.send(ts_GSUP_UL_RES(g_pars.imsi)); |
| |
| /* MS: receive a Detach Request */ |
| BSSGP[0].receive(tr_GMM_DET_REQ_MT(c_GMM_DTT_MT_IMSI_DETACH, ?, ?)); |
| f_send_l3(ts_GMM_DET_ACCEPT_MO); |
| |
| setverdict(pass); |
| } |
| |
| testcase TC_hlr_location_cancel_request_withdraw() runs on test_CT { |
| /* MS <-> SGSN: GMM Attach |
| * HLR -> SGSN: Cancel Location Request |
| * HLR <- SGSN: Cancel Location Ack |
| * MS <- SGSN: Detach Request |
| * SGSN-> MS: Detach Complete |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_hlr_location_cancel_request_withdraw), testcasename(), g_gb, 29); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| |
| private function f_hlr_location_cancel_request_unknown_subscriber( |
| charstring id, |
| GSUP_CancelType canceltype) runs on BSSGP_ConnHdlr { |
| |
| /* HLR: cancel the location request */ |
| GSUP.send(ts_GSUP_CL_REQ(g_pars.imsi, canceltype)); |
| |
| /* cause 2 = IMSI_UNKNOWN */ |
| GSUP.receive(tr_GSUP_CL_ERR(g_pars.imsi, 2)); |
| |
| setverdict(pass); |
| } |
| |
| private function f_TC_hlr_location_cancel_request_unknown_subscriber_withdraw(charstring id) runs on BSSGP_ConnHdlr { |
| f_hlr_location_cancel_request_unknown_subscriber(id, OSMO_GSUP_CANCEL_TYPE_WITHDRAW); |
| } |
| |
| testcase TC_hlr_location_cancel_request_unknown_subscriber_withdraw() runs on test_CT { |
| /* HLR -> SGSN: Cancel Location Request |
| * HLR <- SGSN: Cancel Location Error |
| */ |
| |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_hlr_location_cancel_request_unknown_subscriber_withdraw), testcasename(), g_gb, 30); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_hlr_location_cancel_request_unknown_subscriber_update(charstring id) runs on BSSGP_ConnHdlr { |
| f_hlr_location_cancel_request_unknown_subscriber(id, OSMO_GSUP_CANCEL_TYPE_WITHDRAW); |
| } |
| |
| testcase TC_hlr_location_cancel_request_unknown_subscriber_update() runs on test_CT { |
| /* HLR -> SGSN: Cancel Location Request |
| * HLR <- SGSN: Cancel Location Error |
| */ |
| |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_hlr_location_cancel_request_unknown_subscriber_update), testcasename(), g_gb, 30); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_detach_check_subscriber_list(charstring id) runs on BSSGP_ConnHdlr { |
| f_TC_attach(id); |
| f_detach_mo(c_GMM_DTT_MO_GPRS, true, true); |
| } |
| |
| testcase TC_attach_detach_check_subscriber_list() runs on test_CT { |
| /* MS <-> SGSN: Attach |
| * MS -> SGSN: Detach Req (Power off) |
| * VTY -> SGSN: Check if MS is NOT in subscriber cache |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| var integer id := 33; |
| var charstring imsi := hex2str(f_gen_imsi(id)); |
| |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_detach_check_subscriber_list), testcasename(), g_gb, id); |
| vc_conn.done; |
| |
| f_vty_transceive_not_match(SGSNVTY, "show subscriber cache", pattern "* IMSI: {imsi}*"); |
| f_cleanup(); |
| } |
| |
| /* Attempt an attach, but loose the Identification Request (IMEI) */ |
| private function f_TC_attach_no_imei_response(charstring id) runs on BSSGP_ConnHdlr { |
| var integer count_req := 0; |
| var MobileIdentityLV mi; |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), f_random_RAI(), true, false, omit, omit)); |
| |
| alt { |
| [] BSSGP[0].receive(tr_GMM_ATTACH_REJECT(?)) { |
| /* break */ |
| } |
| [] BSSGP[0].receive(tr_GMM_ID_REQ('001'B)) { |
| mi := valueof(ts_MI_IMSI_LV(g_pars.imsi)); |
| f_send_l3(ts_GMM_ID_RESP(mi)); |
| repeat; |
| } |
| [] BSSGP[0].receive(tr_GMM_ID_REQ('010'B)) { |
| /* ignore ID REQ IMEI */ |
| count_req := count_req + 1; |
| repeat; |
| } |
| } |
| if (count_req != 5) { |
| setverdict(fail, "Did not received GMM ID Request Type IMEI 5 times!"); |
| mtc.stop; |
| } |
| setverdict(pass); |
| } |
| |
| testcase TC_attach_no_imei_response() runs on test_CT { |
| /* MS -> SGSN: Attach Request IMSI |
| * MS <- SGSN: Identity Request IMSI (optional) |
| * MS -> SGSN: Identity Response IMSI (optional) |
| * MS <- SGSN: Identity Request IMEI |
| * MS -x SGSN: no response |
| * MS <- SGSN: re-send: Identity Request IMEI 4x |
| * MS <- SGSN: Attach Reject |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_no_imei_response), testcasename(), g_gb, 32, 60.0); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Attempt an attach, but loose the Identification Request (IMSI) */ |
| private function f_TC_attach_no_imsi_response(charstring id) runs on BSSGP_ConnHdlr { |
| var integer count_req := 0; |
| var MobileIdentityLV mi; |
| |
| /* set p_tmsi to use it in Attach Req via f_mi_get_lv() */ |
| g_pars.p_tmsi := 'c0000035'O; |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), f_random_RAI(), true, false, omit, omit)); |
| |
| alt { |
| [] BSSGP[0].receive(tr_GMM_ATTACH_REJECT(?)) { |
| /* break */ |
| } |
| [] BSSGP[0].receive(tr_GMM_ID_REQ('001'B)) { |
| /* ignore ID REQ IMSI */ |
| count_req := count_req + 1; |
| repeat; |
| } |
| [] BSSGP[0].receive(tr_GMM_ID_REQ('010'B)) { |
| mi := valueof(ts_MI_IMEI_LV(g_pars.imei)); |
| f_send_l3(ts_GMM_ID_RESP(mi)); |
| repeat; |
| } |
| } |
| if (count_req != 5) { |
| setverdict(fail, "Did not received GMM ID Request Type IMSI 5 times!"); |
| mtc.stop; |
| } |
| setverdict(pass); |
| } |
| |
| testcase TC_attach_no_imsi_response() runs on test_CT { |
| /* MS -> SGSN: Attach Request TMSI (unknown) |
| * MS <- SGSN: Identity Request IMEI (optional) |
| * MS -> SGSN: Identity Response IMEI (optional) |
| * MS <- SGSN: Identity Request IMSI |
| * MS -x SGSN: no response |
| * MS <- SGSN: re-send: Identity Request IMSI 4x |
| * MS <- SGSN: Attach Reject |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_no_imsi_response), testcasename(), g_gb, 35, 60.0); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_sgsn_vty_destroy_subscriber_imsi(TELNETasp_PT pt, charstring imsi) { |
| f_vty_transceive(pt, "update-subscriber imsi " & imsi & " destroy"); |
| } |
| |
| testcase TC_attach_check_subscriber_list() runs on test_CT { |
| /* MS <-> SGSN: Attach |
| * VTY -> SGSN: Check if MS is in subscriber cache |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| var integer id := 34; |
| var charstring imsi := hex2str(f_gen_imsi(id)); |
| |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach), testcasename(), g_gb, id); |
| vc_conn.done; |
| |
| f_vty_transceive_match(SGSNVTY, "show subscriber cache", pattern "* IMSI: {imsi}*"); |
| f_sgsn_vty_destroy_subscriber_imsi(SGSNVTY, imsi); |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_closed_imsi_added(charstring id) runs on BSSGP_ConnHdlr { |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| var PDU_L3_SGSN_MS l3_mt; |
| |
| /* unregister the old IMSI */ |
| f_bssgp_client_unregister(g_pars.imsi); |
| /* Simulate a foreign IMSI */ |
| g_pars.imsi := '001010123456700'H; |
| f_bssgp_client_register(g_pars.imsi, g_pars.tlli); |
| |
| /* there is no auth */ |
| g_pars.net.expect_auth := false; |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra, false, false, omit, omit)); |
| f_gmm_auth(); |
| alt { |
| [] BSSGP[0].receive(tr_GMM_ATTACH_REJECT(?)) { |
| setverdict(fail, "Received unexpected GMM Attach REJECT"); |
| mtc.stop; |
| } |
| [] BSSGP[0].receive(tr_GMM_ATTACH_ACCEPT(*, *, *)) -> value l3_mt { |
| f_process_attach_accept(l3_mt.msgs.gprs_mm.attachAccept); |
| f_send_l3(ts_GMM_ATTACH_COMPL); |
| setverdict(pass); |
| } |
| } |
| } |
| |
| private function f_TC_attach_closed_add_vty(charstring id) runs on BSSGP_ConnHdlr { |
| |
| f_TC_attach_closed_foreign(id); |
| f_TC_attach_closed_imsi_added(id); |
| |
| } |
| |
| |
| testcase TC_attach_closed_add_vty() runs on test_CT { |
| /* VTY-> SGSN: policy close |
| * MS -> SGSN: Attach Request |
| * MS <- SGSN: Identity Request IMSI |
| * MS -> SGSN: Identity Response IMSI |
| * MS <- SGSN: Attach Reject |
| * VTY-> SGSN: policy imsi-acl add IMSI |
| * MS -> SGSN: Attach Request |
| * MS <- SGSN: Identity Request IMSI |
| * MS -> SGSN: Identity Response IMSI |
| * MS <- SGSN: Identity Request IMEI |
| * MS -> SGSN: Identity Response IMEI |
| * MS <- SGSN: Attach Accept |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| f_vty_config(SGSNVTY, "sgsn", "auth-policy closed"); |
| f_vty_config(SGSNVTY, "sgsn", "imsi-acl del 001010123456789"); |
| f_vty_config(SGSNVTY, "sgsn", "imsi-acl del 001010123456700"); |
| f_vty_config(SGSNVTY, "sgsn", "imsi-acl add 001010123456700"); |
| /* test with foreign IMSI: Must Reject */ |
| vc_conn := f_start_handler(refers(f_TC_attach_closed_add_vty), testcasename(), g_gb, 9); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Attempt an attach, but never answer a Attach Complete */ |
| private function f_TC_attach_check_complete_resend(charstring id) runs on BSSGP_ConnHdlr { |
| var integer count_req := 0; |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), f_random_RAI(), true, false, omit, omit)); |
| f_gmm_auth(); |
| /* Expect SGSN to perform LU with HLR */ |
| f_gmm_gsup_lu_isd(); |
| |
| timer T := 10.0; |
| T.start; |
| alt { |
| [] T.timeout { |
| /* break */ |
| } |
| [] BSSGP[0].receive(tr_GMM_ATTACH_ACCEPT(*, *, *)) { |
| /* ignore */ |
| count_req := count_req + 1; |
| T.start; |
| repeat; |
| } |
| } |
| if (count_req != 5) { |
| setverdict(fail, "Did not received GMM Attach Complete."); |
| mtc.stop; |
| } |
| setverdict(pass); |
| } |
| |
| testcase TC_attach_check_complete_resend() runs on test_CT { |
| /* MS -> SGSN: Attach Request IMSI |
| * MS <- SGSN: Identity Request * |
| * MS -> SGSN: Identity Response * |
| * MS <- SGSN: Attach Complete 5x |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_check_complete_resend), testcasename(), g_gb, 36, 60.0); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| friend function f_routing_area_update(RoutingAreaIdentificationV ra, integer ran_index := 0) runs on BSSGP_ConnHdlr { |
| var PDU_L3_SGSN_MS l3_mt; |
| var PDU_DTAP_PS_MT mt; |
| var template OCT4 p_tmsi := omit; |
| |
| if (is_iu(ran_index)) { |
| p_tmsi := g_pars.p_tmsi; |
| } |
| /* then send RAU */ |
| f_send_l3(ts_GMM_RAU_REQ(f_mi_get_lv(), GPRS_UPD_T_RA, g_pars.ra, false, omit, omit, p_tmsi), ran_index); |
| alt { |
| [is_gb(ran_index)] BSSGP[ran_index].receive(tr_GMM_RAU_ACCEPT) -> value l3_mt { |
| f_process_rau_accept(l3_mt.msgs.gprs_mm.routingAreaUpdateAccept, ran_index); |
| f_send_l3(ts_GMM_RAU_COMPL, ran_index); |
| setverdict(pass); |
| } |
| [is_iu(ran_index)] BSSAP.receive(tr_PDU_DTAP_PS_MT(tr_GMM_RAU_ACCEPT)) -> value mt { |
| f_process_rau_accept(mt.dtap.msgs.gprs_mm.routingAreaUpdateAccept, ran_index); |
| f_send_l3(ts_GMM_RAU_COMPL, ran_index); |
| setverdict(pass); |
| } |
| |
| [is_gb(ran_index)] BSSGP[ran_index].receive(tr_GMM_RAU_REJECT) { |
| setverdict(fail, "Unexpected RAU Reject"); |
| mtc.stop; |
| } |
| [is_iu(ran_index)] BSSAP.receive(tr_PDU_DTAP_PS_MT(tr_GMM_RAU_REJECT)) { |
| setverdict(fail, "Unexpected RAU Reject"); |
| mtc.stop; |
| } |
| |
| [is_iu(ran_index)] BSSAP.receive(tr_RANAP_SecurityModeCmd(uia_algs := ?, uia_key := oct2bit(g_pars.vec.ik), |
| key_sts := ?)) { |
| var IntegrityProtectionAlgorithm uia_chosen := 0; /* 0 = standard_UMTS_integrity_algorithm_UIA1 */ |
| BSSAP.send(ts_RANAP_SecurityModeComplete(uia_chosen)); |
| BSSAP.receive(tr_RANAP_CommonId(imsi_hex2oct(g_pars.imsi))) |
| repeat; |
| } |
| [is_gb(ran_index)] BSSGP[ran_index].receive { repeat; } |
| [is_iu(ran_index)] BSSAP.receive { repeat; } |
| } |
| } |
| |
| private function f_TC_attach_rau_a_a(charstring id) runs on BSSGP_ConnHdlr { |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| |
| /* then send RAU */ |
| f_routing_area_update(g_pars.ra); |
| |
| /* do another RAU */ |
| f_routing_area_update(g_pars.ra); |
| |
| f_detach_mo(c_GMM_DTT_MO_GPRS, true, true); |
| } |
| |
| testcase TC_attach_rau_a_a() runs on test_CT { |
| /* MS <-> SGSN: Successful Attach |
| * MS -> SGSN: Routing Area Update Request |
| * MS <- SGSN: Routing Area Update Accept |
| * MS -> SGSN: Routing Area Update Request |
| * MS <- SGSN: Routing Area Update Accept |
| * MS -> SGSN: Detach (PowerOff) |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_rau_a_a), testcasename(), g_gb, 37); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_rau_a_b(charstring id) runs on BSSGP_ConnHdlr { |
| f_TC_attach(id); |
| |
| log("attach complete sending rau"); |
| f_routing_area_update(g_pars.ra, 0); |
| |
| log("rau complete unregistering"); |
| f_bssgp_client_unregister(g_pars.imsi); |
| f_bssgp_client_register(g_pars.imsi, g_pars.tlli, BSSGP_PROC[1]); |
| |
| log("sending second RAU via different RA"); |
| f_routing_area_update(f_cellid_to_RAI(g_pars.bssgp_cell_id[1]), 1); |
| |
| f_detach_mo(c_GMM_DTT_MO_GPRS, true, true, 1); |
| } |
| |
| testcase TC_attach_rau_a_b() runs on test_CT { |
| /* MS <-> SGSN: Successful Attach |
| * MS -> SGSN: Routing Area _a_ Update Request |
| * MS <- SGSN: Routing Area _a_ Update Accept |
| * MS -> SGSN: Routing Area _b_ Update Request |
| * MS <- SGSN: Routing Area _b_ Update Accept |
| * MS -> SGSN: Detach (PowerOff) |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_rau_a_b), testcasename(), g_gb, 38); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_gmm_attach_req_while_gmm_attach(charstring id) runs on BSSGP_ConnHdlr { |
| var integer count_req := 0; |
| var MobileIdentityLV mi; |
| var RoutingAreaIdentificationV rand_rai := f_random_RAI(); |
| var PDU_L3_SGSN_MS l3_mt; |
| |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), rand_rai, true, false, omit, omit)); |
| |
| alt { |
| [] BSSGP[0].receive(tr_GMM_ATTACH_REJECT(?)) { |
| setverdict(fail, "Unexpected GMM ATTACH REJECT"); |
| mtc.stop; |
| } |
| [] BSSGP[0].receive(tr_GMM_ID_REQ('001'B)) { |
| mi := valueof(ts_MI_IMSI_LV(g_pars.imsi)); |
| f_send_l3(ts_GMM_ID_RESP(mi)); |
| repeat; |
| } |
| [] BSSGP[0].receive(tr_GMM_ID_REQ('010'B)) { |
| /* send out a second GMM_Attach Request. |
| * If the SGSN follows the rules, this 2nd ATTACH REQ should be ignored, because |
| * of the same content */ |
| f_send_l3(ts_GMM_ATTACH_REQ(f_mi_get_lv(), rand_rai, true, false, omit, omit)); |
| mi := valueof(ts_MI_IMEI_LV(g_pars.imei)); |
| f_send_l3(ts_GMM_ID_RESP(mi)); |
| } |
| } |
| f_sleep(1.0); |
| |
| /* we've sent already a IMEI answer, we should NOT asked again for IMEI */ |
| alt { |
| [] BSSGP[0].receive(tr_GMM_ID_REQ('001'B)) { |
| mi := valueof(ts_MI_IMSI_LV(g_pars.imsi)); |
| f_send_l3(ts_GMM_ID_RESP(mi)); |
| repeat; |
| } |
| [] BSSGP[0].receive(tr_GMM_ID_REQ('010'B)) { |
| setverdict(fail, "Unexpected GMM ID REQ (IMEI)."); |
| mtc.stop; |
| } |
| [] BSSGP[0].receive(tr_GMM_ATTACH_REJECT(?)) { |
| setverdict(fail, "Unexpected GMM ATTACH REJECT"); |
| mtc.stop; |
| } |
| [] BSSGP[0].receive(tr_GMM_ATTACH_ACCEPT('001'B, ?, ?)) -> value l3_mt { |
| f_process_attach_accept(l3_mt.msgs.gprs_mm.attachAccept); |
| f_send_l3(ts_GMM_ATTACH_COMPL); |
| setverdict(pass); |
| /* FIXME: Extract P-TMSI, if any. Only send Complete if necessary */ |
| } |
| } |
| } |
| |
| testcase TC_attach_gmm_attach_req_while_gmm_attach() runs on test_CT { |
| /* Testing if the SGSN ignore Attach Request with the exact same content */ |
| /* MS -> SGSN: Attach Request IMSI |
| * MS <- SGSN: Identity Request IMSI (optional) |
| * MS -> SGSN: Identity Response IMSI (optional) |
| * MS <- SGSN: Identity Request IMEI |
| * MS -> SGSN: Attach Request (2nd) |
| * MS <- SGSN: Identity Response IMEI |
| * MS <- SGSN: Attach Accept |
| * MS -> SGSN: Attach Complete |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| f_vty_config(SGSNVTY, "sgsn", "auth-policy accept-all"); |
| vc_conn := f_start_handler(refers(f_TC_attach_gmm_attach_req_while_gmm_attach), testcasename(), g_gb, 39); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_usim_resync(charstring id) runs on BSSGP_ConnHdlr { |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| |
| var template PDU_L3_MS_SGSN attach_req := ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra, false, false, omit, omit); |
| |
| /* send Attach Request */ |
| /* indicate R99 capability of the MS to enable UMTS AKA in presence of |
| * 3G auth vectors */ |
| attach_req.msgs.gprs_mm.attachRequest.msNetworkCapability.msNetworkCapabilityV.revisionLevelIndicatior := '1'B; |
| /* The thing is, if the solSACapability is 'omit', then the |
| * revisionLevelIndicatior is at the wrong place! */ |
| attach_req.msgs.gprs_mm.attachRequest.msNetworkCapability.msNetworkCapabilityV.solSACapability := '0'B; |
| f_send_l3(attach_req); |
| |
| /* do the auth */ |
| var PDU_L3_MS_SGSN l3_mo; |
| var PDU_L3_SGSN_MS l3_mt; |
| var default di := activate(as_mm_identity()); |
| |
| var GSUP_IE auth_tuple; |
| var template AuthenticationParameterAUTNTLV autn; |
| |
| g_pars.vec := f_gen_auth_vec_3g(); |
| autn := { |
| elementIdentifier := '28'O, |
| lengthIndicator := lengthof(g_pars.vec.autn), |
| autnValue := g_pars.vec.autn |
| }; |
| auth_tuple := valueof(ts_GSUP_IE_AuthTuple2G3G(g_pars.vec.rand, |
| g_pars.vec.sres, |
| g_pars.vec.kc, |
| g_pars.vec.ik, |
| g_pars.vec.ck, |
| g_pars.vec.autn, |
| g_pars.vec.res)); |
| log("GSUP sends 2G and 3G auth tuples", auth_tuple); |
| GSUP.receive(tr_GSUP_SAI_REQ(g_pars.imsi)); |
| GSUP.send(ts_GSUP_SAI_RES(g_pars.imsi, auth_tuple)); |
| |
| var template PDU_L3_SGSN_MS auth_ciph_req := tr_GMM_AUTH_REQ(g_pars.vec.rand); |
| auth_ciph_req.msgs.gprs_mm.authenticationAndCipheringRequest.authenticationParameterAUTN := autn; |
| BSSGP[0].receive(auth_ciph_req) -> value l3_mt; |
| |
| /* send the gmm auth failure with resync IE */ |
| f_send_l3(ts_GMM_AUTH_FAIL_UMTS_AKA_RESYNC(g_pars.vec.auts)); |
| |
| /* wait for the GSUP resync request */ |
| GSUP.receive(tr_GSUP_SAI_REQ_UMTS_AKA_RESYNC( |
| g_pars.imsi, |
| g_pars.vec.auts, |
| g_pars.vec.rand)); |
| |
| /* generate new key material */ |
| g_pars.vec := f_gen_auth_vec_3g(); |
| autn := { |
| elementIdentifier := '28'O, |
| lengthIndicator := lengthof(g_pars.vec.autn), |
| autnValue := g_pars.vec.autn |
| }; |
| |
| auth_tuple := valueof(ts_GSUP_IE_AuthTuple2G3G(g_pars.vec.rand, |
| g_pars.vec.sres, |
| g_pars.vec.kc, |
| g_pars.vec.ik, |
| g_pars.vec.ck, |
| g_pars.vec.autn, |
| g_pars.vec.res)); |
| /* send new key material */ |
| GSUP.send(ts_GSUP_SAI_RES(g_pars.imsi, auth_tuple)); |
| |
| /* wait for the new Auth Request */ |
| auth_ciph_req := tr_GMM_AUTH_REQ(g_pars.vec.rand); |
| auth_ciph_req.msgs.gprs_mm.authenticationAndCipheringRequest.authenticationParameterAUTN := autn; |
| BSSGP[0].receive(auth_ciph_req) -> value l3_mt; |
| var BIT4 ac_ref := l3_mt.msgs.gprs_mm.authenticationAndCipheringRequest.acReferenceNumber.valueField; |
| var template PDU_L3_MS_SGSN auth_ciph_resp := ts_GMM_AUTH_RESP_2G(ac_ref, g_pars.vec.sres); |
| auth_ciph_resp := ts_GMM_AUTH_RESP_2G(ac_ref, g_pars.vec.sres); |
| auth_ciph_resp.msgs.gprs_mm.authenticationAndCipheringResponse.authenticationParResp := { |
| valueField := substr(g_pars.vec.res, 0, 4) |
| }; |
| auth_ciph_resp.msgs.gprs_mm.authenticationAndCipheringResponse.authenticationRespParExt := { |
| elementIdentifier := '21'O, |
| lengthIndicator := lengthof(g_pars.vec.res) - 4, |
| valueField := substr(g_pars.vec.res, 4, lengthof(g_pars.vec.res) - 4) |
| }; |
| l3_mo := valueof(auth_ciph_resp); |
| if (ispresent(l3_mt.msgs.gprs_mm.authenticationAndCipheringRequest.imeisvRequest) and |
| l3_mt.msgs.gprs_mm.authenticationAndCipheringRequest.imeisvRequest.valueField == '001'B) { |
| l3_mo.msgs.gprs_mm.authenticationAndCipheringResponse.imeisv := |
| valueof(ts_MI_IMEISV_TLV(g_pars.imei & '0'H)); |
| } |
| f_send_l3(l3_mo); |
| deactivate(di); |
| |
| /* Expect SGSN to perform LU with HLR */ |
| f_gmm_gsup_lu_isd(); |
| |
| BSSGP[0].receive(tr_GMM_ATTACH_ACCEPT('001'B, ?, ?)) -> value l3_mt { |
| f_process_attach_accept(l3_mt.msgs.gprs_mm.attachAccept); |
| } |
| f_send_l3(ts_GMM_ATTACH_COMPL); |
| setverdict(pass); |
| } |
| |
| testcase TC_attach_usim_resync() runs on test_CT { |
| /* MS -> SGSN: Attach Request |
| * MS <- SGSN: Identity Request IMSI |
| * MS -> SGSN: Identity Response IMSI |
| * MS <- SGSN: Identity Request IMEI |
| * MS -> SGSN: Identity Response IMEI |
| * HLR<- SGSN: SAI Request |
| * HLR-> SGSN: SAI Response |
| * MS <- SGSN: Auth Request |
| * MS -> SGSN: Auth Failure (with AUTS) |
| * HLR<- SGSN: SAI Request (with AUTS & RAND) |
| * HLR-> SGSN: SAI Response (new key material) |
| * MS <- SGSN: Auth Request (new key material) |
| * MS -> SGSN: Auth Response |
| * MS <- SGSN: Attach Accept |
| * MS -> SGSN: Attach Complete |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_attach_usim_resync), testcasename(), g_gb, 40); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_usim_crypt(OCT1 netcap_a2345, BIT3 auth_req_ciph) runs on BSSGP_ConnHdlr { |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| |
| var template PDU_L3_MS_SGSN attach_req := ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra, false, false, omit, omit); |
| attach_req.msgs.gprs_mm.attachRequest.msNetworkCapability.msNetworkCapabilityV.spare_octets := netcap_a2345; /* GEA2345... */ |
| |
| /* send Attach Request */ |
| /* indicate R99 capability of the MS to enable UMTS AKA in presence of |
| * 3G auth vectors */ |
| attach_req.msgs.gprs_mm.attachRequest.msNetworkCapability.msNetworkCapabilityV.revisionLevelIndicatior := '1'B; |
| /* The thing is, if the solSACapability is 'omit', then the |
| * revisionLevelIndicatior is at the wrong place! */ |
| attach_req.msgs.gprs_mm.attachRequest.msNetworkCapability.msNetworkCapabilityV.solSACapability := '0'B; |
| f_send_l3(attach_req); |
| |
| /* do the auth */ |
| var PDU_L3_MS_SGSN l3_mo; |
| var PDU_L3_SGSN_MS l3_mt; |
| var default di := activate(as_mm_identity()); |
| |
| var GSUP_IE auth_tuple; |
| var template AuthenticationParameterAUTNTLV autn; |
| |
| g_pars.vec := f_gen_auth_vec_3g(); |
| autn := { |
| elementIdentifier := '28'O, |
| lengthIndicator := lengthof(g_pars.vec.autn), |
| autnValue := g_pars.vec.autn |
| }; |
| auth_tuple := valueof(ts_GSUP_IE_AuthTuple2G3G(g_pars.vec.rand, |
| g_pars.vec.sres, |
| g_pars.vec.kc, |
| g_pars.vec.ik, |
| g_pars.vec.ck, |
| g_pars.vec.autn, |
| g_pars.vec.res)); |
| log("GSUP sends 2G and 3G auth tuples", auth_tuple); |
| GSUP.receive(tr_GSUP_SAI_REQ(g_pars.imsi)); |
| GSUP.send(ts_GSUP_SAI_RES(g_pars.imsi, auth_tuple)); |
| |
| var template PDU_L3_SGSN_MS auth_ciph_req := tr_GMM_AUTH_REQ(g_pars.vec.rand, auth_req_ciph); |
| auth_ciph_req.msgs.gprs_mm.authenticationAndCipheringRequest.authenticationParameterAUTN := autn; |
| BSSGP[0].receive(auth_ciph_req) -> value l3_mt; |
| |
| setverdict(pass); |
| deactivate(di); |
| } |
| |
| private function f_TC_attach_usim_a54_a54(charstring id) runs on BSSGP_ConnHdlr { |
| f_TC_attach_usim_crypt('10'O, '100'B); |
| } |
| |
| private function f_TC_attach_usim_a54_a53(charstring id) runs on BSSGP_ConnHdlr { |
| f_TC_attach_usim_crypt('20'O, '011'B); |
| } |
| |
| private function f_TC_attach_usim_a53_a54(charstring id) runs on BSSGP_ConnHdlr { |
| f_TC_attach_usim_crypt('30'O, '011'B); |
| } |
| |
| private function f_TC_attach_usim_a50_a54(charstring id) runs on BSSGP_ConnHdlr { |
| f_TC_attach_usim_crypt('30'O, '000'B); |
| } |
| |
| private function f_TC_attach_usim_a54_a50(charstring id) runs on BSSGP_ConnHdlr { |
| f_TC_attach_usim_crypt('00'O, '000'B); |
| } |
| |
| testcase TC_attach_usim_a54_a54() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| f_vty_config(SGSNVTY, "sgsn", "encryption gea 0 3 4"); |
| vc_conn := f_start_handler(refers(f_TC_attach_usim_a54_a54), testcasename(), g_gb, 40); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| testcase TC_attach_usim_a54_a53() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| f_vty_config(SGSNVTY, "sgsn", "encryption gea 0 3 4"); |
| vc_conn := f_start_handler(refers(f_TC_attach_usim_a54_a53), testcasename(), g_gb, 40); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| testcase TC_attach_usim_a53_a54() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| f_vty_config(SGSNVTY, "sgsn", "encryption gea 0 3"); |
| vc_conn := f_start_handler(refers(f_TC_attach_usim_a53_a54), testcasename(), g_gb, 40); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| testcase TC_attach_usim_a50_a54() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| f_vty_config(SGSNVTY, "sgsn", "encryption gea 0"); |
| vc_conn := f_start_handler(refers(f_TC_attach_usim_a50_a54), testcasename(), g_gb, 40); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| testcase TC_attach_usim_a54_a50() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| f_vty_config(SGSNVTY, "sgsn", "encryption gea 0 3 4"); |
| vc_conn := f_start_handler(refers(f_TC_attach_usim_a54_a50), testcasename(), g_gb, 40); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Send LLC NULL to see if the SGSN survives it (OS#3952) */ |
| private function f_TC_llc_null(charstring id) runs on BSSGP_ConnHdlr { |
| f_gmm_attach(false, false); |
| f_sleep(1.0); |
| f_send_llc(ts_LLC_NULL('0'B, c_LLC_SAPI_LLGMM, LLC_CR_UL_CMD)); |
| /* try to detach to check if SGSN is still alive */ |
| f_detach_mo(c_GMM_DTT_MO_GPRS, true, true); |
| } |
| testcase TC_llc_null() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_llc_null), testcasename(), g_gb, 41); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Send LLC SABM to see if the SGSN rejects it properly with DM */ |
| private function f_TC_llc_sabm_dm_llgmm(charstring id) runs on BSSGP_ConnHdlr { |
| f_gmm_attach(false, false); |
| f_sleep(1.0); |
| f_send_llc(ts_LLC_SABM({}, '1'B, c_LLC_SAPI_LLGMM, LLC_CR_UL_CMD)); |
| BSSGP[0].receive(tr_LLC_DM(?, c_LLC_SAPI_LLGMM, LLC_CR_DL_RSP)); |
| setverdict(pass); |
| } |
| testcase TC_llc_sabm_dm_llgmm() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_llc_sabm_dm_llgmm), testcasename(), g_gb, 42); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Send LLC SABM to see if the SGSN rejects it properly with DM */ |
| private function f_TC_llc_sabm_dm_ll5(charstring id) runs on BSSGP_ConnHdlr { |
| f_gmm_attach(false, false); |
| f_sleep(1.0); |
| f_send_llc(ts_LLC_SABM({}, '1'B, c_LLC_SAPI_LL5, LLC_CR_UL_CMD)); |
| BSSGP[0].receive(tr_LLC_DM(?, c_LLC_SAPI_LL5, LLC_CR_DL_RSP)); |
| setverdict(pass); |
| } |
| testcase TC_llc_sabm_dm_ll5() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_llc_sabm_dm_ll5), testcasename(), g_gb, 43); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* test XID handshake with empty L3 info: expect empty return (some phones require that, OS#3426 */ |
| private function f_TC_xid_empty_l3(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| var template (value) XID_Information xid; |
| var template XID_Information xid_rx; |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| |
| /* start MO XID */ |
| xid := { ts_XID_L3(''O) }; |
| xid_rx := { tr_XID_L3(''O) }; |
| f_send_llc(ts_LLC_XID_MO_CMD(xid, apars.sapi)); |
| alt { |
| [] BSSGP[0].receive(tr_LLC_XID(xid_rx, apars.sapi)); |
| [] as_xid(apars); |
| } |
| setverdict(pass); |
| } |
| testcase TC_xid_empty_l3() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_xid_empty_l3), testcasename(), g_gb, 44); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_xid_n201u(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| var template (value) XID_Information xid; |
| var template XID_Information xid_rx; |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| |
| /* start MO XID */ |
| xid := { ts_XID_N201U(1234) }; |
| xid_rx := { tr_XID_N201U(1234) }; |
| f_send_llc(ts_LLC_XID_MO_CMD(xid, apars.sapi)); |
| alt { |
| [] BSSGP[0].receive(tr_LLC_XID_MT_RSP(xid_rx, apars.sapi)); |
| [] as_xid(apars); |
| } |
| setverdict(pass); |
| } |
| testcase TC_xid_n201u() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_xid_n201u), testcasename(), g_gb, 45); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_pdp_act_gmm_detach(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| /* do a normal detach */ |
| f_detach_mo(c_GMM_DTT_MO_GPRS, false, true); |
| } |
| |
| testcase TC_attach_pdp_act_gmm_detach() runs on test_CT { |
| /* MS -> SGSN: Attach Request |
| * MS <-> SGSN: [..] |
| * MS -> SGSN: Attach Complete |
| * MS -> SGSN: PDP Activate Request |
| * MS <- SGSN: PDP Activate Accept |
| * MS -> SGSN: GMM Detach Request |
| * MS <- SGSN: GMM Detach Accept |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_pdp_act_gmm_detach), testcasename(), g_gb, 26); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private function f_TC_attach_req_id_req_ra_update(charstring id) runs on BSSGP_ConnHdlr { |
| var RoutingAreaIdentificationV old_ra := f_random_RAI(); |
| var RoutingAreaIdentificationV new_ra := f_random_RAI(); |
| while (old_ra == new_ra) { new_ra := f_random_RAI(); }; |
| var template PDU_L3_MS_SGSN attach_req := ts_GMM_ATTACH_REQ(f_mi_get_lv(), old_ra, false, false, omit, omit); |
| var PDU_L3_SGSN_MS l3_mt; |
| |
| f_send_l3(attach_req, 0); |
| |
| BSSGP[0].receive(tr_GMM_ID_REQ(?)); |
| |
| f_send_l3(ts_GMM_RAU_REQ(f_mi_get_lv(), GPRS_UPD_T_RA, new_ra, false, omit, omit)); |
| alt { |
| [] BSSGP[0].receive(tr_GMM_RAU_REJECT('0a'O)) { |
| setverdict(pass); |
| } |
| [] BSSGP[0].receive { repeat; } |
| } |
| } |
| |
| /* This test triggers crash in osmo-sgsn before osmo-sgsn.git I64fa5cf1b427d3abb99e553e584897261a827ce6. |
| * See OS#3957 and OS#4245 for more information. |
| */ |
| testcase TC_attach_req_id_req_ra_update() runs on test_CT { |
| /* |
| * MS --> SGSN: Attach Req (TMSI, RAI=901-70-356-101) |
| * MS <-- SGSN: Identity Request (IMEI) |
| * MS --> SGSN: RA Updating (RAI=901-70-2758-208) |
| */ |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_attach_req_id_req_ra_update), testcasename(), g_gb, 47); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| private altstep as_nopaging_ps(integer ran_idx := 0) runs on BSSGP_ConnHdlr { |
| var PDU_BSSGP rx; |
| [] BSSGP_SIG[ran_idx].receive(tr_BSSGP_PS_PAGING(?)) -> value rx { |
| setverdict(fail, "Received unexpected PS PAGING: ", rx); |
| mtc.stop; |
| } |
| } |
| |
| /* SUSPEND, then DL traffic: should not pass + no paging expected */ |
| private function f_TC_suspend_nopaging(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| var default d; |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| /* then transceive a downlink PDU */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100)); |
| |
| /* now suspend GPRS */ |
| f_bssgp_suspend(); |
| |
| d := activate(as_nopaging_ps()); |
| |
| /* at this point we don't expect any downlink traffic at all, neither actual LLC/SNDCP data, |
| * nor any related paging requests */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100), expect_fwd := false); |
| |
| deactivate(d); |
| } |
| testcase TC_suspend_nopaging() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_suspend_nopaging), testcasename(), g_gb, 48); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| |
| /* SUSPEND, then RESUME: data expected to flow after explicit resume */ |
| private function f_TC_suspend_resume(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| var OCT1 susp_ref; |
| var default d; |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| /* then transceive a downlink PDU */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100)); |
| |
| /* now suspend GPRS */ |
| susp_ref := f_bssgp_suspend(); |
| |
| d := activate(as_nopaging_ps()); |
| |
| /* at this point we don't expect any downlink traffic at all, neither actual LLC/SNDCP data, |
| * nor any related paging requests */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100), expect_fwd := false); |
| |
| deactivate(d); |
| |
| /* resume GPRS */ |
| f_bssgp_resume(susp_ref); |
| |
| /* now data should be flowing again */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100)); |
| } |
| testcase TC_suspend_resume() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_suspend_resume), testcasename(), g_gb, 49); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* SUSPEND, then RAU: data expected to flow after implicit resume */ |
| private function f_TC_suspend_rau(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| var default d; |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| /* then transceive a downlink PDU */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100)); |
| |
| /* now suspend GPRS */ |
| f_bssgp_suspend(); |
| |
| d := activate(as_nopaging_ps()); |
| |
| /* at this point we don't expect any downlink traffic at all, neither actual LLC/SNDCP data, |
| * nor any related paging requests */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100), expect_fwd := false); |
| |
| deactivate(d); |
| |
| /* perform RAU (implicit RESUME) */ |
| f_routing_area_update(g_pars.ra); |
| |
| /* give SGSN some time to actually receve + process the RAU Complete we sent */ |
| f_sleep(0.5); |
| |
| /* now data should be flowing again */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100)); |
| |
| } |
| testcase TC_suspend_rau() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_suspend_rau), testcasename(), g_gb, 50); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| |
| /* wait for T3314 expiration and check that PS PAGING is created on DL PDU */ |
| private function f_TC_paging_ps(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| var default d; |
| |
| /* first perform regular attach */ |
| f_TC_attach(id); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars); |
| /* then transceive a downlink PDU */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100)); |
| |
| /* now wait for T3314 expiration (test_CT below has reduced it to 3s) */ |
| f_sleep(5.0); |
| |
| /* now data should be flowing again, but with PS PAGING */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100)); |
| BSSGP_SIG[0].receive(tr_BSSGP_PS_PAGING(?)); |
| |
| /* FIXME: simulate paging response */ |
| /* FIXME: verify PDU actually arrives only after paging response was successful */ |
| |
| } |
| testcase TC_paging_ps() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| f_vty_config(SGSNVTY, "sgsn", "timer 3314 3"); |
| f_sleep(1.0); |
| vc_conn := f_start_handler(refers(f_TC_paging_ps), testcasename(), g_gb, 51); |
| vc_conn.done; |
| f_vty_config(SGSNVTY, "sgsn", "timer 3314 default"); |
| f_cleanup(); |
| } |
| |
| /* Run a RIM single report procedure over the sgsn. Since the SGSN will only do a transparent routing of the |
| * RIM messages this basically tests if the message is correctly transfered from one GB interface to the |
| * other and vice versa. */ |
| testcase TC_bssgp_rim_single_report() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| |
| timer T := 2.0; |
| |
| var template RIM_Routing_Address dst_addr; |
| var template RIM_Routing_Address src_addr; |
| var template RAN_Information_Request_RIM_Container req_cont; |
| var template RAN_Information_RIM_Container res_cont; |
| var template PDU_BSSGP bssgp_rim_pdu; |
| var template PDU_BSSGP bssgp_rim_pdu_expect; |
| |
| dst_addr := t_RIM_Routing_Address_cid(g_gb[1].cfg.bvc[0].cell_id); |
| src_addr := t_RIM_Routing_Address_cid(g_gb[0].cfg.bvc[0].cell_id); |
| |
| |
| /* Send NACC Ran information request to SGSN at GB interface #0. We epect the SGSN to forward this request |
| * based on the cell id in dst_addr to GB interface #1. */ |
| req_cont := ts_RAN_Information_Request_RIM_Container(ts_RIM_Application_Identity(RIM_APP_ID_NACC), |
| ts_RIM_Sequence_Number(1), |
| ts_RIM_PDU_Indications(false, RIM_PDU_TYPE_SING_REP), |
| ts_RIM_Protocol_Version_Number(1), |
| tsu_RAN_Information_Request_Application_Container_NACC(g_gb[1].cfg.bvc[0].cell_id), |
| omit); |
| bssgp_rim_pdu := ts_RAN_INFORMATION_REQUEST(ts_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, dst_addr), |
| ts_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, src_addr), |
| req_cont); |
| bssgp_rim_pdu_expect := tr_RAN_INFORMATION_REQUEST(tr_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, dst_addr), |
| tr_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, src_addr), |
| tr_RAN_Information_Request_RIM_Container); |
| RIM[0].send(bssgp_rim_pdu); |
| T.start; |
| alt { |
| [] RIM[1].receive(bssgp_rim_pdu_expect) { |
| setverdict(pass); |
| } |
| [] RIM[1].receive { |
| setverdict(fail, "Unexpected BSSGP RIM PDU received"); |
| } |
| [] T.timeout { |
| setverdict(fail, "No BSSGP RIM PDU received"); |
| mtc.stop; |
| } |
| } |
| |
| /* Now also emulate also the response as well and send it back on GB interface #1. Expect the result on |
| * GB interface #0 */ |
| res_cont := ts_RAN_Information_RIM_Container(ts_RIM_Application_Identity(RIM_APP_ID_NACC), |
| ts_RIM_Sequence_Number(2), |
| ts_RIM_PDU_Indications(false, RIM_PDU_TYPE_SING_REP), |
| ts_RIM_Protocol_Version_Number(1), |
| tsu_ApplContainer_or_ApplErrContainer_NACC(tsu_ApplContainer_NACC(g_gb[0].cfg.bvc[0].cell_id, false, 3, si_default)), |
| omit); |
| bssgp_rim_pdu := ts_PDU_BSSGP_RAN_INFORMATION(ts_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, src_addr), |
| ts_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, dst_addr), |
| res_cont); |
| bssgp_rim_pdu_expect := tr_PDU_BSSGP_RAN_INFORMATION(tr_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, src_addr), |
| tr_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, dst_addr), |
| ?); |
| RIM[1].send(bssgp_rim_pdu); |
| T.start; |
| alt { |
| [] RIM[0].receive(bssgp_rim_pdu_expect) { |
| setverdict(pass); |
| } |
| [] RIM[0].receive { |
| setverdict(fail, "Unexpected BSSGP RIM PDU received"); |
| } |
| [] T.timeout { |
| setverdict(fail, "No BSSGP RIM PDU received"); |
| mtc.stop; |
| } |
| } |
| |
| f_cleanup(); |
| } |
| |
| testcase TC_rim_eutran_to_geran() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| /* connect RIM related port */ |
| connect(vc_GTP:CLIENT_DEFAULT, self:GTPC); |
| |
| var GtpPeer peer := { |
| connId := 1, |
| remName := mp_sgsn_gtp_ip, |
| remPort := GTP1C_PORT |
| } |
| |
| var template (value) RIM_Routing_Address_GTPC gtpc_dst_addr, gtpc_src_addr; |
| var template (value) RAN_Information_Request_RIM_Container_GTPC gtpc_rim_req_cont; |
| var template (value) PDU_BSSGP_RAN_INFORMATION_REQUEST_GTPC gtpc_bssgp_cont; |
| var template (value) Gtp1cUnitdata gtpc_pdu; |
| |
| gtpc_dst_addr := t_GTPC_RIM_Routing_Address_cid(g_gb[1].cfg.bvc[0].cell_id); |
| gtpc_src_addr := t_GTPC_RIM_Routing_Address_enbid(g_gb[1].cfg.bvc[0].cell_id, tac := 3, gnbid := '12345678123456'O); |
| |
| gtpc_rim_req_cont := ts_GTPC_RAN_Information_Request_RIM_Container(ts_GTPC_RIM_Application_Identity(RIM_APP_ID_NACC), |
| ts_GTPC_RIM_Sequence_Number(1), |
| ts_GTPC_RIM_PDU_Indications(false, RIM_PDU_TYPE_SING_REP), |
| ts_GTPC_RIM_Protocol_Version_Number(1), |
| tsu_GTPC_RAN_Information_Request_Application_Container_NACC(g_gb[1].cfg.bvc[0].cell_id), |
| omit); |
| gtpc_bssgp_cont := ts_GTPC_RAN_Information_Request(ts_GTPC_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, gtpc_dst_addr), |
| ts_GTPC_RIM_Routing_Information(RIM_ADDR_EUTRAN_NODEB_ID, gtpc_src_addr), |
| gtpc_rim_req_cont); |
| gtpc_pdu := ts_GTPC_RANInfoRelay(peer, ts_RANTransparentContainer_RAN_INFO_REQ(gtpc_bssgp_cont)); |
| GTPC.send(gtpc_pdu); |
| |
| var template RIM_Routing_Address bssgp_dst_addr, bssgp_src_addr; |
| var template PDU_BSSGP bssgp_rim_pdu_expect; |
| bssgp_dst_addr := t_RIM_Routing_Address_cid(g_gb[1].cfg.bvc[0].cell_id); |
| bssgp_src_addr := t_RIM_Routing_Address_enbid(g_gb[1].cfg.bvc[0].cell_id, tac := 3, gnbid := '12345678123456'O); |
| bssgp_rim_pdu_expect := tr_RAN_INFORMATION_REQUEST(tr_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, bssgp_dst_addr), |
| tr_RIM_Routing_Information(RIM_ADDR_EUTRAN_NODEB_ID, bssgp_src_addr), |
| tr_RAN_Information_Request_RIM_Container); |
| timer T := 2.0; |
| T.start; |
| alt { |
| [] RIM[1].receive(bssgp_rim_pdu_expect) { |
| setverdict(pass); |
| T.stop; |
| } |
| [] RIM[1].receive { |
| setverdict(fail, "Unexpected BSSGP RIM PDU received"); |
| } |
| [] T.timeout { |
| setverdict(fail, "No BSSGP RIM PDU received"); |
| mtc.stop; |
| } |
| } |
| |
| /* Now also emulate also the response as well and send it back on GB |
| interface #1. Expect the result on * GTPC */ |
| var template RAN_Information_RIM_Container res_cont; |
| var template PDU_BSSGP bssgp_rim_pdu; |
| res_cont := ts_RAN_Information_RIM_Container(ts_RIM_Application_Identity(RIM_APP_ID_NACC), |
| ts_RIM_Sequence_Number(2), |
| ts_RIM_PDU_Indications(false, RIM_PDU_TYPE_SING_REP), |
| ts_RIM_Protocol_Version_Number(1), |
| tsu_ApplContainer_or_ApplErrContainer_NACC(tsu_ApplContainer_NACC(g_gb[1].cfg.bvc[0].cell_id, false, 3, si_default)), |
| omit); |
| bssgp_rim_pdu := ts_PDU_BSSGP_RAN_INFORMATION(ts_RIM_Routing_Information(RIM_ADDR_EUTRAN_NODEB_ID, bssgp_src_addr), |
| ts_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, bssgp_dst_addr), |
| res_cont); |
| RIM[1].send(bssgp_rim_pdu); |
| |
| var template RAN_Information_RIM_Container_GTPC rim_cont; |
| var template PDU_BSSGP_RAN_INFORMATION_GTPC gtpc_bssgp_cont_ack; |
| var template Gtp1cUnitdata gtpc_pdu_exp; |
| rim_cont := tr_GTPC_RAN_Information_RIM_Container(ts_GTPC_RIM_Application_Identity(RIM_APP_ID_NACC), |
| ts_GTPC_RIM_Sequence_Number(2), |
| ts_GTPC_RIM_PDU_Indications(false, RIM_PDU_TYPE_SING_REP), |
| ts_GTPC_RIM_Protocol_Version_Number(1), |
| tru_GTPC_ApplContainer_or_ApplErrContainer_NACC(tru_GTPC_ApplContainer_NACC(g_gb[1].cfg.bvc[0].cell_id, false, 3, si_default)), |
| omit); |
| gtpc_bssgp_cont_ack := tr_GTPC_RAN_Information(tr_GTPC_RIM_Routing_Information(RIM_ADDR_EUTRAN_NODEB_ID, gtpc_src_addr), |
| tr_GTPC_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, gtpc_dst_addr), |
| rim_cont); |
| gtpc_pdu_exp := tr_GTPC_RANInfoRelay(peer, tr_RANTransparentContainer_RAN_INFO(gtpc_bssgp_cont_ack)); |
| |
| T.start; |
| alt { |
| [] GTPC.receive(gtpc_pdu_exp) { |
| setverdict(pass); |
| T.stop; |
| } |
| [] GTPC.receive { |
| setverdict(fail, "Unexpected GTPC RIM PDU received"); |
| } |
| [] T.timeout { |
| setverdict(fail, "No GTPC RIM PDU received"); |
| mtc.stop; |
| } |
| } |
| |
| f_cleanup(); |
| } |
| |
| /* Test if the SGSN routes traffic to new cell after the MS attached to it */ |
| private function f_TC_cell_change_different_rai_ci_attach(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| |
| /* first perform regular attach */ |
| f_gmm_attach(false, false, ran_index := 0); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars, ran_index := 0); |
| /* then transceive a downlink PDU */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100), ran_index := 0); |
| f_gtpu_xceive_mo(apars, f_rnd_octstring(200), ran_index := 0); |
| |
| /* Now attach on different cell: */ |
| f_bssgp_client_unregister(g_pars.imsi, BSSGP_PROC[0]); |
| f_bssgp_client_register(g_pars.imsi, g_pars.tlli, BSSGP_PROC[1]); |
| g_pars.net.expect_auth := false; |
| f_gmm_attach(false, false, ran_index := 1, old_ra := f_cellid_to_RAI(g_pars.bssgp_cell_id[0])); |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100), ran_index := 1); |
| f_gtpu_xceive_mo(apars, f_rnd_octstring(200), ran_index := 1, n_u := 1); |
| } |
| testcase TC_cell_change_different_rai_ci_attach() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_cell_change_different_rai_ci_attach), testcasename(), g_gb, 68); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Test if the SGSN routes traffic to new cell after the MS attached to it */ |
| /* Assumption: g_gb[1] and g_gb[2] configured with same RAC */ |
| private function f_TC_cell_change_different_ci_attach(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| |
| f_bssgp_client_unregister(g_pars.imsi, BSSGP_PROC[0]); |
| f_bssgp_client_register(g_pars.imsi, g_pars.tlli, BSSGP_PROC[1]); |
| |
| /* first perform regular attach */ |
| f_gmm_attach(false, false, ran_index := 1); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars, ran_index := 1); |
| /* then transceive a downlink PDU */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100), ran_index := 1); |
| f_gtpu_xceive_mo(apars, f_rnd_octstring(200), ran_index := 1); |
| |
| /* Now attach on different cell: */ |
| f_bssgp_client_unregister(g_pars.imsi, BSSGP_PROC[1]); |
| f_bssgp_client_register(g_pars.imsi, g_pars.tlli, BSSGP_PROC[2]); |
| g_pars.net.expect_auth := false; |
| f_gmm_attach(false, false, ran_index := 2, old_ra := f_cellid_to_RAI(g_pars.bssgp_cell_id[1])); |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100), ran_index := 2); |
| f_gtpu_xceive_mo(apars, f_rnd_octstring(200), ran_index := 2, n_u := 1); |
| } |
| testcase TC_cell_change_different_ci_attach() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_cell_change_different_ci_attach), testcasename(), g_gb, 69); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Test if the SGSN silently drops MO data message coming from new BVCI if RAC changed (eg. cell change) */ |
| private function f_TC_cell_change_different_rai_ci_data(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| |
| /* first perform regular attach */ |
| f_gmm_attach(false, false, ran_index := 0); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars, ran_index := 0); |
| /* then transceive a downlink PDU */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100), ran_index := 0); |
| f_gtpu_xceive_mo(apars, f_rnd_octstring(200), ran_index := 0); |
| |
| /* Send some data over new bvci, it should be silently discarded since |
| * RAC changed and SGSN expects a RAU to occur in that case */ |
| f_bssgp_client_register(g_pars.imsi, g_pars.tlli, BSSGP_PROC[1]); |
| var octetstring payload := f_rnd_octstring(200); |
| var PDU_SN sndcp := valueof(ts_SN_UD(apars.nsapi, payload)); |
| BSSGP[1].send(ts_LLC_UI(enc_PDU_SN(sndcp), apars.sapi, '0'B, 1)); |
| var GtpPeer peer := valueof(ts_GtpPeerU(apars.sgsn_ip_u)); |
| timer T := 2.0; |
| T.start; |
| alt { |
| [] GTP.receive(tr_GTPU_GPDU(peer, apars.ggsn_tei_u, payload)) { |
| setverdict(fail, "Unexpected GTP message"); |
| } |
| [] T.timeout { setverdict(pass); } |
| } |
| |
| /* Expect SGSN to continue routing DL data to last known NSEI+BVCI */ |
| f_bssgp_client_unregister(g_pars.imsi, BSSGP_PROC[1]); |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100), ran_index := 0); |
| } |
| testcase TC_cell_change_different_rai_ci_data() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_cell_change_different_rai_ci_data), testcasename(), g_gb, 70); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| /* Test if the SGSN routes traffic to new cell after the MS switched cell without re-attaching */ |
| /* Assumption: g_gb[1] and g_gb[2] configured with same RAC */ |
| private function f_TC_cell_change_different_ci_data(charstring id) runs on BSSGP_ConnHdlr { |
| var PdpActPars apars := valueof(t_PdpActPars(mp_ggsn_ip)); |
| |
| f_bssgp_client_unregister(g_pars.imsi, BSSGP_PROC[0]); |
| f_bssgp_client_register(g_pars.imsi, g_pars.tlli, BSSGP_PROC[1]); |
| |
| /* first perform regular attach */ |
| f_gmm_attach(false, false, ran_index := 1); |
| /* then activate PDP context */ |
| f_pdp_ctx_act(apars, ran_index := 1); |
| /* then transceive a downlink PDU */ |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100), ran_index := 1); |
| f_gtpu_xceive_mo(apars, f_rnd_octstring(200), ran_index := 1); |
| |
| /* Now attach on different cell: */ |
| f_bssgp_client_unregister(g_pars.imsi, BSSGP_PROC[1]); |
| f_bssgp_client_register(g_pars.imsi, g_pars.tlli, BSSGP_PROC[2]); |
| |
| f_gtpu_xceive_mo(apars, f_rnd_octstring(200), ran_index := 2, n_u := 1); |
| f_gtpu_xceive_mt(apars, f_rnd_octstring(100), ran_index := 2); |
| } |
| testcase TC_cell_change_different_ci_data() runs on test_CT { |
| var BSSGP_ConnHdlr vc_conn; |
| f_init(); |
| vc_conn := f_start_handler(refers(f_TC_cell_change_different_ci_data), testcasename(), g_gb, 71); |
| vc_conn.done; |
| f_cleanup(); |
| } |
| |
| control { |
| execute( TC_attach() ); |
| execute( TC_attach_mnc3() ); |
| execute( TC_attach_umts_aka_umts_res() ); |
| execute( TC_attach_umts_aka_gsm_sres() ); |
| execute( TC_attach_auth_id_timeout() ); |
| execute( TC_attach_auth_sai_timeout() ); |
| execute( TC_attach_auth_sai_reject() ); |
| execute( TC_attach_gsup_lu_timeout() ); |
| execute( TC_attach_gsup_lu_reject() ); |
| execute( TC_attach_combined() ); |
| execute( TC_attach_accept_all() ); |
| execute( TC_attach_closed() ); |
| execute( TC_attach_no_imei_response() ); |
| execute( TC_attach_no_imsi_response() ); |
| execute( TC_attach_closed_add_vty(), 20.0 ); |
| execute( TC_attach_check_subscriber_list(), 20.0 ); |
| execute( TC_attach_detach_check_subscriber_list(), 20.0 ); |
| execute( TC_attach_check_complete_resend() ); |
| execute( TC_hlr_location_cancel_request_update(), 20.0 ); |
| execute( TC_hlr_location_cancel_request_withdraw(), 20.0 ); |
| execute( TC_hlr_location_cancel_request_unknown_subscriber_withdraw(), 20.0 ); |
| execute( TC_hlr_location_cancel_request_unknown_subscriber_update(), 20.0 ); |
| execute( TC_rau_unknown() ); |
| execute( TC_attach_rau() ); |
| execute( TC_attach_rau_a_a() ); |
| execute( TC_attach_rau_a_b() ); |
| execute( TC_attach_usim_resync() ); |
| execute( TC_attach_usim_a54_a54() ); |
| execute( TC_attach_usim_a54_a53() ); |
| execute( TC_attach_usim_a53_a54() ); |
| execute( TC_attach_usim_a50_a54() ); |
| execute( TC_attach_usim_a54_a50() ); |
| execute( TC_detach_unknown_nopoweroff() ); |
| execute( TC_detach_unknown_poweroff() ); |
| execute( TC_detach_nopoweroff() ); |
| execute( TC_detach_poweroff() ); |
| execute( TC_attach_pdp_act() ); |
| execute( TC_pdp_act_unattached() ); |
| execute( TC_attach_pdp_act_user() ); |
| execute( TC_attach_pdp_act_ggsn_reject() ); |
| execute( TC_attach_pdp_act_user_deact_mo() ); |
| execute( TC_attach_pdp_act_user_deact_mt() ); |
| execute( TC_attach_pdp_act_deact_dup() ); |
| execute( TC_attach_second_attempt() ); |
| execute( TC_attach_echo_timeout() ); |
| execute( TC_attach_restart_ctr_echo() ); |
| execute( TC_attach_restart_ctr_create() ); |
| execute( TC_attach_pdp_act_deact_mt_t3395_expire() ); |
| execute( TC_attach_pdp_act_deact_gtp_retrans() ); |
| execute( TC_attach_pdp_act_deact_gtp_retrans_resp() ); |
| execute( TC_attach_pdp_act_user_error_ind_ggsn() ); |
| execute( TC_attach_pdp_act_gmm_detach() ); |
| execute( TC_attach_gmm_attach_req_while_gmm_attach() ); |
| |
| execute( TC_xid_empty_l3() ); |
| execute( TC_xid_n201u() ); |
| |
| execute( TC_llc_null() ); |
| execute( TC_llc_sabm_dm_llgmm() ); |
| execute( TC_llc_sabm_dm_ll5() ); |
| |
| execute( TC_suspend_nopaging() ); |
| execute( TC_suspend_resume() ); |
| execute( TC_suspend_rau() ); |
| execute( TC_paging_ps() ); |
| |
| execute( TC_bssgp_rim_single_report() ); |
| execute( TC_rim_eutran_to_geran() ); |
| |
| execute( TC_cell_change_different_rai_ci_attach() ); |
| execute( TC_cell_change_different_rai_ci_data() ); |
| execute( TC_cell_change_different_ci_attach() ); |
| execute( TC_cell_change_different_ci_data() ); |
| |
| /* At the end, may crash osmo-sgsn, see OS#3957, OS#4245 */ |
| execute( TC_attach_req_id_req_ra_update() ); |
| } |
| |
| |
| |
| } |