module BTS_Tests { import from General_Types all; import from GSM_Types all; import from GSM_RR_Types all; import from Osmocom_Types all; import from GSM_Types all; import from GSM_RR_Types all; import from GSM_SystemInformation all; import from L1CTL_PortType all; import from L1CTL_Types all; import from LAPDm_Types all; import from Osmocom_CTRL_Adapter all; import from RSL_Types all; import from IPA_Types all; import from IPA_Emulation all; import from RSL_Emulation all; import from IPL4asp_Types all; import from TRXC_Types all; import from TRXC_CodecPort all; import from TRXC_CodecPort_CtrlFunct all; import from MobileL3_CommonIE_Types all; import from MobileL3_RRM_Types all; import from MobileL3_Types all; import from L3_Templates all; /* The tests assume a BTS with the following timeslot configuration: * TS0 : Combined CCCH + SDCCH/4 * TS1 .. TS 4: TCH/F * TS5 : TCH/H * TS6 : SDCCH/8 * TS7 : PDCH */ modulepar { charstring mp_rsl_ip := "127.0.0.2"; integer mp_rsl_port := 3003; integer mp_trx0_arfcn := 871; integer mp_bb_trxc_port := 5704; } type component test_CT extends CTRL_Adapter_CT { /* IPA Emulation component underneath RSL */ var IPA_Emulation_CT vc_IPA; /* RSL Emulation component (for ConnHdlr tests) */ var RSL_Emulation_CT vc_RSL; /* Direct RSL_CCHAN_PT */ port RSL_CCHAN_PT RSL_CCHAN; /* L1CTL port (for classic tests) */ port L1CTL_PT L1CTL; } /* an individual call / channel */ type component ConnHdlr extends RSL_DchanHdlr { port L1CTL_PT L1CTL; port TRXC_CODEC_PT BB_TRXC; var integer g_bb_trxc_conn_id; timer g_Tguard; timer g_Tmeas_exp := 2.0; /* >= 103 SACCH multiframe ~ 500ms */ var ConnHdlrPars g_pars; var uint8_t g_next_meas_res_nr := 0; } function f_init_rsl(charstring id) runs on test_CT { vc_IPA := IPA_Emulation_CT.create(id & "-RSL-IPA"); vc_RSL := RSL_Emulation_CT.create(id & "-RSL"); map(vc_IPA:IPA_PORT, system:IPA_CODEC_PT); connect(vc_IPA:IPA_RSL_PORT, vc_RSL:IPA_PT); connect(self:RSL_CCHAN, vc_RSL:CCHAN_PT); vc_IPA.start(IPA_Emulation.main_server(mp_rsl_ip, mp_rsl_port)); vc_RSL.start(RSL_Emulation.main(false)); } type record ConnHdlrPars { RslChannelNr chan_nr, RSL_IE_ChannelMode chan_mode, float t_guard, ConnL1Pars l1_pars } template (value) RachControlParameters ts_RachCtrl_default := { max_retrans := RACH_MAX_RETRANS_1, tx_integer := '0000'B, /* 3 slots */ cell_barr_access := false, re_not_allowed := true, acc := '1111111111111111'B }; template (value) CellSelectionParameters ts_CellSelPar_default := { cell_resel_hyst_2dB := 0, ms_txpwr_max_cch := 0, acs := '0'B, neci := true, rxlev_access_min := 0 } template (value) LocationAreaIdentification ts_LAI_default := { mcc_mnc := '262F42'H, lac := 42 } /* Default SYSTEM INFORMATION 3 */ template (value) SystemInformation ts_SI3_default := { header := t_RrHeader(SYSTEM_INFORMATION_TYPE_3, 0), payload := { si3 := { cell_id := 23, lai := ts_LAI_default, ctrl_chan_desc := { msc_r99 := true, att := true, bs_ag_blks_res := 1, ccch_conf := CCHAN_DESC_1CCCH_COMBINED, si22ind := false, cbq3 := CBQ3_IU_MODE_NOT_SUPPORTED, spare := '00'B, bs_pa_mfrms := 0, /* 2 multiframes */ t3212 := 1 /* 6 minutes */ }, cell_options := { dn_ind := false, pwrc := false, dtx := MS_MAY_USE_UL_DTX, radio_link_tout_div4 := 4/4 }, cell_sel_par := ts_CellSelPar_default, rach_control := ts_RachCtrl_default, rest_octets := ''O } } } template (value) SystemInformation ts_SI2_default := { header := t_RrHeader(SYSTEM_INFORMATION_TYPE_2, 0), payload := { si2 := { bcch_freq_list := '00000000000000000000000000000000'O, ncc_permitted := '11111111'B, rach_control := ts_RachCtrl_default } } } template (value) SystemInformation ts_SI4_default := { header := t_RrHeader(SYSTEM_INFORMATION_TYPE_4, 0), payload := { si4 := { lai := ts_LAI_default, cell_sel_par := ts_CellSelPar_default, rach_control := ts_RachCtrl_default, cbch_chan_desc := omit, cbch_mobile_alloc := omit, rest_octets := ''O } } } function f_rsl_bcch_fill_raw(RSL_IE_SysinfoType rsl_si_type, octetstring si_enc) runs on test_CT { log("Setting ", rsl_si_type, ": ", si_enc); RSL_CCHAN.send(ts_RSL_UD(ts_RSL_BCCH_INFO(rsl_si_type, si_enc))); } function f_rsl_bcch_fill(RSL_IE_SysinfoType rsl_si_type, template (value) SystemInformation si_dec) runs on test_CT { var octetstring si_enc := enc_SystemInformation(valueof(si_dec)); log("Setting ", rsl_si_type, ": ", si_dec); f_rsl_bcch_fill_raw(rsl_si_type, si_enc); } /* global init function */ function f_init(charstring id := "BTS-Test") runs on test_CT { f_init_rsl(id); RSL_CCHAN.receive(ASP_IPA_Event:{up_down := ASP_IPA_EVENT_UP}); f_sleep(0.5); /* workaround for OS#3000 */ /* Send SI3 to the BTS, it is needed for various computations */ f_rsl_bcch_fill(RSL_SYSTEM_INFO_3, ts_SI3_default); /* SI2 + SI4 are required for SI testing as they are mandatory defaults */ f_rsl_bcch_fill(RSL_SYSTEM_INFO_2, ts_SI2_default); f_rsl_bcch_fill(RSL_SYSTEM_INFO_4, ts_SI4_default); } /* Attach L1CTL to master test_CT (classic tests, non-handler mode) */ function f_init_l1ctl() runs on test_CT { map(self:L1CTL, system:L1CTL); f_connect_reset(L1CTL); } type function void_fn(charstring id) runs on ConnHdlr; /* create a new test component */ function f_start_handler(void_fn fn, ConnHdlrPars pars) runs on test_CT return ConnHdlr { var charstring id := testcasename(); var ConnHdlr vc_conn; vc_conn := ConnHdlr.create(id); /* connect to RSL Emulation main component */ connect(vc_conn:RSL, vc_RSL:CLIENT_PT); connect(vc_conn:RSL_PROC, vc_RSL:RSL_PROC); vc_conn.start(f_handler_init(fn, id, pars)); return vc_conn; } template ASP_RSL_Unitdata ts_RSL_UD(template RSL_Message rsl, IpaStreamId sid := IPAC_PROTO_RSL_TRX0) := { streamId := sid, rsl := rsl } template ASP_RSL_Unitdata tr_RSL_UD(template RSL_Message rsl, template IpaStreamId sid := IPAC_PROTO_RSL_TRX0) := { streamId := sid, rsl := rsl } private altstep as_Tguard() runs on ConnHdlr { [] g_Tguard.timeout { setverdict(fail, "Tguard timeout"); self.stop; } } private function f_l1_tune(L1CTL_PT L1CTL) { f_L1CTL_FBSB(L1CTL, { false, mp_trx0_arfcn }, CCCH_MODE_COMBINED); } private function f_trxc_connect() runs on ConnHdlr { map(self:BB_TRXC, system:BB_TRXC); var Result res; res := TRXC_CodecPort_CtrlFunct.f_IPL4_connect(BB_TRXC, "127.0.0.1", mp_bb_trxc_port, "127.0.0.1", 0, -1, {udp:={}}, {}); g_bb_trxc_conn_id := res.connId; } private function f_trxc_fake_rssi(uint8_t rssi) runs on ConnHdlr { BB_TRXC.send(ts_TRXC_Send(g_bb_trxc_conn_id, ts_TRXC_FAKE_RSSI(rssi))); } private function f_trx_fake_toffs256(int16_t toffs256) runs on ConnHdlr { BB_TRXC.send(ts_TRXC_Send(g_bb_trxc_conn_id, ts_TRXC_FAKE_TIMING(toffs256))); } /* first function started in ConnHdlr component */ private function f_handler_init(void_fn fn, charstring id, ConnHdlrPars pars) runs on ConnHdlr { g_pars := pars; g_chan_nr := pars.chan_nr; map(self:L1CTL, system:L1CTL); f_connect_reset(L1CTL); f_trxc_connect(); g_Tguard.start(pars.t_guard); activate(as_Tguard()); f_rslem_register(0, pars.chan_nr); /* call the user-supplied test case function */ fn.apply(id); } function f_rsl_transceive(template RSL_Message tx, template RSL_Message exp_rx, charstring id) runs on ConnHdlr { timer T := 3.0; RSL.send(tx); T.start; alt { [] RSL.receive(exp_rx) { T.stop; setverdict(pass); } [] T.timeout { setverdict(fail, "Timeout expecting " & id); self.stop; } [] RSL.receive { setverdict(fail, "Unexpected RSL message received"); } } } function f_rsl_chan_act(RSL_IE_ChannelMode mode) runs on ConnHdlr { f_rsl_transceive(ts_RSL_CHAN_ACT(g_chan_nr, mode), tr_RSL_CHAN_ACT_ACK(g_chan_nr), "RSL CHAN ACT"); } function f_rsl_chan_deact() runs on ConnHdlr { f_rsl_transceive(ts_RSL_RF_CHAN_REL(g_chan_nr), tr_RSL_RF_CHAN_REL_ACK(g_chan_nr), "RF CHAN REL"); } private template ConnHdlrPars t_Pars(template RslChannelNr chan_nr, template RSL_IE_ChannelMode chan_mode, float t_guard := 20.0) := { chan_nr := valueof(chan_nr), chan_mode := valueof(chan_mode), t_guard := t_guard, l1_pars := { dtx_enabled := false, meas_ul := { full := { rxlev := dbm2rxlev(-53), rxqual := 0 }, sub := { rxlev := dbm2rxlev(-53), rxqual := 0 } }, timing_offset_256syms := 0, bs_power_level := 0, ms_power_level := 0, ms_actual_ta := 0 } } /* Stress test: Do 500 channel activations/deactivations in rapid succession */ function f_TC_chan_act_stress(charstring id) runs on ConnHdlr { for (var integer i := 0; i < 500; i := i+1) { f_rsl_chan_act(g_pars.chan_mode); f_rsl_chan_deact(); } setverdict(pass); } testcase TC_chan_act_stress() runs on test_CT { var ConnHdlr vc_conn; var ConnHdlrPars pars := valueof(t_Pars(t_RslChanNr_Bm(1), ts_RSL_ChanMode_SIGN)); f_init(testcasename()); vc_conn := f_start_handler(refers(f_TC_chan_act_stress), pars); vc_conn.done; } /* Test if re-activation of an already active channel fails as expected */ function f_TC_chan_act_react(charstring id) runs on ConnHdlr { f_rsl_chan_act(g_pars.chan_mode); /* attempt to activate the same lchan again -> expect reject */ RSL.send(ts_RSL_CHAN_ACT(g_chan_nr, g_pars.chan_mode)); alt { [] RSL.receive(tr_RSL_CHAN_ACT_ACK(g_chan_nr)) { setverdict(fail, "Unexpected CHAN ACT ACK on double activation"); } [] RSL.receive(tr_RSL_CHAN_ACT_NACK(g_chan_nr)) { setverdict(pass); } } f_rsl_chan_deact(); } testcase TC_chan_act_react() runs on test_CT { var ConnHdlr vc_conn; var ConnHdlrPars pars := valueof(t_Pars(t_RslChanNr_Bm(1), ts_RSL_ChanMode_SIGN)); f_init(testcasename()); vc_conn := f_start_handler(refers(f_TC_chan_act_react), pars); vc_conn.done; } /* Attempt to de-activate a channel that's not active */ function f_TC_chan_deact_not_active(charstring id) runs on ConnHdlr { timer T := 3.0; RSL.send(ts_RSL_RF_CHAN_REL(g_chan_nr)); T.start; alt { [] RSL.receive(tr_RSL_RF_CHAN_REL_ACK(g_chan_nr)) { setverdict(pass); } [] T.timeout { setverdict(fail, "Timeout expecting RF_CHAN_REL_ACK"); } } } testcase TC_chan_deact_not_active() runs on test_CT { var ConnHdlrPars pars := valueof(t_Pars(t_RslChanNr_Bm(1), ts_RSL_ChanMode_SIGN)); f_init(testcasename()); var ConnHdlr vc_conn := f_start_handler(refers(f_TC_chan_deact_not_active), pars); vc_conn.done; } /* attempt to activate channel with wrong RSL Channel Nr IE; expect NACK */ function f_TC_chan_act_wrong_nr(charstring id) runs on ConnHdlr { RSL.send(ts_RSL_CHAN_ACT(g_chan_nr, g_pars.chan_mode)); alt { [] RSL.receive(tr_RSL_CHAN_ACT_ACK(g_chan_nr)) { setverdict(fail, "Unexpected CHAN ACT ACK"); } [] RSL.receive(tr_RSL_CHAN_ACT_NACK(g_chan_nr)) { setverdict(pass); } } } private type record WrongChanNrCase { RslChannelNr chan_nr, charstring description } private type record of WrongChanNrCase WrongChanNrCases; private template WrongChanNrCase t_WCN(template RslChannelNr chan_nr, charstring desc) := { chan_nr := chan_nr, description := desc } testcase TC_chan_act_wrong_nr() runs on test_CT { var ConnHdlr vc_conn; var ConnHdlrPars pars; f_init(testcasename()); var WrongChanNrCases wrong := { valueof(t_WCN(t_RslChanNr_RACH(0), "RACH is not a dedicated channel")), valueof(t_WCN(t_RslChanNr_RACH(1), "RACH doesn't exist on timeslot")), valueof(t_WCN(t_RslChanNr_BCCH(0), "BCCH is not a dedicated channel")), valueof(t_WCN(t_RslChanNr_PCH_AGCH(0), "PCH/AGCH is not a dedicated channel")), valueof(t_WCN(t_RslChanNr_Bm(0), "TS0 cannot be TCH/F")), valueof(t_WCN(t_RslChanNr_Lm(0, 0), "TS0 cannot be TCH/H")), valueof(t_WCN(t_RslChanNr_Lm(0, 1), "TS0 cannot be TCH/H")), valueof(t_WCN(t_RslChanNr_PDCH(0), "TS0 cannot be PDCH")), valueof(t_WCN(t_RslChanNr_SDCCH8(0, 0), "TS0 cannot be SDCCH/8")), valueof(t_WCN(t_RslChanNr_SDCCH8(0, 7), "TS0 cannot be SDCCH/8")), valueof(t_WCN(t_RslChanNr_SDCCH4(7, 0), "TS7 cannot be SDCCH/4")), valueof(t_WCN(t_RslChanNr_SDCCH4(7, 3), "TS7 cannot be SDCCH/4")), valueof(t_WCN(t_RslChanNr_Lm(1, 0), "TS1 cannot be TCH/H")) }; for (var integer i := 0; i < sizeof(wrong); i := i+1) { pars := valueof(t_Pars(wrong[i].chan_nr, ts_RSL_ChanMode_SIGN)); vc_conn := f_start_handler(refers(f_TC_chan_act_wrong_nr), pars); vc_conn.done; } } function f_TC_chan_req(charstring id) runs on ConnHdlr { f_l1_tune(L1CTL); RSL.clear; //L1.send(DCCH_establish_req:{ra := 23}); /* This arrives on CCHAN, so we cannot test here */ //RSL.receive(tr_RSL_CHAN_RQD(int2oct(23,1))); } testcase TC_chan_req() runs on test_CT { var ConnHdlr vc_conn; var ConnHdlrPars pars := valueof(t_Pars(t_RslChanNr_Bm(1), ts_RSL_ChanMode_SIGN)); f_init(testcasename()); vc_conn := f_start_handler(refers(f_TC_chan_req), pars); vc_conn.done; } template LapdmAddressField ts_LapdmAddr(LapdmSapi sapi, boolean c_r) := { spare := '0'B, lpd := 0, sapi := sapi, c_r := c_r, ea := true } template LapdmFrameB ts_LAPDm_B(LapdmSapi sapi, boolean c_r, boolean p, octetstring pl) := { addr := ts_LapdmAddr(sapi, c_r), ctrl := t_LapdmCtrlUI(p), len := 0, /* overwritten */ m := false, el := 1, payload := pl } /* handle incoming downlink SACCH and respond with uplink SACCH (meas res) */ altstep as_l1_sacch() runs on ConnHdlr { var L1ctlDlMessage l1_dl; [] L1CTL.receive(t_L1CTL_DATA_IND(g_chan_nr, tr_RslLinkID_SACCH(?))) -> value l1_dl { log("SACCH received: ", l1_dl.payload.data_ind.payload); var GsmRrL3Message meas_rep := valueof(ts_MEAS_REP(true, 23, 23, 0, 0, omit)); var LapdmFrameB lb := valueof(ts_LAPDm_B(0, false, false, enc_GsmRrL3Message(meas_rep))); log("LAPDm: ", lb); var octetstring pl := '0000'O & enc_LapdmFrameB(lb); L1CTL.send(t_L1CTL_DATA_REQ(g_chan_nr, ts_RslLinkID_SACCH(0), pl)); repeat; } } altstep as_l1_dcch() runs on ConnHdlr { var L1ctlDlMessage l1_dl; [] L1CTL.receive(t_L1CTL_DATA_IND(g_chan_nr, tr_RslLinkID_DCCH(?))) -> value l1_dl { log("DCCH received: ", l1_dl.payload.data_ind.payload); var octetstring pl := '010301'O; L1CTL.send(t_L1CTL_DATA_REQ(g_chan_nr, ts_RslLinkID_DCCH(0), pl)); repeat; } } type record MeasElem { uint6_t rxlev, uint3_t rxqual } type record MeasElemFS { MeasElem full, MeasElem sub } type record ConnL1Pars { boolean dtx_enabled, MeasElemFS meas_ul, int16_t timing_offset_256syms, uint5_t bs_power_level, uint5_t ms_power_level, uint8_t ms_actual_ta } /* Convert tiing offset from 1/256th symbol to RSL Timing Offset */ private function toffs256s_to_rsl(int16_t toffs256s) return uint8_t { return 63 + (toffs256s/256); } /* build a template for matching measurement results against */ private function f_build_meas_res_tmpl() runs on ConnHdlr return template RSL_Message { var ConnL1Pars l1p := g_pars.l1_pars; var template RSL_IE_UplinkMeas ul_meas := { len := 3, rfu := '0'B, dtx_d := l1p.dtx_enabled, rxlev_f_u := l1p.meas_ul.full.rxlev, reserved1 := '00'B, rxlev_s_u := l1p.meas_ul.sub.rxlev, reserved2 := '00'B, rxq_f_u := l1p.meas_ul.full.rxqual, rxq_s_u := l1p.meas_ul.sub.rxqual, supp_meas_info := omit }; /* HACK HACK HACK FIXME HACK HACK HACK see https://osmocom.org/issues/2988 */ ul_meas.rxlev_f_u := ?; ul_meas.rxlev_s_u := ?; ul_meas.rxq_f_u := ?; ul_meas.rxq_s_u := ?; var template RSL_IE_BS_Power bs_power := { reserved := 0, epc := false, fpc := false, power_level := l1p.bs_power_level }; var template RSL_IE_L1Info l1_info := { ms_power_lvl := l1p.ms_power_level, fpc := false, reserved := 0, actual_ta := l1p.ms_actual_ta }; var uint8_t offs := toffs256s_to_rsl(l1p.timing_offset_256syms); var template uint8_t t_toffs := (offs-1 .. offs+1); /* some tolerance */ return tr_RSL_MEAS_RES_OSMO(g_chan_nr, g_next_meas_res_nr, ul_meas, bs_power, l1_info, ?, t_toffs); } /* verify we regularly receive measurement reports with incrementing numbers */ altstep as_meas_res() runs on ConnHdlr { var RSL_Message rsl; [] RSL.receive(f_build_meas_res_tmpl()) -> value rsl { /* increment counter of next to-be-expected meas rep */ g_next_meas_res_nr := (g_next_meas_res_nr + 1) mod 256; /* Re-start the timer expecting the next MEAS RES */ g_Tmeas_exp.start; repeat; } [] RSL.receive(tr_RSL_MEAS_RES(g_chan_nr, g_next_meas_res_nr)) -> value rsl { setverdict(fail, "Received unspecific MEAS RES ", rsl); self.stop; } [] RSL.receive(tr_RSL_MEAS_RES(?)) -> value rsl { setverdict(fail, "Received unexpected MEAS RES ", rsl); self.stop; } [] g_Tmeas_exp.timeout { setverdict(fail, "Didn't receive expected measurement result") self.stop; } } /* Establish dedicated channel: L1CTL + RSL side */ private function f_est_dchan() runs on ConnHdlr { var GsmFrameNumber fn; var ImmediateAssignment imm_ass; var integer ra := 23; fn := f_L1CTL_RACH(L1CTL, ra); /* This arrives on CCHAN, so we cannot test for receiving CHAN RQDhere */ //RSL.receive(tr_RSL_CHAN_RQD(int2oct(23,1))); /* Activate channel on BTS side */ f_rsl_chan_act(g_pars.chan_mode); /* Send IMM.ASS via CCHAN */ var ChannelDescription ch_desc := { chan_nr := g_pars.chan_nr, tsc := 7, h := false, arfcn := mp_trx0_arfcn, maio_hsn := omit }; var MobileAllocation ma := { len := 0, ma := ''B }; var GsmRrMessage rr_msg := valueof(ts_IMM_ASS(ra, fn, 0, ch_desc, ma)); RSL.send(ts_RSL_IMM_ASSIGN(enc_GsmRrMessage(rr_msg))); /* receive IMM.ASS on MS side */ var ImmediateAssignment ia_um; ia_um := f_L1CTL_WAIT_IMM_ASS(L1CTL, ra, fn); /* enable dedicated mode */ f_L1CTL_DM_EST_REQ_IA(L1CTL, ia_um); } /* establish DChan, verify existance + contents of measurement reports */ function f_TC_meas_res_periodic(charstring id) runs on ConnHdlr { f_l1_tune(L1CTL); RSL.clear; g_pars.l1_pars.meas_ul.full.rxlev := dbm2rxlev(-100); g_pars.l1_pars.meas_ul.sub.rxlev := g_pars.l1_pars.meas_ul.full.rxlev; f_trxc_fake_rssi(100); g_pars.l1_pars.timing_offset_256syms := 512; /* 2 symbols */ f_trx_fake_toffs256(g_pars.l1_pars.timing_offset_256syms); f_est_dchan(); /* run for a number of seconds, send SACCH + FACCH from MS side and verify * RSL measurement reports on Abis side */ timer T := 8.0; T.start; alt { [] as_l1_sacch(); [] as_meas_res(); [] as_l1_dcch(); [] L1CTL.receive { repeat; } [g_Tmeas_exp.running] T.timeout { /* as_meas_res() would have done setverdict(fail) / self.stop in case * of any earlier errors, so if we reach this timeout, we're good */ setverdict(pass); } [] T.timeout { setverdict(fail, "No MEAS RES received at all"); } } f_rsl_chan_deact(); } testcase TC_meas_res_sign_tchf() runs on test_CT { var ConnHdlr vc_conn; var ConnHdlrPars pars; f_init(testcasename()); for (var integer tn := 1; tn <= 4; tn := tn+1) { pars := valueof(t_Pars(t_RslChanNr_Bm(tn), ts_RSL_ChanMode_SIGN)); vc_conn := f_start_handler(refers(f_TC_meas_res_periodic), pars); vc_conn.done; } } testcase TC_meas_res_sign_tchh() runs on test_CT { var ConnHdlr vc_conn; var ConnHdlrPars pars; f_init(testcasename()); for (var integer ss := 0; ss <= 1; ss := ss+1) { pars := valueof(t_Pars(t_RslChanNr_Lm(5, ss), ts_RSL_ChanMode_SIGN)); vc_conn := f_start_handler(refers(f_TC_meas_res_periodic), pars); vc_conn.done; } } testcase TC_meas_res_sign_sdcch4() runs on test_CT { var ConnHdlr vc_conn; var ConnHdlrPars pars; f_init(testcasename()); for (var integer ss := 0; ss <= 3; ss := ss+1) { pars := valueof(t_Pars(t_RslChanNr_SDCCH4(0, ss), ts_RSL_ChanMode_SIGN)); vc_conn := f_start_handler(refers(f_TC_meas_res_periodic), pars); vc_conn.done; } } testcase TC_meas_res_sign_sdcch8() runs on test_CT { var ConnHdlr vc_conn; var ConnHdlrPars pars; f_init(testcasename()); for (var integer ss := 0; ss <= 7; ss := ss+1) { pars := valueof(t_Pars(t_RslChanNr_SDCCH8(6, ss), ts_RSL_ChanMode_SIGN)); vc_conn := f_start_handler(refers(f_TC_meas_res_periodic), pars); vc_conn.done; } } /* Test if a channel without valid uplink bursts generates RSL CONN FAIL IND */ private function f_TC_conn_fail_crit(charstring id) runs on ConnHdlr { f_l1_tune(L1CTL); RSL.clear; f_est_dchan(); f_sleep(2.0); L1CTL.send(t_L1CTL_DM_REL_REQ(g_chan_nr)); timer T := 40.0; T.start; alt { [] RSL.receive(tr_RSL_CONN_FAIL_IND(g_chan_nr, ?)) { setverdict(pass) } [] RSL.receive { repeat }; [] T.timeout { setverdict(fail, "No CONN FAIL IND received"); } } f_rsl_chan_deact(); } testcase TC_conn_fail_crit() runs on test_CT { var ConnHdlr vc_conn; var ConnHdlrPars pars; f_init(testcasename()); pars := valueof(t_Pars(t_RslChanNr_SDCCH8(6, 3), ts_RSL_ChanMode_SIGN)); pars.t_guard := 60.0; vc_conn := f_start_handler(refers(f_TC_conn_fail_crit), pars); vc_conn.done; } function tmsi_is_dummy(TMSIP_TMSI_V tmsi) return boolean { if (tmsi == 'FFFFFFFF'O) { return true; } else { return false; } } altstep as_l1_count_paging(inout integer num_paging_rcv_msgs, inout integer num_paging_rcv_ids) runs on test_CT { var L1ctlDlMessage dl; [] L1CTL.receive(t_L1CTL_DATA_IND(t_RslChanNr_PCH_AGCH(0), ?, c_DummyUI)) { repeat; } [] L1CTL.receive(t_L1CTL_DATA_IND(t_RslChanNr_PCH_AGCH(0))) -> value dl { var octetstring without_plen := substr(dl.payload.data_ind.payload, 1, lengthof(dl.payload.data_ind.payload)-1); var PDU_ML3_NW_MS rr := dec_PDU_ML3_NW_MS(without_plen); if (match(rr, tr_PAGING_REQ1)) { num_paging_rcv_msgs := num_paging_rcv_msgs + 1; num_paging_rcv_ids := num_paging_rcv_ids + 1; if (isvalue(rr.msgs.rrm.pagingReq_Type1.mobileIdentity2)) { num_paging_rcv_ids := num_paging_rcv_ids + 1; } } else if (match(rr, tr_PAGING_REQ2)) { num_paging_rcv_msgs := num_paging_rcv_msgs + 1; if (not tmsi_is_dummy(rr.msgs.rrm.pagingReq_Type2.mobileIdentity1)) { num_paging_rcv_ids := num_paging_rcv_ids + 1; } if (not tmsi_is_dummy(rr.msgs.rrm.pagingReq_Type2.mobileIdentity2)) { num_paging_rcv_ids := num_paging_rcv_ids + 1; } if (isvalue(rr.msgs.rrm.pagingReq_Type2.mobileIdentity3)) { num_paging_rcv_ids := num_paging_rcv_ids + 1; } } else if (match(rr, tr_PAGING_REQ3)) { num_paging_rcv_msgs := num_paging_rcv_msgs + 1; if (not tmsi_is_dummy(rr.msgs.rrm.pagingReq_Type3.mobileIdentity1)) { num_paging_rcv_ids := num_paging_rcv_ids + 1; } if (not tmsi_is_dummy(rr.msgs.rrm.pagingReq_Type3.mobileIdentity2)) { num_paging_rcv_ids := num_paging_rcv_ids + 1; } if (not tmsi_is_dummy(rr.msgs.rrm.pagingReq_Type3.mobileIdentity3)) { num_paging_rcv_ids := num_paging_rcv_ids + 1; } if (not tmsi_is_dummy(rr.msgs.rrm.pagingReq_Type3.mobileIdentity4)) { num_paging_rcv_ids := num_paging_rcv_ids + 1; } } repeat; } } type record PagingTestCfg { boolean combined_ccch, integer bs_ag_blks_res, float load_factor, boolean exp_load_ind, boolean exp_overload, boolean use_tmsi } type record PagingTestState { integer num_paging_sent, integer num_paging_rcv_msgs, integer num_paging_rcv_ids, integer num_overload } /* receive + ignore RSL RF RES IND */ altstep as_rsl_res_ind() runs on test_CT { [] RSL_CCHAN.receive(tr_RSL_UD(tr_RSL_RF_RES_IND)) { repeat; } } /* Helper function for paging related testing */ private function f_TC_paging(PagingTestCfg cfg) runs on test_CT return PagingTestState { f_init(testcasename()); f_init_l1ctl(); f_l1_tune(L1CTL); var PagingTestState st := { num_paging_sent := 0, num_paging_rcv_msgs := 0, num_paging_rcv_ids := 0, num_overload := 0 }; var float max_pch_blocks_per_sec := f_pch_block_rate_est(cfg.combined_ccch, cfg.bs_ag_blks_res); var float max_pch_imsi_per_sec; if (cfg.use_tmsi) { max_pch_imsi_per_sec := max_pch_blocks_per_sec * 4.0; /* Type 3 */ } else { max_pch_imsi_per_sec := max_pch_blocks_per_sec * 2.0; /* Type 1 */ } var float pch_blocks_per_sec := max_pch_imsi_per_sec * cfg.load_factor; var float interval := 1.0 / pch_blocks_per_sec; log("pch_blocks_per_sec=", pch_blocks_per_sec, " interval=", interval); for (var integer i := 0; i < float2int(20.0/interval); i := i+1) { /* build mobile Identity */ var MobileL3_CommonIE_Types.MobileIdentityLV mi; if (cfg.use_tmsi) { mi := valueof(ts_MI_TMSI_LV(f_rnd_octstring(4))); } else { mi := valueof(ts_MI_IMSI_LV(f_gen_imsi(i))); } var octetstring mi_enc_lv := enc_MobileIdentityLV(mi); var octetstring mi_enc := substr(mi_enc_lv, 1, lengthof(mi_enc_lv)-1); /* Send RSL PAGING COMMAND */ RSL_CCHAN.send(ts_RSL_UD(ts_RSL_PAGING_CMD(mi_enc, i mod 4))); st.num_paging_sent := st.num_paging_sent + 1; /* Wait for interval to next PAGING COMMAND */ timer T_itv := interval; T_itv.start; alt { /* check for presence of CCCH LOAD IND (paging load) */ [cfg.exp_overload] RSL_CCHAN.receive(tr_RSL_UD(tr_RSL_PAGING_LOAD_IND(0))) { st.num_overload := st.num_overload + 1; repeat; } [not cfg.exp_overload] RSL_CCHAN.receive(tr_RSL_UD(tr_RSL_PAGING_LOAD_IND(0))) { setverdict(fail, "Unexpected PCH Overload"); } [cfg.exp_load_ind] RSL_CCHAN.receive(tr_RSL_UD(tr_RSL_PAGING_LOAD_IND)) { log("Rx LOAD_IND"); /* FIXME: analyze/verify interval + contents */ repeat; } /* check if paging requests arrive on Um side */ [] as_l1_count_paging(st.num_paging_rcv_msgs, st.num_paging_rcv_ids); [] L1CTL.receive { repeat; } [] T_itv.timeout { } [] as_rsl_res_ind(); } } /* wait for max 18s for paging queue to drain (size: 200, ~ 13 per s -> 15s) */ timer T_wait := 18.0; T_wait.start; alt { [] as_l1_count_paging(st.num_paging_rcv_msgs, st.num_paging_rcv_ids); [] L1CTL.receive { repeat; } /* 65535 == empty paging queue, we can terminate*/ [] RSL_CCHAN.receive(tr_RSL_UD(tr_RSL_PAGING_LOAD_IND(65535))) { } [] RSL_CCHAN.receive(tr_RSL_UD(tr_RSL_PAGING_LOAD_IND)) { repeat; } [] T_wait.timeout { setverdict(fail, "Waiting for empty paging queue"); } [] as_rsl_res_ind(); } log("num_paging_sent=", st.num_paging_sent, " rcvd_msgs=", st.num_paging_rcv_msgs, " rcvd_ids=", st.num_paging_rcv_ids); return st; } /* Create ~ 80% paging load (IMSI only) sustained for about 20s, verifying that * - the number of Mobile Identities on Um PCH match the number of pages on RSL * - that CCCH LOAD IND (PCH) are being generated * - that CCCH LOAD IND (PCH) [no load] is received after paging flood is over */ testcase TC_paging_imsi_80percent() runs on test_CT { var PagingTestCfg cfg := { combined_ccch := true, bs_ag_blks_res := 1, load_factor := 0.8, exp_load_ind := true, exp_overload := false, use_tmsi := false }; var PagingTestState st := f_TC_paging(cfg); if (st.num_paging_sent != st.num_paging_rcv_ids) { setverdict(fail, "Expected ", st.num_paging_sent, " pagings but have ", st.num_paging_rcv_ids); } else { setverdict(pass); } } /* Create ~ 80% paging load (TMSI only) sustained for about 20s, verifying that * - the number of Mobile Identities on Um PCH match the number of pages on RSL * - that CCCH LOAD IND (PCH) are being generated * - that CCCH LOAD IND (PCH) [no load] is received after paging flood is over */ testcase TC_paging_tmsi_80percent() runs on test_CT { var PagingTestCfg cfg := { combined_ccch := true, bs_ag_blks_res := 1, load_factor := 0.8, exp_load_ind := true, exp_overload := false, use_tmsi := true }; var PagingTestState st := f_TC_paging(cfg); if (st.num_paging_sent != st.num_paging_rcv_ids) { setverdict(fail, "Expected ", st.num_paging_sent, " pagings but have ", st.num_paging_rcv_ids); } else { setverdict(pass); } } /* Create ~ 200% paging load (IMSI only) sustained for about 20s, verifying that * - the number of Mobile Identities on Um PCH are ~ 82% of the number of pages on RSL * - that CCCH LOAD IND (PCH) are being generated and reach 0 at some point * - that CCCH LOAD IND (PCH) [no load] is received after paging flood is over */ testcase TC_paging_imsi_200percent() runs on test_CT { var PagingTestCfg cfg := { combined_ccch := true, bs_ag_blks_res := 1, load_factor := 2.0, exp_load_ind := true, exp_overload := true, use_tmsi := false }; var PagingTestState st := f_TC_paging(cfg); /* We expect about 80-85% to pass, given that we can fill the paging buffer of 200 * slots and will fully drain that buffer before returning */ var template integer tpl := (st.num_paging_sent*80/100 .. st.num_paging_sent *85/100); if (not match(st.num_paging_rcv_ids, tpl)) { setverdict(fail, "Expected ", tpl, " pagings but have ", st.num_paging_rcv_ids); } else { setverdict(pass); } } /* Create ~ 200% paging load (TMSI only) sustained for about 20s, verifying that * - the number of Mobile Identities on Um PCH are ~ 82% of the number of pages on RSL * - that CCCH LOAD IND (PCH) are being generated and reach 0 at some point * - that CCCH LOAD IND (PCH) [no load] is received after paging flood is over */ testcase TC_paging_tmsi_200percent() runs on test_CT { var PagingTestCfg cfg := { combined_ccch := true, bs_ag_blks_res := 1, load_factor := 2.0, exp_load_ind := true, exp_overload := true, use_tmsi := true }; var PagingTestState st := f_TC_paging(cfg); /* We expect about 70% to pass, given that we can fill the paging buffer of 200 * slots and will fully drain that buffer before returning */ var template integer tpl := (st.num_paging_sent*68/100 .. st.num_paging_sent *72/100); if (not match(st.num_paging_rcv_ids, tpl)) { setverdict(fail, "Expected ", tpl, " pagings but have ", st.num_paging_rcv_ids); } else { setverdict(pass); } } testcase TC_imm_ass() runs on test_CT { f_init(testcasename()); for (var integer i := 0; i < 1000; i := i+1) { var octetstring ia_enc := f_rnd_octstring(8); RSL_CCHAN.send(ts_RSL_UD(ts_RSL_IMM_ASSIGN(ia_enc, 0))); f_sleep(0.02); } /* FIXME: check if imm.ass arrive on Um side */ /* FIXME: check for DELETE INDICATION */ f_sleep(100.0); } testcase TC_bcch_info() runs on test_CT { f_init(testcasename()); /* FIXME: enable / disable individual BCCH info */ //ts_RSL_BCCH_INFO(si_type, info); /* expect no ERROR REPORT after either of them * /* negative test: ensure ERROR REPORT on unsupported types */ } private function f_exp_err_rep(template RSL_Cause cause) runs on test_CT { timer T := 5.0; T.start; alt { [] RSL_CCHAN.receive(tr_RSL_UD(tr_RSL_ERROR_REPORT(cause))) { setverdict(pass); } [] RSL_CCHAN.receive(tr_RSL_UD(tr_RSL_ERROR_REPORT(?))) { setverdict(fail, "Wrong cause in RSL ERR REP"); } [] RSL_CCHAN.receive { repeat; } [] T.timeout { setverdict(fail, "Timeout waiting for RSL ERR REP"); } } } /* Provoke a protocol error (message too short) and match on ERROR REPORT */ testcase TC_rsl_protocol_error() runs on test_CT { f_init(testcasename()); var RSL_Message rsl := valueof(ts_RSL_BCCH_INFO(RSL_SYSTEM_INFO_1, ''O)); rsl.ies := omit; RSL_CCHAN.send(ts_RSL_UD(rsl)); f_exp_err_rep(RSL_ERR_PROTO); } /* Provoke a mandatory IE error and match on ERROR REPORT */ testcase TC_rsl_mand_ie_error() runs on test_CT { f_init(testcasename()); var RSL_Message rsl := valueof(ts_RSL_BCCH_INFO(RSL_SYSTEM_INFO_1, ''O)); rsl.ies := { rsl.ies[0] }; RSL_CCHAN.send(ts_RSL_UD(rsl)); f_exp_err_rep(RSL_ERR_MAND_IE_ERROR); } /* Provoke an IE content error and match on ERROR REPORT */ testcase TC_rsl_ie_content_error() runs on test_CT { f_init(testcasename()); var RSL_Message rsl := valueof(ts_RSL_BCCH_INFO(RSL_SYSTEM_INFO_1, ''O)); rsl.ies[1].body.sysinfo_type := RSL_SYSTEM_INFO_5; RSL_CCHAN.send(ts_RSL_UD(rsl)); f_exp_err_rep(RSL_ERR_IE_CONTENT); } /* Send IPA DLCX to inactive lchan */ function f_TC_ipa_dlcx_not_active(charstring id) runs on ConnHdlr { f_rsl_transceive(ts_RSL_IPA_DLCX(g_chan_nr, 0), tr_RSL_IPA_DLCX_ACK(g_chan_nr, ?, ?), "IPA DLCX ACK"); } testcase TC_ipa_dlcx_not_active() runs on test_CT { var ConnHdlrPars pars := valueof(t_Pars(t_RslChanNr_Bm(1), ts_RSL_ChanMode_SIGN)); f_init(testcasename()); var ConnHdlr vc_conn := f_start_handler(refers(f_TC_ipa_dlcx_not_active), pars); vc_conn.done; } /* Send IPA CRCX twice to inactive lchan */ function f_TC_ipa_crcx_twice_not_active(charstring id) runs on ConnHdlr { f_rsl_transceive(ts_RSL_IPA_CRCX(g_chan_nr), tr_RSL_IPA_CRCX_ACK(g_chan_nr, ?, ?, ?), "IPA CRCX ACK"); f_rsl_transceive(ts_RSL_IPA_CRCX(g_chan_nr), tr_RSL_IPA_CRCX_NACK(g_chan_nr, RSL_ERR_RES_UNAVAIL), "IPA CRCX NACK"); } testcase TC_ipa_crcx_twice_not_active() runs on test_CT { var ConnHdlrPars pars := valueof(t_Pars(t_RslChanNr_Bm(1), ts_RSL_ChanMode_SIGN)); f_init(testcasename()); var ConnHdlr vc_conn := f_start_handler(refers(f_TC_ipa_crcx_twice_not_active), pars); vc_conn.done; } /* Regular sequence of CRCX/MDCX/DLCX */ function f_TC_ipa_crcx_mdcx_dlcx_not_active(charstring id) runs on ConnHdlr { f_rsl_transceive(ts_RSL_IPA_CRCX(g_chan_nr), tr_RSL_IPA_CRCX_ACK(g_chan_nr, ?, ?, ?), "IPA CRCX ACK"); var uint32_t remote_ip := f_rnd_int(c_UINT32_MAX); var uint16_t remote_port := f_rnd_int(c_UINT16_MAX); var uint7_t rtp_pt2 := f_rnd_int(127); var uint16_t fake_conn_id := 23; /* we're too lazy to read it out from the CRCX ACK above */ f_rsl_transceive(ts_RSL_IPA_MDCX(g_chan_nr, fake_conn_id, remote_ip, remote_port, rtp_pt2), tr_RSL_IPA_MDCX_ACK(g_chan_nr, ?, ?, ?, rtp_pt2), "IPA MDCX ACK"); f_rsl_transceive(ts_RSL_IPA_DLCX(g_chan_nr, fake_conn_id), tr_RSL_IPA_DLCX_ACK(g_chan_nr, ?, ?), "IPA DLCX ACK"); } testcase TC_ipa_crcx_mdcx_dlcx_not_active() runs on test_CT { var ConnHdlrPars pars := valueof(t_Pars(t_RslChanNr_Bm(1), ts_RSL_ChanMode_SIGN)); f_init(testcasename()); var ConnHdlr vc_conn := f_start_handler(refers(f_TC_ipa_crcx_mdcx_dlcx_not_active), pars); vc_conn.done; } /* Sequence of CRCX, 2x MDCX, DLCX */ function f_TC_ipa_crcx_mdcx_mdcx_dlcx_not_active(charstring id) runs on ConnHdlr { f_rsl_transceive(ts_RSL_IPA_CRCX(g_chan_nr), tr_RSL_IPA_CRCX_ACK(g_chan_nr, ?, ?, ?), "IPA CRCX ACK"); var uint32_t remote_ip := f_rnd_int(c_UINT32_MAX); var uint16_t remote_port := f_rnd_int(c_UINT16_MAX); var uint7_t rtp_pt2 := f_rnd_int(127); var uint16_t fake_conn_id := 23; /* we're too lazy to read it out from the CRCX ACK above */ f_rsl_transceive(ts_RSL_IPA_MDCX(g_chan_nr, fake_conn_id, remote_ip, remote_port, rtp_pt2), tr_RSL_IPA_MDCX_ACK(g_chan_nr, ?, ?, ?, rtp_pt2), "IPA MDCX ACK"); /* Second MDCX */ remote_ip := f_rnd_int(c_UINT32_MAX); remote_port := f_rnd_int(c_UINT16_MAX); f_rsl_transceive(ts_RSL_IPA_MDCX(g_chan_nr, fake_conn_id, remote_ip, remote_port, rtp_pt2), tr_RSL_IPA_MDCX_ACK(g_chan_nr, ?, ?, ?, rtp_pt2), "IPA MDCX ACK"); f_rsl_transceive(ts_RSL_IPA_DLCX(g_chan_nr, fake_conn_id), tr_RSL_IPA_DLCX_ACK(g_chan_nr, ?, ?), "IPA DLCX ACK"); } testcase TC_ipa_crcx_mdcx_mdcx_dlcx_not_active() runs on test_CT { var ConnHdlrPars pars := valueof(t_Pars(t_RslChanNr_Bm(1), ts_RSL_ChanMode_SIGN)); f_init(testcasename()); var ConnHdlr vc_conn := f_start_handler(refers(f_TC_ipa_crcx_mdcx_mdcx_dlcx_not_active), pars); vc_conn.done; } /* IPA CRCX on SDCCH/4 and SDCCH/8 (doesn't make sense) */ function f_TC_ipa_crcx_sdcch_not_active(charstring id) runs on ConnHdlr { f_rsl_transceive(ts_RSL_IPA_CRCX(g_chan_nr), tr_RSL_IPA_CRCX_NACK(g_chan_nr, ?), "IPA CRCX NACK"); } testcase TC_ipa_crcx_sdcch_not_active() runs on test_CT { var ConnHdlrPars pars; var ConnHdlr vc_conn; f_init(testcasename()); pars := valueof(t_Pars(t_RslChanNr_SDCCH4(0,1), ts_RSL_ChanMode_SIGN)); vc_conn := f_start_handler(refers(f_TC_ipa_crcx_sdcch_not_active), pars); vc_conn.done; pars := valueof(t_Pars(t_RslChanNr_SDCCH8(6,5), ts_RSL_ChanMode_SIGN)); vc_conn := f_start_handler(refers(f_TC_ipa_crcx_sdcch_not_active), pars); vc_conn.done; } /* TODO Areas: * channel activation ** with BS_Power / MS_Power, bypassing power control loop ** on primary vs. secondary TRX ** with encryption from initial activation on ** with timing advance from initial activation on * mode modify ** encryption ** multirate * check DEACTIVATE SACCH * encryption command / intricate logic about tx-only/tx+rx/... ** unsupported algorithm * handover detection * MS Power Control * BS Power Control * Physical Context * SACCH info modify * BCCH INFO (SI Broadcasting) * CCCH Load Indication for PCH and RACH * Delete Indication on AGCH overflow * SMS Broadcast Req / Cmd / CBCH LOad Ind * RF resource ind * IPA/speech related commands * error handling * discriminator error ** type error ** sequence error ** IE duplicated? */ control { execute( TC_chan_act_stress() ); execute( TC_chan_act_react() ); execute( TC_chan_deact_not_active() ); execute( TC_chan_act_wrong_nr() ); execute( TC_chan_req() ); execute( TC_meas_res_sign_tchf() ); execute( TC_meas_res_sign_tchh() ); execute( TC_meas_res_sign_sdcch4() ); execute( TC_meas_res_sign_sdcch8() ); execute( TC_conn_fail_crit() ); execute( TC_paging_imsi_80percent() ); execute( TC_paging_tmsi_80percent() ); execute( TC_paging_imsi_200percent() ); execute( TC_paging_tmsi_200percent() ); execute( TC_rsl_protocol_error() ); execute( TC_rsl_mand_ie_error() ); execute( TC_rsl_ie_content_error() ); execute( TC_ipa_dlcx_not_active() ); execute( TC_ipa_crcx_twice_not_active() ); execute( TC_ipa_crcx_mdcx_dlcx_not_active() ); execute( TC_ipa_crcx_mdcx_mdcx_dlcx_not_active() ); execute( TC_ipa_crcx_sdcch_not_active() ); } }