module PCU_Tests { /* "RAW" PCU tests: Talk directly to the PCU socket of OsmoPCU on the one hand side (emulating the BTS/BSC side PCU socket server) and the Gb interface on the other hand side. No NS/BSSGP Emulation is used; rather, we simply use the NS_CodecPort to implement both standard and non- standard procedures on the NS and BSSGP level. The goal of these tests is to test exactly those NS and BSSGP implementations on the BSS (PCU) side. */ /* (C) 2018-2019 Harald Welte * (C) 2019-2020 Vadim Yanitskiy * 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 PCU_Tests_NS; import from General_Types all; import from Osmocom_Types all; import from GSM_Types all; import from GSM_RR_Types all; import from GSM_RestOctets all; import from Osmocom_VTY_Functions all; import from TELNETasp_PortType all; import from MobileL3_GMM_SM_Types all; import from RLCMAC_CSN1_Types all; import from RLCMAC_CSN1_Templates all; import from RLCMAC_Types all; import from RLCMAC_Templates all; import from MobileL3_CommonIE_Types all; import from L3_Templates all; import from NS_Types all; import from BSSGP_Types all; import from Osmocom_Gb_Types all; import from BSSGP_Emulation all; /* BssgpConfig */ import from NS_Emulation all; /* NSConfiguration */ import from UD_Types all; import from PCUIF_Types all; import from PCUIF_CodecPort all; import from PCUIF_Components all; import from IPL4asp_Types all; import from Native_Functions all; import from SGSN_Components all; import from GPRS_Components all; import from StatsD_Types all; import from StatsD_CodecPort all; import from StatsD_CodecPort_CtrlFunct all; import from StatsD_Checker all; import from IPA_Emulation all; import from Osmocom_CTRL_Types all; import from Osmocom_CTRL_Adapter all; import from Osmocom_CTRL_Functions all; modulepar { charstring mp_pcu_sock_path := PCU_SOCK_DEFAULT; float X2001 := 2.0; /* Timer -2001, Pkt Dl Ass timeout */ float X2002 := 0.2; /* Timer -2002, IMM ASSIGN confirm delay */ charstring mp_pcu_statsd_ip := "127.0.0.1"; integer mp_pcu_statsd_port := 8125; charstring mp_ctrl_neigh_ip := ""; /* Use new PCUIF over IPA multiplex for Neigh Addr Resolution */ integer mp_ctrl_neigh_port := 4248; } /* FIXME: make sure to use parameters from mp_gb_cfg.cell_id in the PCU INFO IND */ friend template (value) PCUIF_info_ind ts_PCUIF_INFO_default(template (value) PCUIF_Flags flags := c_PCUIF_Flags_default) := { version := PCUIF_Types.mp_pcuif_version, flags := flags, trx := ts_PCUIF_InfoTrxs_def(GPRS_Components.mp_base_arfcn), bsic := 7, mcc := 262, mnc := 42, mnc_3_digits := 0, lac := 13135, rac := 0, nsei := mp_nsconfig.nsei, nse_timer := { 3, 3, 3, 3, 30, 3, 10 }, cell_timer := { 3, 3, 3, 3, 3, 10, 3, 10, 3, 10, 3 }, cell_id := 20960, repeat_time := 5 * 50, repeat_count := 3, bvci := mp_gb_cfg.bvc[0].bvci, t3142 := 20, t3169 := 5, t3191 := 5, t3193_10ms := 160, t3195 := 5, n3101 := 10, n3103 := 4, n3105 := 8, cv_countdown := 15, dl_tbf_ext := 250 * 10, /* ms */ ul_tbf_ext := 250 * 10, /* ms */ initial_cs := 2, initial_mcs := 1, nsvci := { mp_nsconfig.nsvc[0].nsvci, 0 }, local_port := { mp_nsconfig.nsvc[0].provider.ip.remote_udp_port, 0 }, remote_port := { mp_nsconfig.nsvc[0].provider.ip.local_udp_port, 0 }, remote_addr := f_PCUIF_RemoteAddr( f_PCUIF_AF2addr_type(mp_nsconfig.nsvc[0].provider.ip.address_family), mp_nsconfig.nsvc[0].provider.ip.local_ip), bts_model := PCU_IF_BTS_MODEL_TRX } /* 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; const MultislotCap_GPRS mscap_gprs_def := { gprsmultislotclass := '00011'B, gprsextendeddynalloccap := '0'B }; const MultislotCap_EGPRS mscap_egprs_def := { egprsmultislotclass := '00011'B, egprsextendeddynalloccap := '0'B }; template (value) MSRadioAccessCapabilityV ms_racap_gprs_def := { ts_RaCapRec('0001'B /* E-GSM */, mscap_gprs_def, omit) }; template (value) MSRadioAccessCapabilityV ms_racap_egprs_def := { ts_RaCapRec('0001'B /* E-GSM */, mscap_gprs_def, mscap_egprs_def) }; const MultislotCap_GPRS_BSSGP bssgp_mscap_gprs_def := { gprsmultislotclass := '00011'B, gprsextendeddynalloccap := '0'B }; const MultislotCap_EGPRS_BSSGP bssgp_mscap_egprs_def := { egprsmultislotclass := '00011'B, egprsextendeddynalloccap := '0'B }; template (value) MSRadioAccessCapabilityV_BSSGP bssgp_ms_racap_gprs_def := { valueof(ts_RaCapRec_BSSGP('0001'B /* E-GSM */, bssgp_mscap_gprs_def, omit)) }; template (value) MSRadioAccessCapabilityV_BSSGP bssgp_ms_racap_egprs_def := { valueof(ts_RaCapRec_BSSGP('0001'B /* E-GSM */, bssgp_mscap_gprs_def, bssgp_mscap_egprs_def)) }; type record lqual_range { /* component reference to the IPA_Client component used for RSL */ uint8_t low, uint8_t high } type component RAW_PCU_Test_CT extends bssgp_CT, MS_BTS_IFACE_CT, StatsD_ConnHdlr, CTRL_Adapter_CT { /* PCU interface abstraction component */ var RAW_PCUIF_CT vc_PCUIF; /* StatsD */ var StatsD_Checker_CT vc_STATSD; /* Connection to the PCUIF component */ //port RAW_PCU_MSG_PT PCUIF; /* VTY connection to the PCU */ port TELNETasp_PT PCUVTY; /* Uplink CS/MCS thresholds, default from pcu_main.c: */ var lqual_range g_cs_lqual_ranges[4] := {{low := 0, high := 6}, {low := 5, high := 8}, {low := 7, high := 13}, {low := 12,high := 35}}; var lqual_range g_mcs_lqual_ranges[9] := {{low := 0, high := 6}, {low := 5, high := 8}, {low := 7, high := 13}, {low := 12,high := 15}, {low := 14, high := 17}, {low := 16, high := 18}, {low := 17,high := 20}, {low := 19, high := 24}, {low := 23,high := 35}}; var uint8_t g_cs_initial_dl := 1; var uint8_t g_cs_initial_ul := 1; var uint8_t g_mcs_initial_dl := 1; var uint8_t g_mcs_initial_ul := 1; var uint8_t g_cs_max_dl := 4; var uint8_t g_cs_max_ul := 4; var uint8_t g_mcs_max_dl := 9; var uint8_t g_mcs_max_ul := 9; var boolean g_force_two_phase_access := false; /* Guard timeout */ timer g_T_guard := 60.0; }; private altstep as_Tguard_RAW() runs on RAW_PCU_Test_CT { [] g_T_guard.timeout { setverdict(fail, "Timeout of T_guard"); f_shutdown(__BFILE__, __LINE__); } } private function f_pcuvty_set_allowed_cs_mcs() runs on RAW_PCU_Test_CT { f_vty_config2(PCUVTY, {"pcu"}, "cs " & int2str(g_cs_initial_dl) & " " & int2str(g_cs_initial_ul)); f_vty_config2(PCUVTY, {"pcu"}, "cs max " & int2str(g_cs_max_dl) & " " & int2str(g_cs_max_ul)); f_vty_config2(PCUVTY, {"pcu"}, "mcs " & int2str(g_mcs_initial_dl) & " " & int2str(g_mcs_initial_ul)); f_vty_config2(PCUVTY, {"pcu"}, "mcs max " & int2str(g_mcs_max_dl) & " " & int2str(g_mcs_max_ul)); } private function f_pcuvty_set_link_quality_ranges() runs on RAW_PCU_Test_CT { var charstring cmd; cmd := "cs link-quality-ranges" & " cs1 " & int2str(g_cs_lqual_ranges[0].high) & " cs2 " & int2str(g_cs_lqual_ranges[1].low) & " " & int2str(g_cs_lqual_ranges[1].high) & " cs3 " & int2str(g_cs_lqual_ranges[2].low) & " " & int2str(g_cs_lqual_ranges[2].high) & " cs4 " & int2str(g_cs_lqual_ranges[3].low); f_vty_config2(PCUVTY, {"pcu"}, cmd); cmd := "mcs link-quality-ranges" & " mcs1 " & int2str(g_mcs_lqual_ranges[0].high) & " mcs2 " & int2str(g_mcs_lqual_ranges[1].low) & " " & int2str(g_mcs_lqual_ranges[1].high) & " mcs3 " & int2str(g_mcs_lqual_ranges[2].low) & " " & int2str(g_mcs_lqual_ranges[2].high) & " mcs4 " & int2str(g_mcs_lqual_ranges[3].low) & " " & int2str(g_mcs_lqual_ranges[3].high) & " mcs5 " & int2str(g_mcs_lqual_ranges[4].low) & " " & int2str(g_mcs_lqual_ranges[4].high) & " mcs6 " & int2str(g_mcs_lqual_ranges[5].low) & " " & int2str(g_mcs_lqual_ranges[5].high) & " mcs7 " & int2str(g_mcs_lqual_ranges[6].low) & " " & int2str(g_mcs_lqual_ranges[6].high) & " mcs8 " & int2str(g_mcs_lqual_ranges[7].low) & " " & int2str(g_mcs_lqual_ranges[7].high) & " mcs9 " & int2str(g_mcs_lqual_ranges[8].low); f_vty_config2(PCUVTY, {"pcu"}, cmd); } private function f_pcuvty_flush_neigh_caches() runs on RAW_PCU_Test_CT { f_pcuvty_set_neigh_caches(0, 0); } private function f_pcuvty_set_neigh_caches(integer neigh_cache_secs := -1, integer si_cache_secs := -1) runs on RAW_PCU_Test_CT { if (neigh_cache_secs == -1) { f_vty_config2(PCUVTY, {"pcu"}, "timer X10 default"); } else { f_vty_config2(PCUVTY, {"pcu"}, "timer X10 " & int2str(neigh_cache_secs)); } if (si_cache_secs == -1) { f_vty_config2(PCUVTY, {"pcu"}, "timer X11 default"); } else { f_vty_config2(PCUVTY, {"pcu"}, "timer X11 " & int2str(si_cache_secs)); } } private function f_pcuvty_set_timer(integer t, integer val) runs on RAW_PCU_Test_CT { if (t >= 0) { f_vty_config2(PCUVTY, {"pcu"}, "timer T" & int2str(t) & " " & int2str(val)); } else { f_vty_config2(PCUVTY, {"pcu"}, "timer X" & int2str(t * -1) & " " & int2str(val)); } } private function f_init_vty(charstring id, boolean egprs_only) runs on RAW_PCU_Test_CT { map(self:PCUVTY, system:PCUVTY); f_vty_set_prompts(PCUVTY); f_vty_transceive(PCUVTY, "enable"); /* This will be removed soon, not needed. EGPRS support is controlled through pcu_ind flags */ if (egprs_only) { f_vty_config2(PCUVTY, {"pcu"}, "egprs only"); } else { f_vty_config2(PCUVTY, {"pcu"}, "no egprs"); } if (g_force_two_phase_access) { f_vty_config2(PCUVTY, {"pcu"}, "two-phase-access"); } else { f_vty_config2(PCUVTY, {"pcu"}, "no two-phase-access"); } } function f_init_raw(charstring id, template (value) PCUIF_info_ind info_ind := ts_PCUIF_INFO_default) runs on RAW_PCU_Test_CT { /* Start the guard timer */ g_T_guard.start; activate(as_Tguard_RAW()); /* Init PCU interface component */ vc_PCUIF := RAW_PCUIF_CT.create("PCUIF") alive; //connect(vc_PCUIF:MTC, self:PCUIF); map(vc_PCUIF:PCU, system:PCU); /* Create one BTS component (we may want more some day) */ vc_BTS := RAW_PCU_BTS_CT.create("BTS") alive; connect(vc_BTS:PCUIF, vc_PCUIF:BTS); connect(vc_BTS:TC, self:BTS); f_init_vty(id, f_pcuif_ind_flags_egprs_enabled(valueof(info_ind.flags))); f_init_statsd(id, vc_STATSD, mp_pcu_statsd_ip, mp_pcu_statsd_port); /* This is normally done in the ConnHdlr component, but here * the Test_CT doubles as ConnHdlr */ connect(self:STATSD_PROC, vc_STATSD:STATSD_PROC); vc_PCUIF.start(f_PCUIF_CT_handler(mp_pcu_sock_path)); vc_BTS.start(f_BTS_CT_handler(0, valueof(info_ind), true)); /* Wait until the BTS is ready (SI13 negotiated) */ BTS.receive(tr_RAW_PCU_EV(BTS_EV_SI13_NEGO)); } /* Register TLLI of each allocated GprsMS instance */ private function f_multi_ms_bssgp_register() runs on RAW_PCU_Test_CT { for (var integer i := 0; i < lengthof(g_ms); i := i + 1) { f_bssgp_client_llgmm_assign(TLLI_UNUSED, g_ms[i].tlli); } } /* Allocate [and activate] an Uplink TBF for each allocated GprsMS instance */ private function f_multi_ms_establish_tbf(boolean do_activate := false) runs on RAW_PCU_Test_CT { for (var integer i := 0; i < lengthof(g_ms); i := i + 1) { /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(g_ms[i]); /* Send a random block, so this TBF becomes "active" */ if (do_activate) { /* FIXME: use the new APU by Pau to get correct TRX/TS here */ var template (value) TsTrxBtsNum nr := ts_TsTrxBtsNum(7, i mod 8); var octetstring dummy := f_rnd_octstring(12); var RlcmacDlBlock dl_block; var uint32_t poll_fn; /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(g_ms[i]); f_ms_tx_ul_data_block(g_ms[i], dummy, with_tlli := true, fn := g_ms[i].ul_tbf.start_time_fn, nr := nr); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, poll_fn, nr := nr); } } } private function f_ms_establish_ul_tbf_2phase_access(inout GprsMS ms, template (omit) RlcmacUlCtrlMsg pkt_res_req := omit) runs on RAW_PCU_Test_CT return PollFnCtx { var PollFnCtx pollctx; /* Single block (two phase) packet access */ var uint16_t ra := bit2int(chan_req_sb); if (g_force_two_phase_access) { /* If 2phase access is enforced by the network, then let's * request a One phase packet access, we'll receive a single block * anyway */ ra := bit2int(chan_req_def); } /* Establish an Uplink TBF */ f_ms_use_ra(ms, ra, ra_is_11bit := 0); f_ms_establish_ul_tbf(ms); /* Make sure we've got an Uplink TBF assignment */ if (not match(ms.ul_tbf.ass.ccch, tr_PacketUlSglAssign)) { setverdict(fail, "Wrong Packet Uplink Assignment received: ", ms.ul_tbf.ass.ccch, " vs exp: ", tr_PacketUlSglAssign); f_shutdown(__BFILE__, __LINE__); } /* Send PACKET RESOURCE REQUEST * (see 3GPP TS 04.60 "7.1.3.1 Initiation of the Packet resource request procedure") */ if (istemplatekind(pkt_res_req, "omit")) { pkt_res_req := ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, omit); } f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(valueof(pkt_res_req)), ms.ul_tbf.start_time_fn, nr := f_ms_tx_TsTrxBtsNum(ms)); /* Store 1st UlTBF context before receiving next one, will * overwrite the TS allocation on MS with info from new UL TBF: */ pollctx.tstrxbts := f_ms_tx_TsTrxBtsNum(ms); f_ms_rx_pkt_ass_pacch(ms, pollctx.fn, tr_RLCMAC_UL_PACKET_ASS, nr := f_ms_tx_TsTrxBtsNum(ms)); return pollctx; } testcase TC_pcuif_suspend() runs on RAW_PCU_Test_CT { var octetstring ra_id := enc_RoutingAreaIdentification(mp_gb_cfg.bvc[0].cell_id.ra_id); var GprsTlli tlli := TLLI_UNUSED; timer T; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); BTS.send(ts_PCUIF_SUSP_REQ(0, tlli, ra_id, 0)); T.start(2.0); alt { [] BSSGP_GLOBAL[0].receive(tr_BSSGP_SUSPEND(tlli, mp_gb_cfg.bvc[0].cell_id.ra_id)) { setverdict(pass); } [] T.timeout { setverdict(fail, "Timeout waiting for BSSGP SUSPEND"); } } f_shutdown(__BFILE__, __LINE__, final := true); } /* Make sure TBF is released and no data is sent for in after reciving a Suspend Request from that MS. See OS#4761 */ testcase TC_pcuif_suspend_active_tbf() runs on RAW_PCU_Test_CT { var octetstring ra_id := enc_RoutingAreaIdentification(mp_gb_cfg.bvc[0].cell_id.ra_id); var BTS_PDTCH_Block data_msg; var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var uint32_t sched_fn; var uint32_t dl_fn; var GprsMS ms; timer T; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine */ f_ms_tx_ul_data_block_multi(ms, 1, with_tlli := true, fn := ms.ul_tbf.start_time_fn); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); /* Now SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0); /* MS has moved to CS, it sent SUSP REQ to BTS and PCU gets it, TBF is freed: */ BTS.send(ts_PCUIF_SUSP_REQ(0, ms.tlli, ra_id, 0)); T.start(2.0); alt { [] BSSGP_GLOBAL[0].receive(tr_BSSGP_SUSPEND(ms.tlli, mp_gb_cfg.bvc[0].cell_id.ra_id)) { setverdict(pass); } [] T.timeout { setverdict(fail, "Timeout waiting for BSSGP SUSPEND"); f_shutdown(__BFILE__, __LINE__); } } /* Make sure we don't receive data for that TBF since it was released * before. Also check our TBF is not polled for UL. */ f_pcuif_rx_data_req_pdtch(data_msg); if (data_msg.dl_block == omit) { /* IDLE block, expected on new PCU versions */ } else { setverdict(fail, "Unexpected dl_block", data_msg.dl_block); f_shutdown(__BFILE__, __LINE__); } /* New data arrives, PCU should page the MS since no TBF active exists: */ /* Send some more data, it will never reach the MS */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); f_shutdown(__BFILE__, __LINE__, final := true); } /* Test of correct Timing Advance at the time of TBF establishment * (derived from timing offset of the Access Burst). */ testcase TC_ta_rach_imm_ass() runs on RAW_PCU_Test_CT { var GprsMS ms; /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* We cannot send too many TBF requests in a short time because * at some point the PCU will fail to allocate a new TBF. */ for (var TimingAdvance ta := 0; ta < 64; ta := ta + 16) { /* Establish an Uplink TBF (send RACH.ind with current TA) */ ms.ta := ta; f_ms_establish_ul_tbf(ms); /* Make sure Timing Advance IE matches out expectations */ if (ms.ul_tbf.rr_imm_ass.payload.imm_ass.timing_advance != ta) { setverdict(fail, "Timing Advance mismatch: ", ms.ul_tbf.rr_imm_ass.payload.imm_ass.timing_advance, " vs expected ", ta); break; } } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify Timing Advance value indicated in Packet Uplink ACK/NACK message * sent in response to the first Uplink block after resource allocation. */ testcase TC_ta_ul_ack_nack_first_block() runs on RAW_PCU_Test_CT { var GprsMS ms := valueof(t_GprsMS_def); var PacketUlAckNack ul_ack_nack; var PacketTimingAdvance pkt_ta; var RlcmacDlBlock dl_block; var uint32_t sched_fn; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* In a busy network, there can be a significant delay between resource * allocation (Packet Uplink Assignment above) and the actual time when * the MS is allowed to transmit the first Uplink data block. */ /* Simulate a delay > 0 */ ms.ta := 2; /* We're in One-Phase Access contention resolution, include TLLI */ f_ms_tx_ul_data_block_multi(ms, 1, with_tlli := true, fn := ms.ul_tbf.start_time_fn); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); ul_ack_nack := dl_block.ctrl.payload.u.ul_ack_nack; if (ispresent(ul_ack_nack.gprs.pkt_ta)) { pkt_ta := ul_ack_nack.gprs.pkt_ta; } else if (ispresent(ul_ack_nack.egprs.pkt_ta)) { pkt_ta := ul_ack_nack.egprs.pkt_ta; } else { setverdict(fail, "PacketTimingAdvance IE is not present"); f_shutdown(__BFILE__, __LINE__); } if (not ispresent(pkt_ta.val)) { setverdict(fail, "Timing Advance value is not present"); f_shutdown(__BFILE__, __LINE__); } else if (pkt_ta.val != ms.ta) { setverdict(fail, "Timing Advance mismatch: expected ", ms.ta, ", but received ", pkt_ta.val); f_shutdown(__BFILE__, __LINE__); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify Timing Advance value(s) indicated during the packet Downlink assignment * procedure as per 3GPP TS 44.018, section 3.5.3. There seems to be a bug in the * IUT that causes it to send an unreasonable Timing Advance value > 0 despite * no active TBF exists at the moment of establishment (idle mode). */ testcase TC_ta_idle_dl_tbf_ass() runs on RAW_PCU_Test_CT { var GprsMS ms := valueof(t_GprsMS_def); /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will initiate Packet Downlink * Assignment on CCCH (PCH). We don't care about the payload. */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, f_rnd_octstring(10), imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Make sure that Timing Advance is 0 (the actual value is not known yet). * As per 3GPP S 44.018, section 3.5.3.1.2, the network *shall* initiate * the procedures defined in 3GPP TS 44.060 or use the polling mechanism. */ if (ms.dl_tbf.rr_imm_ass.payload.imm_ass.timing_advance != 0) { setverdict(fail, "Timing Advance value doesn't match"); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify that the PCU generates idle blocks in PTCCH/D * while neither Uplink nor Downlink TBF is established. */ testcase TC_ta_ptcch_idle() runs on RAW_PCU_Test_CT { var BTS_PTCCH_Block pcu_msg; timer T; /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Sent an RTS.req for PTCCH/D */ BTS.send(ts_PCUIF_RTS_REQ(bts_nr := 0, trx_nr := 0, ts_nr := 7, sapi := PCU_IF_SAPI_PTCCH, fn := 0, arfcn := 871, block_nr := 0)); T.start(5.0); alt { [] BTS.receive(tr_PCUIF_DATA_PTCCH(0, tr_PCUIF_DATA(0, 7, sapi := PCU_IF_SAPI_PTCCH), omit)) { } [] as_rx_ptcch(pcu_msg, tr_PTCCHDownlinkMsg) { setverdict(fail, "Expected IDLE block instead of PTCCH/D block"); f_shutdown(__BFILE__, __LINE__); } [] BTS.receive(PCUIF_Message:?) { repeat; } [] T.timeout { setverdict(fail, "Timeout waiting for a PTCCH/D block"); f_shutdown(__BFILE__, __LINE__); } } log("Decoded PTCCH/D message: ", pcu_msg.dl_block); f_shutdown(__BFILE__, __LINE__, final := true); } /* Test of correct Timing Advance during an active Uplink TBF. * * Unlike the circuit-switched domain, Uplink transmissions on PDCH time-slots * are not continuous and there can be long time gaps between them. This happens * due to a bursty nature of packet data. The actual Timing Advance of a MS may * significantly change between such rare Uplink transmissions, so GPRS introduces * additional mechanisms to control Timing Advance, and thus reduce interference * between neighboring TDMA time-slots. * * At the moment of Uplink TBF establishment, initial Timing Advance is measured * from ToA (Timing of Arrival) of an Access Burst. This is covered by another * test case - TC_ta_rach_imm_ass. In response to that Access Burst the network * sends Immediate Assignment on AGCH, which _may_ contain Timing Advance Index * among with the initial Timing Advance value. And here PTCCH comes to play. * * PTCCH is a unidirectional channel on which the network can instruct a sub-set * of 16 MS (whether TBFs are active or not) to adjust their Timing Advance * continuously. To ensure continuous measurements of the signal propagation * delay, the MSs shall transmit Access Bursts on Uplink (PTCCH/U) on sub-slots * defined by an assigned Timing Advance Index (see 3GPP TS 45.002). * * The purpose of this test case is to verify the assignment of Timing Advance * Index, and the process of Timing Advance notification on PTCCH/D. The MTC * first establishes several Uplink TBFs, but does not transmit any Uplink * blocks on them. During 4 TDMA multi-frame periods the MTC is sending RACH * indications to the PCU, checking the correctness of two received PTCCH/D * messages (period of PTCCH/D is two multi-frames). */ /* List of ToA values for Access Bursts to be sent on PTCCH/U, * each ToA (Timing of Arrival) value is in units of 1/4 of * a symbol (i.e. 1 symbol is 4 QTA units). */ type record length(16) of int16_t PTCCH_TAI_ToA_MAP; const PTCCH_TAI_ToA_MAP ptcch_toa_map_def := { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }; private altstep as_ta_ptcch(uint8_t bts_nr := 0, uint8_t trx_nr := 0, uint8_t ts_nr := 7, in PTCCH_TAI_ToA_MAP toa_map := ptcch_toa_map_def) runs on RAW_PCU_Test_CT { var RAW_PCU_Event event; var integer ss; /* Send Access Bursts on PTCCH/U for every TA Index */ [] BTS.receive(tr_RAW_PCU_EV(TDMA_EV_PTCCH_UL_BURST)) -> value event { ss := f_tdma_ptcch_fn2ss(event.data.tdma_fn); if (ss < 0) { /* Shall not happen */ f_shutdown(__BFILE__, __LINE__); } log("Sending an Access Burst on PTCCH/U", ", sub-slot=", ss, " (TAI)", ", fn=", event.data.tdma_fn, ", ToA=", toa_map[ss], " (QTA)"); /* TODO: do we care about RA and burst format? */ BTS.send(ts_PCUIF_RACH_IND(bts_nr, trx_nr, ts_nr, ra := oct2int('3A'O), is_11bit := 0, burst_type := BURST_TYPE_0, fn := event.data.tdma_fn, arfcn := 871, qta := toa_map[ss], sapi := PCU_IF_SAPI_PTCCH)); repeat; } } private function f_TC_ta_ptcch_ul_multi_tbf(in PTCCH_TAI_ToA_MAP ptcch_toa_map, template PTCCHDownlinkMsg t_ta_msg) runs on RAW_PCU_Test_CT { var PTCCHDownlinkMsg ta_msg; var PCUIF_Message pcu_msg; timer T; /* First, send an RTS.req for the upcoming PTCCH/D block */ BTS.send(ts_PCUIF_RTS_REQ(bts_nr := 0, trx_nr := 0, ts_nr := 7, sapi := PCU_IF_SAPI_PTCCH, fn := 0, arfcn := 871, block_nr := 0)); T.start(2.0); alt { /* Keep sending of Access Bursts during two multi-frames (period of PTCCH/D) * with increasing ToA (Timing of Arrival) values: 0, 7, 14, 28, 35... */ [] as_ta_ptcch(bts_nr := 0, trx_nr := 0, ts_nr := 7, toa_map := ptcch_toa_map); /* In the end of 2nd multi-frame we should receive a PTCCH/D block */ [] BTS.receive(tr_PCUIF_DATA_REQ(bts_nr := 0, trx_nr := 0, ts_nr := 7, sapi := PCU_IF_SAPI_PTCCH)) -> value pcu_msg { ta_msg := dec_PTCCHDownlinkMsg(pcu_msg.u.data_req.data); log("Rx PTCCH/D message: ", ta_msg); /* Make sure Timing Advance values match our expectations */ if (not match(ta_msg, t_ta_msg)) { setverdict(fail, "PTCCH/D message does not match: ", t_ta_msg); } } [] BTS.receive { repeat; } [] T.timeout { setverdict(fail, "Timeout waiting for a PTCCH/D block"); } } } testcase TC_ta_ptcch_ul_multi_tbf() runs on RAW_PCU_Test_CT { var template PacketUlAssign t_ul_tbf_ass; var GprsMS ms; /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Enable forwarding of PTCCH/U TDMA events to us */ BTS.send(ts_RAW_PCU_CMD(TDMA_CMD_ENABLE_PTCCH_UL_FWD)); /* Establish 7 Uplink TBFs (USF flag is 3 bits long, '111'B is reserved) */ for (var integer i := 0; i < 7; i := i + 1) { /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* We expect incremental TFI/USF assignment (dynamic allocation) */ t_ul_tbf_ass := tr_PacketUlDynAssign(tfi := i, usf := i); if (not match(ms.ul_tbf.ass.ccch, t_ul_tbf_ass)) { setverdict(fail, "Failed to match Packet Uplink Assignment for #", i); break; } /* We also expect Timing Advance Index to be a part of the assignment */ if (ms.ul_tbf.ass.ccch.dynamic.ta_index != i) { setverdict(fail, "Failed to match Timing Advance Index for #", i); /* Keep going, the current OsmoPCU does not assign TA Index */ } } /* Prepare a list of ToA values for Access Bursts to be sent on PTCCH/U */ var PTCCH_TAI_ToA_MAP toa_map := ptcch_toa_map_def; for (var integer i := 0; i < 7; i := i + 1) { /* ToA in units of 1/4 of a symbol */ toa_map[i] := (i + 1) * 7 * 4; } /* Now we have all 7 TBFs established in one-phase access mode, * however we will not be sending any data on them. Instead, we * will be sending RACH.ind on PTCCH/U during 4 multi-frame * periods (TAI 0..8), and then will check two PTCCH/D blocks. * * Why not 4 TBFs at once? Because Uplink is delayed by 3 TDMA * time-slots, so at the moment of scheduling a PTCCH/D block * the PCU has odd number of PTCCH/U Access Bursts received. */ f_TC_ta_ptcch_ul_multi_tbf(toa_map, tr_PTCCHDownlinkMsg( tai0_ta := 7, tai1_ta := 14, tai2_ta := 21, /* Other values are not known (yet) */ tai3_ta := ?)); f_TC_ta_ptcch_ul_multi_tbf(toa_map, tr_PTCCHDownlinkMsg( tai0_ta := 7, tai1_ta := 14, tai2_ta := 21, tai3_ta := 28, tai4_ta := 35, tai5_ta := 42, /* Other values are out of our interest */ tai6_ta := ?)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Default link quality adaptation (Coding Scheme) ranges (inclusive). * OsmoPCU (VTY): cs link-quality-ranges cs1 6 cs2 5 8 cs3 7 13 cs4 12 * * NOTE: the ranges are intentionally overlapping because OsmoPCU * does not change CS/MCS on the range borders (5-6, 7-8, 12-13). */ private template integer CS1_lqual_dB_range := (-infinity .. 6); private template integer CS2_lqual_dB_range := (5 .. 8); private template integer CS3_lqual_dB_range := (7 .. 13); private template integer CS4_lqual_dB_range := (12 .. infinity); testcase TC_cs_lqual_ul_tbf() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var GprsMS ms; var uint32_t unused_fn, sched_fn; var uint4_t cv; /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); f_pcuvty_set_allowed_cs_mcs(); f_pcuvty_set_link_quality_ranges(); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* The actual / old link quality values. We need to keep track of the old * (basically previous) link quality value, because OsmoPCU actually * changes the coding scheme if not only the actual, but also the old * value leaves the current link quality range (window). */ var integer lqual_old; ms.lqual_cb := 0; /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine. */ /* 16 bytes fills the llc block (because TLLI takes 4 bytes) */ /* Set CV = 15 to signal there's still more than BS_CV_MAX blocks to be sent */ f_ms_tx_ul_data_block(ms, f_rnd_octstring(16), cv := 15, with_tlli := true, fn := ms.ul_tbf.start_time_fn) f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* 16 UL blocks (0 .. 15 dB, step = 1 cB) */ for (var integer i := 150; i >= 0; i := i - 1) { /* Update the old / actual link quality */ lqual_old := ms.lqual_cb; ms.lqual_cb := 150 - i; /* Enqueue DATA.ind (both TDMA frame and block numbers to be patched) */ log("Sending DATA.ind with link quality (dB): ", ms.lqual_cb); if (i > g_bs_cv_max) { cv := 15; } else { cv := i; } f_ms_tx_ul_data_block(ms, f_rnd_octstring(10), cv := cv) /* we will receive UL ACK/NACK from time to time. In that case, check CdCofing increases */ f_rx_rlcmac_dl_block(dl_block, unused_fn); if (match(dl_block, tr_RLCMAC_DL_DUMMY_CTRL())) { continue; } if (not match(dl_block, tr_RLCMAC_UL_ACK_NACK_GPRS(ul_tfi := ?)) and not match(dl_block, tr_RLCMAC_UL_ACK_NACK_EGPRS(ul_tfi := ?))) { setverdict(fail, "Failed to match Packet Uplink ACK / NACK:", dl_block); f_shutdown(__BFILE__, __LINE__); } log("Rx Packet Uplink ACK / NACK with Channel Coding Command: ", dl_block.ctrl.payload.u.ul_ack_nack.gprs.ch_coding_cmd); /* Match the received Channel Coding Command. Since we are increasing * the link quality value on each iteration and not decreasing, there * is no need to check the both old and current link quality values. */ var template ChCodingCommand ch_coding; select (lqual_old / 10) { case (CS1_lqual_dB_range) { ch_coding := CH_CODING_CS1; } case (CS2_lqual_dB_range) { ch_coding := CH_CODING_CS2; } case (CS3_lqual_dB_range) { ch_coding := CH_CODING_CS3; } case (CS4_lqual_dB_range) { ch_coding := CH_CODING_CS4; } } if (not match(dl_block.ctrl.payload.u.ul_ack_nack.gprs.ch_coding_cmd, ch_coding)) { setverdict(fail, "Channel Coding does not match our expectations: ", ch_coding); f_shutdown(__BFILE__, __LINE__); } } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test the max UL CS set by VTY works fine */ testcase TC_cs_initial_ul() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var ChCodingCommand last_ch_coding; var uint32_t unused_fn, sched_fn; var GprsMS ms; /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Set initial UL CS to 3 */ g_cs_initial_ul := 3; f_pcuvty_set_allowed_cs_mcs(); f_pcuvty_set_link_quality_ranges(); /* Take lqual (dB->cB) so that we stay in that CS */ ms.lqual_cb := g_cs_lqual_ranges[2].low * 10; /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine. */ /* 16 bytes fills the llc block (because TLLI takes 4 bytes) */ /* Set CV = 15 to signal there's still more than BS_CV_MAX blocks to be sent */ f_ms_tx_ul_data_block(ms, f_rnd_octstring(16), cv := 15, with_tlli := true, fn := ms.ul_tbf.start_time_fn) f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* Send UL blocks, until we receive UL ACK/NACK and check we are in same initial CS: */ while (true) { f_ms_tx_ul_data_block(ms, f_rnd_octstring(10), cv := 15); f_rx_rlcmac_dl_block(dl_block, unused_fn); if (match(dl_block, tr_RLCMAC_DL_DUMMY_CTRL())) { continue; } if (not match(dl_block, tr_RLCMAC_UL_ACK_NACK_GPRS(ul_tfi := ?)) and not match(dl_block, tr_RLCMAC_UL_ACK_NACK_EGPRS(ul_tfi := ?))) { setverdict(fail, "Failed to match Packet Uplink ACK / NACK:", dl_block); f_shutdown(__BFILE__, __LINE__); break; } last_ch_coding := dl_block.ctrl.payload.u.ul_ack_nack.gprs.ch_coding_cmd; break; } if (last_ch_coding != CH_CODING_CS3) { setverdict(fail, "Channel Coding does not match our expectations (CS-3): ", last_ch_coding); f_shutdown(__BFILE__, __LINE__); } /* Remaining UL blocks are used to make sure regardless of initial /* lqual, we can go lower at any time */ /* 0 dB, make sure we downgrade CS */ ms.lqual_cb := 0; /* 5 UL blocks, check we are in same initial CS: */ f_ms_tx_ul_data_block_multi(ms, 5); /* Enqueue RTS.req, expect DATA.req with UL ACK from the PCU */ f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, unused_fn); last_ch_coding := dl_block.ctrl.payload.u.ul_ack_nack.gprs.ch_coding_cmd; if (last_ch_coding != CH_CODING_CS1) { setverdict(fail, "Channel Coding does not match our expectations (CS-1): ", last_ch_coding); f_shutdown(__BFILE__, __LINE__); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test the max UL CS set by VTY works fine */ testcase TC_cs_max_ul() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var ChCodingCommand last_ch_coding; var uint32_t unused_fn, sched_fn; var GprsMS ms; /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Set maximum allowed UL CS to 3 */ g_cs_max_ul := 3; f_pcuvty_set_allowed_cs_mcs(); f_pcuvty_set_link_quality_ranges(); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine. */ /* 16 bytes fills the llc block (because TLLI takes 4 bytes) */ /* Set CV = 15 to signal there's still more than BS_CV_MAX blocks to be sent */ f_ms_tx_ul_data_block(ms, f_rnd_octstring(16), cv := 15, with_tlli := true, fn := ms.ul_tbf.start_time_fn) f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); ms.lqual_cb := 40*10; /* 40 dB */ f_ms_tx_ul_data_block_multi(ms, 16); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, unused_fn); last_ch_coding := dl_block.ctrl.payload.u.ul_ack_nack.gprs.ch_coding_cmd; if (last_ch_coding != CH_CODING_CS3) { setverdict(fail, "Channel Coding does not match our expectations (CS-3): ", last_ch_coding); f_shutdown(__BFILE__, __LINE__); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test the initial DL CS set by VTY works fine */ testcase TC_cs_initial_dl() runs on RAW_PCU_Test_CT { var octetstring data := f_rnd_octstring(10); var CodingScheme exp_dl_cs_mcs; var RlcmacDlBlock dl_block; var uint32_t poll_fn; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Set initial allowed DL CS to 3 */ g_cs_initial_dl := 3; exp_dl_cs_mcs := CS_3; /* Set maximum allowed UL CS to 4 */ g_cs_max_dl := 4; f_pcuvty_set_allowed_cs_mcs(); f_pcuvty_set_link_quality_ranges(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); f_rx_rlcmac_dl_block_exp_data(dl_block, poll_fn, data, 0, exp_dl_cs_mcs); /* ACK the DL block */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block, '1'B); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, poll_fn)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify scheduling of multiple Downlink data blocks, enough to reach CS4 */ function f_dl_data_exp_cs(template (present) CodingScheme exp_final_cs := ?, template (omit) MSRadioAccessCapabilityV_BSSGP ms_racap := omit) runs on RAW_PCU_Test_CT { var octetstring data := f_rnd_octstring(1400); var RlcmacDlBlock prev_dl_block, dl_block; var uint32_t ack_fn; var uint32_t fn; var GprsMS ms; var integer tx_data_remain := 10; var integer bsn := 0; var boolean using_egprs := f_rlcmac_cs_mcs_is_mcs(valueof(exp_final_cs)); var integer bsn_mod; var template (present) CodingScheme exp_tmp_csmcs; if (using_egprs) { exp_tmp_csmcs := mcs_egprs_any; bsn_mod := 2048; } else { exp_tmp_csmcs := cs_gprs_any; bsn_mod := 128; } /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); ms := g_ms[0]; /* We only use first MS in this test */ f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, ms_racap, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS */ f_sleep(X2002); /* Skip potential dummy blocks before X2002 triggers at PCU after us: */ fn := f_rx_rlcmac_dl_block_skip_dummy(dl_block, max_dummy := 10); for (var integer i := 0; i < 800; i := i + 1) { bsn := i mod bsn_mod; if (match(dl_block, tr_RLCMAC_DL_DUMMY_CTRL)) { /* No more data to receive, done */ break; } f_rlcmac_dl_block_exp_data(dl_block, ?, bsn, exp_tmp_csmcs); /* Keep Ack/Nack description updated */ f_dltbf_ack_block(ms.dl_tbf, dl_block); /* TDMA frame number on which we are supposed to send the ACK */ if (f_dl_block_rrbp_valid(dl_block)) { ack_fn := f_dl_block_ack_fn(dl_block, fn); f_ms_tx_ul_block(ms, f_dltbf_ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf, using_egprs), ack_fn); if (tx_data_remain != 0) { /* Submit more data from time to time to keep the TBF ongoing */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data)); tx_data_remain := tx_data_remain - 1; } } prev_dl_block := dl_block; f_rx_rlcmac_dl_block(dl_block, fn); } bsn := (bsn + (bsn_mod-1)) mod bsn_mod; /* previous bsn: bsn -1 */ f_rlcmac_dl_block_exp_data(prev_dl_block, ?, bsn, exp_final_cs); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify DL CS above "cs max" set by VTY is never used */ testcase TC_cs_max_dl() runs on RAW_PCU_Test_CT { /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Set maximum allowed DL CS to 3 */ g_cs_initial_dl := 1; g_cs_max_dl := 3; f_pcuvty_set_allowed_cs_mcs(); f_pcuvty_set_link_quality_ranges(); f_dl_data_exp_cs(f_rlcmac_block_int2cs_mcs(g_cs_max_dl, false)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Check DL CS4 is used in good link conditions if allowed by config */ testcase TC_dl_cs1_to_cs4() runs on RAW_PCU_Test_CT { /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Set initial DL CS to 1 & maximum allowed DL CS to 4 */ g_cs_initial_dl := 1; g_cs_max_dl := 4; f_pcuvty_set_allowed_cs_mcs(); f_pcuvty_set_link_quality_ranges(); f_dl_data_exp_cs(f_rlcmac_block_int2cs_mcs(g_cs_max_dl, false)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Test the initial UL MCS set by VTY works fine */ testcase TC_mcs_initial_ul() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var PollFnCtx pollctx; var EgprsChCodingCommand last_ch_coding; var uint32_t unused_fn, sched_fn; var GprsMS ms; var CodingScheme exp_ul_mcs; /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Set initial UL MCS to 3 */ g_mcs_initial_ul := 3; exp_ul_mcs := f_rlcmac_block_int2cs_mcs(g_mcs_initial_ul, true); f_pcuvty_set_allowed_cs_mcs(); f_pcuvty_set_link_quality_ranges(); /* Take lqual (dB->cB) so that we stay in that MCS */ ms.lqual_cb := g_mcs_lqual_ranges[2].low * 10; /* Send PACKET RESOURCE REQUEST to upgrade to EGPRS */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_egprs_def)); if (not match(ms.ul_tbf.tx_cs_mcs, exp_ul_mcs)) { setverdict(fail, "Wrong CS_MCS ", ms.ul_tbf.tx_cs_mcs, " received vs exp ", exp_ul_mcs); f_shutdown(__BFILE__, __LINE__); } /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Send UL blocks, until we receive UL ACK/NACK and check we are in same initial CS: */ while (true) { f_ms_tx_ul_data_block(ms, f_rnd_octstring(10), cv := 15); f_rx_rlcmac_dl_block(dl_block, unused_fn); if (match(dl_block, tr_RLCMAC_DL_DUMMY_CTRL())) { continue; } if (not match(dl_block, tr_RLCMAC_UL_ACK_NACK_EGPRS(ul_tfi := ?))) { setverdict(fail, "Failed to match Packet Uplink ACK / NACK:", dl_block); f_shutdown(__BFILE__, __LINE__); break; } last_ch_coding := dl_block.ctrl.payload.u.ul_ack_nack.egprs.ch_coding_cmd; break; } if (f_rlcmac_block_EgprsChCodingCommand2cs_mcs(last_ch_coding) != exp_ul_mcs) { setverdict(fail, "Channel Coding does not match our expectations ", exp_ul_mcs, ": ", last_ch_coding); f_shutdown(__BFILE__, __LINE__); } /* Remaining UL blocks are used to make sure regardless of initial * lqual, we can go lower at any time * 0 dB, make sure we downgrade MCS */ ms.lqual_cb := 0; /* 5 UL blocks, check we are in same initial MCS: */ f_ms_tx_ul_data_block_multi(ms, 5); /* Enqueue RTS.req, expect DATA.req with UL ACK from the PCU */ f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, unused_fn); last_ch_coding := dl_block.ctrl.payload.u.ul_ack_nack.egprs.ch_coding_cmd; if (last_ch_coding != CH_CODING_MCS1) { setverdict(fail, "Channel Coding does not match our expectations (MCS-1): ", last_ch_coding); f_shutdown(__BFILE__, __LINE__); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test the maximum UL MCS set by VTY works fine */ testcase TC_mcs_max_ul() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var EgprsChCodingCommand last_ch_coding; var PollFnCtx pollctx; var uint32_t unused_fn, sched_fn; var GprsMS ms; /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Set maximum allowed UL MCS to 5 */ g_mcs_max_ul := 5; f_pcuvty_set_allowed_cs_mcs(); f_pcuvty_set_link_quality_ranges(); /* Send PACKET RESOURCE REQUEST to upgrade to EGPRS */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_egprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); ms.lqual_cb := 40*10; /* 40 dB */ f_ms_tx_ul_data_block_multi(ms, 16); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, unused_fn); last_ch_coding := dl_block.ctrl.payload.u.ul_ack_nack.egprs.ch_coding_cmd; if (last_ch_coding != CH_CODING_MCS5) { setverdict(fail, "Channel Coding does not match our expectations (MCS-5): ", last_ch_coding); f_shutdown(__BFILE__, __LINE__); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test the initial DL CS set by VTY works fine */ testcase TC_mcs_initial_dl() runs on RAW_PCU_Test_CT { var octetstring data := f_rnd_octstring(10); var CodingScheme exp_dl_cs_mcs; var RlcmacDlBlock dl_block; var uint32_t poll_fn; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Set initial allowed DL MCS to 3 */ g_mcs_initial_dl := 3; exp_dl_cs_mcs := MCS_3; /* Set maximum allowed DL MCS to 4 */ g_mcs_max_dl := 4; f_pcuvty_set_allowed_cs_mcs(); f_pcuvty_set_link_quality_ranges(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, bssgp_ms_racap_egprs_def, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); f_rx_rlcmac_dl_block_exp_data(dl_block, poll_fn, data, 0, exp_dl_cs_mcs); /* ACK the DL block */ f_dltbf_ack_block(ms.dl_tbf, dl_block, '1'B); f_ms_tx_ul_block(ms, f_dltbf_ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf, ischosen(dl_block.data_egprs)), f_dl_block_ack_fn(dl_block, poll_fn)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify DL MCS above "mcs max" set by VTY is never used */ testcase TC_mcs_max_dl() runs on RAW_PCU_Test_CT { /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Set maximum allowed DL CS to 3 */ g_mcs_initial_dl := 1; g_mcs_max_dl := 3; f_pcuvty_set_allowed_cs_mcs(); f_pcuvty_set_link_quality_ranges(); f_dl_data_exp_cs(f_rlcmac_block_int2cs_mcs(g_mcs_max_dl, true), bssgp_ms_racap_egprs_def); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify PCU drops TBF after some time of inactivity. */ testcase TC_t3141() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var template (value) TsTrxBtsNum nr; var BTS_PDTCH_Block data_msg; var GprsMS ms; var uint3_t rx_usf; timer T_3141 := 1.0; var boolean ul_tbf_usf_req := false; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Only use 1 PDCH to simplify test: */ f_PCUIF_PDCHMask_set(info_ind, '00000001'B, 0); f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (1 .. 7)); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); f_vty_config2(PCUVTY, {"pcu"}, "timer T3141 1"); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish a one-phase access Uplink TBF */ f_ms_establish_ul_tbf(ms); T_3141.start; /* Now we wait for PCU to transmit our USF */ nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); alt { [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), ?)) -> value data_msg { if (ms.ul_tbf.usf[valueof(nr.ts_nr)] == USF_UNUSED) { setverdict(fail, "Unexpected ts_nr ", valueof(nr.ts_nr), " without USF allocated"); f_shutdown(__BFILE__, __LINE__); } rx_usf := f_rlcmac_dl_block_get_usf(data_msg.dl_block); if (rx_usf == ms.ul_tbf.usf[valueof(nr.ts_nr)]) { /* PCU requests our USF, transmit WITHOUT tlli to avoid contention resolution success */ ul_tbf_usf_req := true; f_ms_tx_ul_data_block(ms, f_rnd_octstring(10), cv := 15, with_tlli := false, fn := f_next_pdch_block(data_msg.raw.fn)) } else if (rx_usf == USF_UNUSED) { if (data_msg.raw.fn >= ms.ul_tbf.start_time_fn) { if (ul_tbf_usf_req) { /* TBF was dropped by T3141, success */ setverdict(pass); break; } else { log("PCU never requested USF, unexpected"); f_shutdown(__BFILE__, __LINE__); } } /* else: Keep waiting for TBF to be active by network */ } else { log("PCU requests ", rx_usf, ", we have ", ms.ul_tbf.usf[valueof(nr.ts_nr)]); f_shutdown(__BFILE__, __LINE__); } /* Make sure we don't receive a Ul ACK/NACK with TLLI set: */ if (match(data_msg.dl_block, tr_RLCMAC_UL_ACK_NACK_GPRS(ms.ul_tbf.tfi, tr_UlAckNackGprs(tlli := ?, acknack_desc := ?, rel99 := *)))) { log("Received UL ACK/NACK with TLLI set"); f_shutdown(__BFILE__, __LINE__); } nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); repeat; } [ul_tbf_usf_req] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), omit)) { /* TBF was dropped by T3141, and PCU answered with an IDLE block to our last RTS.req because there's no longer any MS listening on the TS. */ setverdict(pass); break; } [] T_3141.timeout { log("T_3141 expired but TBF is still active, unexpected"); f_shutdown(__BFILE__, __LINE__); } [] BTS.receive { /* We should never receive non-dummy messages, aka UL ACK/NACK, * because we never sent the TLLI to the PCU */ setverdict(fail, "Unexpected BTS message"); f_shutdown(__BFILE__, __LINE__); } } f_shutdown(__BFILE__, __LINE__, final := true); } /* Validate what happens when RACH to get UL TBF and then PCU receives no UL * data. It should end up in N3101 reaching N3101_MAX and finally triggering * T3169. See OS#5033 */ testcase TC_n3101_max_t3169() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var template (value) TsTrxBtsNum nr; var BTS_PDTCH_Block data_msg; var GprsMS ms; var uint3_t rx_usf; const integer N3101_MAX := 9; /* N3101 shall be greater than 8 */ var integer n3101 := 0; timer T_3169 := 1.0; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); info_ind.n3101 := N3101_MAX; info_ind.t3169 := 1; f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish UL TBF */ f_ms_establish_ul_tbf(ms); /* Now we wait for PCU to transmit our USF */ nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); alt { [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), ?)) -> value data_msg { if (ms.ul_tbf.usf[valueof(nr.ts_nr)] == USF_UNUSED) { setverdict(fail, "Unexpected ts_nr ", valueof(nr.ts_nr), " without USF allocated"); f_shutdown(__BFILE__, __LINE__); } rx_usf := f_rlcmac_dl_block_get_usf(data_msg.dl_block); if (rx_usf == ms.ul_tbf.usf[valueof(nr.ts_nr)]) { log("PCU requests our USF ", rx_usf, ", n3101=", n3101); n3101 := n3101 + 1; if (n3101 > N3101_MAX + 1) { //+1: DL<->UL FN offset setverdict(fail, "Reached ", n3101, " > ", N3101_MAX + 1, " (N3101_MAX+1) and PCU still sends us USFs"); f_shutdown(__BFILE__, __LINE__); } } else if (rx_usf == USF_UNUSED and n3101 == N3101_MAX + 1) { /* If we already received USFs for us and we don't receive them anymore, that means the TBF entered T3169 */ log("PCU stopped requesting USF ", ms.ul_tbf.usf[valueof(nr.ts_nr)]); if (not T_3169.running) { log("T3169 started"); T_3169.start; } } else if(rx_usf == USF_UNUSED and n3101 > 0) { setverdict(fail, "PCU stopped requesting USFs too early: ", n3101, " < ", N3101_MAX, " (N3101_MAX)"); f_shutdown(__BFILE__, __LINE__); } else { log("PCU requests ", rx_usf, ", we have ", ms.ul_tbf.usf[valueof(nr.ts_nr)]); } nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); repeat; } /* We may already receive empty (idle) blocks before our own TTCN3 timer * triggers due to the TBF being released. Keep going until our T_3169 triggers. */ [n3101 == N3101_MAX + 1] as_pcuif_rx_ignore_empty(nr); [] T_3169.timeout { log("T_3169 expired"); /* Done in alt */ } [] BTS.receive { setverdict(fail, "Unexpected BTS message"); f_shutdown(__BFILE__, __LINE__); } } /* Now that T3169 has expired, establishing a Ul TBF should provide same /* USFs as per previous TBF since they were freed at expiration time: */ var uint3_t old_usf[8] := ms.ul_tbf.usf; var uint5_t old_tfi := ms.ul_tbf.tfi; f_ms_establish_ul_tbf(ms); if (old_tfi != ms.ul_tbf.tfi) { setverdict(fail, "Unexpected TFI change: ", ms.ul_tbf.tfi, " vs exp ", old_tfi); f_shutdown(__BFILE__, __LINE__); } for (var integer i := 0; i < 8; i := i +1) { if (ms.ul_tbf.usf[i] != old_usf[i]) { setverdict(fail, "Unexpected USF change: ", ms.ul_tbf.usf[i], " vs exp ", old_usf[i]); f_shutdown(__BFILE__, __LINE__); } } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify after N3103_MAX is reached, T3169 is started and upon timeout TBF is freed and no longer available. Trigger it by sending a few UL blocks CTRL ACKING the final UL ACK sent at us. */ testcase TC_n3103_max_t3169() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var BTS_PDTCH_Block data_msg; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var template (value) TsTrxBtsNum nr; var template RlcmacDlBlock exp_ul_ack; var template UlAckNackGprs exp_ul_ack_sub; var GprsMS ms; const integer N3103_MAX := 2; /* N3103 is usually somewhere 2-5 */ var integer N3103 := 0; timer T_3169 := 1.0; /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); info_ind.n3103 := N3103_MAX; info_ind.t3169 := 1; f_init_raw(testcasename(), info_ind); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); f_ms_tx_ul_data_block_multi(ms, 5, with_tlli := true); exp_ul_ack_sub := tr_UlAckNackGprs(*, tr_AckNackDescription('1'B), *); exp_ul_ack := tr_RLCMAC_UL_ACK_NACK_GPRS(ms.ul_tbf.tfi, exp_ul_ack_sub); nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); alt { [N3103 < N3103_MAX] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), exp_ul_ack)) -> value data_msg { if (not f_dl_block_rrbp_valid(data_msg.dl_block)) { setverdict(fail, "Unexpected DL BLOCK has no RRBP: ", data_msg.dl_block); f_shutdown(__BFILE__, __LINE__); } nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); N3103 := N3103 + 1; if (N3103 == N3103_MAX) { /* At this point in time (N3103_MAX reached), PCU is * moving the TBF to RELEASE state so no data/ctrl for * it is tx'ed, hence the dummy blocks: */ T_3169.start; } repeat; } [N3103 >= N3103_MAX] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), exp_ul_ack)) -> value data_msg { setverdict(fail, "Unexpected UL ACK/NACK after reaching N3103_MAX"); f_shutdown(__BFILE__, __LINE__); } [] as_ms_rx_ignore_dummy(ms, nr); [] as_pcuif_rx_ignore_empty(nr); [T_3169.running] T_3169.timeout { log("T_3169 timeout"); /* Done in alt, wait for pending RTS initiated previously in * above case before continuing (expect /* Dummy block): */ BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_DL_DUMMY_CTRL)); } [] BTS.receive { setverdict(fail, "Unexpected BTS message"); f_shutdown(__BFILE__, __LINE__); } } /* Now that T3169 has expired, establishing a Ul TBF should provide same * USFs as per previous TBF since they were freed at expiration time: */ var uint3_t old_usf[8] := ms.ul_tbf.usf; var uint5_t old_tfi := ms.ul_tbf.tfi; f_ms_establish_ul_tbf(ms); if (old_tfi != ms.ul_tbf.tfi) { setverdict(fail, "Unexpected TFI change: ", ms.ul_tbf.tfi, " vs exp ", old_tfi); f_shutdown(__BFILE__, __LINE__); } for (var integer i := 0; i < 8; i := i +1) { if (ms.ul_tbf.usf[i] != old_usf[i]) { setverdict(fail, "Unexpected USF change: ", ms.ul_tbf.usf[i], " vs exp ", old_usf[i]); f_shutdown(__BFILE__, __LINE__); } } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify that a Downlink TBF is kept available until T3191 fires, at which * point the TBF is no longer available. In order to get to start of T3191, we * have to wait for x2031 since that marks the IDLE TBF time, that is, the delay * until TBF release procedure starts after draining DL queue. */ testcase TC_x2031_t3191() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var RlcmacDlBlock dl_block; var octetstring data1 := f_rnd_octstring(200); var octetstring data2 := f_rnd_octstring(10); var uint32_t dl_fn; var template (value) TsTrxBtsNum nr; var BTS_PDTCH_Block data_msg; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Set timer to 1 sec (default 5) to speedup test: */ info_ind.t3191 := 1; f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data1, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); while (true) { f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, ?, ?); /* Keep Ack/Nack description updated (except for last BSN) */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block); if (f_dl_block_rrbp_valid(dl_block)) { f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, dl_fn)); break; } } /* Now we wait for IDLE TBF timer (X2031) to time out and receive a FINAL ACK */ nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); alt { [] as_ms_rx_ignore_dummy(ms, nr); [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), ?)) -> value data_msg { if (data_msg.dl_block.data.mac_hdr.hdr_ext.fbi) { log("Received FINAL_ACK"); ms.dl_tbf.acknack_desc.final_ack := '1'B; break; } if (f_dl_block_rrbp_valid(data_msg.dl_block)) { f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, data_msg.dl_block); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, data_msg.raw.fn)); } nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); repeat; } [] BTS.receive { setverdict(fail, "Unexpected BTS message"); f_shutdown(__BFILE__, __LINE__); } } /* Avoid ACKing the last RLC data block on purpose here, wait for t3191 to time out. We simply sleep instead of requesting blocks because otherwise retransmissions would keep restarting the timer. */ f_sleep(int2float(info_ind.t3191)); /* The TBF should be freed now, so new data should trigger an Assignment: */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data2, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); /* Now that we confirmed the new assignment in the dl-tbf, lets receive the data and ack it */ f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data2, 0); f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block, '1'B); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, dl_fn)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Same as TC_zero_x2031_t3191, but this time without x2031 (immediate FINAL_ACK). */ testcase TC_zero_x2031_t3191() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var RlcmacDlBlock dl_block; var octetstring data1 := f_rnd_octstring(1400); var octetstring data2 := f_rnd_octstring(10); var uint32_t dl_fn; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Set timer to 1 sec (default 5) to speedup test: */ info_ind.t3191 := 1; f_init_raw(testcasename(), info_ind); f_vty_config2(PCUVTY, {"pcu"}, "timer X2031 0"); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data1, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); /* Send enough DL data to at least be able to DL ACK once (excl the * FINAL_ACK one), so that PCU sees we are listening in PDCH and avoids * other code paths like trying to Imm Assign on CCCH again, etc.. */ while (true) { f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, ?, ?); if (dl_block.data.mac_hdr.hdr_ext.fbi) { log("Received FINAL_ACK"); ms.dl_tbf.acknack_desc.final_ack := '1'B; break; } /* Keep Ack/Nack description updated (except for last BSN) */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block); if (f_dl_block_rrbp_valid(dl_block)) { f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, dl_fn)); } } /* Avoid ACKing the last RLC data block on purpose here, wait for t3191 to time out. We simply sleep instead of requesting blocks because otherwise retransmissions would keep restarting the timer. */ f_sleep(int2float(info_ind.t3191)); /* The TBF should be freed now, so new data should trigger an Assignment: */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data2, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); /* Now that we confirmed the new assignment in the dl-tbf, lets receive the data and ack it */ f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data2, 0); f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block, '1'B); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, dl_fn)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify that a Downlink TBF can be assigned using PACCH shortly after the * release of prev DL TBF due to MS staying in PDCH for a while (T3192, in PCU * T3193) after DL TBF release */ testcase TC_t3193() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var boolean ok; var uint32_t sched_fn; var uint32_t dl_fn; var GprsMS ms; var AckNackDescription ack_nack_desc := valueof(t_AckNackDescription_init); /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Disable "idle DL TBF alive" timer, to make the test easier and avoid * having to keep receiving dummy LLC blocks for a while until the last * block with FBI=1 is set. This way the first and only DL block is already * the FBI one. */ f_vty_config2(PCUVTY, {"pcu"}, "timer X2031 0"); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0); if (dl_block.data.mac_hdr.hdr_ext.fbi == false) { setverdict(fail, "Expected DL data block with FBI=1 but got FBI=0"); f_shutdown(__BFILE__, __LINE__); } /* ACK the DL block */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block, '1'B); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, dl_fn)); /* Now that final DL block is ACKED and TBF is released, T3193 in PCU (T3192 in MS) was started and until it fires the MS will be available on PDCH in case new data arrives from SGSN. Let's verify it: */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data)); f_ms_rx_pkt_ass_pacch(ms, sched_fn, tr_RLCMAC_DL_PACKET_ASS); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* Now that we confirmed the new assignment in the dl-tbf, lets receive the data and ack it */ f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0); f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block, '1'B); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, dl_fn)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify after N3105_MAX is reached, T3195 is started and upon timeout TBF is freed and no longer available. Trigger it by sending DL blocks and never DL ACKing the data (which are requested through RRBP) */ testcase TC_n3105_max_t3195() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var RlcmacDlBlock dl_block; var octetstring data1 := f_rnd_octstring(1000); var octetstring data2 := f_rnd_octstring(10); var uint32_t dl_fn; var template (value) TsTrxBtsNum nr; var BTS_PDTCH_Block data_msg; var GprsMS ms; const integer N3105_MAX := 2; var integer N3105 := 0; timer T_3195 := 1.0; var integer num_poll_recv := 0; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Speedup test: */ info_ind.n3105 := N3105_MAX; info_ind.t3195 := 1; f_init_raw(testcasename(), info_ind); /* Disable "MS delay release" timer, to avoid old DL data kept in cached * MS and retransmitted after the TBF is released and later on created * (because the MS is reused) */ f_vty_config2(PCUVTY, {"pcu"}, "timer X2030 0"); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data1, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); /* Now we go on receiving DL data and not answering RRBP: */ nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); alt { [not T_3195.running] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_DATA)) -> value data_msg { if (f_dl_block_rrbp_valid(data_msg.dl_block)) { if (num_poll_recv == 0) { /* ACK first one so PCU detects we are there and doesn't retransmit Imm Ass */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, data_msg.dl_block); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(data_msg.dl_block, data_msg.raw.fn)); } else { log("Ignoring RRBP ", num_poll_recv); N3105 := N3105 + 1; } num_poll_recv := num_poll_recv + 1; } nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); repeat; } /* At this point in time (N3105_MAX reached), PCU already moved TBF to * RELEASE state so no data for it is tx'ed, hence the dummy/idle blocks: */ [N3105 == N3105_MAX] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_DL_DUMMY_CTRL)) -> value data_msg { if (not T_3195.running) { T_3195.start; /* We even send some new data, nothing should be sent to MS */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data1)); } nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); repeat; } /* We may already receive idle blocks before our own TTCN3 timer * triggers due to the TBF being released. Keep going until our T_3195 triggers. */ [N3105 == N3105_MAX] as_pcuif_rx_ignore_empty(nr); [T_3195.running] T_3195.timeout { log("T_3195 timeout"); /* Done in alt, wait for pending RTS initiated previously in * above case before continuing (expect empty block): */ alt { [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), omit)); /* DONE, continue after altstep. */ [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_DL_DUMMY_CTRL)) { setverdict(fail, "Rx unexpected DUMMY message, expected empty data block"); f_shutdown(__BFILE__, __LINE__); } } } [] BTS.receive { setverdict(fail, "Unexpected BTS message"); f_shutdown(__BFILE__, __LINE__); } } /* after T_3195 timeout, TBF is released */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data2, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data2, 0); /* ACK the DL block */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block, '1'B); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, dl_fn)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify configured T3172 is properly transmitted as WAIT_INDICATION in Pkt Access Reject in PACCH. */ function f_TC_t3172(integer t3172_ms, BIT1 wait_ind_size) runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var template IARRestOctets rest; var BIT11 ra11; var GprsMS ms; var octetstring data := f_rnd_octstring(10); var RlcmacDlBlock dl_block; var template RlcmacDlBlock rej_tmpl; var uint32_t dl_fn; var uint32_t sched_fn; var uint8_t wait_ind_val; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ info_ind := valueof(ts_PCUIF_INFO_default); /* Only the first TRX is enabled. */ f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (1 .. 7)); f_PCUIF_PDCHMask_set(info_ind, '00000001'B, 0); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); f_pcuvty_set_timer(3172, t3172_ms); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); var EGPRSPktChRequest req := { one_phase := { tag := '0'B, multislot_class := '10101'B, priority := '01'B, random_bits := '101'B } }; /* We send 7 requests, the IUT gives us all available USFs (0..6) */ for (var integer i := 0; i < 7; i := i + 1) { req.one_phase.random_bits := int2bit(f_rnd_int(8), 3); f_TC_egprs_pkt_chan_req(req, tr_IMM_TBF_ASS); } /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0); /* ACK the DL block */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block, '1'B); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc, false, ts_ChannelReqDescription()), f_dl_block_ack_fn(dl_block, dl_fn)); /* Since all USF are taken, we should receive a Reject: */ if (wait_ind_size == '0'B) { wait_ind_val := t3172_ms / 1000; } else { wait_ind_val := t3172_ms / 20; } rej_tmpl := tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_ACC_REJ( tr_PacketAccessRejectStruct_TLLI(ms.tlli, wait_ind_val, wait_ind_size))); template (value) TsTrxBtsNum nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); alt { [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), rej_tmpl)); [] BTS.receive { setverdict(fail, "Unexpected BTS message"); f_shutdown(__BFILE__, __LINE__); } } f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_t3172_wait_ind_size0() runs on RAW_PCU_Test_CT { /* size=0 means value is provided in seconds. Due to value being 8 * bit, in the 20ms step case (size=1) the maximum value possible is 20 * 255 * = 5100. Hence, values above it should use size=0 to be able to * provide values in range. Let's use 6 seconds, 6000ms */ f_TC_t3172(6000, '0'B); } testcase TC_t3172_wait_ind_size1() runs on RAW_PCU_Test_CT { f_TC_t3172(3000, '1'B); } /* Scenario: MS has an ongoing UL TBF, new DL data arrives at the PCU which then * attempts PKT DL Ass to be able to send data to the MS. The PKT CTRL ACK * confirming the PKt DL Ass never get to the PCU. * The Assignment should time out at some point (X2001). */ testcase TC_x2001_pacch_pkt_dl_ass_unanswered_timeout() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); var RlcmacDlBlock dl_block; var octetstring payload; var template (value) LlcBlockHdr blk_hdr; var template (value) LlcBlocks blocks; var uint32_t sched_fn; var uint32_t dl_fn; var template RlcmacDlBlock acknack_tmpl; var GprsMS ms; var octetstring data := f_rnd_octstring(10); var BTS_PDTCH_Block data_msg; var uint3_t rx_usf; var uint32_t dl_ack_nack_poll_fn; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Only 1 TRX with 8 PDCH */ f_PCUIF_PDCHMask_set(info_ind, '11111111'B, 0); f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (1 .. 7)); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF. 1 TS is assigned over AGCH. */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ dl_fn := f_ms_wait_usf(ms, nr := f_ms_tx_TsTrxBtsNum(ms)); sched_fn := f_next_pdch_block(dl_fn); /* Send one UL block (with TLLI since we are in One-Phase Access * contention resolution) and make sure it is ACKED fine. */ payload := f_rnd_octstring(16); /* 16 bytes fills the llc block (because TLLI takes 4 bytes) */ blk_hdr := t_RLCMAC_LLCBLOCK_HDR(length_ind := lengthof(payload), more := false, e := true); blocks := { t_RLCMAC_LLCBLOCK(payload, blk_hdr) }; /* Set CV = 15 to signal there's still more than BS_CV_MAX blocks to be sent */ f_ms_tx_ul_data_blocks_gprs(ms, blocks, cv := 15, with_tlli := true, fn := sched_fn, nr := f_ms_tx_TsTrxBtsNum(ms)); /* UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); acknack_tmpl := tr_RLCMAC_UL_ACK_NACK_GPRS(ms.ul_tbf.tfi, tr_UlAckNackGprs(ms.tlli, tr_AckNackDescription(final_ack := '0'B))) f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn, acknack_tmpl, nr := f_ms_tx_TsTrxBtsNum(ms)); timer Tx2001 := X2001 + 0.5; /* 0.5 extra offset: */ var integer pkt_dl_ass_count := 1; /* SGSN sends DL data, start X2001 on tcn3 side when we receive the 1st one: */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, racap := omit)); dl_block := f_ms_rx_pkt_ass_pacch(ms, sched_fn, tr_RLCMAC_DL_PACKET_ASS, nr := f_ms_tx_TsTrxBtsNum(ms)); Tx2001.start; /* Count Pkt DL ass during X2001 timespan, make sure we receive several retransmits. */ while (true) { var uint32_t poll_fn; var template (value) TsTrxBtsNum nr := f_ms_tx_TsTrxBtsNum(ms); BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); alt { [] as_ms_rx_pkt_ass_pacch(ms, poll_fn, tr_RLCMAC_DL_PACKET_ASS, nr, dl_block) { pkt_dl_ass_count := pkt_dl_ass_count + 1; log("Received ", pkt_dl_ass_count , " Pkt Dl Ass"); rx_usf := f_rlcmac_dl_block_get_usf(data_msg.dl_block); if (rx_usf == ms.ul_tbf.usf[valueof(nr.ts_nr)]) { /* Transmit UL data block to keep UL TBF ongoing */ f_ms_tx_ul_data_blocks_gprs(ms, blocks, cv := 15, with_tlli := true, nr := nr); } }; [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_DL_DUMMY_CTRL())) -> value data_msg { rx_usf := f_rlcmac_dl_block_get_usf(data_msg.dl_block); if (rx_usf == ms.ul_tbf.usf[valueof(nr.ts_nr)]) { /* Transmit UL data block to keep UL TBF ongoing */ f_ms_tx_ul_data_blocks_gprs(ms, blocks, cv := 15, with_tlli := true, nr := nr); } } [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_UL_ACK_NACK_GPRS(ul_tfi := ?))) -> value data_msg { rx_usf := f_rlcmac_dl_block_get_usf(data_msg.dl_block); if (rx_usf == ms.ul_tbf.usf[valueof(nr.ts_nr)]) { /* Transmit UL data block to keep UL TBF ongoing */ f_ms_tx_ul_data_blocks_gprs(ms, blocks, cv := 15, with_tlli := true, nr := nr); } dl_ack_nack_poll_fn := f_rrbp_ack_fn(data_msg.raw.fn, data_msg.dl_block.ctrl.mac_hdr.rrbp); /* DL ACK/NACK above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), dl_ack_nack_poll_fn); } [] Tx2001.timeout { log("Tx2001 timeout!"); /* receive last block we requested: */ BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), *)); } } if (not Tx2001.running) { log("Tx2001 stopped") if (pkt_dl_ass_count < 10) { setverdict(fail, "Expected at least 10 Pkt Dl Ass packets, got ", pkt_dl_ass_count); f_shutdown(__BFILE__, __LINE__); } break; /* done */ } } /* Transmit UL data block to keep UL TBF ongoing */ f_ms_tx_ul_data_blocks_gprs(ms, blocks, cv := 15, with_tlli := true, nr := f_ms_tx_TsTrxBtsNum(ms)); /* Now, after X2001, make sure we don't keep receiving Pkt Dl Ass: */ timer Tafter := 1.0; Tafter.start; while (true) { var uint32_t poll_fn; var template RlcmacDlBlock t_pkt_ass := ?; var template (value) TsTrxBtsNum nr := f_ms_tx_TsTrxBtsNum(ms); BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); alt { [] as_ms_rx_pkt_ass_pacch(ms, poll_fn, tr_RLCMAC_DL_PACKET_ASS, nr, dl_block) { setverdict(fail, "Unexpected Pkt Dl Ass after X2001 timeout"); f_shutdown(__BFILE__, __LINE__); }; [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_DL_DUMMY_CTRL())) -> value data_msg { rx_usf := f_rlcmac_dl_block_get_usf(data_msg.dl_block); if (rx_usf == ms.ul_tbf.usf[valueof(nr.ts_nr)]) { /* Transmit UL data block to keep UL TBF ongoing */ f_ms_tx_ul_data_blocks_gprs(ms, blocks, cv := 15, with_tlli := true, nr := nr); } } [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_UL_ACK_NACK_GPRS(ul_tfi := ?))) -> value data_msg { rx_usf := f_rlcmac_dl_block_get_usf(data_msg.dl_block); if (rx_usf == ms.ul_tbf.usf[valueof(nr.ts_nr)]) { /* Transmit UL data block to keep UL TBF ongoing */ f_ms_tx_ul_data_blocks_gprs(ms, blocks, cv := 15, with_tlli := true, nr := nr); } dl_ack_nack_poll_fn := f_rrbp_ack_fn(data_msg.raw.fn, data_msg.dl_block.ctrl.mac_hdr.rrbp); /* DL ACK/NACK above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), dl_ack_nack_poll_fn); } [] Tafter.timeout { log("Tafter timeout!"); /* receive last block we requested: */ BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), *)); } } if (not Tafter.running) { log("Tafter stopped") break; /* done */ } } /* Transmit UL data block to keep UL TBF ongoing */ f_ms_tx_ul_data_blocks_gprs(ms, blocks, cv := 15, with_tlli := true, nr := f_ms_tx_TsTrxBtsNum(ms)); /* If new DL data arrives now, PCU should attempt assigning the Pkt Dl Ass again: */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, racap := omit)); dl_block := f_ms_rx_pkt_ass_pacch(ms, sched_fn, tr_RLCMAC_DL_PACKET_ASS, nr := f_ms_tx_TsTrxBtsNum(ms)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify PCU handles correctly Countdown Procedure based on BS_CV_MAX */ testcase TC_countdown_procedure() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var uint32_t sched_fn; var octetstring total_payload; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine. */ total_payload := f_rnd_octstring(f_ultbf_payload_fill_length(ms.ul_tbf, true)); /* Set CV = 15 to signal there's still more than BS_CV_MAX blocks to be sent */ f_ms_tx_ul_data_block(ms, total_payload, cv := 15, with_tlli := true, fn := ms.ul_tbf.start_time_fn) f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* Send enough blocks to test whole procedure: Until Nth block (N=BS_CV_MAX), CV=15 is sent, and then the decreasing countdown value is sent. */ total_payload := total_payload & f_ms_tx_ul_data_block_multi(ms, 20); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* receive one message on BSSGP with all aggregated data in payload: */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id, total_payload)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify PCU handles correctly CS1..4 with all possible LLC payload sizes fitting alone in one RLC block */ testcase TC_ul_all_sizes() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var uint32_t dl_fn, sched_fn; var octetstring payload; var template (value) RlcmacUlBlock ul_data; var template (value) LlcBlockHdr blk_hdr; var template (value) LlcBlocks blocks; var integer blk_len; var CodingScheme tx_cs; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine. */ payload := f_rnd_octstring(16); /* 16 bytes fills the llc block (because TLLI takes 4 bytes) */ blk_hdr := t_RLCMAC_LLCBLOCK_HDR(length_ind := lengthof(payload), more := false, e := true); blocks := { t_RLCMAC_LLCBLOCK(payload, blk_hdr) }; /* Set CV = 15 to signal there's still more than BS_CV_MAX blocks to be sent */ ul_data := t_RLCMAC_UL_DATA_TLLI(cs := ms.ul_tbf.tx_cs_mcs, tfi := ms.ul_tbf.tfi, cv := 15, bsn := ms.ul_tbf.bsn, blocks := blocks, tlli := ms.tlli); f_ultbf_inc_bsn(ms.ul_tbf); f_ms_tx_ul_block(ms, ul_data, ms.ul_tbf.start_time_fn); /* ACK and check it was received fine */ f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* receive one message on BSSGP with all aggregated data in payload: */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id, payload)); /* Test sending LLC PDUS of incrementing size */ var integer max_size := 49; for (var integer i := 1; i <= max_size; i := i + 1) { var integer cv; /* Enqueue DATA.ind (both TDMA frame and block numbers to be patched) */ log("Sending DATA.ind with LLC payload size ", i); if (i < max_size - g_bs_cv_max) { cv := 15; } else { cv := max_size - i; } blk_len := 3 + 1 + i; /* 3 Header bytes + LI byte + payload length */ tx_cs := f_rlcmac_block_len_required_cs_mcs(blk_len, false); payload := f_rnd_octstring(i); blk_hdr := t_RLCMAC_LLCBLOCK_HDR(length_ind := lengthof(payload), more := false, e := true); blocks := { t_RLCMAC_LLCBLOCK(payload, blk_hdr) }; /* Set CV = 15 to signal there's still more than BS_CV_MAX blocks to be sent */ ul_data := t_RLCMAC_UL_DATA(cs := tx_cs, tfi := ms.ul_tbf.tfi, cv := cv, bsn := ms.ul_tbf.bsn, blocks := blocks); f_ultbf_inc_bsn(ms.ul_tbf); f_ms_tx_ul_block(ms, ul_data); /* receive one message on BSSGP with all aggregated data in payload: */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id, payload)); /* we will receive UL ACK/NACK from time to time, handle it. */ f_rx_rlcmac_dl_block(dl_block, dl_fn); if (match(dl_block, tr_RLCMAC_DL_DUMMY_CTRL())) { continue; } if (not match(dl_block, tr_RLCMAC_UL_ACK_NACK_GPRS(ul_tfi := ?)) and not match(dl_block, tr_RLCMAC_UL_ACK_NACK_EGPRS(ul_tfi := ?))) { setverdict(fail, "Failed to match Packet Uplink ACK / NACK:", dl_block); f_shutdown(__BFILE__, __LINE__); } log("Rx Packet Uplink ACK / NACK"); sched_fn := f_rrbp_ack_fn(dl_fn, dl_block.ctrl.mac_hdr.rrbp); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } function f_TC_ul_data_toolong_fills_padding_cs(inout GprsMS ms, CodingScheme cs, integer cv) runs on RAW_PCU_Test_CT { var octetstring payload; var template (value) RlcmacUlBlock ul_data; var template (value) LlcBlockHdr blk_hdr; var template (value) LlcBlocks blocks; var integer block_len, max_valid_data_len; timer T; block_len := f_rlcmac_cs_mcs2block_len(cs); /* We need to send with TLLI since we are in One-Phase Access Contenion * resolution), so that's -4 bytes of data, -3 for headers, -1 for LI * indicator, -1 for spare bits octet at the end */ max_valid_data_len := block_len - 4 - 3 - 1 - 1; payload := f_rnd_octstring(max_valid_data_len + 1); /* +1 to write LLC data on last padding octet */ blk_hdr := t_RLCMAC_LLCBLOCK_HDR(length_ind := lengthof(payload), more := false, e := true); blocks := { t_RLCMAC_LLCBLOCK(payload, blk_hdr) }; ul_data := t_RLCMAC_UL_DATA_TLLI(cs := cs, tfi := ms.ul_tbf.tfi, cv := cv, bsn := ms.ul_tbf.bsn, blocks := blocks, tlli := ms.tlli); f_ultbf_inc_bsn(ms.ul_tbf); f_ms_tx_data_ind(ms, enc_RlcmacUlBlock(valueof(ul_data))); T.start(0.5); alt { [] BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id, ?)) { setverdict(fail, "LLC PDU in Malformed RLC block was forwarded"); f_shutdown(__BFILE__, __LINE__); } [] T.timeout { setverdict(pass); } } } /* Verify PCU finds out incorrectly formated RLC block and discards it. This blocks intentionally contain last byte of data placed in last byte of RLC containing padding/spare bits, which is incorrect. Spare bits exist and are described for CS2..4 in 3GPP TS 44.060 Table 10.2.1: "RLC data block size, discounting padding in octet" */ testcase TC_ul_data_toolong_fills_padding() runs on RAW_PCU_Test_CT { var GprsMS ms; var integer block_len, max_valid_data_len; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); f_TC_ul_data_toolong_fills_padding_cs(ms, CS_2, 2); f_TC_ul_data_toolong_fills_padding_cs(ms, CS_3, 1); f_TC_ul_data_toolong_fills_padding_cs(ms, CS_4, 0); f_shutdown(__BFILE__, __LINE__, final := true); } /* Test scenario where MS wants to send some data on PDCH against SGSN and it is * answered, so TBFs for uplink and later for downlink are created. */ private function f_TC_mo_ping_pong_1phase_access(template (present) CodingScheme exp_cs_mcs := ?) runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var uint32_t sched_fn; var uint32_t dl_fn; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine */ f_ms_tx_ul_data_block_multi(ms, 1, with_tlli := true, fn := ms.ul_tbf.start_time_fn); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); /* Now SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0, exp_cs_mcs); /* ACK the DL block */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block, '1'B); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, dl_fn)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Test scenario where MS wants to send some data on PDCH against SGSN and it is * answered, so TBFs for uplink and later for downlink are created. */ testcase TC_mo_ping_pong() runs on RAW_PCU_Test_CT { var template (present) CodingScheme exp_cs_mcs := cs_gprs_any; f_TC_mo_ping_pong_1phase_access(exp_cs_mcs); } /* Test scenario where MS wants to send some data on PDCH against SGSN and it is * answered, so TBFs for uplink and later for downlink are created. */ private function f_TC_mo_ping_pong_2phase_access(PCUIF_Flags ind_flags, template (value) MSRadioAccessCapabilityV ms_racap, template (present) CodingScheme exp_ul_cs_mcs := ?, template (present) CodingScheme exp_dl_cs_mcs := ?) runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var PollFnCtx pollctx; var uint32_t sched_fn; var uint32_t dl_fn; var uint32_t unused_fn; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(ind_flags)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST to upgrade to EGPRS */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap)); if (not match(ms.ul_tbf.tx_cs_mcs, exp_ul_cs_mcs)) { setverdict(fail, "Wrong CS_MCS ", ms.ul_tbf.tx_cs_mcs, " received vs exp ", exp_ul_cs_mcs); f_shutdown(__BFILE__, __LINE__); } /* Send one UL block (without TLLI since we are in Second-Phase Access) and make sure it is ACKED fine */ f_ms_tx_ul_data_block_multi(ms, 1); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); /* Now SGSN sends some DL data, PCU will page on PACCH */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data)); /* Sleep a bit to make sure PCU received the DL data and hence it will be prioritized by scheduler: */ f_sleep(0.5); f_ms_rx_pkt_ass_pacch(ms, sched_fn, tr_RLCMAC_DL_PACKET_ASS); /* DL Ass sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* PCU acks the UL data after having received CV=0) */ f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, unused_fn); /* After acking the dl assignment, dl tbf goes into FLOW state and PCU will provide DL data when BTS asks for it */ f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0, exp_dl_cs_mcs); /* ACK the DL block */ f_dltbf_ack_block(ms.dl_tbf, dl_block, '1'B); f_ms_tx_ul_block(ms, f_dltbf_ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf, ischosen(dl_block.data_egprs)), f_dl_block_ack_fn(dl_block, dl_fn)); f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_mo_ping_pong_with_ul_racap() runs on RAW_PCU_Test_CT { var template (present) CodingScheme exp_ul_cs_mcs := cs_gprs_any; var template (present) CodingScheme exp_dl_cs_mcs := cs_gprs_any; f_TC_mo_ping_pong_2phase_access(c_PCUIF_Flags_noMCS, ms_racap_gprs_def, exp_ul_cs_mcs, exp_dl_cs_mcs); var StatsDExpects expect := { { name := "TTCN3.bts.0.rach.requests", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.rach.requests.11bit", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.one_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.two_phase", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_UL", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_ul.one_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_ul.two_phase", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_ul.contention_resolution_success", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_DL", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.pkt.ul_assignment", mtype := "c", min := 1, max := 1 } }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_mo_ping_pong_with_ul_racap_egprs_only() runs on RAW_PCU_Test_CT { var template (present) CodingScheme exp_ul_cs_mcs := mcs_egprs_any; var template (present) CodingScheme exp_dl_cs_mcs := mcs_egprs_any; f_TC_mo_ping_pong_2phase_access(c_PCUIF_Flags_default, ms_racap_egprs_def, exp_ul_cs_mcs, exp_dl_cs_mcs); var StatsDExpects expect := { { name := "TTCN3.bts.0.rach.requests", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.rach.requests.11bit", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.one_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.two_phase", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_UL", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_ul.one_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_ul.two_phase", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_ul.contention_resolution_success", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_DL", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.pkt.ul_assignment", mtype := "c", min := 1, max := 1 } }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_force_two_phase_access() runs on RAW_PCU_Test_CT { /* Configure PCU to force two phase access */ g_force_two_phase_access := true; var CodingScheme exp_ul_cs_mcs := f_rlcmac_block_int2cs_mcs(g_mcs_initial_ul, false); var template (present) CodingScheme exp_dl_cs_mcs := cs_gprs_any; f_TC_mo_ping_pong_2phase_access(c_PCUIF_Flags_noMCS, ms_racap_gprs_def, exp_ul_cs_mcs, exp_dl_cs_mcs); var StatsDExpects expect := { { name := "TTCN3.bts.0.rach.requests", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.rach.requests.11bit", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.one_phase", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.rach.requests.two_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_UL", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_ul.one_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_ul.two_phase", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_ul.contention_resolution_success", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_DL", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.pkt.ul_assignment", mtype := "c", min := 1, max := 1 } }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } /* Test scenario where SGSN wants to send some data against MS and it is * answered by the MS on PDCH, so TBFs for downlink and later for uplink are created. */ private function f_TC_mt_ping_pong(template (omit) MSRadioAccessCapabilityV_BSSGP ms_racap := omit, template (present) CodingScheme exp_cs_mcs := ?) runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var uint32_t sched_fn; var uint32_t dl_fn; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, ms_racap, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); /* Skip potential dummy blocks before X2002 triggers at PCU after us: */ dl_fn := f_rx_rlcmac_dl_block_skip_dummy(dl_block, max_dummy := 10); f_rlcmac_dl_block_exp_data(dl_block, data, 0, exp_cs_mcs); /* ACK the DL block, and request UL TBF at the same time */ f_dltbf_ack_block(ms.dl_tbf, dl_block, '1'B); f_ms_tx_ul_block(ms, f_dltbf_ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf, ischosen(dl_block.data_egprs), c_ChReqDesc_default), f_dl_block_ack_fn(dl_block, dl_fn)); /* Expect UL ass */ f_ms_rx_pkt_ass_pacch(ms, sched_fn, tr_RLCMAC_UL_PACKET_ASS); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine */ f_ms_tx_ul_data_block_multi(ms, 1, with_tlli := true); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_mt_ping_pong() runs on RAW_PCU_Test_CT { var template (present) CodingScheme exp_cs_mcs := cs_gprs_any; f_TC_mt_ping_pong(omit, exp_cs_mcs); } /* TC_mt_ping_pong, but DL-UNITDATA contains RA Access capability with (M)CS /* information about the MS */ testcase TC_mt_ping_pong_with_dl_racap() runs on RAW_PCU_Test_CT { var template (present) CodingScheme exp_cs_mcs := cs_gprs_any; f_TC_mt_ping_pong(bssgp_ms_racap_gprs_def, exp_cs_mcs); } /* Verify that if PCU doesn't get one of the intermediate UL data blocks in a UL * TBF, it will request retransmission through UL ACK/NACK (with missing block * in its bitmap) when CV=0 is received (and hence it knows no more data is to * be transferred). */ testcase TC_ul_intermediate_retrans() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var template (value) RlcmacUlBlock ul_data; var uint32_t sched_fn; var octetstring total_payload; var octetstring payload; var octetstring lost_payload; var uint5_t tfi; var GprsMS ms; var uint32_t payload_fill_len; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); tfi := ms.ul_tbf.tfi; /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine. */ payload := f_rnd_octstring(f_ultbf_payload_fill_length(ms.ul_tbf, true)); /* 16 bytes fills the llc block (because TLLI takes 4 bytes) */ f_ms_tx_ul_data_block(ms, payload, cv := 15, with_tlli := true, fn := ms.ul_tbf.start_time_fn); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); total_payload := payload; payload_fill_len := f_ultbf_payload_fill_length(ms.ul_tbf); /* Send 2 packets, skip 1 (inc bsn) and send another one */ payload := f_rnd_octstring(payload_fill_len); f_ms_tx_ul_data_block(ms, payload, cv := 15); total_payload := total_payload & payload; payload := f_rnd_octstring(payload_fill_len); f_ms_tx_ul_data_block(ms, payload, cv := 15); total_payload := total_payload & payload; lost_payload := f_rnd_octstring(payload_fill_len); ms.ul_tbf.bsn := ms.ul_tbf.bsn + 1; /* LOST PAYLOAD bsn=3, will be retransmitted, next bsn is increased +2 */ total_payload := total_payload & lost_payload; payload := f_rnd_octstring(payload_fill_len) f_ms_tx_ul_data_block(ms, payload, cv := 15); total_payload := total_payload & payload; /* Send enough blocks to finish the transmission (since we were sending BSN=15, send BS_CV_MAX packets) */ total_payload := total_payload & f_ms_tx_ul_data_block_multi(ms, g_bs_cv_max); /* On CV=0, we'll receive a UL ACK asking about missing block */ f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* TODO: check ack ack bitmap (URBB) */ ul_data := t_RLCMAC_UL_DATA(cs := ms.ul_tbf.tx_cs_mcs, tfi := tfi, cv := 15, bsn := 3, blocks := {t_RLCMAC_LLCBLOCK(lost_payload)}); f_ms_tx_ul_block(ms, ul_data); /* Now final ack is recieved */ f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* receive one message on BSSGP with all aggregated data in payload: */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id, total_payload)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify that if PCU doesn't get an ACK for first DL block after IMM ASS, it * will retry by retransmitting both the IMM ASS + DL block after poll (ack) * timeout occurs (specified by sent RRBP on DL block). */ testcase TC_imm_ass_dl_block_retrans() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var uint32_t dl_fn; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0); /* Now we don't ack the dl block (emulate MS failed receiveing IMM ASS * or GPRS DL, or DL ACK was lost for some reason). As a result, PCU * should retrigger IMM ASS + GPRS DL procedure after poll timeout. */ f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0); /* ACK the DL block */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block, '1'B); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, dl_fn)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify scheduling of multiple Downlink data blocks during one RRBP. */ testcase TC_dl_flow_more_blocks() runs on RAW_PCU_Test_CT { var AckNackDescription ack_nack_desc := valueof(t_AckNackDescription_init); var octetstring data := f_rnd_octstring(16); var PacketDlAssign dl_tbf_ass; var RlcmacDlBlock dl_block; var uint32_t ack_fn; var uint32_t fn; var GprsMS ms; timer T := 5.0; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); f_statsd_reset(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS */ f_sleep(X2002); /* Skip potential dummy blocks before X2002 triggers at PCU after us: */ fn := f_rx_rlcmac_dl_block_skip_dummy(dl_block, max_dummy := 10); /* Expect the first (GPRS DL) block with bsn=0 and rrbp_valid=1 */ f_rlcmac_dl_block_exp_data(dl_block, data, 0); f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block); /* TDMA frame number on which we are supposed to send the ACK */ ack_fn := f_dl_block_ack_fn(dl_block, fn); /* SGSN sends more blocks during the indicated RRBP */ for (var integer bsn := 1; bsn < 63; bsn := bsn + 1) { data := f_rnd_octstring(16); /* Random LLC data */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data)); f_rx_rlcmac_dl_block_exp_data(dl_block, fn, data, bsn); /* Make sure this block has the same TFI as was assigned * FIXME: this is only valid for GPRS, not EGPRS. */ if (dl_block.data.mac_hdr.hdr_ext.tfi != ms.dl_tbf.tfi) { setverdict(fail, "Rx DL data block with unexpected TFI: ", dl_block.data.mac_hdr.hdr_ext.tfi); f_shutdown(__BFILE__, __LINE__); } /* Keep Ack/Nack description updated */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block); /* Break if this is the end of RRBP */ if (fn == ack_fn) { ms.dl_tbf.acknack_desc.final_ack := '1'B; break; } } /* This is the end of RRBP, send Packet Downlink Ack/Nack */ f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), fn := fn); /* Make sure that the next block (after the Ack) is dummy */ f_rx_rlcmac_dl_block_exp_dummy(dl_block); var StatsDExpects expect := { { name := "TTCN3.bts.0.rach.requests", mtype := "c", min := 0, max := 0}, { name := "TTCN3.bts.0.immediate.assignment_DL", mtype := "c", min := 1, max := 1}, { name := "TTCN3.bts.0.immediate.assignment_UL", mtype := "c", min := 0, max := 0}, { name := "TTCN3.bts.0.tbf.dl.alloc", mtype := "c", min := 1, max := 1}, { name := "TTCN3.bts.0.tbf.ul.alloc", mtype := "c", min := 0, max := 0}, { name := "TTCN3.bts.0.rlc.dl_payload_bytes", mtype := "c", min := 64, max := 64}, { name := "TTCN3.bts.0.rlc.ul_payload_bytes", mtype := "c", min := 0, max := 0} }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify Decoding and segmentation of UL LLC PDUs into RLC data blocks, OS#4559. * Check "GPRS from A-Z" slide "Example of LI-Field and E-Bit" page 186. * Check "3GPP TS 44.060" Annex B. */ testcase TC_ul_flow_multiple_llc_blocks() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring dataA := f_rnd_octstring(20); var octetstring dataB := f_rnd_octstring(13); var octetstring dataC := f_rnd_octstring(3); var octetstring dataD := f_rnd_octstring(12); var uint32_t sched_fn; var GprsMS ms; var template (value) RlcmacUlBlock ul_data; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Summary of what's transmitted: * 1- UL RlcDataBlock(dataA) [BSN=0, CV=3] * 2- UL RlcDataBlock(dataA finished, dataB starts) [BSN=1, CV=2] * 3- UL RlcDataBlock(dataB finished, dataC starts and finishes, dataD starts) [BSN=2, CV=1] * 4- UL RlcDataBlock(dataD finishes) [BSN=3, CV=0] * And on SGSN we receive 4 packets, one for each LlcBlock dataA..D. * We'll also receive some UL ACK/NACK we need to reply with CTRL ACK. */ /* UL RlcDataBlock(dataA) [BSN=0, CV=3] */ ul_data := t_RLCMAC_UL_DATA_TLLI(cs := CS_1, tfi := ms.ul_tbf.tfi, cv := 3, bsn := ms.ul_tbf.bsn, blocks := { t_RLCMAC_LLCBLOCK(substr(dataA, 0, 16)) }, tlli := ms.tlli); /* Indicate no llc header, meaning first LLC block doesn't finish in current * RLCMAC block being sent. */ ul_data.data.mac_hdr.e := true; f_ultbf_inc_bsn(ms.ul_tbf); f_ms_tx_ul_block(ms, ul_data, ms.ul_tbf.start_time_fn); /* UL RlcDataBlock(dataA finished, dataB starts) [BSN=1, CV=2] */ ul_data := t_RLCMAC_UL_DATA_TLLI(cs := CS_1, tfi := ms.ul_tbf.tfi, cv := 2, bsn := ms.ul_tbf.bsn, blocks := { t_RLCMAC_LLCBLOCK(substr(dataA, 16, 4), t_RLCMAC_LLCBLOCK_HDR(length_ind := 4, more := true, e := true)), t_RLCMAC_LLCBLOCK(substr(dataB, 0, 11)) }, tlli := ms.tlli); f_ultbf_inc_bsn(ms.ul_tbf); f_ms_tx_ul_block(ms, ul_data); /* UL block dataA should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id, dataA)); /* UL RlcDataBlock(dataB finished, dataC starts and finishes, dataD starts) [BSN=2, CV=1] */ ul_data := t_RLCMAC_UL_DATA_TLLI(cs := CS_1, tfi := ms.ul_tbf.tfi, cv := 1, bsn := ms.ul_tbf.bsn, blocks := { t_RLCMAC_LLCBLOCK(substr(dataB, 11, 2), t_RLCMAC_LLCBLOCK_HDR(length_ind := 2, more := true, e := false)), t_RLCMAC_LLCBLOCK(substr(dataC, 0, 3), t_RLCMAC_LLCBLOCK_HDR(length_ind := 3, more := true, e := true)), t_RLCMAC_LLCBLOCK(substr(dataD, 0, 9)) }, tlli := ms.tlli); f_ultbf_inc_bsn(ms.ul_tbf); f_ms_tx_ul_block(ms, ul_data); /* UL block dataB and dataC should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id, dataB)); BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id, dataC)); /* UL RlcDataBlock(dataD finishes) [BSN=3, CV=0] */ ul_data := t_RLCMAC_UL_DATA_TLLI( cs := CS_1, tfi := ms.ul_tbf.tfi, cv := 0, bsn := ms.ul_tbf.bsn, blocks := { t_RLCMAC_LLCBLOCK(substr(dataD, 9, 3), t_RLCMAC_LLCBLOCK_HDR(length_ind := 3, more := false, e := true)) }, tlli := ms.tlli); f_ultbf_inc_bsn(ms.ul_tbf); f_ms_tx_ul_block(ms, ul_data); /* UL block dataB and dataD should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id, dataD)); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); f_shutdown(__BFILE__, __LINE__, final := true); } /* Validate an Imm Assignment is retransmitted if first RRBP requesting DL * ACK/NACK is not answered */ testcase TC_dl_no_ack_retrans_imm_ass() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring data1 := f_rnd_octstring(200); var octetstring data2 := f_rnd_octstring(10); var uint32_t dl_fn; var GprsMS ms; var template (value) TsTrxBtsNum nr; var BTS_PDTCH_Block data_msg; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()) /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data1, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); /* Recv DL data until receiving RRBP to DL ACK (because it's last queued DL data) */ while (true) { f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, ?, ?); /* Keep Ack/Nack description updated (except for last BSN) */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block); if (f_dl_block_rrbp_valid(dl_block)) { /* Don't transmit DL ACK here on purpose ignore it */ break; } } /* PCU starts whole process again */ f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); /* Recv DL data until receiving RRBP to DL ACK (because it's last queued /* DL data), after that we receive only DUMMY blocks so we are done */ var boolean data_received := false; nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); alt { [data_received] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_DL_DUMMY_CTRL)) { /* done */ } [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_DATA)) -> value data_msg { data_received := true; f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, data_msg.dl_block); if (data_msg.dl_block.data.mac_hdr.hdr_ext.fbi) { log("Received FINAL_ACK"); ms.dl_tbf.acknack_desc.final_ack := '1'B; } if (f_dl_block_rrbp_valid(data_msg.dl_block)) { f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, data_msg.raw.fn)); } nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); repeat; } [] BTS.receive { setverdict(fail, "Unexpected BTS message"); f_shutdown(__BFILE__, __LINE__); } } f_shutdown(__BFILE__, __LINE__, final := true); } /* OS#5508: Verify scheduling of LLC frames with SAPI=1 (GMM) takes precedence * over SAPI2/7/8 which in turn take prececende over others */ testcase TC_dl_llc_sapi_priority() runs on RAW_PCU_Test_CT { var octetstring data_sapi1 := f_pad_oct('01'O, 19, 'ff'O); var octetstring data_sapi2 := f_pad_oct('02'O, 19, 'ff'O); var octetstring data_sapi7 := f_pad_oct('07'O, 19, 'ff'O); var octetstring data_sapi8 := f_pad_oct('08'O, 19, 'ff'O); var octetstring data_sapi_other := f_pad_oct('03'O, 19, 'ff'O); var RlcmacDlBlock dl_block; var uint32_t dl_fn; var GprsMS ms; var integer state := 1; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Lock to CS1 to keep same DL RLCMAC data block size: */ g_cs_initial_dl := 1; g_mcs_max_dl := 1; f_pcuvty_set_allowed_cs_mcs(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some low prio DL data, PCU will page on CCCH (PCH) */ for (var integer i := 0; i < 10; i := i + 1) { BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data_sapi_other, imsi := ts_BSSGP_IMSI(ms.imsi))); } BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data_sapi2, imsi := ts_BSSGP_IMSI(ms.imsi))); BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data_sapi7, imsi := ts_BSSGP_IMSI(ms.imsi))); BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data_sapi8, imsi := ts_BSSGP_IMSI(ms.imsi))); BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data_sapi1, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS */ f_sleep(X2002); while (state != 0) { var OCT1 rx_sapi; f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, ?, ?); rx_sapi := dl_block.data.blocks[0].payload[0]; select (state) { case(1) { /* We expect the first GMM LLC frame here (SAPI=1, highest prio) */ if (rx_sapi != '01'O) { setverdict(fail, "Wrong prio: Expected LLC SAPI 1 (GMM) but got ", rx_sapi); f_shutdown(__BFILE__, __LINE__); } state := 2; } case(2) { /* We expect the second LLC frame here (SAPI=2, middle prio) */ if (rx_sapi != '02'O) { setverdict(fail, "Wrong prio: Expected LLC SAPI 2 but got ", rx_sapi); f_shutdown(__BFILE__, __LINE__); } state := 7; } case(7) { /* We expect the third LLC frame here (SAPI=7, middle prio) */ if (rx_sapi != '07'O) { setverdict(fail, "Wrong prio: Expected LLC SAPI 7 but got ", rx_sapi); f_shutdown(__BFILE__, __LINE__); } state := 8; } case(8) { /* We expect the fourth LLC frame here (SAPI=8, middle prio) */ if (rx_sapi != '08'O) { setverdict(fail, "Wrong prio: Expected LLC SAPI 8 but got ", rx_sapi); f_shutdown(__BFILE__, __LINE__); } state := 3; } case(3) { /* We expect the other LLC frame here (SAPI=3, lower prio) */ if (rx_sapi != '03'O) { setverdict(fail, "Wrong prio: Expected LLC SAPI 3 but got ", rx_sapi); f_shutdown(__BFILE__, __LINE__); } state := 0; /* Done, break */ } } /* Keep Ack/Nack description updated (except for last BSN) */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block); if (f_dl_block_rrbp_valid(dl_block)) { f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, dl_fn)); } } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify allocation and use of multislot tbf, triggered by MS class provided in SGSN. SYS#5131 */ testcase TC_dl_multislot_tbf_ms_class_from_sgsn() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); var octetstring data := f_rnd_octstring(10); var PacketDlAssign dl_tbf_ass; var RlcmacDlBlock dl_block; var uint32_t poll_fn; var uint32_t dl_fn; var uint32_t sched_fn; var GprsMS ms; timer T := 5.0; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Only 1 TRX with 8 PDCH */ f_PCUIF_PDCHMask_set(info_ind, '11111111'B, 0); f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (1 .. 7)); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF, this way the PCU can send DL Assignment through PDCH (no multiblock assignment possible through PCH) */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ dl_fn := f_ms_wait_usf(ms, nr := f_ms_tx_TsTrxBtsNum(ms)); sched_fn := f_next_pdch_block(dl_fn); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine */ f_ms_tx_ul_data_block(ms, data, with_tlli := true, fn := sched_fn, nr := f_ms_tx_TsTrxBtsNum(ms)); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, poll_fn, nr := f_ms_tx_TsTrxBtsNum(ms)); /* SGSN sends some DL data, PCU will assign DL TBF through PACCH */ var MultislotCap_GPRS_BSSGP mscap_gprs := { gprsmultislotclass := '10010'B, /* MS class 18, supports 8 DL and 8 UL */ gprsextendeddynalloccap := '0'B }; var MSRadioAccessCapabilityV_BSSGP ms_racap := { valueof(ts_RaCapRec_BSSGP('0001'B /* E-GSM */, mscap_gprs, omit)) }; BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, ms_racap)); dl_block := f_ms_rx_pkt_ass_pacch(ms, sched_fn, tr_RLCMAC_DL_PACKET_ASS, nr := f_ms_tx_TsTrxBtsNum(ms)); if (f_dltbf_num_slots(ms.dl_tbf) != 8) { setverdict(fail, "Expected 8 PDCH slots allocated but got ", f_dltbf_num_slots(ms.dl_tbf)); f_shutdown(__BFILE__, __LINE__); } f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn, nr := f_ms_tx_TsTrxBtsNum(ms)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Test DL TBF assignment over PACCH if Multislot class is unknown both at PCU * and SGSN (eg. because MS started 1-phase access and SGSN answered back). * Since the msclass is unknown, it shouldn't assign multiple timeslots since * the MS may not support it. Related OS#6118. */ testcase TC_dl_multislot_tbf_ms_class_unknown() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); var RlcmacDlBlock dl_block; var octetstring payload; var template (value) LlcBlockHdr blk_hdr; var template (value) LlcBlocks blocks; var uint32_t sched_fn; var uint32_t dl_fn; var template RlcmacDlBlock acknack_tmpl; var GprsMS ms; var octetstring data := f_rnd_octstring(10); /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Only 1 TRX with 8 PDCH */ f_PCUIF_PDCHMask_set(info_ind, '11111111'B, 0); f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (1 .. 7)); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF. 1 TS is assigned over AGCH. */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ dl_fn := f_ms_wait_usf(ms, nr := f_ms_tx_TsTrxBtsNum(ms)); sched_fn := f_next_pdch_block(dl_fn); /* Send one UL block (with TLLI since we are in One-Phase Access * contention resolution) and make sure it is ACKED fine. */ payload := f_rnd_octstring(16); /* 16 bytes fills the llc block (because TLLI takes 4 bytes) */ blk_hdr := t_RLCMAC_LLCBLOCK_HDR(length_ind := lengthof(payload), more := false, e := true); blocks := { t_RLCMAC_LLCBLOCK(payload, blk_hdr) }; /* Set CV = 15 to signal there's still more than BS_CV_MAX blocks to be sent */ f_ms_tx_ul_data_blocks_gprs(ms, blocks, cv := 15, with_tlli := true, fn := sched_fn, nr := f_ms_tx_TsTrxBtsNum(ms)); /* UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); acknack_tmpl := tr_RLCMAC_UL_ACK_NACK_GPRS(ms.ul_tbf.tfi, tr_UlAckNackGprs(ms.tlli, tr_AckNackDescription(final_ack := '0'B))) f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn, acknack_tmpl, nr := f_ms_tx_TsTrxBtsNum(ms)); BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, racap := omit)); dl_block := f_ms_rx_pkt_ass_pacch(ms, sched_fn, tr_RLCMAC_DL_PACKET_ASS, nr := f_ms_tx_TsTrxBtsNum(ms)); if (f_dltbf_num_slots(ms.dl_tbf) != 1) { setverdict(fail, "Expected 1 PDCH slots allocated but got ", f_dltbf_num_slots(ms.dl_tbf)); f_shutdown(__BFILE__, __LINE__); } f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_dl_multislot_tbf_ms_class_from_2phase() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var PollFnCtx pollctx; var uint32_t sched_fn; var GprsMS ms; var MultislotCap_GPRS mscap_gprs := { gprsmultislotclass := '10010'B, /* MS class 18, supports 8 DL and 8 UL */ gprsextendeddynalloccap := '0'B }; var MSRadioAccessCapabilityV ms_racap := { valueof(ts_RaCapRec('0001'B /* E-GSM */, mscap_gprs, omit)) }; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Only 1 TRX with 8 PDCH */ f_PCUIF_PDCHMask_set(info_ind, '11111111'B, 0); f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (1 .. 7)); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST to notify the MultiSlot Class */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data)); dl_block := f_ms_rx_pkt_ass_pacch(ms, sched_fn, tr_RLCMAC_DL_PACKET_ASS, nr := f_ms_tx_TsTrxBtsNum(ms)); if (f_dltbf_num_slots(ms.dl_tbf) != 8) { setverdict(fail, "Expected 8 PDCH slot allocated but got ", f_dltbf_num_slots(ms.dl_tbf)); f_shutdown(__BFILE__, __LINE__); } f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn, nr := f_ms_tx_TsTrxBtsNum(ms)); f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_ul_multislot_tbf_ms_class_from_2phase() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var PollFnCtx pollctx; var uint32_t sched_fn; var GprsMS ms; var MultislotCap_GPRS mscap_gprs := { gprsmultislotclass := '10010'B, /* MS class 18, supports 8 DL and 8 UL */ gprsextendeddynalloccap := '0'B }; var MSRadioAccessCapabilityV ms_racap := { valueof(ts_RaCapRec('0001'B /* E-GSM */, mscap_gprs, omit)) }; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Only 1 TRX with 8 PDCH */ f_PCUIF_PDCHMask_set(info_ind, '11111111'B, 0); f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (1 .. 7)); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST to notify the MultiSlot Class */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap)); if (f_ultbf_num_slots(ms.ul_tbf) != 8) { setverdict(fail, "Expected 8 PDCH slot allocated but got ", f_ultbf_num_slots(ms.ul_tbf)); f_shutdown(__BFILE__, __LINE__); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test scenario where MS wants to request a new TBF once the current one is * ending, by means of sending a Packet Resource Request on ul slot provided by * last Pkt Ul ACK's RRBP. * See 3GPP TS 44.060 sec 9.3.2.4.2 "Non-extended uplink TBF mode" */ testcase TC_ul_tbf_reestablish_with_pkt_resource_req() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var uint32_t sched_fn; var uint32_t dl_fn; var template RlcmacDlBlock acknack_tmpl; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); f_statsd_reset(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine */ f_ms_tx_ul_data_block_multi(ms, 1, with_tlli := true, fn := ms.ul_tbf.start_time_fn); /* UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); acknack_tmpl := tr_RLCMAC_UL_ACK_NACK_GPRS(ms.ul_tbf.tfi, tr_UlAckNackGprs(ms.tlli, tr_AckNackDescription(final_ack := '1'B), tr_UlAckNackGprsAdditionsRel99(tbf_est := true))) f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn, acknack_tmpl); /* TODO: verify TBF_EST and FinalACK are both '1' above */ /* Send PACKET RESOURCE REQUEST to request a new UL TBF */ f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, omit)), sched_fn); f_ms_rx_pkt_ass_pacch(ms, sched_fn, tr_RLCMAC_UL_PACKET_ASS); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* Send one UL block (without TLLI since we are in Second-Phase Access) and make sure it is ACKED fine */ f_ms_tx_ul_data_block_multi(ms, 1, with_tlli := false); /* TODO: send using cs_mcs */ /* UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn, acknack_tmpl); /* ACK the ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); var StatsDExpects expect := { { name := "TTCN3.bts.0.rach.requests", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.rach.requests.11bit", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.one_phase", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.rach.requests.two_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_UL", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_ul.one_phase", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_ul.two_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_ul.contention_resolution_success", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_DL", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.pkt.ul_assignment", mtype := "c", min := 1, max := 1 } }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } /* Test scenario where MS wants to request a new TBF once the current one is * ending, by means of sending a Packet Resource Request on ul slot provided by * last Pkt Ul ACK's RRBP. new Pkt Ul Ass is never confirmed by the MS in this test. * See 3GPP TS 44.060 sec 9.3.2.4.2 "Non-extended uplink TBF mode" */ testcase TC_ul_tbf_reestablish_with_pkt_resource_req_t3168() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var uint32_t sched_fn; var uint32_t dl_fn; var template (value) TsTrxBtsNum nr; var BTS_PDTCH_Block data_msg; var template RlcmacDlBlock acknack_tmpl; var GprsMS ms; var integer cnt_rrbp := 0; var integer cnt_dummy_after_timeout := 0; /* Maximum T3168 value = 8 * 500 ms = 4s => * 4 retrans = 16s */ timer T_3168 := 16.0 + 0.5; /* 0.5: extra offset since we cannot match exactly */ /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* TODO: Speedup test by sending a PCU_IF_SAPI_BCCH SI13 with T3168=0 (500ms) */ f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine */ f_ms_tx_ul_data_block_multi(ms, 1, with_tlli := true, fn := ms.ul_tbf.start_time_fn); /* UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); acknack_tmpl := tr_RLCMAC_UL_ACK_NACK_GPRS(ms.ul_tbf.tfi, tr_UlAckNackGprs(ms.tlli, tr_AckNackDescription(final_ack := '1'B), tr_UlAckNackGprsAdditionsRel99(tbf_est := true))) f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn, acknack_tmpl); /* TODO: verify TBF_EST and FinalACK are both '1' above */ /* Send PACKET RESOURCE REQUEST to request a new UL TBF */ T_3168.start; f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, omit)), sched_fn); /* Now Keep ignoring the Pkt Ul Ass on PACCH: */ /* Now we go on receiving DL data and not answering RRBP: */ nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); alt { [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_UL_PACKET_ASS)) -> value data_msg { /* We should not be receiving PKT UL ASS anymore after T3168 timeout */ if (not T_3168.running) { setverdict(fail, log2str("Unexpected PKT UL ASS after T3168 timeout: ", data_msg)); f_shutdown(__BFILE__, __LINE__); } if (f_dl_block_rrbp_valid(data_msg.dl_block)) { log("Ignoring RRBP ", cnt_rrbp); cnt_rrbp := cnt_rrbp + 1; } nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); repeat; } [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_DL_DUMMY_CTRL)) -> value data_msg { nr := ts_TsTrxBtsNum; BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); repeat; } [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), omit)) -> value data_msg { /* T3168 expired and we are not receiving blocks anymore, meaning PCU released the TBF. */ break; } [] BTS.receive { setverdict(fail, "Unexpected BTS message"); f_shutdown(__BFILE__, __LINE__); } } /* Check that we received at least a few PKT UL ASS before T3168 expiration */ if (cnt_rrbp <= 3) { setverdict(fail, log2str("Received only ", cnt_rrbp, " before T3168 timeout!")); f_shutdown(__BFILE__, __LINE__); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test scenario where MS wants to request a new UL TBF using a DL (EGPRS) ACK/NACK * transmitted on ul slot provided by its DL TBF. * See 3GPP TS 44.060 sec 9.3.2.4.2 "Non-extended uplink TBF mode" */ function f_TC_ul_tbf_reestablish_with_pkt_dl_ack_nack(boolean use_egprs) runs on RAW_PCU_Test_CT { var GprsMS ms; var octetstring data := f_rnd_octstring(10); var RlcmacDlBlock dl_block; var template RlcmacDlBlock rej_tmpl; var uint32_t dl_fn; var uint32_t sched_fn; var template (value) MSRadioAccessCapabilityV_BSSGP racap_tmpl; if (use_egprs == true) { racap_tmpl := bssgp_ms_racap_egprs_def; } else { racap_tmpl := bssgp_ms_racap_gprs_def; } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, racap_tmpl, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0); /* ACK the DL block, asking for new UL TBF by including ChanReqDesc */ f_dltbf_ack_block(ms.dl_tbf, dl_block, '1'B); f_ms_tx_ul_block(ms, f_dltbf_ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf, use_egprs, ts_ChannelReqDescription()), f_dl_block_ack_fn(dl_block, dl_fn)); /* We should receive a Pkt Ul ASS */ f_ms_rx_pkt_ass_pacch(ms, sched_fn, tr_RLCMAC_UL_PACKET_ASS); f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_ul_tbf_reestablish_with_pkt_dl_ack_nack() runs on RAW_PCU_Test_CT { f_TC_ul_tbf_reestablish_with_pkt_dl_ack_nack(false); } testcase TC_ul_tbf_reestablish_with_pkt_dl_ack_nack_egprs() runs on RAW_PCU_Test_CT { f_TC_ul_tbf_reestablish_with_pkt_dl_ack_nack(true); } /* Test UL data blocks BSN 0..127 and then continue again at BSN 0... up to 300 * BSNs in total to test several wrap arounds. */ testcase TC_ul_tbf_bsn_wraparound_gprs() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var RlcmacDlBlock dl_block; var octetstring payload; var template (value) LlcBlockHdr blk_hdr; var template (value) LlcBlocks blocks; var uint32_t sched_fn; var uint32_t dl_fn; var template (value) TsTrxBtsNum nr; var BTS_PDTCH_Block data_msg; var template RlcmacDlBlock acknack_tmpl; var GprsMS ms; var integer blocks_sent := 0; var integer blocks_received := 0; const integer target_bsn_set := 300; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ dl_fn := f_ms_wait_usf(ms); sched_fn := f_next_pdch_block(dl_fn); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine. */ payload := f_rnd_octstring(16); /* 16 bytes fills the llc block (because TLLI takes 4 bytes) */ blk_hdr := t_RLCMAC_LLCBLOCK_HDR(length_ind := lengthof(payload), more := false, e := true); blocks := { t_RLCMAC_LLCBLOCK(payload, blk_hdr) }; /* Set CV = 15 to signal there's still more than BS_CV_MAX blocks to be sent */ f_ms_tx_ul_data_blocks_gprs(ms, blocks, cv := 15, with_tlli := true, fn := sched_fn); blocks_sent := blocks_sent + 1; /* UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); acknack_tmpl := tr_RLCMAC_UL_ACK_NACK_GPRS(ms.ul_tbf.tfi, tr_UlAckNackGprs(ms.tlli, tr_AckNackDescription(final_ack := '0'B))) f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn, acknack_tmpl); nr := f_ms_tx_TsTrxBtsNum(ms); BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); alt { [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_UL_ACK_NACK_GPRS)) -> value data_msg { if (f_dl_block_rrbp_valid(data_msg.dl_block)) { var uint32_t ack_fn := f_dl_block_ack_fn(data_msg.dl_block, data_msg.raw.fn) log("ACKING FN ", data_msg.raw.fn, " on FN ", ack_fn); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), ack_fn); } f_ms_tx_ul_data_blocks_gprs(ms, blocks); blocks_sent := blocks_sent + 1; if (blocks_sent == target_bsn_set) { break; } nr := f_ms_tx_TsTrxBtsNum(ms); BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); repeat; } [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), tr_RLCMAC_DL_DUMMY_CTRL)) -> value data_msg { f_ms_tx_ul_data_blocks_gprs(ms, blocks); blocks_sent := blocks_sent + 1; if (blocks_sent == target_bsn_set) { break; } nr := f_ms_tx_TsTrxBtsNum(ms); BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); repeat; } [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), omit)) -> value data_msg { nr := f_ms_tx_TsTrxBtsNum(ms); BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); repeat; } [] BTS.receive { setverdict(fail, "Unexpected BTS message"); f_shutdown(__BFILE__, __LINE__); } [] BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)) { blocks_received := blocks_received + 1; repeat; } } /* Validate most part of them were accepted and forwarded: */ if (blocks_received < target_bsn_set * 95 / 100) { setverdict(fail, "Forwarded ", blocks_received, " out of ", target_bsn_set, " transmitted"); f_shutdown(__BFILE__, __LINE__); } log("Forwarded ", blocks_received, " out of ", target_bsn_set, " transmitted"); f_shutdown(__BFILE__, __LINE__, final := true); } /* Test CS paging over the BTS<->PCU socket. * When a (class B or C, not A) MS has an active TBF (or is on the PDCH), the MS can not react on CS paging over CCCH. * Paging should be send on the PACCH. * * 1. Send a Paging Request over PCU socket. * 2. Send a Ready-To-Send message over PCU socket * 3. Expect a Paging Frame */ testcase TC_paging_cs_from_bts() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var MobileIdentityLV mi; var octetstring mi_enc_lv; var hexstring imsi := f_gen_imsi(42); var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* build mobile Identity */ mi := valueof(ts_MI_IMSI_LV(imsi)); mi_enc_lv := enc_MobileIdentityLV(mi); /* Send paging request */ BTS.send(ts_PCUIF_PAG_REQ(bts_nr := 0, id_lv := mi_enc_lv, chan_needed := 0, sapi :=PCU_IF_SAPI_PDTCH)); /* Receive it on BTS side towards MS */ f_rx_rlcmac_dl_block_exp_pkt_pag_req(dl_block); /* Make sure that Packet Paging Request contains the same IMSI */ var PacketPagingReq req := dl_block.ctrl.payload.u.paging; if (not f_pkt_paging_match_imsi(req, imsi, ps_domain := false)) { setverdict(fail, "Failed to match IMSI ", imsi, " in ", req); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test CS paging over Gb (SGSN->PCU->BTS[PDCH]). */ private function f_tc_paging_cs_from_sgsn(Nsvci bvci, boolean use_ptmsi := false) runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var hexstring imsi := f_gen_imsi(42); var GsmTmsi tmsi; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send paging request with or without TMSI */ if (use_ptmsi) { tmsi := oct2int(f_rnd_octstring(4)); /* Random P-TMSI */ BSSGP[0].send(ts_BSSGP_CS_PAGING_PTMSI(bvci, imsi, tmsi)); } else { BSSGP[0].send(ts_BSSGP_CS_PAGING_IMSI(bvci, imsi)); } /* Now receive it on BTS side towards MS. * Skip any dummy blocks in case the PCUIF req arrives before the BSSP CS_PAGING: */ f_rx_rlcmac_dl_block_skip_dummy(dl_block, max_dummy := 10); if (not match(dl_block, tr_RLCMAC_PACKET_PAG_REQ())) { setverdict(fail, "Failed to match Packet Paging Request: ", dl_block, " vs ", tr_RLCMAC_PACKET_PAG_REQ()); f_shutdown(__BFILE__, __LINE__); } /* Make sure that Packet Paging Request contains the same P-TMSI/IMSI */ var PacketPagingReq req := dl_block.ctrl.payload.u.paging; if (use_ptmsi) { if (not f_pkt_paging_match_tmsi(req, tmsi, ps_domain := false)) { setverdict(fail, "Failed to match P-TMSI ", tmsi, " in ", req); } } else { if (not f_pkt_paging_match_imsi(req, imsi, ps_domain := false)) { setverdict(fail, "Failed to match IMSI ", imsi, " in ", req); } } f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_paging_cs_from_sgsn_sign_ptmsi() runs on RAW_PCU_Test_CT { f_tc_paging_cs_from_sgsn(0, true); } testcase TC_paging_cs_from_sgsn_sign() runs on RAW_PCU_Test_CT { f_tc_paging_cs_from_sgsn(0); } testcase TC_paging_cs_from_sgsn_ptp() runs on RAW_PCU_Test_CT { f_tc_paging_cs_from_sgsn(mp_gb_cfg.bvc[0].bvci); } /* Test PS paging over Gb (SGSN->PCU->BTS[CCCH]). */ private function f_tc_paging_ps_from_sgsn(Nsvci bvci, boolean use_ptmsi := false) runs on RAW_PCU_Test_CT { var integer imsi_suff_tx := 423; var hexstring imsi := f_gen_imsi(imsi_suff_tx); var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ f_statsd_reset(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send BSSGP PAGING-PS (with or without TMSI), wait for RR Paging Request Type 1. * Make sure that both paging group (IMSI suffix) and Mobile Identity match. */ if (use_ptmsi) { var OCT4 tmsi := f_rnd_octstring(4); /* Random P-TMSI */ BSSGP[0].send(ts_BSSGP_PS_PAGING_PTMSI(bvci, imsi, oct2int(tmsi))); f_pcuif_rx_pch_pag_req1(t_MI_TMSI(tmsi), imsi_suff_tx); } else { BSSGP[0].send(ts_BSSGP_PS_PAGING_IMSI(bvci, imsi)); f_pcuif_rx_pch_pag_req1(tr_MI_IMSI(imsi), imsi_suff_tx); } var StatsDExpects expect := { { name := "TTCN3.pcu.sgsn.0.rx_paging_ps", mtype := "c", min := 1, max := 1 }, /* After the PCU receives the paging request from SGSN, * and it doesn't have any errors, PCU sends it to the * BTS to do paging over PCH. */ { name := "TTCN3.bts.0.pch.requests", mtype := "c", min := 1, max := 1 } }; f_statsd_expect(expect); } testcase TC_paging_ps_from_sgsn_sign_ptmsi() runs on RAW_PCU_Test_CT { /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); f_tc_paging_ps_from_sgsn(0, true); f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_paging_ps_from_sgsn_sign() runs on RAW_PCU_Test_CT { /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); f_tc_paging_ps_from_sgsn(0); f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_paging_ps_from_sgsn_ptp() runs on RAW_PCU_Test_CT { /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); f_tc_paging_ps_from_sgsn(mp_gb_cfg.bvc[0].bvci); f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_paging_pch_timeout() runs on RAW_PCU_Test_CT { /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Set T3113 to 1s to shorten the test duration */ f_vty_config2(PCUVTY, {"pcu"}, "timer T3113 1"); /* Reset stats and send paging PS request */ f_tc_paging_ps_from_sgsn(mp_gb_cfg.bvc[0].bvci); /* Verify that counter increases when T3113 times out (MS did not start * TBF to respond to paging). */ f_sleep(1.2); var StatsDExpects expect := { { name := "TTCN3.bts.0.pch.requests.timeout", mtype := "c", min := 1, max := 1 } }; f_statsd_expect(expect); f_vty_config2(PCUVTY, {"pcu"}, "timer T3113 default"); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify osmo-pcu handles DL UNIT_DATA from SGSN with IMSI IE correctly. See OS#4729 */ testcase TC_bssgp_dl_unitdata_with_valid_imsi() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var uint32_t sched_fn; var uint32_t dl_fn; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); f_statsd_reset(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Fake GMM GPRS Attach or similar, PCU doesn't care about upper layers here */ f_ms_tx_ul_data_block_multi(ms, 1, with_tlli := true, fn := ms.ul_tbf.start_time_fn); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); /* Now SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0); /* ACK the DL block */ f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block, '1'B); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, dl_fn)); var StatsDExpects expect := { { name := "TTCN3.bts.0.rach.requests", mtype := "c", min := 1, max := 1}, { name := "TTCN3.bts.0.immediate.assignment_DL", mtype := "c", min := 1, max := 1}, { name := "TTCN3.bts.0.tbf.dl.alloc", mtype := "c", min := 1, max := 1}, { name := "TTCN3.bts.0.tbf.ul.alloc", mtype := "c", min := 1, max := 1}, { name := "TTCN3.bts.0.rlc.dl_payload_bytes", mtype := "c", min := 10, max := 10}, { name := "TTCN3.bts.0.rlc.ul_payload_bytes", mtype := "c", min := 26, max := 26} }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify osmo-pcu acts on incorrect IMSI IE content in DL UNIT_DATA from SGSN. See OS#4729 */ testcase TC_bssgp_dl_unitdata_with_invalid_imsi() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var uint32_t sched_fn; var uint32_t dl_fn; var GprsMS ms; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Fake GMM GPRS Attach or similar, PCU doesn't care about upper layers here */ f_ms_tx_ul_data_block_multi(ms, 1, with_tlli := true, fn := ms.ul_tbf.start_time_fn); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); /* Now SGSN sends some DL data with an invalid IMSI */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI('1122'H))); BSSGP_GLOBAL[0].receive(tr_BSSGP_STATUS(omit, BSSGP_CAUSE_CONDITIONAL_IE_ERROR, ?)); /* TODO: make sure no data is sent over PCU -> MS */ f_shutdown(__BFILE__, __LINE__, final := true); } private function f_tc_dl_data_no_llc_ui_dummy(template (omit) MSRadioAccessCapabilityV_BSSGP ms_racap := omit) runs on RAW_PCU_Test_CT { var AckNackDescription ack_nack_desc := valueof(t_AckNackDescription_init); var octetstring data := f_rnd_octstring(6); var RlcmacDlBlock dl_block; var GprsMS ms; var uint32_t fn; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, ms_racap, imsi := ts_BSSGP_IMSI(ms.imsi))); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS */ f_sleep(X2002); /* Expect the first (GPRS DL) block with bsn=0 and rrbp_valid=1 */ f_rx_rlcmac_dl_block_exp_data(dl_block, fn, data, 0); if (ischosen(dl_block.data_egprs)) { if (lengthof(dl_block.data_egprs.blocks) != 2) { setverdict(fail, "DL EGPRS block has unexpected number of LLC frames: ", dl_block.data_egprs); f_shutdown(__BFILE__, __LINE__); } if (dl_block.data_egprs.blocks[1].hdr.length_ind != 127) { setverdict(fail, "DL EGPRS block 2nd llc frame is not padding!: ", dl_block.data_egprs); f_shutdown(__BFILE__, __LINE__); } if (not match(dl_block.data_egprs.blocks[1].payload, f_pad_oct(''O, lengthof(dl_block.data_egprs.blocks[1].payload), '2B'O))) { setverdict(fail, "DL EGPRS block 2nd llc frame is not padding!: ", dl_block.data_egprs); f_shutdown(__BFILE__, __LINE__); } } else if (lengthof(dl_block.data.blocks) > 1) { setverdict(fail, "DL GPRS block has extra unexpected LLC frames: ", dl_block.data); f_shutdown(__BFILE__, __LINE__); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify osmo-pcu Doesn't append LLC UI dummy frames to rlcmac blocks * containing llc data. See OS#4849 */ testcase TC_dl_gprs_data_no_llc_ui_dummy() runs on RAW_PCU_Test_CT { f_tc_dl_data_no_llc_ui_dummy(omit); } /* Verify osmo-pcu Doesn't append LLC UI dummy frames to rlcmac blocks * containing llc data. See OS#4849 */ testcase TC_dl_egprs_data_no_llc_ui_dummy() runs on RAW_PCU_Test_CT { f_tc_dl_data_no_llc_ui_dummy(bssgp_ms_racap_egprs_def); } /* Scenario: MS creates one phase access, does contention resolution CV>0 and * finishes sending data (CV=0), which is forwarded to SGSN by PCU. PCU acks with * FINAL_ACK=1 (hence UL TBF moves to FINISHED state). Then SGSN answers and PCU * has to assign a DL TBF (through PCH because of FINISHED state, TS 44.060 9.3.3.3.2). * Make sure the assignment is not done until we receive the PKT CTRL ACK from the MS * (at that time we know the MS is listening on PCH again). OS#5700. */ testcase TC_ul_tbf_finished_pkt_dl_ass_pch() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var uint32_t sched_fn; var uint32_t dl_fn; var GprsMS ms; timer T; var octetstring payload; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine. */ payload := f_rnd_octstring(f_ultbf_payload_fill_length(ms.ul_tbf, true)); dl_fn := f_rx_rlcmac_dl_block_exp_dummy(dl_block); f_ms_tx_ul_data_block(ms, payload, cv := 1, with_tlli := true, fn := f_next_pdch_block(dl_fn)); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); payload := f_rnd_octstring(f_ultbf_payload_fill_length(ms.ul_tbf, false)); f_ms_tx_ul_data_block(ms, payload, cv := 0); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* 1 UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); /* Now SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI(ms.imsi))); /* UL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS: */ f_sleep(X2002); f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0); f_shutdown(__BFILE__, __LINE__, final := true); } /* Scenario: MS creates a UL TBF and * finishes sending data (CV=0), which is forwarded to SGSN by PCU. PCU acks with * FINAL_ACK=1 (hence UL TBF moves to FINISHED state). Then SGSN answers and PCU * has to assign a DL TBF on PCH. While the network is waiting for the MS to * move to PDCH before transmitting DL data (timer X2002), the MS finds out it * needs to send new UL data and hence sends a RACH request to create a new UL * TBF. * Make sure the the MS is assigned a DL TBF through PACCH in that case even if * no new DL data is received from the SGSN. OS#5700. * This test validates the specific case where the 2nd UL TBF is done through * 1phase-access. */ testcase TC_ul_tbf_1phase_while_dl_ass_pch() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var uint32_t sched_fn; var uint32_t poll_fn; var uint32_t dl_fn; var GprsMS ms; timer T; var octetstring payload; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine. */ payload := f_rnd_octstring(f_ultbf_payload_fill_length(ms.ul_tbf, true)); dl_fn := f_rx_rlcmac_dl_block_exp_dummy(dl_block); f_ms_tx_ul_data_block(ms, payload, cv := 1, with_tlli := true, fn := f_next_pdch_block(dl_fn)); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); payload := f_rnd_octstring(f_ultbf_payload_fill_length(ms.ul_tbf, false)); f_ms_tx_ul_data_block(ms, payload, cv := 0); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* 1 UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); /* Now SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI(ms.imsi))); /* UL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); f_ms_exp_dl_tbf_ass_ccch(ms); /* Now the PCU is waiting for the MS to move to PDCH in order to send data to it (timer X2002). * The MS decides it want to send new Ul TBF so it send RACH req to ask for it: */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ dl_fn := f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access * contention resolution) and make sure it is ACKED fine. */ payload := f_rnd_octstring(f_ultbf_payload_fill_length(ms.ul_tbf, true)); f_ms_tx_ul_data_block(ms, payload, cv := 1, with_tlli := true, fn := f_next_pdch_block(dl_fn)); /* UL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* The PCU considers the MS to have gone over Contention Resolution * after having sent the first UL ACK/NACK to it, hence next it will try to * assign the DL-TBF to send the data it received from the SGSN previously: */ f_ms_rx_pkt_ass_pacch(ms, poll_fn, tr_RLCMAC_DL_PACKET_ASS); /* the MS ACKs the PKT_DL_ASS: */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), poll_fn); /* We should finally receive the DL-data that was received previously from the SGSN: */ f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0); f_shutdown(__BFILE__, __LINE__, final := true); } /* Same as TC_ul_tbf_2phase_while_dl_ass_pch, but this test validates the * specific case where the 2nd UL TBF is done through 2phase-access. */ testcase TC_ul_tbf_2phase_while_dl_ass_pch() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var octetstring data := f_rnd_octstring(10); var uint32_t sched_fn; var uint32_t poll_fn; var uint32_t dl_fn; var GprsMS ms; timer T; var octetstring payload; var PollFnCtx pollctx; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send one UL block (with TLLI since we are in One-Phase Access contention resolution) and make sure it is ACKED fine. */ payload := f_rnd_octstring(f_ultbf_payload_fill_length(ms.ul_tbf, true)); dl_fn := f_rx_rlcmac_dl_block_exp_dummy(dl_block); f_ms_tx_ul_data_block(ms, payload, cv := 1, with_tlli := true, fn := f_next_pdch_block(dl_fn)); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); payload := f_rnd_octstring(f_ultbf_payload_fill_length(ms.ul_tbf, false)); f_ms_tx_ul_data_block(ms, payload, cv := 0); f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, sched_fn); /* 1 UL block should be received in SGSN */ BSSGP[0].receive(tr_BSSGP_UL_UD(ms.tlli, mp_gb_cfg.bvc[0].cell_id)); /* Now SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, imsi := ts_BSSGP_IMSI(ms.imsi))); /* UL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); f_ms_exp_dl_tbf_ass_ccch(ms); /* Now the PCU is waiting for the MS to move to PDCH in order to send data to it (timer X2002). * The MS decides it want to send new Ul TBF so it send RACH req to ask for it: */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Now that MS seized the UL-TBF, PCU sends DL-TBF Assignment on PACCH */ f_ms_rx_pkt_ass_pacch(ms, poll_fn, tr_RLCMAC_DL_PACKET_ASS); /* the MS ACKs the PKT_DL_ASS: */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), poll_fn); /* We should finally receive the DL-data that was received previously from the SGSN: */ f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0); f_shutdown(__BFILE__, __LINE__, final := true); } private function f_TC_egprs_pkt_chan_req(in EGPRSPktChRequest req, template GsmRrMessage t_imm_ass := ?, PCUIF_BurstType bt := BURST_TYPE_1) runs on RAW_PCU_Test_CT { var GsmRrMessage rr_msg; var uint16_t ra11; ra11 := enc_EGPRSPktChRequest2uint(req); log("Sending EGPRS Packet Channel Request (", ra11, "): ", req); rr_msg := f_pcuif_tx_rach_rx_imm_ass(ra := ra11, is_11bit := 1, burst_type := bt); if (not match(rr_msg, t_imm_ass)) { setverdict(fail, "Immediate Assignment does not match"); f_shutdown(__BFILE__, __LINE__); } setverdict(pass); } testcase TC_egprs_pkt_chan_req_signalling() runs on RAW_PCU_Test_CT { var template GsmRrMessage imm_ass; var template IaRestOctets rest; var template EgprsUlAss ul_ass; const integer num_req := 6; /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); f_statsd_reset(); var EGPRSPktChRequest req := { /* NOTE: other fields are set in the loop */ signalling := { tag := '110011'B } }; for (var integer i := 0; i < num_req; i := i + 1) { var BIT5 ext_ra := int2bit(f_rnd_int(32), 5); req.signalling.random_bits := ext_ra; /* For signalling, do we expect Multiblock UL TBF Assignment? */ ul_ass := tr_EgprsUlAssMultiblock(ext_ra := ext_ra); rest := tr_IaRestOctets_EGPRSULAss(ul_ass); imm_ass := tr_IMM_TBF_ASS(dl := false, rest := rest); f_TC_egprs_pkt_chan_req(req, imm_ass); } var StatsDExpects expect := { { name := "TTCN3.bts.0.rach.requests", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.rach.requests.11bit", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.rach.requests.one_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.two_phase", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.immediate.assignment_UL", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.immediate.assignment_ul.one_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_ul.two_phase", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.immediate.assignment_ul.contention_resolution_success", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_DL", mtype := "c", min := 0, max := 0 } }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_egprs_pkt_chan_req_one_phase() runs on RAW_PCU_Test_CT { var template GsmRrMessage imm_ass; var template IaRestOctets rest; var template EgprsUlAss ul_ass; const integer num_req := 6; /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); f_statsd_reset(); var EGPRSPktChRequest req := { /* NOTE: other fields are set in the loop */ one_phase := { tag := '0'B } }; for (var integer i := 0; i < num_req; i := i + 1) { var BIT5 ext_ra := int2bit(f_rnd_int(32), 5); var BIT5 mslot_class := int2bit(f_rnd_int(32), 5); var BIT2 priority := substr(ext_ra, 0, 2); var BIT3 rand := substr(ext_ra, 2, 3); req.one_phase.multislot_class := mslot_class; req.one_phase.priority := priority; req.one_phase.random_bits := rand; /* For one phase access, do we expect Dynamic UL TBF Assignment? */ ul_ass := tr_EgprsUlAssDynamic(ext_ra := ext_ra); rest := tr_IaRestOctets_EGPRSULAss(ul_ass); imm_ass := tr_IMM_TBF_ASS(dl := false, rest := rest); f_TC_egprs_pkt_chan_req(req, imm_ass); } var StatsDExpects expect := { { name := "TTCN3.bts.0.rach.requests", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.rach.requests.11bit", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.rach.requests.one_phase", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.rach.requests.two_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_UL", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.immediate.assignment_ul.one_phase", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.immediate.assignment_ul.two_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_ul.contention_resolution_success", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_DL", mtype := "c", min := 0, max := 0 } }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_egprs_pkt_chan_req_two_phase() runs on RAW_PCU_Test_CT { var template GsmRrMessage imm_ass; var template IaRestOctets rest; var template EgprsUlAss ul_ass; const integer num_req := 6; /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); f_statsd_reset(); var EGPRSPktChRequest req := { /* NOTE: other fields are set in the loop */ two_phase := { tag := '110000'B } }; for (var integer i := 0; i < num_req; i := i + 1) { var BIT5 ext_ra := int2bit(f_rnd_int(32), 5); var BIT2 priority := substr(ext_ra, 0, 2); var BIT3 rand := substr(ext_ra, 2, 3); req.two_phase.priority := priority; req.two_phase.random_bits := rand; /* For two phase access, do we expect Multiblock UL TBF Assignment? */ ul_ass := tr_EgprsUlAssMultiblock(ext_ra := ext_ra); rest := tr_IaRestOctets_EGPRSULAss(ul_ass); imm_ass := tr_IMM_TBF_ASS(dl := false, rest := rest); f_TC_egprs_pkt_chan_req(req, imm_ass); } var StatsDExpects expect := { { name := "TTCN3.bts.0.rach.requests", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.rach.requests.11bit", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.rach.requests.one_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.two_phase", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.immediate.assignment_UL", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.immediate.assignment_ul.one_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_ul.two_phase", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.immediate.assignment_ul.contention_resolution_success", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_DL", mtype := "c", min := 0, max := 0 } }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } private function f_TC_egprs_pkt_chan_req_reject(bitstring ra11, uint32_t fn, template IARRestOctets rest := ?, PCUIF_BurstType bt := BURST_TYPE_1, template WaitIndication wi := ?) runs on RAW_PCU_Test_CT { var template ReqRefWaitInd tr_ref; var GsmRrMessage rr_msg; /* Send RACH.ind with malformed EGPRS Packet Channel Request */ BTS.send(ts_PCUIF_RACH_IND(bts_nr := 0, trx_nr := 0, ts_nr := 0, ra := bit2int(ra11), is_11bit := 1, burst_type := bt, fn := fn, arfcn := 871)); /* Abuse f_pcuif_rx_imm_ass(): wait for Immediate Assignment Reject */ rr_msg := f_pcuif_rx_imm_ass(t_imm_ass := tr_IMM_ASS_REJ); /* Just to have a short-name reference to the actual message */ var ImmediateAssignmentReject iar := rr_msg.payload.imm_ass_rej; /* Make sure that Request Reference list contains at least one entry * with our TDMA frame number, and RA is set to 'reserved' value 127. */ tr_ref := tr_ReqRefWaitInd(f_compute_ReqRef(127, fn), wi); if (not match(iar.payload, { *, tr_ref, * })) { setverdict(fail, "Request Reference list does not match"); f_shutdown(__BFILE__, __LINE__); } /* Match Feature Indicator (must indicate PS domain) */ if (not match(iar.feature_ind, FeatureIndicator:{?, false, true})) { setverdict(fail, "Feature Indicator does not match"); f_shutdown(__BFILE__, __LINE__); } /* Match IAR Rest Octets */ if (not match(iar.rest_octets, rest)) { setverdict(fail, "IAR Rest Octets does not match: ", iar.rest_octets, " vs expected ", rest); f_shutdown(__BFILE__, __LINE__); } setverdict(pass); } /* Verify the contents of RR Immediate Assignment Reject message and its * Rest Octets sent in response to EGPRS Packet Channel Request (11 bit). */ testcase TC_egprs_pkt_chan_req_reject_content() runs on RAW_PCU_Test_CT { var template IARRestOctets rest; var BIT5 ext_ra; const integer num_req := 6; /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); f_statsd_reset(); for (var integer i := 0; i < num_req; i := i + 1) { ext_ra := int2bit(f_rnd_int(32), 5); /* 5 LSB's of RA11 */ rest := tr_IARRestOctets({ *, tr_ExtRAOpt(ext_ra), * }); /* Intentionally incorrect message (see table 11.2.5a.2) */ f_TC_egprs_pkt_chan_req_reject('111111'B & ext_ra, 1337 + i, rest); } var StatsDExpects expect := { { name := "TTCN3.bts.0.rach.requests", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.rach.requests.11bit", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.rach.requests.one_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.two_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.unexpected", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.immediate.assignment_UL", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_rej", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.immediate.assignment_DL", mtype := "c", min := 0, max := 0 } }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } /* At the moment, the IUT does not support any emergency services. Make sure * that EGPRS Packet Channel Request for an emergency call is properly rejected. */ testcase TC_egprs_pkt_chan_req_reject_emergency() runs on RAW_PCU_Test_CT { var template IARRestOctets rest; var BIT5 ext_ra; var BIT11 ra11; const integer num_req := 6; /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); f_statsd_reset(); var EGPRSPktChRequest req := { /* NOTE: other fields are set in the loop */ emergency := { tag := '110111'B } }; for (var integer i := 0; i < num_req; i := i + 1) { ext_ra := int2bit(f_rnd_int(32), 5); /* 5 LSB's of RA11 */ rest := tr_IARRestOctets({ *, tr_ExtRAOpt(ext_ra), * }); req.emergency.random_bits := ext_ra; ra11 := enc_EGPRSPktChRequest2bits(req); /* Intentionally incorrect message (see table 11.2.5a.2) */ f_TC_egprs_pkt_chan_req_reject(ra11, 1337 + i, rest); } var StatsDExpects expect := { { name := "TTCN3.bts.0.rach.requests", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.rach.requests.11bit", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.rach.requests.one_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.two_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.unexpected", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.immediate.assignment_UL", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_rej", mtype := "c", min := num_req, max := num_req }, { name := "TTCN3.bts.0.immediate.assignment_DL", mtype := "c", min := 0, max := 0 } }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } /* Make sure that IUT responds with RR Immediate Assignment Reject due to exhaustion. */ testcase TC_egprs_pkt_chan_req_reject_exhaustion() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var template IARRestOctets rest; var BIT11 ra11; info_ind := valueof(ts_PCUIF_INFO_default); info_ind.t3142 := 3; /* Only the first TRX is enabled. */ f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (1 .. 7)); f_PCUIF_PDCHMask_set(info_ind, '00000001'B, 0); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); f_statsd_reset(); var EGPRSPktChRequest req := { one_phase := { tag := '0'B, multislot_class := '10101'B, priority := '01'B, random_bits := '101'B } }; /* We send 7 requests, the IUT gives us all available USFs (0..6). * TODO: make it configurable: usf_max := mp_pdch_ts_num * 7. */ for (var integer i := 0; i < 7; i := i + 1) { req.one_phase.random_bits := int2bit(f_rnd_int(8), 3); f_TC_egprs_pkt_chan_req(req, tr_IMM_TBF_ASS); } ra11 := enc_EGPRSPktChRequest2bits(req); rest := tr_IARRestOctets({ *, tr_ExtRAOpt(substr(ra11, 6, 5)), * }); /* At this point, the IUT should run out of free USFs */ f_TC_egprs_pkt_chan_req_reject(ra11, 1870, rest, wi := info_ind.t3142); var StatsDExpects expect := { { name := "TTCN3.bts.0.rach.requests", mtype := "c", min := 8, max := 8 }, { name := "TTCN3.bts.0.rach.requests.11bit", mtype := "c", min := 8, max := 8 }, { name := "TTCN3.bts.0.rach.requests.one_phase", mtype := "c", min := 8, max := 8 }, { name := "TTCN3.bts.0.rach.requests.two_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.rach.requests.unexpected", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_UL", mtype := "c", min := 7, max := 7 }, { name := "TTCN3.bts.0.immediate.assignment_ul.one_phase", mtype := "c", min := 7, max := 7 }, { name := "TTCN3.bts.0.immediate.assignment_ul.two_phase", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_ul.contention_resolution_success", mtype := "c", min := 0, max := 0 }, { name := "TTCN3.bts.0.immediate.assignment_rej", mtype := "c", min := 1, max := 1 }, { name := "TTCN3.bts.0.immediate.assignment_DL", mtype := "c", min := 0, max := 0 } }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } /* Randomly generate a set of hopping parameters for one timeslot */ private function f_TC_pcuif_fh_params_gen(integer max_ma_len) return template (value) PCUIF_InfoTrxTs { /* Pick a random MA length in range 2 .. max_ma_len */ var integer ma_len := 2 + f_rnd_int(max_ma_len - 2); return ts_PCUIF_InfoTrxTsH1(tsc := f_rnd_int(7), hsn := f_rnd_int(63), maio := f_rnd_int(63), ma := f_rnd_bitstring(ma_len)); } private function f_TC_pcuif_fh_check_imm_ass(in PCUIF_info_ind info_ind, in GsmRrMessage rr_msg) { var ImmediateAssignment ia := rr_msg.payload.imm_ass; var PCUIF_InfoTrxTs ts := info_ind.trx[0].ts[ia.pkt_chan_desc.tn]; var template PacketChannelDescription tr_pkt_chan_desc := { channel_Type_spare := ?, tn := ?, tsc := ts.tsc, presence := '1'B, zero := omit, one := { maio := ts.maio, hsn := ts.hsn } }; if (not match(ia.pkt_chan_desc, tr_pkt_chan_desc)) { setverdict(fail, "Packet Channel Description does not match: ", ia.pkt_chan_desc, " vs ", tr_pkt_chan_desc); } /* Mobile Allocation is expected to be octet-aligned */ var uint8_t ma_oct_len := (ts.ma_bit_len + 8 - 1) / 8; var template MobileAllocationLV tr_ma := { len := ma_oct_len, /* in bytes */ ma := substr(ts.ma, 0, ma_oct_len * 8) }; if (not match(ia.mobile_allocation, tr_ma)) { setverdict(fail, "Mobile Allocation does not match: ", ia.mobile_allocation, " vs ", tr_ma); } setverdict(pass); } /* Make sure that Immediate (UL EGPRS TBF) Assignment contains hopping parameters */ testcase TC_pcuif_fh_imm_ass_ul_egprs() runs on RAW_PCU_Test_CT { var template (value) PCUIF_info_ind info_ind := ts_PCUIF_INFO_default; var GprsMS ms := valueof(t_GprsMS_def); /* Enable frequency hopping on TRX0/TS7 */ info_ind.trx[0].ts[7] := f_TC_pcuif_fh_params_gen(32); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* EGPRS Packet Channel Request (cause=Signalling) */ f_ms_use_ra(ms, bit2int('11001101010'B), ra_is_11bit := 1); /* Establish an Uplink EGPRS TBF */ f_ms_establish_ul_tbf(ms); f_TC_pcuif_fh_check_imm_ass(valueof(info_ind), ms.ul_tbf.rr_imm_ass); f_shutdown(__BFILE__, __LINE__, final := true); } /* Make sure that Immediate (UL TBF) Assignment contains hopping parameters */ testcase TC_pcuif_fh_imm_ass_ul() runs on RAW_PCU_Test_CT { var template (value) PCUIF_info_ind info_ind := ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS); var GprsMS ms := valueof(t_GprsMS_def); /* Enable frequency hopping on TRX0/TS7 */ info_ind.trx[0].ts[7] := f_TC_pcuif_fh_params_gen(32); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); f_TC_pcuif_fh_check_imm_ass(valueof(info_ind), ms.ul_tbf.rr_imm_ass); f_shutdown(__BFILE__, __LINE__, final := true); } /* Make sure that Immediate (DL TBF) Assignment contains hopping parameters */ testcase TC_pcuif_fh_imm_ass_dl() runs on RAW_PCU_Test_CT { var template (value) PCUIF_info_ind info_ind := ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS); var GprsMS ms := valueof(t_GprsMS_def); /* Enable frequency hopping on TRX0/TS7 */ info_ind.trx[0].ts[7] := f_TC_pcuif_fh_params_gen(16); /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, f_rnd_octstring(12))); /* The PCU will send an IMMEDIATE ASSIGNMENT message on the AGCH. It * should be noted that IMMEDIATE ASSIGNMENT messages for DL TBFs are * commonly sent on the PCH. However in this case the IMSI is not * known to the PCU and hence no paging group can be calculated. The * PCU is then forced to use the AGCH. * * As a background information to this it should be noted that this * works because the IMSI is commonly unknown during a GMM ATTACH * REQUEST. In this phase the MS is in non-DRX mode, which means that * it listens on all CCCH blocks (PCH and AGCH) * * See also: 3gpp TS 44.060, section 5.5.1.5 and * 3gpp TS 45.002, section 6.5.3, 6.5.6 */ f_ms_exp_dl_tbf_ass_ccch(ms, PCU_IF_SAPI_AGCH_2); f_TC_pcuif_fh_check_imm_ass(valueof(info_ind), ms.dl_tbf.rr_imm_ass); f_shutdown(__BFILE__, __LINE__, final := true); } private function f_TC_pcuif_fh_check_pkt_ass(in PCUIF_info_ind info_ind, in FrequencyParameters fp) { /* FIXME: TRX0/TS7 is a hard-coded expectation, make it configurable */ var PCUIF_InfoTrxTs ts := info_ind.trx[0].ts[7]; /* Table 12.8.1: Frequency Parameters information elements */ var template FrequencyParameters tr_fp := { tsc := ts.tsc, presence := '10'B, /* Direct encoding 1 */ arfcn := omit, indirect := omit, direct1 := { maio := ts.maio, /* Table 12.10a.1: GPRS Mobile Allocation information elements */ mobile_allocation := { hsn := ts.hsn, rfl_number_list_present := '0'B, rfl_number_list := omit, ma_present := '0'B, /* inverted logic */ ma_length := ts.ma_bit_len, ma_bitmap := substr(ts.ma, 0, ts.ma_bit_len) } }, direct2 := omit }; if (not match(fp, tr_fp)) { setverdict(fail, "Frequency Parameters IE does not match: ", fp, " vs ", tr_fp); } setverdict(pass); } /* Make sure that Packet Uplink Assignment contains hopping parameters */ testcase TC_pcuif_fh_pkt_ass_ul() runs on RAW_PCU_Test_CT { var template (value) PCUIF_info_ind info_ind := ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS); var GprsMS ms := valueof(t_GprsMS_def); var uint32_t poll_fn; /* Enable frequency hopping on TRX0/TS7 */ info_ind.trx[0].ts[7] := f_TC_pcuif_fh_params_gen(33); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Single block (two phase) packet access */ var uint16_t ra := bit2int(chan_req_sb); f_ms_use_ra(ms, ra, ra_is_11bit := 0); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Send Packet Resource Request, so the network will allocate an Uplink resource */ f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, omit)), fn := ms.ul_tbf.start_time_fn); /* Expect an RLC/MAC block with Packet Uplink Assignment on PACCH (see 11.2.29) */ f_ms_rx_pkt_ass_pacch(ms, poll_fn, tr_RLCMAC_UL_PACKET_ASS); var PacketUlAssignment ua := ms.ul_tbf.ass.pacch; /* 3GPP TS 44.060, section 12.8 "Frequency Parameters" */ var template (omit) FrequencyParameters fp; if (ua.is_egprs == '1'B) { fp := ua.egprs.freq_par; } else { fp := ua.gprs.freq_par; } /* This is an optional IE, so it's worth to check its presence */ if (istemplatekind(fp, "omit")) { setverdict(fail, "Frequency Parameters IE is not present"); f_shutdown(__BFILE__, __LINE__); } f_TC_pcuif_fh_check_pkt_ass(valueof(info_ind), valueof(fp)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Make sure that Packet Downlink Assignment contains hopping parameters */ testcase TC_pcuif_fh_pkt_ass_dl() runs on RAW_PCU_Test_CT { var template (value) PCUIF_info_ind info_ind := ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS); var octetstring data := f_rnd_octstring(10); var GprsMS ms := valueof(t_GprsMS_def); var RlcmacDlBlock dl_block; var uint32_t poll_fn; /* Enable frequency hopping on TRX0/TS7 */ info_ind.trx[0].ts[7] := f_TC_pcuif_fh_params_gen(33); /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Establish an Uplink TBF */ f_ms_establish_ul_tbf(ms); /* Wait until PCU starts requesting for UL block on this TBF: */ f_ms_wait_usf(ms); /* Send an Uplink block, so this TBF becomes "active" */ f_ms_tx_ul_data_block(ms, data, with_tlli := true, fn := ms.ul_tbf.start_time_fn); /* DL ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ f_rx_rlcmac_dl_block_exp_ack_nack(dl_block, poll_fn); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), poll_fn); /* SGSN sends some DL data, PCU will assign Downlink resource on PACCH */ BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data)); /* Expect an RLC/MAC block with Packet Downlink Assignment on PACCH (see 11.2.29) */ f_ms_rx_pkt_ass_pacch(ms, poll_fn, tr_RLCMAC_DL_PACKET_ASS); var PacketDlAssignment da := ms.dl_tbf.ass.pacch; /* This is an optional IE, so it's worth to check its presence */ if (not ispresent(da.freq_par)) { setverdict(fail, "Frequency Parameters IE is not present"); f_shutdown(__BFILE__, __LINE__); } f_TC_pcuif_fh_check_pkt_ass(valueof(info_ind), da.freq_par); f_shutdown(__BFILE__, __LINE__, final := true); } /* Check if the IUT handles subsequent INFO.ind messages */ testcase TC_pcuif_info_ind_subsequent() runs on RAW_PCU_Test_CT { var template (value) PCUIF_info_ind info_ind := ts_PCUIF_INFO_default; var BTS_PDTCH_Block data_msg; /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Send 16 conseqtive INFO.ind messages and check that the IUT stays alive */ for (var integer i := 0; i < 16; i := i + 1) { BTS.send(ts_PCUIF_INFO_IND(0, info_ind)); f_pcuif_rx_data_req_pdtch(data_msg); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify allocation of several MS along PDCH ts of several TRX. See OS#1775, SYS#5030 */ testcase TC_multitrx_multims_alloc() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var integer i; const integer num_ms := 8; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(num_ms); info_ind := valueof(ts_PCUIF_INFO_default(c_PCUIF_Flags_noMCS)); /* Only the 3 first TRX are enabled. The enabled ones all have same amount of resources, hence same amount of initial resources. */ f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (3 .. 7)); f_PCUIF_PDCHMask_set(info_ind, '00000011'B, 0); f_PCUIF_PDCHMask_set(info_ind, '00001100'B, 1); f_PCUIF_PDCHMask_set(info_ind, '11000000'B, 2); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_multi_ms_bssgp_register(); /* Establish an Uplink TBF for each GprsMS instance */ f_multi_ms_establish_tbf(do_activate := false); /* Check if all TBFs are allocated on different TRX in an uniform way */ for (i := 0; i < num_ms; i := i + 1) { if (g_ms[i].ul_tbf.arfcn != info_ind.trx[i mod 3].arfcn) { setverdict(fail, "Got assigned ARFCN ", g_ms[i].ul_tbf.arfcn, " vs exp ", info_ind.trx[i mod 3].arfcn); f_shutdown(__BFILE__, __LINE__); } } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify concurrent PDCH use of EGPRS and GPRS (EGPRS dl rlcmac blk is * downgraded to CS1-4 so that GPRS can read the USF). * See 3GPP TS 44.060 5.2.4a "Multiplexing of GPRS, EGPRS and EGPRS2 capable mobile stations" */ testcase TC_multiplex_dl_gprs_egprs() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; const integer num_ms := 2; /* 2 MS, first one is GPRS-only, second one is EGPRS */ var PollFnCtx pollctx; var uint32_t sched_fn, dl_fn, ack_fn; var octetstring data := f_rnd_octstring(10); var RlcmacDlBlock dl_block; var integer tx_data_remain := 5; var integer tgt_ms, usf_ms; var integer ms_gprs_usf_count[num_ms] := { 0, 0 }; var integer ms_egprs_usf_count[num_ms] := { 0, 0 }; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(num_ms); info_ind := valueof(ts_PCUIF_INFO_default); /* Only use 1 PDCH to make sure both end up in the same slot: */ f_PCUIF_PDCHMask_set(info_ind, '00000001'B, 0); f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (1 .. 7)); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Set Initial MCS > 4 and maintain it non-variable to simplify test */ g_mcs_initial_dl := 5; g_mcs_max_dl := 5; f_pcuvty_set_allowed_cs_mcs(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_multi_ms_bssgp_register(); /* Establish UL TBF for MS0 (GPRS-only) */ pollctx := f_ms_establish_ul_tbf_2phase_access(g_ms[0], ts_RlcMacUlCtrl_PKT_RES_REQ(g_ms[0].tlli, ms_racap_gprs_def)); if (not match(g_ms[0].ul_tbf.tx_cs_mcs, cs_gprs_any)) { setverdict(fail, "Wrong CS_MCS ", g_ms[0].ul_tbf.tx_cs_mcs, " received vs exp ", cs_gprs_any); f_shutdown(__BFILE__, __LINE__); } /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(g_ms[0], ts_RLCMAC_CTRL_ACK(g_ms[0].tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Establish UL TBF for MS1 (EGPRS) */ pollctx := f_ms_establish_ul_tbf_2phase_access(g_ms[1], ts_RlcMacUlCtrl_PKT_RES_REQ(g_ms[1].tlli, ms_racap_egprs_def)); if (not match(g_ms[1].ul_tbf.tx_cs_mcs, mcs_egprs_any)) { setverdict(fail, "Wrong CS_MCS ", g_ms[1].ul_tbf.tx_cs_mcs, " received vs exp ", mcs_egprs_any); f_shutdown(__BFILE__, __LINE__); } /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(g_ms[1], ts_RLCMAC_CTRL_ACK(g_ms[1].tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Now SGSN sends some DL data to MS0, PCU will assign a GPRS DL TBF on PACCH */ BSSGP[0].send(ts_BSSGP_DL_UD(g_ms[0].tlli, data)); f_sleep(0.1); f_ms_rx_pkt_ass_pacch(g_ms[0], sched_fn, tr_RLCMAC_DL_PACKET_ASS); /* DL Ass sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(g_ms[0], ts_RLCMAC_CTRL_ACK(g_ms[0].tlli), sched_fn); /* After acking the dl assignment, dl tbf goes into FLOW state and PCU will provide DL data when BTS asks for it */ f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0, cs_gprs_any); /* ACK the DL block */ f_dltbf_ack_block(g_ms[0].dl_tbf, dl_block, '0'B); f_ms_tx_ul_block(g_ms[0], f_dltbf_ts_RLCMAC_DL_ACK_NACK(g_ms[0].dl_tbf, false), f_dl_block_ack_fn(dl_block, dl_fn)); /* Now SGSN sends some DL data to MS1, PCU will assign a EGPRS DL TBF on PACCH */ BSSGP[0].send(ts_BSSGP_DL_UD(g_ms[1].tlli, data)); f_sleep(0.1); f_ms_rx_pkt_ass_pacch(g_ms[1], sched_fn, tr_RLCMAC_DL_PACKET_ASS); /* DL Ass sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(g_ms[1], ts_RLCMAC_CTRL_ACK(g_ms[1].tlli), sched_fn); /* After acking the dl assignment, dl tbf goes into FLOW state and PCU will provide DL data when BTS asks for it */ f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0, mcs_egprs_any); /* ACK the DL block */ f_dltbf_ack_block(g_ms[1].dl_tbf, dl_block, '0'B); f_ms_tx_ul_block(g_ms[1], f_dltbf_ts_RLCMAC_DL_ACK_NACK(g_ms[1].dl_tbf, true), f_dl_block_ack_fn(dl_block, dl_fn)); data := f_rnd_octstring(1400); BSSGP[0].send(ts_BSSGP_DL_UD(g_ms[0].tlli, data)); BSSGP[0].send(ts_BSSGP_DL_UD(g_ms[1].tlli, data)); for (var integer i := 0; i < 800; i := i + 1) { f_rx_rlcmac_dl_block(dl_block, dl_fn); if (match(dl_block, tr_RLCMAC_DL_DUMMY_CTRL)) { /* No more data to receive, done */ break; } usf_ms := -1; if (ischosen(dl_block.ctrl)) { setverdict(fail, "Unexpected DL CTRL block ", dl_block); f_shutdown(__BFILE__, __LINE__); } else if (ischosen(dl_block.data_egprs)) { if (not match(dl_block.data_egprs.mac_hdr.tfi, g_ms[1].dl_tbf.tfi)) { setverdict(fail, "EGPRS DL DATA not matching EGPRS MS TFI (", g_ms[1].dl_tbf.tfi, "): ", dl_block.data_egprs.mac_hdr.tfi); f_shutdown(__BFILE__, __LINE__); } tgt_ms := 1; if (match(dl_block.data_egprs.mac_hdr.usf, g_ms[0].ul_tbf.usf[7])) { if (dl_block.data_egprs.mcs > MCS_4) { setverdict(fail, "Signalling USF ", dl_block.data_egprs.mac_hdr.usf, " for GPRS-only MS using MCS > 4: ", dl_block); f_shutdown(__BFILE__, __LINE__); } usf_ms := 0; ms_egprs_usf_count[usf_ms] := ms_egprs_usf_count[usf_ms] + 1; } else { if (dl_block.data_egprs.mcs <= MCS_4) { setverdict(fail, "Using too-low MCS for EGPRS MS: ", dl_block.data_egprs.mcs); f_shutdown(__BFILE__, __LINE__); } if (match(dl_block.data_egprs.mac_hdr.usf, g_ms[1].ul_tbf.usf[7])) { usf_ms := 1; ms_egprs_usf_count[usf_ms] := ms_egprs_usf_count[usf_ms] + 1; } } } else { if (not match(dl_block.data.mac_hdr.hdr_ext.tfi, g_ms[0].dl_tbf.tfi)) { setverdict(fail, "GPRS DL DATA not matching GPRS MS TFI (", g_ms[0].dl_tbf.tfi, "): ", dl_block.data.mac_hdr.hdr_ext.tfi); f_shutdown(__BFILE__, __LINE__); } tgt_ms := 0; if (match(dl_block.data.mac_hdr.mac_hdr.usf, g_ms[0].ul_tbf.usf[7])) { usf_ms := 0; ms_gprs_usf_count[usf_ms] := ms_gprs_usf_count[usf_ms] + 1; } else if (match(dl_block.data.mac_hdr.mac_hdr.usf, g_ms[1].ul_tbf.usf[7])) { usf_ms := 1; ms_gprs_usf_count[usf_ms] := ms_gprs_usf_count[usf_ms] + 1; } } /* Keep Ack/Nack description updated */ f_dltbf_ack_block(g_ms[tgt_ms].dl_tbf, dl_block); /* TDMA frame number on which we are supposed to send the ACK */ if (f_dl_block_rrbp_valid(dl_block)) { ack_fn := f_dl_block_ack_fn(dl_block, dl_fn); f_ms_tx_ul_block(g_ms[tgt_ms], f_dltbf_ts_RLCMAC_DL_ACK_NACK(g_ms[tgt_ms].dl_tbf, ischosen(dl_block.data_egprs)), ack_fn); if (tx_data_remain != 0) { /* Submit more data from time to time to keep the TBF ongoing */ BSSGP[0].send(ts_BSSGP_DL_UD(g_ms[0].tlli, data)); BSSGP[0].send(ts_BSSGP_DL_UD(g_ms[1].tlli, data)); tx_data_remain := tx_data_remain - 1; } } else if (tx_data_remain != 0) { /* keep sending UL blocks when requested by USF to avoid * UL TBF timeout and hence stop receival of USFs */ if (usf_ms != -1) { f_ms_tx_ul_data_block(g_ms[usf_ms], f_rnd_octstring(10), cv := 15); } } } log("results: ms_gprs_usf_count=", ms_gprs_usf_count, " / ms_egprs_usf_count=", ms_egprs_usf_count); /* He we check that DL blocks scheduled at GPRS can still request UL * blocks for EGPRS MS, and the other way around. Furthermore, the 2nd * condition also ensures the downgrade to <=MCS4 condition is tested * above */ if (ms_gprs_usf_count[1] == 0 or ms_egprs_usf_count[0] == 0) { setverdict(fail, "USF exchange thresholds not met!"); f_shutdown(__BFILE__, __LINE__); } /* Here check for some level of fairness between them (at least ~40%): */ var integer gprs_usf_cnt := ms_gprs_usf_count[0] + ms_egprs_usf_count[0]; var integer egprs_usf_cnt := ms_gprs_usf_count[1] + ms_egprs_usf_count[1]; var integer total_usf_cnt := gprs_usf_cnt + egprs_usf_cnt; if (gprs_usf_cnt < total_usf_cnt * 4 / 10) { setverdict(fail, "USF GPRS-only MS ", gprs_usf_cnt, " < ", total_usf_cnt * 4 / 10); f_shutdown(__BFILE__, __LINE__); } if (egprs_usf_cnt < total_usf_cnt * 4 / 10) { setverdict(fail, "USF EGPRS MS ", egprs_usf_cnt, " < ", total_usf_cnt * 4 / 10); f_shutdown(__BFILE__, __LINE__); } f_shutdown(__BFILE__, __LINE__, final := true); } private function f_TC_paging_cs_multi_ms(template (value) TsTrxBtsNum nr, boolean exp_imsi, boolean exp_tmsi) runs on RAW_PCU_Test_CT { var bitstring mask := f_pad_bit(''B, lengthof(g_ms), '0'B); var integer pending := lengthof(g_ms); var RlcmacDlBlock dl_block; var boolean f1, f2; while (pending > 0) { var uint32_t poll_fn; /* Obtain a Downlink block and make sure it is a paging request */ f_rx_rlcmac_dl_block(dl_block, poll_fn, nr := nr); if (not match(dl_block, tr_RLCMAC_PACKET_PAG_REQ)) { setverdict(fail, "Rx unexpected DL block: ", dl_block); break; } /* This should not happen in general, but who knows... */ var PacketPagingReq req := dl_block.ctrl.payload.u.paging; if (not ispresent(req.repeated_pageinfo)) { setverdict(fail, "Repeated Page Info IE is absent?!?"); break; } /* A single message may contain several MIs depending on their type */ for (var integer i := 0; i < lengthof(g_ms); i := i + 1) { f1 := exp_imsi and f_pkt_paging_match_imsi(req, g_ms[i].imsi, ps_domain := false); f2 := exp_tmsi and f_pkt_paging_match_tmsi(req, oct2int(g_ms[i].tlli), ps_domain := false); if (not f1 and not f2) { continue; } /* Detect duplicate MIs */ if (mask[i] == '1'B) { setverdict(fail, "MS is paged twice: ", g_ms[i].imsi); continue; } mask[i] := '1'B; } pending := pending - lengthof(req.repeated_pageinfo); } for (var integer i := 0; i < lengthof(mask); i := i + 1) { if (mask[i] != '1'B) { setverdict(fail, "MS was not paged at all: ", g_ms[i].imsi); log("===== mask := ", mask); } } /* All messages must have been received by now, expect a dummy block */ f_rx_rlcmac_dl_block_exp_dummy(dl_block, nr := nr); } private function f_TC_paging_cs_multi_ms_init(BIT8 pdch_mask) runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); const BssgpBvci bvci := mp_gb_cfg.bvc[0].bvci; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Explicitly set the given PDCH slot-mask to all transceivers */ f_PCUIF_PDCHMask_set(info_ind, pdch_mask); /* Allocate 56 GprsMS instances (maximum for 8 PDCH slots) */ f_init_gprs_ms(7 * 8); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_multi_ms_bssgp_register(); /* Establish an Uplink TBF for each GprsMS instance */ f_multi_ms_establish_tbf(do_activate := true); } testcase TC_paging_cs_multi_ms_imsi() runs on RAW_PCU_Test_CT { const BssgpBvci bvci := mp_gb_cfg.bvc[0].bvci; /* Common part: send INFO.ind, establish TBFs... */ f_TC_paging_cs_multi_ms_init(pdch_mask := '00000001'B); /* Enqueue multiple CS PAGING requests at a time (IMSI only) */ for (var integer i := 0; i < lengthof(g_ms); i := i + 1) { BSSGP[0].send(ts_BSSGP_CS_PAGING_IMSI(bvci, g_ms[i].imsi)); } /* FIXME: work around a race condition between PCUIF and BSSGP */ f_sleep(0.2); /* i.e. give the IUT some time to process everything */ /* Check what the IUT sends on PACCH, all GprsMS instances must be paged. * The IUT is expected to page on all PDCH slots of all transceivers. */ for (var integer trx_nr := 0; trx_nr < 8; trx_nr := trx_nr + 1) { var template (value) TsTrxBtsNum nr := ts_TsTrxBtsNum(7, trx_nr); f_TC_paging_cs_multi_ms(nr, exp_imsi := true, exp_tmsi := false); } f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_paging_cs_multi_ms_tmsi() runs on RAW_PCU_Test_CT { const BssgpBvci bvci := mp_gb_cfg.bvc[0].bvci; /* Common part: send INFO.ind, establish TBFs... */ f_TC_paging_cs_multi_ms_init(pdch_mask := '00000001'B); /* Enqueue multiple CS PAGING requests at a time (P-TMSI only) */ for (var integer i := 0; i < lengthof(g_ms); i := i + 1) { var GsmTmsi tmsi := oct2int(g_ms[i].tlli); /* P-TMSI == TLLI */ BSSGP[0].send(ts_BSSGP_CS_PAGING_PTMSI(bvci, g_ms[i].imsi, tmsi)); } /* FIXME: work around a race condition between PCUIF and BSSGP */ f_sleep(0.2); /* i.e. give the IUT some time to process everything */ /* Check what the IUT sends on PACCH, all GprsMS instances must be paged. * The IUT is expected to page on all PDCH slots of all transceivers. */ for (var integer trx_nr := 0; trx_nr < 8; trx_nr := trx_nr + 1) { var template (value) TsTrxBtsNum nr := ts_TsTrxBtsNum(7, trx_nr); f_TC_paging_cs_multi_ms(nr, exp_imsi := false, exp_tmsi := true); } f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_paging_cs_multi_ms_imsi_tmsi() runs on RAW_PCU_Test_CT { const BssgpBvci bvci := mp_gb_cfg.bvc[0].bvci; /* Common part: send INFO.ind, establish TBFs... */ f_TC_paging_cs_multi_ms_init(pdch_mask := '00000001'B); /* Enqueue multiple CS PAGING requests at a time (IMSI & P-TMSI) */ for (var integer i := 0; i < lengthof(g_ms); i := i + 1) { var GsmTmsi tmsi := oct2int(g_ms[i].tlli); /* P-TMSI == TLLI */ if (i mod 3 == 0) { /* One PDU fits: 1 IMSI and 2 P-TMSI MIs */ BSSGP[0].send(ts_BSSGP_CS_PAGING_PTMSI(bvci, g_ms[i].imsi, tmsi)); } else { BSSGP[0].send(ts_BSSGP_CS_PAGING_IMSI(bvci, g_ms[i].imsi)); } } /* FIXME: work around a race condition between PCUIF and BSSGP */ f_sleep(0.2); /* i.e. give the IUT some time to process everything */ /* Check what the IUT sends on PACCH, all GprsMS instances must be paged. * The IUT is expected to page on all PDCH slots of all transceivers. */ for (var integer trx_nr := 0; trx_nr < 8; trx_nr := trx_nr + 1) { var template (value) TsTrxBtsNum nr := ts_TsTrxBtsNum(7, trx_nr); f_TC_paging_cs_multi_ms(nr, exp_imsi := true, exp_tmsi := true); } f_shutdown(__BFILE__, __LINE__, final := true); } private function f_skip_dummy(integer max_num_iter, out uint32_t sched_fn) runs on RAW_PCU_Test_CT return RlcmacDlBlock { var RlcmacDlBlock dl_block; var integer i := 0; while (true) { f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_DUMMY_CTRL())) { break; } if (max_num_iter > 0 and i > max_num_iter) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } i := i + 1; } return dl_block; } private const GsmMcc c_BssgpCellMcc := '623'H; /* MCC: Central African Republic */ private const GsmMnc c_BssgpCellMnc := '03'H; /* MNC: Celca (Socatel) */ private template (value) BssgpCellId ts_BssgpCellIdDstAddr_default := { ra_id := { lai := { mcc_mnc := f_build_BcdMccMnc(c_BssgpCellMcc, c_BssgpCellMnc), lac := 423 }, rac := 2 }, cell_id := 5 } private function f_outbound_nacc_rim_tx_resp(PCUIF_info_ind info_ind) runs on RAW_PCU_Test_CT { /* Source Cell Identifier IE is generated by osmo-pcu based on the INFO.ind */ var BcdMccMnc src_mcc_mnc := f_build_BcdMccMnc_int(info_ind.mcc, info_ind.mnc, info_ind.mnc_3_digits == 1); var BssgpCellId src := valueof(ts_BssgpCellId(ts_RAI(ts_LAI(src_mcc_mnc, info_ind.lac), info_ind.rac), info_ind.cell_id)); /* Destination Cell Identifier IE is resolved by the testsuite itself (emulating BSC) */ var BssgpCellId dst := valueof(ts_BssgpCellIdDstAddr_default); var RIM_Routing_Address src_addr := valueof(t_RIM_Routing_Address_cid(src)); var RIM_Routing_Address dst_addr := valueof(t_RIM_Routing_Address_cid(dst)); var template (value) RAN_Information_RIM_Container 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(dst, false, 3, si_default)), omit); RIM.send(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)); } altstep as_outbound_nacc_rim_resolve(PCUIF_info_ind info_ind, boolean do_answer := true, boolean do_repeat := false) runs on RAW_PCU_Test_CT { /* Source Cell Identifier IE is generated by osmo-pcu based on the INFO.ind */ var BcdMccMnc src_mcc_mnc := f_build_BcdMccMnc_int(info_ind.mcc, info_ind.mnc, info_ind.mnc_3_digits == 1); var BssgpCellId src := valueof(ts_BssgpCellId(ts_RAI(ts_LAI(src_mcc_mnc, info_ind.lac), info_ind.rac), info_ind.cell_id)); /* Destination Cell Identifier IE is resolved by the testsuite itself (emulating BSC) */ var BssgpCellId dst := valueof(ts_BssgpCellIdDstAddr_default); var RIM_Routing_Address src_addr := valueof(t_RIM_Routing_Address_cid(src)); var RIM_Routing_Address dst_addr := valueof(t_RIM_Routing_Address_cid(dst)); [] RIM.receive(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)) { if (do_answer) { f_outbound_nacc_rim_tx_resp(info_ind); } if (do_repeat) { repeat; } } } private function f_ctrl_rx_nacc_rac_ci_req(out CtrlMessage ctrl_req, PCUIF_info_ind info_ind, GsmArfcn req_arfcn, uint6_t req_bsic) runs on RAW_PCU_Test_CT { var charstring ctrl_var := "neighbor_resolve_cgi_ps_from_lac_ci." & int2str(info_ind.lac) & "." & int2str(info_ind.cell_id) & "." & int2str(req_arfcn) & "." & int2str(req_bsic); f_ipa_ctrl_wait_link_up(); IPA_CTRL.receive(tr_CtrlMsgGet(?, ctrl_var)) -> value ctrl_req; } private function f_ctrl_tx_nacc_rac_ci_rsp(in CtrlMessage ctrl_req) runs on RAW_PCU_Test_CT { var BssgpCellId addr := valueof(ts_BssgpCellIdDstAddr_default); IPA_CTRL.send(ts_CtrlMsgGetRepl(ctrl_req.cmd.id, ctrl_req.cmd.variable, hex2str(c_BssgpCellMcc) & "-" & hex2str(c_BssgpCellMnc) & "-" & int2str(addr.ra_id.lai.lac) & "-" & int2str(addr.ra_id.rac) & "-" & int2str(addr.cell_id))); } private function f_pcuif_rx_nacc_rac_ci_req(out PCUIF_Message addr_req, PCUIF_info_ind info_ind, GsmArfcn req_arfcn, uint6_t req_bsic) runs on RAW_PCU_Test_CT { BTS.receive(tr_PCUIF_NEIGH_ADDR_REQ(0, info_ind.lac, info_ind.cell_id, req_arfcn, req_bsic)) -> value addr_req; } private function f_pcuif_tx_nacc_rac_ci_rsp(in PCUIF_Message addr_req) runs on RAW_PCU_Test_CT { var BssgpCellId addr := valueof(ts_BssgpCellIdDstAddr_default); BTS.send(ts_PCUIF_NEIGH_ADDR_CNF(0, addr_req.u.container.u.neigh_addr_req, 0, str2int(hex2str(c_BssgpCellMcc)), str2int(hex2str(c_BssgpCellMnc)), lengthof(c_BssgpCellMnc) - 2, addr.ra_id.lai.lac, addr.ra_id.rac, addr.cell_id)); } private function f_handle_nacc_rac_ci_query(PCUIF_info_ind info_ind, GsmArfcn req_arfcn, uint6_t req_bsic, boolean answer := true, boolean use_old_ctrl_iface := false) runs on RAW_PCU_Test_CT { if (use_old_ctrl_iface == true) { var CtrlMessage ctrl_req; f_ctrl_rx_nacc_rac_ci_req(ctrl_req, info_ind, req_arfcn, req_bsic); if (answer) { f_ctrl_tx_nacc_rac_ci_rsp(ctrl_req); } } else { var PCUIF_Message pcuif_req; f_pcuif_rx_nacc_rac_ci_req(pcuif_req, info_ind, req_arfcn, req_bsic); if (answer) { f_pcuif_tx_nacc_rac_ci_rsp(pcuif_req); } } } private function f_outbound_nacc_success_no_si(inout GprsMS ms, PCUIF_info_ind info_ind, boolean exp_rac_ci_query := true, boolean exp_si_query := true, boolean skip_final_ctrl_ack := false, boolean use_old_ctrl_iface := false, template (value) RlcmacUlCtrlMsg cell_chg_notif) runs on RAW_PCU_Test_CT { var template RlcmacDlCtrlMsg cell_chg_cont; var RlcmacDlBlock dl_block; var uint32_t sched_fn; /* Start NACC from MS side */ f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* Obtain a Downlink block and make sure it is a PacketCellChangeContine. We also make sure that this * PacketCellChangeContine message does not contain any ARFCN/BSIC. */ f_rx_rlcmac_dl_block(dl_block, sched_fn); cell_chg_cont := tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE cell_chg_cont.u.cell_chg_continue.arfcn_bsic_presence := '0'B if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, cell_chg_cont))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (not skip_final_ctrl_ack and dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } } /* Start NACC from MS side, propose an UTRAN cell */ private function f_outbound_nacc_success_utran(inout GprsMS ms, PCUIF_info_ind info_ind, boolean exp_rac_ci_query := true, boolean exp_si_query := true, boolean skip_final_ctrl_ack := false, boolean use_old_ctrl_iface := false) runs on RAW_PCU_Test_CT { var template (value) RlcmacUlCtrlMsg cell_chg_notif; var uint14_t req_uarfcn := 1234; var uint10_t req_scrambling_code := 456; /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF_UTRAN(ms.ul_tbf.tfi, req_uarfcn, req_scrambling_code); f_outbound_nacc_success_no_si(ms, info_ind, exp_rac_ci_query, exp_si_query, skip_final_ctrl_ack, use_old_ctrl_iface, cell_chg_notif); } /* Start NACC from MS side, propose an E-UTRAN cell */ private function f_outbound_nacc_success_eutran(inout GprsMS ms, PCUIF_info_ind info_ind, boolean exp_rac_ci_query := true, boolean exp_si_query := true, boolean skip_final_ctrl_ack := false, boolean use_old_ctrl_iface := false) runs on RAW_PCU_Test_CT { var template (value) RlcmacUlCtrlMsg cell_chg_notif; var uint16_t req_earfcn := 1234; var uint9_t phys_layer_cell_id := 456; /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF_EUTRAN(ms.ul_tbf.tfi, req_earfcn, phys_layer_cell_id); f_outbound_nacc_success_no_si(ms, info_ind, exp_rac_ci_query, exp_si_query, skip_final_ctrl_ack, use_old_ctrl_iface, cell_chg_notif); } /* Start NACC from MS side, propose a GERAN cell */ private function f_outbound_nacc_success_geran(inout GprsMS ms, PCUIF_info_ind info_ind, boolean exp_rac_ci_query := true, boolean exp_si_query := true, boolean skip_final_ctrl_ack := false, boolean use_old_ctrl_iface := false) runs on RAW_PCU_Test_CT { var template (value) RlcmacUlCtrlMsg cell_chg_notif; var template RlcmacDlCtrlMsg cell_chg_cont; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); if (exp_rac_ci_query == true) { /* osmo-pcu should now ask for resolution: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn, req_bsic, true, use_old_ctrl_iface); } if (exp_si_query == true) { /* RIM procedure: */ as_outbound_nacc_rim_resolve(info_ind); } /* Announce SI back to MS, continue NACC procedure */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default); /* Obtain a Downlink block and make sure it is a PacketCellChangeContinue, also verify that * the PacketCellChangeContinue message contains the ARFCN and BSIC which was proposed in * the PacketCellChangeNotification before. */ f_rx_rlcmac_dl_block(dl_block, sched_fn); cell_chg_cont := tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE cell_chg_cont.u.cell_chg_continue.arfcn_bsic_presence := '1'B cell_chg_cont.u.cell_chg_continue.arfcn := req_arfcn; cell_chg_cont.u.cell_chg_continue.bsic := req_bsic; if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, cell_chg_cont))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (not skip_final_ctrl_ack and dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } } type enumerated f_TC_nacc_outbound_success_ran_type { NACC_RAN_GERAN, NACC_RAN_UTRAN, NACC_RAN_EUTRAN } /* Verify PCU handles outbound Network Assisted Cell Change Cell Change (NACC, TS 44.060 sec 8.8). */ function f_TC_nacc_outbound_success(f_TC_nacc_outbound_success_ran_type ran_type) runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ if (ran_type == NACC_RAN_GERAN) { f_outbound_nacc_success_geran(ms, info_ind, use_old_ctrl_iface := use_old_ctrl_iface); } else if (ran_type == NACC_RAN_UTRAN) { f_outbound_nacc_success_utran(ms, info_ind, use_old_ctrl_iface := use_old_ctrl_iface); } else if (ran_type == NACC_RAN_EUTRAN) { f_outbound_nacc_success_eutran(ms, info_ind, use_old_ctrl_iface := use_old_ctrl_iface); } f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_nacc_outbound_success() runs on RAW_PCU_Test_CT { f_TC_nacc_outbound_success(NACC_RAN_GERAN); } testcase TC_nacc_outbound_success_utran() runs on RAW_PCU_Test_CT { f_TC_nacc_outbound_success(NACC_RAN_UTRAN); } testcase TC_nacc_outbound_success_eutran() runs on RAW_PCU_Test_CT { f_TC_nacc_outbound_success(NACC_RAN_EUTRAN); } /* Verify Pkt Cell Change Continue is retransmitted if not CTRL ACKed */ testcase TC_nacc_outbound_success_no_ctrl_ack() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side, avoid sending final CTRL ACK */ f_outbound_nacc_success_geran(ms, info_ind, skip_final_ctrl_ack := true, use_old_ctrl_iface := use_old_ctrl_iface); /* Wait until we receive something non-dummy */ dl_block := f_skip_dummy(0, sched_fn); /* Make sure it is a Pkt Cell Chg Continue (retransmitted)*/ if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify PCU handles outbound Network Assisted Cell Change Cell Change (NACC, TS 44.060 sec 8.8) twice, the second time using the caches */ testcase TC_nacc_outbound_success_twice() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Set timeout values for caches so that entries will be in cache during second try */ f_pcuvty_set_neigh_caches(10, 10); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ f_outbound_nacc_success_geran(ms, info_ind, use_old_ctrl_iface := use_old_ctrl_iface); /* First NACC procedure is done, let's try to start a new one now that previous queries are cached: */ f_outbound_nacc_success_geran(ms, info_ind, false, false, use_old_ctrl_iface := use_old_ctrl_iface); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify PCU handles outbound Network Assisted Cell Change Cell Change (NACC, * TS 44.060 sec 8.8) twice, the second time after caches timed out */ testcase TC_nacc_outbound_success_twice_nocache() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Set timeout values for caches so that entries will be erased before the second try */ f_pcuvty_set_neigh_caches(1, 1); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ f_outbound_nacc_success_geran(ms, info_ind, use_old_ctrl_iface := use_old_ctrl_iface); /* CTRL client should have disconnected from us */ f_ipa_ctrl_wait_link_down(); /* wait for cache entries to time out */ f_sleep(2.0); /* First NACC procedure is done, let's try to start a new one now that previous queries have timed out: */ f_outbound_nacc_success_geran(ms, info_ind, use_old_ctrl_iface := use_old_ctrl_iface); f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify PCU transmits Pkt Cell Change Continue if RAC+CI resolution fails during outbound NACC procedure */ testcase TC_nacc_outbound_rac_ci_resolve_conn_refused() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var PollFnCtx pollctx; var uint32_t sched_fn; var GprsMS ms; var template (value) RlcmacUlCtrlMsg cell_chg_notif; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; /* In here we explicitly avoid starting osmo-bsc emulation neighbor * resolution CTRL port, to trigger Conn Refused by socket: * f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); */ /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* Wait until we receive something non-dummy */ dl_block := f_skip_dummy(0, sched_fn); /* Make sure it is a Pkt Cell Chg Continue */ if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify PCU transmits Pkt Cell Change Continue if RAC+CI resolution fails during outbound NACC procedure */ testcase TC_nacc_outbound_rac_ci_resolve_timeout() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var PollFnCtx pollctx; var uint32_t sched_fn; var GprsMS ms; var template (value) RlcmacUlCtrlMsg cell_chg_notif; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ /* we receive RAC+CI resolution request, but we never answer to it, timeout should occur */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn, req_bsic, false, use_old_ctrl_iface); /* Wait until we receive something non-dummy */ dl_block := f_skip_dummy(0, sched_fn); /* Make sure it is a Pkt Cell Chg Continue */ if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify PCU transmits Pkt Cell Change Continue if RAC+CI resolution fails during outbound NACC procedure */ testcase TC_nacc_outbound_rac_ci_resolve_fail_parse_response() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var PollFnCtx pollctx; var uint32_t sched_fn; var GprsMS ms; var template (value) RlcmacUlCtrlMsg cell_chg_notif; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ f_ipa_ctrl_wait_link_up(); var charstring ctrl_var := "neighbor_resolve_cgi_ps_from_lac_ci." & int2str(info_ind.lac) & "." & int2str(info_ind.cell_id) & "." & int2str(req_arfcn) & "." & int2str(req_bsic); /* we receive RAC+CI resolution request and we send incorrectly formated response */ f_ctrl_exp_get(IPA_CTRL, ctrl_var, "foobar-error"); /* Wait until we receive something non-dummy */ dl_block := f_skip_dummy(0, sched_fn); /* Make sure it is a Pkt Cell Chg Continue */ if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify PCU transmits Pkt Cell Change Continue if SI resolution fails during outbound NACC procedure */ testcase TC_nacc_outbound_si_resolve_timeout() runs on RAW_PCU_Test_CT { var RlcmacDlBlock dl_block; var PollFnCtx pollctx; var uint32_t sched_fn; var GprsMS ms; var template (value) RlcmacUlCtrlMsg cell_chg_notif; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn, req_bsic, true, use_old_ctrl_iface); /* RIM procedure: */ as_outbound_nacc_rim_resolve(info_ind, do_answer := false); /* We never answer the RIM procude -> PCU timeouts and should send Pkt Cell Chg continue */ /* Wait until we receive something non-dummy */ dl_block := f_skip_dummy(0, sched_fn); /* Make sure it is a Pkt Cell Chg Continue */ if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test MS sending Pkt Cell Change Notify twice (duplicate msg) while waiting for CTRL resolution */ testcase TC_nacc_outbound_pkt_cell_chg_notif_dup() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var CtrlMessage rx_ctrl; var charstring ctrl_var; var PCUIF_Message pcu_msg; var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ if (use_old_ctrl_iface) { f_ctrl_rx_nacc_rac_ci_req(rx_ctrl, info_ind, req_arfcn, req_bsic); } else { f_pcuif_rx_nacc_rac_ci_req(pcu_msg, info_ind, req_arfcn, req_bsic); } /* Before receiving CTRL response, MS retransmits Pkt cell Chg Notif */ f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); f_sleep(0.2); /* let some time to avoid race conditons between CTRL and RLCMAC */ if (use_old_ctrl_iface) { f_ctrl_tx_nacc_rac_ci_rsp(rx_ctrl); } else { f_pcuif_tx_nacc_rac_ci_rsp(pcu_msg); } timer T := 2.0; T.start; alt { [] as_outbound_nacc_rim_resolve(info_ind, do_repeat := true); [use_old_ctrl_iface] IPA_CTRL.receive(tr_CtrlMsgGet(?, ctrl_var)) -> value rx_ctrl { setverdict(fail, "Received unexpected CTRL resolution after duplicate Pkt Cell Change Notification:", rx_ctrl); f_shutdown(__BFILE__, __LINE__); } [not use_old_ctrl_iface] BTS.receive(tr_PCUIF_NEIGH_ADDR_REQ(0, info_ind.lac, info_ind.cell_id, req_arfcn, req_bsic)) -> value pcu_msg { setverdict(fail, "Received unexpected PCUIF resolution after duplicate Pkt Cell Change Notification:", pcu_msg); f_shutdown(__BFILE__, __LINE__); } [] T.timeout { setverdict(pass); } } /* Announce SI back to MS, continue NACC procedure */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default); /* Obtain a Downlink block and make sure it is a Pkt Cell Chg Continue */ f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test MS sending Pkt Cell Change Notify twice (duplicate msg) while waiting for SI resolution */ testcase TC_nacc_outbound_pkt_cell_chg_notif_dup2() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var CtrlMessage rx_ctrl; var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn, req_bsic, true, use_old_ctrl_iface); as_outbound_nacc_rim_resolve(info_ind, do_answer := false); /* Before receiving RIM response, MS retransmits Pkt cell Chg Notif */ f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); f_sleep(0.2); /* let some time to avoid race conditons between CTRL and RLCMAC */ f_outbound_nacc_rim_tx_resp(info_ind); timer T := 1.0; T.start; alt { [] RIM.receive { setverdict(fail, "Received unexpected RIM message"); f_shutdown(__BFILE__, __LINE__); } [] T.timeout { setverdict(pass); } } /* Announce SI back to MS, continue NACC procedure */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default); /* Obtain a Downlink block and make sure it is a Pkt Cell Chg Continue */ f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test MS sending Pkt Cell Change Notification twice (duplicate msg) while sending Pkt Neigh Data Change */ testcase TC_nacc_outbound_pkt_cell_chg_notif_dup3() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var CtrlMessage rx_ctrl; var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn, req_bsic, true, use_old_ctrl_iface); /* RIM procedure: */ as_outbound_nacc_rim_resolve(info_ind); /* Receive first Pkt Neigh data Change, then trigger a new Pkt Cell Change Notif: */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default, single_step := true); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* It should be ignored, let's continue fetching Pkt Neigh Data Change */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default, f_ms_tx_TsTrxBtsNum(ms), 1, 16); /* Obtain a Downlink block and make sure it is a Pkt Cell Chg Continue */ f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test MS sending Pkt Cell Change Notification twice (duplicate msg) while sending Pkt Cell Change Continue */ testcase TC_nacc_outbound_pkt_cell_chg_notif_dup4() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var CtrlMessage rx_ctrl; var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn, req_bsic, true, use_old_ctrl_iface); /* RIM procedure: */ as_outbound_nacc_rim_resolve(info_ind); /* Announce SI back to MS, continue NACC procedure */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default); /* trigger a dup Pkt Cell Change Notif, it should be ignored: */ f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* Obtain a Downlink block and make sure it is a Pkt Cell Chg Continue */ f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test MS sending Pkt Cell Change Notification twice (duplicate msg) while waiting for Pkt Cell Change Continue CTRL ACK */ testcase TC_nacc_outbound_pkt_cell_chg_notif_dup5() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var CtrlMessage rx_ctrl; var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn, req_bsic, true, use_old_ctrl_iface); /* RIM procedure: */ as_outbound_nacc_rim_resolve(info_ind); /* Announce SI back to MS, continue NACC procedure */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default); /* Obtain a Downlink block and make sure it is a Pkt Cell Chg Continue */ f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* trigger a dup Pkt Cell Change Notif, it should be ignored: */ f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test MS sending Pkt Cell Change Notify twice (different tgt cell each time) * while waiting for CTRL resolution */ testcase TC_nacc_outbound_pkt_cell_chg_notif_twice() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var CtrlMessage rx_ctrl; var charstring ctrl_var; var PCUIF_Message pcu_msg; var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ if (use_old_ctrl_iface) { f_ctrl_rx_nacc_rac_ci_req(rx_ctrl, info_ind, req_arfcn, req_bsic); } else { f_pcuif_rx_nacc_rac_ci_req(pcu_msg, info_ind, req_arfcn, req_bsic); } /* Before receiving CTRL response, MS retransmits Pkt cell Chg Notif with different tgt arfcn */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn + 1, req_bsic + 1); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); f_sleep(0.2); /* let some time to avoid race conditons between CTRL and RLCMAC */ if (use_old_ctrl_iface) { f_ctrl_tx_nacc_rac_ci_rsp(rx_ctrl); } else { f_pcuif_tx_nacc_rac_ci_rsp(pcu_msg); } /* We should now receive a 2nd CTRL request with the new ARFCN+BSIC */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn + 1, req_bsic + 1, true, use_old_ctrl_iface); /* And finally everything continues as usual with RIN procedure */ as_outbound_nacc_rim_resolve(info_ind); /* Announce SI back to MS, continue NACC procedure */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default); /* Obtain a Downlink block and make sure it is a Pkt Cell Chg Continue */ f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test MS sending Pkt Cell Change Notify twice (different tgt cell each time) * while waiting for SI resolution */ testcase TC_nacc_outbound_pkt_cell_chg_notif_twice2() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var CtrlMessage rx_ctrl; var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn, req_bsic, true, use_old_ctrl_iface); as_outbound_nacc_rim_resolve(info_ind, do_answer := false); /* Before receiving RIM response, MS retransmits Pkt cell Chg Notif with different tgt cell: */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn + 1, req_bsic + 1); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); f_sleep(0.2); /* let some time to avoid race conditons between CTRL and RLCMAC */ f_outbound_nacc_rim_tx_resp(info_ind); /* As a result, CTRL + RIM resolution for new tgt cell should now be done: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn + 1, req_bsic + 1, true, use_old_ctrl_iface); /* And finally everything continues as usual with RIN procedure */ as_outbound_nacc_rim_resolve(info_ind); /* Announce SI back to MS, continue NACC procedure */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default); /* Obtain a Downlink block and make sure it is a Pkt Cell Chg Continue */ f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test MS sending Pkt Cell Change Notify twice (different tgt cell each time) * while sending Pkt Neigh Data Change */ testcase TC_nacc_outbound_pkt_cell_chg_notif_twice3() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var CtrlMessage rx_ctrl; var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn, req_bsic, true, use_old_ctrl_iface); /* RIM procedure: */ as_outbound_nacc_rim_resolve(info_ind); /* Receive first Pkt Neigh data Change, then trigger a new Pkt Cell Change Notif (different ARFCN+BSIC): */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default, single_step := true); cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn + 1, req_bsic + 1); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* It should trigger RAC_CI resolution to start again: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn + 1, req_bsic + 1, true, use_old_ctrl_iface); /* RIM procedure: */ as_outbound_nacc_rim_resolve(info_ind); /* Transmit SI back to MS */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default); /* Obtain a Downlink block and make sure it is a Pkt Cell Chg Continue */ f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test MS sending Pkt Cell Change Notification twice (different tgt cell) while sending Pkt Cell Change Continue */ testcase TC_nacc_outbound_pkt_cell_chg_notif_twice4() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var CtrlMessage rx_ctrl; var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn, req_bsic, true, use_old_ctrl_iface); /* RIM procedure: */ as_outbound_nacc_rim_resolve(info_ind); /* Announce SI back to MS, continue NACC procedure */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default); /* trigger a Pkt Cell Change Notif with different tgt cell */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn + 1, req_bsic + 1); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* It should trigger RAC_CI resolution to start again: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn + 1, req_bsic + 1, true, use_old_ctrl_iface); /* PCU TBF NACC state changed, so we should next receive a dummy block: */ f_rx_rlcmac_dl_block_exp_dummy(dl_block, nr := f_ms_tx_TsTrxBtsNum(ms)); /* RIM procedure: */ as_outbound_nacc_rim_resolve(info_ind); /* Transmit SI back to MS */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default); /* Obtain a Downlink block and make sure it is a Pkt Cell Chg Continue */ f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test MS sending Pkt Cell Change Notification twice (different tgt cell) while waiting for Pkt Cell Change Continue CTRL ACK*/ testcase TC_nacc_outbound_pkt_cell_chg_notif_twice5() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var RlcmacDlBlock dl_block; var uint32_t sched_fn; var CtrlMessage rx_ctrl; var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn, req_bsic, true, use_old_ctrl_iface); /* RIM procedure: */ as_outbound_nacc_rim_resolve(info_ind); /* Announce SI back to MS, continue NACC procedure */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default); /* Obtain a Downlink block and make sure it is a Pkt Cell Chg Continue */ f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* trigger a Pkt Cell Change Notif with different tgt cell */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn + 1, req_bsic + 1); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* It should trigger RAC_CI resolution to start again: */ /* When using new PCUIF interface for resolution, we must * PCUIF.receive() here since that's the first message in the PCUIF * queue that PCU will have sent. Calling other functions doing * PCUIF.receive() (like f_ms_tx_ul_block() below) will make them fail * due to unexpected message receive. */ if (not use_old_ctrl_iface) { f_handle_nacc_rac_ci_query(info_ind, req_arfcn + 1, req_bsic + 1, true, use_old_ctrl_iface); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } /* When using CTRL interface, we must schedule the ACK before (see * above) blocking here waiting for the resoltion, otherwise we'll be * too late scheduling by the time the resolution is done. */ if (use_old_ctrl_iface) { f_handle_nacc_rac_ci_query(info_ind, req_arfcn + 1, req_bsic + 1, true, use_old_ctrl_iface); } /* PCU TBF NACC state changed, so we should next receive a dummy block: */ f_rx_rlcmac_dl_block_exp_dummy(dl_block); /* RIM procedure: */ as_outbound_nacc_rim_resolve(info_ind); /* Transmit SI back to MS */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default); /* Obtain a Downlink block and make sure it is a Pkt Cell Chg Continue */ f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test MS sending Pkt Cell Change Notification on an MS with an existing but unassigned (no TFI) DL TBF */ testcase TC_nacc_outbound_pkt_cell_chg_notif_unassigned_dl_tbf() runs on RAW_PCU_Test_CT { var PollFnCtx pollctx; var GprsMS ms; var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); var template (value) RlcmacUlCtrlMsg cell_chg_notif; var RlcmacDlBlock dl_block; var uint32_t sched_fn, dl_fn; var CtrlMessage rx_ctrl; var GsmArfcn req_arfcn := 862; var uint6_t req_bsic := 43; var octetstring data := f_rnd_octstring(10); var boolean use_old_ctrl_iface := mp_ctrl_neigh_ip != ""; if (use_old_ctrl_iface) { /* Initialize osmo-bsc emulation neighbor resolution CTRL port */ f_ipa_ctrl_start_server(mp_ctrl_neigh_ip, mp_ctrl_neigh_port); } /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize GPRS MS side */ f_init_gprs_ms(); ms := g_ms[0]; /* We only use first MS in this test */ /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Make sure we are not affected by full cache from previous tests */ f_pcuvty_flush_neigh_caches(); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* Send PACKET RESOURCE REQUEST */ pollctx := f_ms_establish_ul_tbf_2phase_access(ms, ts_RlcMacUlCtrl_PKT_RES_REQ(ms.tlli, ms_racap_gprs_def)); /* Pkt Uplink Assignment above sets poll+rrbp requesting PACKET CONTROL ACK */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), pollctx.fn, nr := pollctx.tstrxbts); /* Start NACC from MS side */ cell_chg_notif := ts_RlcMacUlCtrl_PKT_CELL_CHG_NOTIF(ms.ul_tbf.tfi, req_arfcn, req_bsic); f_ms_tx_ul_block(ms, ts_RLC_UL_CTRL_ACK(cell_chg_notif), 0, nr := f_ms_tx_TsTrxBtsNum(ms)); /* osmo-pcu should now ask for resolution: */ f_handle_nacc_rac_ci_query(info_ind, req_arfcn, req_bsic, true, use_old_ctrl_iface); /* RIM procedure: */ as_outbound_nacc_rim_resolve(info_ind); BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data)); /* Make sure we leave some time for SGSN->PCU data to arrive to PCU */ f_sleep(0.1); /* rx DL assignment, don't ack it yet (keep TBF in state ASSIGN): */ f_ms_rx_pkt_ass_pacch(ms, sched_fn, tr_RLCMAC_DL_PACKET_ASS); /* NACC: scheduler selects tx Pkt Cell Neighbor Data. Receive first one: */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default, single_step := true); /* ACK DL assignment (we do it here on purpose to test tx Pkt Neigh Cell * Data with unassigned DL TBF in line above): */ f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); /* Continue receiving Pkt Cell Neighbor Data */ f_ms_handle_pkt_neighbor_cell_data(ms, si_default, f_ms_tx_TsTrxBtsNum(ms), 1, 16); /* Obtain a Downlink block and make sure it is a Pkt Cell Chg Continue */ f_rx_rlcmac_dl_block(dl_block, sched_fn); if (not match(dl_block, tr_RLCMAC_DL_CTRL(?, tr_RlcMacDlCtrl_PKT_CELL_CHG_CONTINUE))) { setverdict(fail, "Rx unexpected DL block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } /* PKT CELL CHG CONTINUE ACK/NACK sets poll+rrbp requesting PACKET CONTROL ACK */ if (dl_block.ctrl.mac_hdr.rrbp_valid) { sched_fn := f_rrbp_ack_fn(sched_fn, dl_block.ctrl.mac_hdr.rrbp); f_ms_tx_ul_block(ms, ts_RLCMAC_CTRL_ACK(ms.tlli), sched_fn); } /* Now that we confirmed the new assignment in the dl-tbf, lets receive the data and ack it */ f_rx_rlcmac_dl_block_exp_data(dl_block, dl_fn, data, 0); f_acknackdesc_ack_block(ms.dl_tbf.acknack_desc, dl_block, '1'B); f_ms_tx_ul_block(ms, ts_RLCMAC_DL_ACK_NACK(ms.dl_tbf.tfi, ms.dl_tbf.acknack_desc), f_dl_block_ack_fn(dl_block, dl_fn)); f_shutdown(__BFILE__, __LINE__, final := true); } function f_do_inbound_nacc(template (value) RIM_Routing_Information tx_src_addr, template RIM_Routing_Information rx_dst_addr) runs on RAW_PCU_Test_CT { var template (value) RAN_Information_Request_RIM_Container req_cont; var template (value) PDU_BSSGP bssgp_rim_pdu; var template PDU_BSSGP bssgp_rim_pdu_expect; var template RAN_Information_RIM_Container rim_cont_expect; var RIM_Routing_Address bts_addr; /* Send sysinfo to the PCU */ var template PCUIF_Message si1_data_ind := ts_PCUIF_DATA_IND(0, 0, 0, 0, PCU_IF_SAPI_BCCH, '5506'O & si1_default, 0, 0, 0, 0, 32767); BTS.send(si1_data_ind); var template PCUIF_Message si3_data_ind := ts_PCUIF_DATA_IND(0, 0, 0, 0, PCU_IF_SAPI_BCCH, '4906'O & si3_default, 0, 0, 0, 0, 32767); BTS.send(si3_data_ind); var template PCUIF_Message si13_data_ind := ts_PCUIF_DATA_IND(0, 0, 0, 0, PCU_IF_SAPI_BCCH, '0106'O & si13_default, 0, 0, 0, 0, 32767); BTS.send(si13_data_ind); f_sleep(1.0); bts_addr := valueof(t_RIM_Routing_Address_cid(mp_gb_cfg.bvc[0].cell_id)); 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(mp_gb_cfg.bvc[0].cell_id), omit); bssgp_rim_pdu := ts_RAN_INFORMATION_REQUEST(ts_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, bts_addr), tx_src_addr, req_cont); rim_cont_expect := tr_RAN_Information_RIM_Container(tr_RIM_Application_Identity(RIM_APP_ID_NACC), tr_RIM_Sequence_Number(1), tr_RIM_PDU_Indications(false, RIM_PDU_TYPE_SING_REP), tr_RIM_Protocol_Version_Number(1), tru_ApplContainer_or_ApplErrContainer_NACC(tru_ApplContainer_NACC(mp_gb_cfg.bvc[0].cell_id, false, 3, si_default)), omit); bssgp_rim_pdu_expect := tr_PDU_BSSGP_RAN_INFORMATION(rx_dst_addr, tr_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, bts_addr), rim_cont_expect); RIM.send(bssgp_rim_pdu); timer T := 2.0; T.start; alt { [] RIM.receive(bssgp_rim_pdu_expect) { } [] RIM.receive { setverdict(fail, "Unexpected BSSGP RIM PDU received"); } [] T.timeout { setverdict(fail, "No BSSGP RIM PDU received"); mtc.stop; } } } /* Send a RIM RAN info request to the PCU and verify the response, we expect * getting the system information back which we have transfered to the PCU via * PCUIF on startup. */ testcase TC_rim_ran_info_req_single_rep() runs on RAW_PCU_Test_CT { /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); var BssgpCellId src_cid := {ra_id := { lai := { mcc_mnc := '262F42'H, lac := 12345}, rac := 0 }, cell_id := 20962 }; var RIM_Routing_Address src_addr := valueof(t_RIM_Routing_Address_cid(src_cid)); f_do_inbound_nacc(ts_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, src_addr), tr_RIM_Routing_Information(RIM_ADDR_GERAN_CELL_ID, src_addr)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Same as TC_rim_ran_info_req_single_rep, but using an EUTRAN eNodeB ID as * Routing information, to verify PCU handles that kind of address just fine */ testcase TC_rim_ran_info_req_single_rep_eutran() runs on RAW_PCU_Test_CT { /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename()); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); var BssgpCellId src_cid := {ra_id := { lai := { mcc_mnc := '262F42'H, lac := 12345}, rac := 0 }, cell_id := 20962 }; var RIM_Routing_Address src_addr := valueof(t_RIM_Routing_Address_enbid(src_cid, tac := 3, gnbid := '12345678123456'O)); f_do_inbound_nacc(ts_RIM_Routing_Information(RIM_ADDR_EUTRAN_NODEB_ID, src_addr), tr_RIM_Routing_Information(RIM_ADDR_EUTRAN_NODEB_ID, src_addr)); f_shutdown(__BFILE__, __LINE__, final := true); } /* Same as above, but in this case we simulate the rare case in which the PCU * has no system information available. We expect getting a response back but * with no system information inside. */ testcase TC_rim_ran_info_req_single_rep_no_si() runs on RAW_PCU_Test_CT { var template (value) PCUIF_info_ind info_ind := ts_PCUIF_INFO_default; var PCUIF_Message pcu_msg; timer T := 2.0; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); /* Clear sysinfo from the PCU */ var template PCUIF_Message si1_data_ind := ts_PCUIF_DATA_IND(0, 0, 0, 0, PCU_IF_SAPI_BCCH, '01'O, 0, 0, 0, 0, 32767); BTS.send(si1_data_ind); var template PCUIF_Message si3_data_ind := ts_PCUIF_DATA_IND(0, 0, 0, 0, PCU_IF_SAPI_BCCH, '03'O, 0, 0, 0, 0, 32767); BTS.send(si3_data_ind); var template PCUIF_Message si16_data_ind := ts_PCUIF_DATA_IND(0, 0, 0, 0, PCU_IF_SAPI_BCCH, '0b'O, 0, 0, 0, 0, 32767); BTS.send(si16_data_ind); f_sleep(1.0); var RIM_Routing_Address dst_addr; var RIM_Routing_Address src_addr; var template (value) RAN_Information_Request_RIM_Container req_cont; var template (value) PDU_BSSGP bssgp_rim_pdu; var template PDU_BSSGP bssgp_rim_pdu_expect; var template RAN_Information_RIM_Container rim_cont_expect; var BssgpCellId src_cid := {ra_id := { lai := { mcc_mnc := '262F42'H, lac := 12345}, rac := 0 }, cell_id := 20962 }; src_addr := valueof(t_RIM_Routing_Address_cid(src_cid)); dst_addr := valueof(t_RIM_Routing_Address_cid(mp_gb_cfg.bvc[0].cell_id)); 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(mp_gb_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); rim_cont_expect := tr_RAN_Information_RIM_Container(tr_RIM_Application_Identity(RIM_APP_ID_NACC), tr_RIM_Sequence_Number(1), tr_RIM_PDU_Indications(false, RIM_PDU_TYPE_SING_REP), tr_RIM_Protocol_Version_Number(1), tru_ApplContainer_or_ApplErrContainer_NACC(tru_ApplContainer_NACC(mp_gb_cfg.bvc[0].cell_id, false, 0, ''O)), omit); 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_cont_expect); RIM.send(bssgp_rim_pdu); T.start; alt { [] RIM.receive(bssgp_rim_pdu_expect) { } [] RIM.receive { setverdict(fail, "Unexpected BSSGP RIM PDU received"); } [] T.timeout { setverdict(fail, "No BSSGP RIM PDU received"); mtc.stop; } } f_shutdown(__BFILE__, __LINE__, final := true); } /* Verify PCU schedule idle blocks (len=0) if no TBF attached to it. See OS#4772, SYS#4919 */ testcase TC_pdch_energy_saving() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var template (value) TsTrxBtsNum nr; var RlcmacDlBlock dl_block; var BTS_PDTCH_Block data_msg; var integer ts; timer T; /* Initialize NS/BSSGP side */ f_init_bssgp(); info_ind := valueof(ts_PCUIF_INFO_default); /* The 2 first TRX are enabled. */ f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (2 .. 7)); f_PCUIF_PDCHMask_set(info_ind, '00000001'B, 0); f_PCUIF_PDCHMask_set(info_ind, '00000001'B, 1); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Establish BSSGP connection to the PCU */ f_bssgp_establish(); for (ts := 0; ts < 2; ts := ts + 1) { nr := ts_TsTrxBtsNum(ts_nr := 7, trx_nr := ts, bts_nr := 0, blk_nr := 0); BTS.send(ts_PCUIF_RTS_REQ(nr.bts_nr, nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH, fn := 0, arfcn := f_trxnr2arfcn(valueof(nr.trx_nr)), block_nr := nr.blk_nr)); T.start(0.5); alt { [] BTS.receive(tr_PCUIF_DATA_PDTCH(nr.bts_nr, tr_PCUIF_DATA(nr.trx_nr, nr.ts_nr, sapi := PCU_IF_SAPI_PDTCH), omit)) -> value data_msg { setverdict(pass); T.stop; } [] as_rx_fail_dummy(nr); [] BTS.receive { setverdict(fail, "Unexpected block from BTS"); f_shutdown(__BFILE__, __LINE__); } [] T.timeout { setverdict(fail, "Expected IDLE block from BTS"); f_shutdown(__BFILE__, __LINE__); } } } f_shutdown(__BFILE__, __LINE__, final := true); } /* Test stats for available and occupied PDCHs */ testcase TC_stat_pdch_avail_occ() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); const BssgpBvci bvci := mp_gb_cfg.bvc[0].bvci; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Only the 4 first TRX are enabled, each with 2 PDCHs. */ f_PCUIF_PDCHMask_set(info_ind, '00000011'B, 0); f_PCUIF_PDCHMask_set(info_ind, '00001100'B, 1); f_PCUIF_PDCHMask_set(info_ind, '11000000'B, 2); f_PCUIF_PDCHMask_set(info_ind, '00110000'B, 3); f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (4 .. 7)); /* Allocate 4 GprsMS instances */ f_init_gprs_ms(4); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Reset stats */ f_statsd_reset(); /* Establish BSSGP */ f_bssgp_establish(); /* 8 PDCHs available, 0 occupied */ var StatsDExpects expect := { { name := "TTCN3.bts.0.pdch.available", mtype := "g", min := 8, max := 8 }, { name := "TTCN3.bts.0.pdch.occupied", mtype := "g", min := 0, max := 0 }, { name := "TTCN3.bts.0.pdch.occupied.gprs", mtype := "g", min := 0, max := 0 }, { name := "TTCN3.bts.0.pdch.occupied.egprs", mtype := "g", min := 0, max := 0 } }; f_statsd_expect(expect); /* Establish an Uplink TBF for each GprsMS instance (3x GPRS, 1x EGPRS) */ f_multi_ms_bssgp_register(); f_ms_establish_ul_tbf(g_ms[0]); f_ms_establish_ul_tbf(g_ms[1]); f_ms_establish_ul_tbf(g_ms[2]); f_ms_establish_ul_tbf_2phase_access(g_ms[3], ts_RlcMacUlCtrl_PKT_RES_REQ(g_ms[3].tlli, ms_racap_egprs_def)); /* 4 PDCHs occupied */ expect := { { name := "TTCN3.bts.0.pdch.available", mtype := "g", min := 8, max := 8 }, { name := "TTCN3.bts.0.pdch.occupied", mtype := "g", min := 4, max := 4 }, { name := "TTCN3.bts.0.pdch.occupied.gprs", mtype := "g", min := 3, max := 3 }, { name := "TTCN3.bts.0.pdch.occupied.egprs", mtype := "g", min := 1, max := 1 } }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } /* Test stats for available and occupied PDCHs, for MS which is not known by * the PCU (e.g. because it was forgotten due to no interaction, and old DL * data arrives from SGSN) */ function f_tc_stat_pdch_avail_occ_ms_not_known(boolean egprs) runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind := valueof(ts_PCUIF_INFO_default); const BssgpBvci bvci := mp_gb_cfg.bvc[0].bvci; /* Ensure a deterministic slot allocation of 1 PDCH with MS class 1 */ const MultislotCap_GPRS_BSSGP bssgp_mscap_gprs := { gprsmultislotclass := '00001'B, gprsextendeddynalloccap := '0'B }; const MultislotCap_EGPRS_BSSGP bssgp_mscap_egprs := { egprsmultislotclass := '00001'B, egprsextendeddynalloccap := '0'B }; template (value) MSRadioAccessCapabilityV_BSSGP bssgp_ms_racap_gprs := { valueof(ts_RaCapRec_BSSGP('0001'B /* E-GSM */, bssgp_mscap_gprs, omit)) }; template (value) MSRadioAccessCapabilityV_BSSGP bssgp_ms_racap_egprs := { valueof(ts_RaCapRec_BSSGP('0001'B /* E-GSM */, bssgp_mscap_gprs, bssgp_mscap_egprs)) }; /* Initialize NS/BSSGP side */ f_init_bssgp(); /* Only the 4 first TRX are enabled, each with 2 PDCHs. */ f_PCUIF_PDCHMask_set(info_ind, '00000011'B, 0); f_PCUIF_PDCHMask_set(info_ind, '00001100'B, 1); f_PCUIF_PDCHMask_set(info_ind, '11000000'B, 2); f_PCUIF_PDCHMask_set(info_ind, '00110000'B, 3); f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (4 .. 7)); /* Allocate 1 GprsMS instance */ f_init_gprs_ms(1); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); /* Reset stats */ f_statsd_reset(); /* Establish BSSGP */ f_bssgp_establish(); /* 8 PDCHs available, 0 occupied */ var StatsDExpects expect := { { name := "TTCN3.bts.0.pdch.available", mtype := "g", min := 8, max := 8 }, { name := "TTCN3.bts.0.pdch.occupied", mtype := "g", min := 0, max := 0 }, { name := "TTCN3.bts.0.pdch.occupied.gprs", mtype := "g", min := 0, max := 0 }, { name := "TTCN3.bts.0.pdch.occupied.egprs", mtype := "g", min := 0, max := 0 } }; f_statsd_expect(expect); var GprsMS ms := g_ms[0]; /* We only use first MS in this test */ f_bssgp_client_llgmm_assign(TLLI_UNUSED, ms.tlli); /* SGSN sends some DL data, PCU will page on CCCH (PCH) */ var octetstring data := f_rnd_octstring(1400); if (egprs) { BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, bssgp_ms_racap_egprs, imsi := ts_BSSGP_IMSI(ms.imsi))); } else { BSSGP[0].send(ts_BSSGP_DL_UD(ms.tlli, data, bssgp_ms_racap_gprs, imsi := ts_BSSGP_IMSI(ms.imsi))); } f_ms_exp_dl_tbf_ass_ccch(ms); /* Wait timer X2002 and DL block is available after CCCH IMM ASS */ f_sleep(X2002); /* 1 PDCH occupied */ if (egprs) { expect := { { name := "TTCN3.bts.0.pdch.available", mtype := "g", min := 8, max := 8 }, { name := "TTCN3.bts.0.pdch.occupied", mtype := "g", min := 1, max := 1 }, { name := "TTCN3.bts.0.pdch.occupied.gprs", mtype := "g", min := 0, max := 0 }, { name := "TTCN3.bts.0.pdch.occupied.egprs", mtype := "g", min := 1, max := 1 } }; } else { expect := { { name := "TTCN3.bts.0.pdch.available", mtype := "g", min := 8, max := 8 }, { name := "TTCN3.bts.0.pdch.occupied", mtype := "g", min := 1, max := 1 }, { name := "TTCN3.bts.0.pdch.occupied.gprs", mtype := "g", min := 1, max := 1 }, { name := "TTCN3.bts.0.pdch.occupied.egprs", mtype := "g", min := 0, max := 0 } }; } f_statsd_expect(expect); /* Clean up */ f_shutdown(__BFILE__, __LINE__, final := true); } testcase TC_stat_pdch_avail_occ_ms_not_known_gprs() runs on RAW_PCU_Test_CT { f_tc_stat_pdch_avail_occ_ms_not_known(false); } testcase TC_stat_pdch_avail_occ_ms_not_known_egprs() runs on RAW_PCU_Test_CT { f_tc_stat_pdch_avail_occ_ms_not_known(true); } /* Make sure that bts.0.pdch.all_allocated is set when we allocate all resources */ testcase TC_ratectr_all_available_allocated() runs on RAW_PCU_Test_CT { var PCUIF_info_ind info_ind; var template IARRestOctets rest; var BIT11 ra11; info_ind := valueof(ts_PCUIF_INFO_default); /* Only the first TRX is enabled. */ f_PCUIF_PDCHMask_set(info_ind, '00000000'B, (1 .. 7)); f_PCUIF_PDCHMask_set(info_ind, '00000001'B, 0); /* Initialize the PCU interface abstraction */ f_init_raw(testcasename(), info_ind); f_statsd_reset(); var EGPRSPktChRequest req := { one_phase := { tag := '0'B, multislot_class := '10101'B, priority := '01'B, random_bits := '101'B } }; /* We send 7 requests, the IUT gives us all available USFs (0..6) */ for (var integer i := 0; i < 7; i := i + 1) { req.one_phase.random_bits := int2bit(f_rnd_int(8), 3); f_TC_egprs_pkt_chan_req(req, tr_IMM_TBF_ASS); } ra11 := enc_EGPRSPktChRequest2bits(req); rest := tr_IARRestOctets({ *, tr_ExtRAOpt(substr(ra11, 6, 5)), * }); /* At this point, the IUT should run out of free USFs */ f_TC_egprs_pkt_chan_req_reject(ra11, 1870, rest); /* bts.0.pdch.all_allocated is updated once per second, wait some time to make sure it was updated. */ f_sleep(2.0); var StatsDExpects expect := { { name := "TTCN3.bts.0.pdch.all_allocated", mtype := "c", min := 1, max := 1 } }; f_statsd_expect(expect); f_shutdown(__BFILE__, __LINE__, final := true); } control { execute( TC_pcuif_suspend() ); execute( TC_pcuif_suspend_active_tbf() ); execute( TC_ta_ptcch_idle() ); execute( TC_ta_rach_imm_ass() ); execute( TC_ta_ul_ack_nack_first_block() ); execute( TC_ta_idle_dl_tbf_ass() ); execute( TC_ta_ptcch_ul_multi_tbf() ); execute( TC_cs_lqual_ul_tbf() ); execute( TC_cs_initial_ul() ); execute( TC_cs_max_ul() ); execute( TC_cs_initial_dl() ); execute( TC_cs_max_dl() ); execute( TC_dl_cs1_to_cs4() ); execute( TC_mcs_initial_ul() ); execute( TC_mcs_max_ul() ); execute( TC_mcs_initial_dl() ); execute( TC_mcs_max_dl() ); execute( TC_t3141() ); execute( TC_n3101_max_t3169() ); execute( TC_n3103_max_t3169() ); execute( TC_x2031_t3191() ); execute( TC_zero_x2031_t3191() ); execute( TC_t3193() ); execute( TC_n3105_max_t3195() ); execute( TC_t3172_wait_ind_size0() ); execute( TC_t3172_wait_ind_size1() ); execute( TC_x2001_pacch_pkt_dl_ass_unanswered_timeout() ); execute( TC_countdown_procedure() ); execute( TC_ul_all_sizes() ); execute( TC_ul_data_toolong_fills_padding() ); execute( TC_mo_ping_pong() ); execute( TC_mo_ping_pong_with_ul_racap() ); execute( TC_force_two_phase_access() ); execute( TC_mt_ping_pong() ); execute( TC_mt_ping_pong_with_dl_racap() ); execute( TC_ul_intermediate_retrans() ); execute( TC_imm_ass_dl_block_retrans() ); execute( TC_dl_flow_more_blocks() ); execute( TC_ul_flow_multiple_llc_blocks() ); execute( TC_dl_no_ack_retrans_imm_ass() ); execute( TC_dl_llc_sapi_priority() ); execute( TC_ul_tbf_bsn_wraparound_gprs()); execute( TC_paging_cs_from_bts() ); execute( TC_paging_cs_from_sgsn_sign_ptmsi() ); execute( TC_paging_cs_from_sgsn_sign() ); execute( TC_paging_cs_from_sgsn_ptp() ); execute( TC_paging_ps_from_sgsn_sign_ptmsi() ); execute( TC_paging_ps_from_sgsn_sign() ); execute( TC_paging_ps_from_sgsn_ptp() ); execute( TC_paging_pch_timeout() ); execute( TC_paging_cs_multi_ms_imsi_tmsi() ); execute( TC_paging_cs_multi_ms_imsi() ); execute( TC_paging_cs_multi_ms_tmsi() ); execute( TC_bssgp_dl_unitdata_with_valid_imsi() ); execute( TC_bssgp_dl_unitdata_with_invalid_imsi() ); execute( TC_dl_gprs_data_no_llc_ui_dummy() ); execute( TC_dl_egprs_data_no_llc_ui_dummy() ); execute( TC_ul_tbf_finished_pkt_dl_ass_pch() ); execute( TC_ul_tbf_1phase_while_dl_ass_pch() ); execute( TC_ul_tbf_2phase_while_dl_ass_pch() ); /* EGPRS specific test cases */ execute( TC_egprs_pkt_chan_req_signalling() ); execute( TC_egprs_pkt_chan_req_one_phase() ); execute( TC_egprs_pkt_chan_req_two_phase() ); execute( TC_egprs_pkt_chan_req_reject_content() ); execute( TC_egprs_pkt_chan_req_reject_emergency() ); execute( TC_egprs_pkt_chan_req_reject_exhaustion() ); execute( TC_mo_ping_pong_with_ul_racap_egprs_only() ); /* Immediate Assignment on AGCH/PCH */ execute( TC_pcuif_fh_imm_ass_ul_egprs() ); execute( TC_pcuif_fh_imm_ass_ul() ); execute( TC_pcuif_fh_imm_ass_dl() ); /* Packet Uplink/Downlink Assignment on PACCH */ execute( TC_pcuif_fh_pkt_ass_ul() ); execute( TC_pcuif_fh_pkt_ass_dl() ); execute( TC_multitrx_multims_alloc() ); execute( TC_dl_multislot_tbf_ms_class_from_sgsn() ); execute( TC_dl_multislot_tbf_ms_class_unknown() ); execute( TC_dl_multislot_tbf_ms_class_from_2phase() ); execute( TC_ul_multislot_tbf_ms_class_from_2phase() ); execute( TC_ul_tbf_reestablish_with_pkt_resource_req() ); execute( TC_ul_tbf_reestablish_with_pkt_resource_req_t3168() ); execute( TC_ul_tbf_reestablish_with_pkt_dl_ack_nack() ); execute( TC_ul_tbf_reestablish_with_pkt_dl_ack_nack_egprs() ); execute( TC_multiplex_dl_gprs_egprs() ); execute( TC_pcuif_info_ind_subsequent() ); execute( TC_nacc_outbound_success() ); execute( TC_nacc_outbound_success_utran() ); execute( TC_nacc_outbound_success_eutran() ); execute( TC_nacc_outbound_success_no_ctrl_ack() ); execute( TC_nacc_outbound_success_twice() ); execute( TC_nacc_outbound_success_twice_nocache() ); execute( TC_nacc_outbound_rac_ci_resolve_timeout() ); execute( TC_nacc_outbound_si_resolve_timeout() ); execute( TC_nacc_outbound_pkt_cell_chg_notif_dup() ); execute( TC_nacc_outbound_pkt_cell_chg_notif_dup2() ); execute( TC_nacc_outbound_pkt_cell_chg_notif_dup3() ); execute( TC_nacc_outbound_pkt_cell_chg_notif_dup4() ); execute( TC_nacc_outbound_pkt_cell_chg_notif_dup5() ); execute( TC_nacc_outbound_pkt_cell_chg_notif_twice() ); execute( TC_nacc_outbound_pkt_cell_chg_notif_twice2() ); execute( TC_nacc_outbound_pkt_cell_chg_notif_twice3() ); execute( TC_nacc_outbound_pkt_cell_chg_notif_twice4() ); execute( TC_nacc_outbound_pkt_cell_chg_notif_twice5() ); execute( TC_nacc_outbound_pkt_cell_chg_notif_unassigned_dl_tbf() ); if (mp_ctrl_neigh_ip != "") { /* PCU using old CTRL neigh addr resolution iface */ execute( TC_nacc_outbound_rac_ci_resolve_conn_refused() ); execute( TC_nacc_outbound_rac_ci_resolve_fail_parse_response() ); } execute( TC_rim_ran_info_req_single_rep() ); execute( TC_rim_ran_info_req_single_rep_eutran() ); execute( TC_rim_ran_info_req_single_rep_no_si() ); execute (TC_pdch_energy_saving() ); execute( TC_stat_pdch_avail_occ() ); execute( TC_stat_pdch_avail_occ_ms_not_known_gprs() ); execute( TC_stat_pdch_avail_occ_ms_not_known_egprs() ); execute( TC_ratectr_all_available_allocated() ); } }