module GGSN_Tests { /* GGSN test suite in TTCN-3 * (C) 2017-2019 Harald Welte * (C) 2018-2019 sysmocom - s.f.m.c. GmbH * All rights reserved. * * Released under the terms of GNU General Public License, Version 2 or * (at your option) any later version. * * SPDX-License-Identifier: GPL-2.0-or-later */ import from TCCEncoding_Functions all; import from General_Types all; import from Osmocom_Types all; import from Misc_Helpers all; import from IPL4asp_PortType all; import from IPL4asp_Types all; import from GTPv1C_CodecPort all; import from GTPv1U_CodecPort all; import from GTPv1C_CodecPort_CtrlFunct all; import from GTPv1U_CodecPort_CtrlFunct all; import from GTPC_Types all; import from GTPU_Types all; import from GTPv1C_Templates all; import from GTPv1U_Templates all; import from PCO_Types all; import from IPCP_Types all; import from IPCP_Templates all; import from PAP_Types all; import from IP_Types all; import from ICMP_Types all; import from ICMPv6_Types all; import from ICMP_Templates all; import from ICMPv6_Templates all; import from Native_Functions all; import from Osmocom_VTY_Functions all; import from TELNETasp_PortType all; import from DIAMETER_Types all; import from DIAMETER_Templates all; import from DIAMETER_ts29_212_Templates all; import from DIAMETER_ts29_272_Templates all; import from DIAMETER_ts32_299_Templates all; import from DIAMETER_Emulation all; const integer GTP0_PORT := 3386; const integer GTP1C_PORT := 2123; const integer GTP1U_PORT := 2152; const integer PCRF_PORT := 3868; const integer OCS_PORT := 3869; type enumerated GGSN_Impl { GGSN_IMPL_OSMOCOM, GGSN_IMPL_OPEN5GS }; type enumerated GGSN_Conf { GGSN_CONF_ALL, GGSN_CONF_V4_ONLY, GGSN_CONF_V6_ONLY, GGSN_CONF_V4V6_ONLY }; modulepar { /* Default IP addresses. May be overridden by GGSN_Tests configuration files. */ /* The SGSN simulated by TTCN3 will bind to these addresses for GTP control and GTP user planes. */ charstring m_bind_ip_gtpc := "127.23.42.1"; charstring m_bind_ip_gtpu := "127.23.42.1"; /* Addresses the GGSN which is being tested is listening on for SGSN connections. */ charstring m_ggsn_ip_gtpc := "127.0.0.6"; charstring m_ggsn_ip_gtpu := "127.0.0.6"; /* * Our tests expect to see these DNS servers in 'Create PDP context responses' sent by the GGSN. * These addresses must therefore match 'ip[v6] dns' options configured in osmo-ggsn.conf. * * These addresses are not expected to serve actual DNS requests. However, tests may expect to be * able to ping these addresses (currently, IPv4 addresses must respond with an ICMP 'echo reply', * and IPv6 addresses may respond with either ICMPv6 'echo reply' or 'destination unreachable'). */ charstring m_ggsn_ip4_dns1 := "192.168.100.1" charstring m_ggsn_ip4_dns2 := "8.8.8.8" charstring m_ggsn_ip6_dns1 := "2001:4860:4860::8888" charstring m_ggsn_ip6_dns2 := "2001:4860:4860::8844" /* * Additional address ranges are defined in osmo-ggsn.conf from which addresses are assigned * to MS "behind" the simulated SGSN. These addresses appear on tun devices used by osmo-ggsn. * The tests expect to be able to send ping packets between any two simulated MS within the same * address range. This requires IP forwarding to be enabled on the corresponding tun interfaces. */ integer mp_t3_response := 5; /* local T3-RESPONSE timeout, seconds */ integer mp_n3_requests := 3; /* local N3-REQUESTS counter */ /* MTU to configure and expect when testing related tests. * This needs to match the value in configured file for open5gs * since there's no support to configure it dynamically over VTY. */ uint16_t m_configured_mtu := 1400; GGSN_Impl m_ggsn_impl := GGSN_IMPL_OSMOCOM; GGSN_Conf m_ggsn_conf := GGSN_CONF_ALL; } type set PdpContext { hexstring imsi, octetstring msisdn optional, octetstring apn, ProtConfigOptions pco_req optional, ProtConfigOptions pco_neg optional, EndUserAddress eua, OCT16 ip6_prefix optional, BIT4 nsapi, /* TEI (Data) local side */ OCT4 teid, /* TEI (Control) local side */ OCT4 teic, /* TEI (Data) remote side */ OCT4 teid_remote, /* TEI (Control) remote side */ OCT4 teic_remote, OCT1 ratType optional, UserLocationInformation uli optional, OCT2 charging_char optional, OCT8 imeisv optional, MS_TimeZone ms_tz optional } type component GT_CT { port GTPC_PT GTPC; port GTPU_PT GTPU; var boolean g_initialized := false; var OCT1 g_restart_ctr := '01'O; /* FIXME: unify with g_bind_ip + parse from config file */ var OCT4 g_sgsn_ip_c; var OCT4 g_sgsn_ip_u; /* FIXME: parse remName from config file */ var Gtp1cPeer g_peer_c := { connId := 0, remName := m_ggsn_ip_gtpc, remPort := GTP1C_PORT }; var Gtp1uPeer g_peer_u := { connId := 0, remName := m_ggsn_ip_gtpu, remPort := GTP1U_PORT }; timer T_default := 3.0; /* next to-be-sent GTP-C sequence number */ var uint16_t g_c_seq_nr; /* next to-be-sent GTP-U sequence number */ var uint16_t g_d_seq_nr; port TELNETasp_PT GGSNVTY; var boolean use_gtpu_txseq := false; var integer g_use_echo_intval := 0; /* 0 = disabled */ /* Emulated PCRF, used with m_ggsn_impl = GGSN_IMPL_OPEN5GS */ var DIAMETER_conn_parameters g_gx_pars; var DIAMETER_Emulation_CT vc_Gx; port DIAMETER_PT Gx_UNIT; port DIAMETEREM_PROC_PT Gx_PROC; /* Emulated OCS, used with m_ggsn_impl = GGSN_IMPL_OPEN5GS */ var DIAMETER_conn_parameters g_gy_pars; var DIAMETER_Emulation_CT vc_Gy; port DIAMETER_PT Gy_UNIT; port DIAMETEREM_PROC_PT Gy_PROC; var integer g_gy_validity_time := 0; /* In seconds. 0 => disabled, !0 => grant over CC-Time period */ var integer g_gy_volume_quota := 0; /* In octets. 0 => disabled, !0 => request IUT to revalidate after N octets */ var integer g_gy_volume_threshold := 0; /* In octets. Request IUT to revalidate at N octets before reaching g_gy_volume_quota */ var PDU_DIAMETER g_rx_gy; /* Store last received Gy message */ } private function f_init_vty() runs on GT_CT { map(self:GGSNVTY, system:GGSNVTY); f_vty_set_prompts(GGSNVTY); f_vty_transceive(GGSNVTY, "enable"); } private function f_vty_set_gpdu_txseq(boolean enable) runs on GT_CT { f_vty_enter_config(GGSNVTY); f_vty_transceive(GGSNVTY, "ggsn ggsn0"); f_vty_transceive(GGSNVTY, "apn internet"); if (enable) { f_vty_transceive(GGSNVTY, "g-pdu tx-sequence-numbers"); } else { f_vty_transceive(GGSNVTY, "no g-pdu tx-sequence-numbers"); } f_vty_transceive(GGSNVTY, "exit"); f_vty_transceive(GGSNVTY, "apn inet6"); if (enable) { f_vty_transceive(GGSNVTY, "g-pdu tx-sequence-numbers"); } else { f_vty_transceive(GGSNVTY, "no g-pdu tx-sequence-numbers"); } f_vty_transceive(GGSNVTY, "exit"); f_vty_transceive(GGSNVTY, "apn inet46"); if (enable) { f_vty_transceive(GGSNVTY, "g-pdu tx-sequence-numbers"); } else { f_vty_transceive(GGSNVTY, "no g-pdu tx-sequence-numbers"); } f_vty_transceive(GGSNVTY, "end"); } private function f_verify_gtpu_txseq(in PDU_GTPU gtpu, in boolean expect_gptu_txseq) return boolean { if (expect_gptu_txseq) { if (gtpu.s_bit != '1'B) { log("GTPU sequence number expected but not present") return false; } } else { if (gtpu.s_bit != '0'B) { log("GTPU sequence number not expected but present") return false; } } return true; } private function f_vty_enable_echo_interval(integer intval_sec) runs on GT_CT { f_vty_enter_config(GGSNVTY); f_vty_transceive(GGSNVTY, "ggsn ggsn0"); if (intval_sec > 0) { f_vty_transceive(GGSNVTY, "echo-interval " & int2str(intval_sec)); } else { f_vty_transceive(GGSNVTY, "no echo-interval"); } f_vty_transceive(GGSNVTY, "end"); } /* -1 = osmo-ggsn default mtu */ private function f_vty_set_mtu(integer mtu, boolean do_apply := true) runs on GT_CT { var charstring val_str; var charstring apply_str := ""; var charstring mtu_cmd; if (mtu >= 0) { val_str := int2str(mtu); } else { val_str := "default"; } if (do_apply) { apply_str := " apply" } mtu_cmd := "mtu " & val_str & apply_str; f_vty_enter_config(GGSNVTY); f_vty_transceive(GGSNVTY, "ggsn ggsn0"); f_vty_transceive(GGSNVTY, "apn internet"); f_vty_transceive(GGSNVTY, mtu_cmd); f_vty_transceive(GGSNVTY, "exit"); f_vty_transceive(GGSNVTY, "apn inet6"); f_vty_transceive(GGSNVTY, mtu_cmd); f_vty_transceive(GGSNVTY, "exit"); f_vty_transceive(GGSNVTY, "apn inet46"); f_vty_transceive(GGSNVTY, mtu_cmd); f_vty_transceive(GGSNVTY, "end"); } private function DiameterForwardUnitdataCallback(PDU_DIAMETER msg) runs on DIAMETER_Emulation_CT return template PDU_DIAMETER { DIAMETER_UNIT.send(msg); return omit; } private function f_init_diameter(charstring id) runs on GT_CT { var DIAMETEROps ops := { create_cb := refers(DIAMETER_Emulation.ExpectedCreateCallback), unitdata_cb := refers(DiameterForwardUnitdataCallback), raw := true /* handler mode (single component for all IMSI)) */ }; /* Gx setup: */ g_gx_pars := { remote_ip := m_ggsn_ip_gtpc, remote_sctp_port := -1, local_ip := m_bind_ip_gtpc, local_sctp_port := PCRF_PORT, origin_host := "pcrf.localdomain", origin_realm := "localdomain", auth_app_id := omit, vendor_app_id := c_DIAMETER_3GPP_Gx_AID }; vc_Gx := DIAMETER_Emulation_CT.create(id); map(vc_Gx:DIAMETER, system:DIAMETER_CODEC_PT); connect(vc_Gx:DIAMETER_UNIT, self:Gx_UNIT); connect(vc_Gx:DIAMETER_PROC, self:Gx_PROC); vc_Gx.start(DIAMETER_Emulation.main(ops, g_gx_pars, id)); /* Gy setup: */ g_gy_pars := { remote_ip := m_ggsn_ip_gtpc, remote_sctp_port := -1, local_ip := m_bind_ip_gtpc, local_sctp_port := OCS_PORT, origin_host := "ocs.localdomain", origin_realm := "localdomain", auth_app_id := c_DIAMETER_CREDIT_CONTROL_AID, vendor_app_id := omit }; vc_Gy := DIAMETER_Emulation_CT.create(id); map(vc_Gy:DIAMETER, system:DIAMETER_CODEC_PT); connect(vc_Gy:DIAMETER_UNIT, self:Gy_UNIT); connect(vc_Gy:DIAMETER_PROC, self:Gy_PROC); vc_Gy.start(DIAMETER_Emulation.main(ops, g_gy_pars, id)); f_diameter_wait_capability(Gx_UNIT); f_diameter_wait_capability(Gy_UNIT); /* Give some time for our emulation to get out of SUSPECT list of SUT (3 watchdog ping-pongs): * RFC6733 sec 5.1 * RFC3539 sec 3.4.1 [5] * https://github.com/freeDiameter/freeDiameter/blob/master/libfdcore/p_psm.c#L49 */ f_sleep(1.0); } function f_init() runs on GT_CT { if (g_initialized == true) { return; } g_initialized := true; g_sgsn_ip_c := f_inet_addr(m_bind_ip_gtpc); g_sgsn_ip_u := f_inet_addr(m_bind_ip_gtpu); var Result res; map(self:GTPC, system:GTPC); res := GTPv1C_CodecPort_CtrlFunct.f_IPL4_listen(GTPC, m_bind_ip_gtpc, GTP1C_PORT, {udp:={}}); log("GTP1C ConnectionID: ", res.connId); g_peer_c.connId := res.connId; map(self:GTPU, system:GTPU); res := GTPv1U_CodecPort_CtrlFunct.f_GTPU_listen(GTPU, m_bind_ip_gtpu, GTP1U_PORT, {udp:={}}); g_peer_u.connId:= res.connId; g_restart_ctr := f_rnd_octstring(1); g_c_seq_nr := f_rnd_int(65535); g_d_seq_nr := f_rnd_int(65535); if (m_ggsn_impl == GGSN_IMPL_OSMOCOM) { f_init_vty(); f_vty_set_gpdu_txseq(use_gtpu_txseq); f_vty_enable_echo_interval(g_use_echo_intval); /* Emit a marker to appear in the SUT's own logging output */ f_logp(GGSNVTY, testcasename() & "() start"); } else if (m_ggsn_impl == GGSN_IMPL_OPEN5GS) { f_init_diameter(testcasename()); } } function f_shutdown_helper() runs on GT_CT { /* Sleep (T3-RESPONSE * N3-REQUESTS) seconds. * This ensures all retransmit queues are cleared before jumping * into next tests, hence avoding situation where a test resuses * a seqnum still in the GGSN's resp queue (dup req detector). * See OS#5485 avout decreasing time. We could also add a new * VTY command that calls gtp_clear_queues() */ f_sleep(int2float(mp_t3_response * mp_n3_requests)); setverdict(pass); } /* Altstep implementing responses to any incoming echo requests */ private altstep pingpong() runs on GT_CT { var Gtp1cUnitdata ud; var Gtp1uUnitdata udu; [g_use_echo_intval > 0] GTPC.receive(tr_GTPC_PING(?)) -> value ud { var uint16_t seq := oct2int(ud.gtpc.opt_part.sequenceNumber); GTPC.send(ts_GTPC_PONG(ud.peer, seq, g_restart_ctr)); repeat; }; [g_use_echo_intval == 0] GTPC.receive(tr_GTPC_PING(?)) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "GTP Echo Req rceived but not enabled in VTY"); }; [] T_default.timeout { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "pingpong T_default timeout"); }; } /* 'internet' in DNS encoding */ const octetstring c_ApnInternet := '08696E7465726E6574'O; const octetstring c_ApnInet6 := '05696E657436'O; const octetstring c_ApnInet46 := '06696E65743436'O; /* return random NSAPI */ function f_rnd_nsapi() return BIT4 { return int2bit(f_rnd_int(16), 4); } /* return random TEI[DC] */ function f_rnd_tei() return OCT4 { return int2oct(f_rnd_int(4294967296), 4); } /* return random IMEI(SV) */ function f_rnd_imeisv() return OCT8 { return hex2oct(f_rnd_hexstring(16, 10)); } /* define an (internal) representation of a PDP context */ template PdpContext t_DefinePDP(hexstring imsi, charstring msisdn, octetstring apn, EndUserAddress eua, OCT1 ratType := '02'O /* GERAN */) := { imsi := imsi, msisdn := '11'O & f_enc_TBCD(msisdn), /* encoded as TS 29.060 7.7.33, TS 29.002 */ nsapi := f_rnd_nsapi(), apn := apn, pco_req := omit, eua := eua, teid := f_rnd_tei(), teic := f_rnd_tei(), ratType := ratType, uli := { type_gtpc := '98'O, lengthf := 0 /* filled in by encoder */, geographicLocationType := '00'O /* CGI */, geographicLocation := { geographicLocationCGI := ts_GeographicLocationCGI('262'H, '42F'H, '0001'O, '0002'O) } }, charging_char := '0000'O, imeisv := f_rnd_imeisv(), ms_tz := f_ts_MS_TimeZone('03'O, '01'B) } /* send GTP-C for a given context and increment sequence number */ function f_send_gtpc(in template Gtp1cUnitdata data) runs on GT_CT { GTPC.send(data); g_c_seq_nr := (g_c_seq_nr + 1) mod 65536; } /* send GTP-U for a given context and increment sequence number */ function f_send_gtpu(inout PdpContext ctx, in octetstring data) runs on GT_CT { var template (omit) GTPU_Header_optional_part opt_part := omit; if (use_gtpu_txseq) { opt_part := f_GTPU_opt_part_from_seq(g_d_seq_nr); g_d_seq_nr := (g_d_seq_nr + 1) mod 65536; } GTPU.send(ts_GTP1U_GPDU(g_peer_u, opt_part, ctx.teid_remote, data)); } function f_handle_create_req(inout PdpContext ctx, in Gtp1cUnitdata ud, in template OCT1 exp_cause := '80'O) runs on GT_CT { var CreatePDPContextResponse cpr := ud.gtpc.gtpc_pdu.createPDPContextResponse; if (not match(cpr.cause.causevalue, exp_cause)) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "CreatePDPContextResp: cause expectancies didn't match"); } if (cpr.cause.causevalue == '80'O) { /* Accepted */ /* Check if EUA type corresponds to requested type */ if (match(ctx.eua, t_EuaIPv4(?)) and not match(cpr.endUserAddress, tr_EuaIPv4(?))){ Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "EUAv4 expectancies didn't match"); } if (match(ctx.eua, t_EuaIPv6(?)) and not match(cpr.endUserAddress, tr_EuaIPv6(?))) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "EUAv6 expectancies didn't match"); } if (match(ctx.eua, t_EuaIPv4v6(?, ?)) and not match(cpr.endUserAddress, tr_EuaIPv4v6(?, ?))) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "EUAv4v6 expectancies didn't match"); } } else if (cpr.cause.causevalue == '81'O) { /* Cause: New PDP type due to network preference */ /* ETSI TS 129 060 7.3.2 Create PDP Context Response. OS#5449 */ /* This should only happen if EUA requested type is v4v6: */ if (not ischosen(ctx.eua.endUserAddress.endUserAddressIPv4andIPv6)) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Cause not expected when requesting a non v4v6 EUA"); } if (not match(cpr.endUserAddress, (tr_EuaIPv4(?), tr_EuaIPv6(?)))) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Cause not expected when requesting+receiving EUAv4v6"); } } else { if (ispresent(cpr.endUserAddress)) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "EUA received on createPDPContextResponse cause=" & oct2str(cpr.cause.causevalue)); } setverdict(pass); return; } /* Check if PCO response corresponds to request */ if (ispresent(ctx.pco_req)) { if (match(ctx.pco_req, ts_PCO_IPv4_DNS_CONT) and not match(cpr.protConfigOptions, tr_PCO_IPv4_DNS_CONT_resp(?))) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "IPv4 DNS Container requested, but missing"); } if (match(ctx.pco_req, ts_PCO_IPv6_DNS) and not match(cpr.protConfigOptions, tr_PCO_IPv6_DNS_resp(?))) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "IPv6 DNS Container requested, but missing"); } } ctx.teid_remote := cpr.teidDataI.teidDataI; ctx.teic_remote := cpr.teidControlPlane.teidControlPlane; ctx.eua := cpr.endUserAddress; ctx.pco_neg := cpr.protConfigOptions; setverdict(pass); } private function f_handle_update_resp(inout PdpContext ctx, in Gtp1cUnitdata ud, in OCT1 exp_cause := '80'O) runs on GT_CT { var UpdatePDPContextResponseGGSN upr := ud.gtpc.gtpc_pdu.updatePDPContextResponse.updatePDPContextResponseGGSN; if (exp_cause == '80'O and exp_cause == upr.cause.causevalue) { ctx.teid_remote := upr.teidDataI.teidDataI; ctx.teic_remote := upr.teidControlPlane.teidControlPlane; if (ispresent(upr.protConfigOptions)) { ctx.pco_neg := upr.protConfigOptions; } setverdict(pass); } else if (exp_cause != '80'O and exp_cause == upr.cause.causevalue) { setverdict(pass); } else { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "UpdatePDPContextResp: cause expectancies didn't match"); } } private altstep as_DIA_Gx_CCR(DCC_NONE_CC_Request_Type req_type) runs on GT_CT { var PDU_DIAMETER rx_dia; [] Gx_UNIT.receive(tr_DIA_Gx_CCR(req_type := req_type)) -> value rx_dia { var template (omit) AVP avp; var octetstring sess_id; var AVP_Unsigned32 req_num; avp := f_DIAMETER_get_avp(rx_dia, c_AVP_Code_BASE_NONE_Session_Id); sess_id := valueof(avp.avp_data.avp_BASE_NONE_Session_Id); avp := f_DIAMETER_get_avp(rx_dia, c_AVP_Code_DCC_NONE_CC_Request_Number); req_num := valueof(avp.avp_data.avp_DCC_NONE_CC_Request_Number); Gx_UNIT.send(ts_DIA_Gx_CCA(rx_dia.hop_by_hop_id, rx_dia.end_to_end_id, sess_id, req_type, req_num)); } [] Gx_UNIT.receive(PDU_DIAMETER:?) -> value rx_dia { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, log2str("Received unexpected DIAMETER ", rx_dia)); } } private function f_tr_DIA_Gy_CCR(template (omit) PdpContext ctx, DCC_NONE_CC_Request_Type req_type) runs on GT_CT return template (present) PDU_DIAMETER { var template (present) PDU_DIAMETER tpl; var charstring smf_origin_host := "smf.localdomain"; var template (present) octetstring imsi := ?; var template (present) octetstring msisdn := ?; var template (present) octetstring imeisv := ?; var template (present) octetstring rat_type := ?; var template (present) OCT4 charging_char := ?; var template (present) OCT1 nsapi := ?; if (not istemplatekind(ctx, "omit")) { var PdpContext ctx_val := valueof(ctx); imsi := char2oct(f_dec_TBCD(imsi_hex2oct(ctx_val.imsi))); msisdn := char2oct(f_dec_TBCD(substr(ctx_val.msisdn, 1, lengthof(ctx_val.msisdn) -1))); imeisv := char2oct(f_dec_TBCD(ctx_val.imeisv)); rat_type := ctx_val.ratType; charging_char := char2oct(oct2str(ctx_val.charging_char)); nsapi := char2oct(hex2str(bit2hex(ctx_val.nsapi))); } select (req_type) { case (INITIAL_REQUEST) { tpl := tr_DIAMETER(flags:='11000000'B, cmd_code:=Credit_Control, avps := superset( tr_AVP_SessionId, tr_AVP_OriginHost(smf_origin_host), tr_AVP_OriginRealm(g_gy_pars.origin_realm), tr_AVP_DestinationRealm(g_gy_pars.origin_realm), tr_AVP_AuthAppId(int2oct(c_DIAMETER_CREDIT_CONTROL_AID, 4)), tr_AVP_ServiceContextId, tr_AVP_CcReqType(req_type), tr_AVP_CcReqNum(?), tr_AVP_EventTimestamp(?), tr_AVP_SubcrId({tr_AVP_SubcrIdType(END_USER_IMSI), tr_AVP_SubcrIdData(imsi)}), tr_AVP_SubcrId({tr_AVP_SubcrIdType(END_USER_E164), tr_AVP_SubcrIdData(msisdn)}), tr_AVP_RequestedAction(DIRECT_DEBITING), tr_AVP_3GPP_AoCRequestType, tr_AVP_MultipleServicesIndicator, tr_AVP_Multiple_Services_Credit_Control(content := superset( tr_AVP_Requested_Service_Unit, tr_AVP_PCC_3GPP_QoS_Information )), tr_AVP_3GPP_ServiceInformation(content := superset( tr_AVP_3GPP_PSInformation(content := superset( tr_AVP_3GPP_ChargingId, tr_AVP_3GPP_PDPType((IPv4,IPv6,IPv4v6)), tr_AVP_3GPP_PDPAddress(tr_AVP_Address((IP,IP6), ?)), tr_AVP_3GPP_SGSNAddress(tr_AVP_Address(IP, f_inet_addr(m_bind_ip_gtpc))), tr_AVP_3GPP_GGSNAddress(tr_AVP_Address(IP, f_inet_addr(m_ggsn_ip_gtpc))), tr_AVP_3GPP_CalledStationId, tr_AVP_3GPP_SelectionMode, tr_AVP_3GPP_ChargingCharacteristics(charging_char), tr_AVP_3GPP_SGSNMCCMNC, tr_AVP_3GPP_NSAPI(nsapi), tr_AVP_3GPP_MS_TimeZone, tr_AVP_3GPP_ULI, tr_AVP_GI_3GPP_RatType(rat_type), tr_AVP_UserEquipmentInfo({ tr_AVP_UserEquipmentInfoType(IMEISV), tr_AVP_UserEquipmentInfoValue(imeisv) }) )) )) )); } case (UPDATE_REQUEST) { tpl := tr_DIAMETER(flags:='11000000'B, cmd_code:=Credit_Control, avps := superset( tr_AVP_SessionId, tr_AVP_OriginHost(smf_origin_host), tr_AVP_OriginRealm(g_gy_pars.origin_realm), tr_AVP_DestinationRealm(g_gy_pars.origin_realm), tr_AVP_AuthAppId(int2oct(c_DIAMETER_CREDIT_CONTROL_AID, 4)), tr_AVP_ServiceContextId, tr_AVP_CcReqType(req_type), tr_AVP_CcReqNum(?), tr_AVP_DestinationHost(?), tr_AVP_EventTimestamp(?), tr_AVP_SubcrId({tr_AVP_SubcrIdType(END_USER_IMSI), tr_AVP_SubcrIdData(imsi)}), tr_AVP_SubcrId({tr_AVP_SubcrIdType(END_USER_E164), tr_AVP_SubcrIdData(msisdn)}), tr_AVP_RequestedAction(DIRECT_DEBITING), tr_AVP_3GPP_AoCRequestType, tr_AVP_Multiple_Services_Credit_Control(content := superset( tr_AVP_Requested_Service_Unit, tr_AVP_Used_Service_Unit, /* tr_AVP_3GPP_Reporting_Reason, can be sometimes inside UsedServiceUnit */ tr_AVP_PCC_3GPP_QoS_Information )), tr_AVP_3GPP_ServiceInformation(content := superset( tr_AVP_3GPP_PSInformation(content := superset( tr_AVP_3GPP_ChargingId, /* tr_AVP_3GPP_PDPType, Only in INIT */ tr_AVP_3GPP_PDPAddress(tr_AVP_Address((IP,IP6), ?)), tr_AVP_3GPP_SGSNAddress(tr_AVP_Address(IP, f_inet_addr(m_bind_ip_gtpc))), tr_AVP_3GPP_GGSNAddress(tr_AVP_Address(IP, f_inet_addr(m_ggsn_ip_gtpc))), tr_AVP_3GPP_CalledStationId, tr_AVP_3GPP_SelectionMode, tr_AVP_3GPP_ChargingCharacteristics(charging_char), tr_AVP_3GPP_SGSNMCCMNC, tr_AVP_3GPP_NSAPI(nsapi), tr_AVP_3GPP_MS_TimeZone, tr_AVP_3GPP_ULI, tr_AVP_GI_3GPP_RatType(rat_type), tr_AVP_UserEquipmentInfo({ tr_AVP_UserEquipmentInfoType(IMEISV), tr_AVP_UserEquipmentInfoValue(imeisv) }) )) )) )); } case (TERMINATION_REQUEST) { tpl := tr_DIAMETER(flags:='11000000'B, cmd_code:=Credit_Control, avps := superset( tr_AVP_SessionId, tr_AVP_OriginHost(smf_origin_host), tr_AVP_OriginRealm(g_gy_pars.origin_realm), tr_AVP_DestinationRealm(g_gy_pars.origin_realm), tr_AVP_AuthAppId(int2oct(c_DIAMETER_CREDIT_CONTROL_AID, 4)), tr_AVP_ServiceContextId, tr_AVP_CcReqType(req_type), tr_AVP_CcReqNum(?), tr_AVP_DestinationHost(?), tr_AVP_EventTimestamp(?), tr_AVP_SubcrId({tr_AVP_SubcrIdType(END_USER_IMSI), tr_AVP_SubcrIdData(imsi)}), tr_AVP_SubcrId({tr_AVP_SubcrIdType(END_USER_E164), tr_AVP_SubcrIdData(msisdn)}), tr_AVP_TerminationCause(?), tr_AVP_RequestedAction(DIRECT_DEBITING), tr_AVP_3GPP_AoCRequestType, tr_AVP_Multiple_Services_Credit_Control(content := superset( /* tr_AVP_Requested_Service_Unit, Only in INIT and UPDATE */ tr_AVP_Used_Service_Unit, tr_AVP_3GPP_Reporting_Reason(FINAL), tr_AVP_PCC_3GPP_QoS_Information )), tr_AVP_3GPP_ServiceInformation(content := superset( tr_AVP_3GPP_PSInformation(content := superset( tr_AVP_3GPP_ChargingId, /* tr_AVP_3GPP_PDPType, Only in INIT */ tr_AVP_3GPP_PDPAddress(tr_AVP_Address((IP,IP6), ?)), tr_AVP_3GPP_SGSNAddress(tr_AVP_Address(IP, f_inet_addr(m_bind_ip_gtpc))), tr_AVP_3GPP_GGSNAddress(tr_AVP_Address(IP, f_inet_addr(m_ggsn_ip_gtpc))), tr_AVP_3GPP_CalledStationId, tr_AVP_3GPP_SelectionMode, tr_AVP_3GPP_ChargingCharacteristics(charging_char), tr_AVP_3GPP_SGSNMCCMNC, tr_AVP_3GPP_NSAPI(nsapi), tr_AVP_3GPP_MS_TimeZone, tr_AVP_3GPP_ULI, tr_AVP_GI_3GPP_RatType(rat_type), tr_AVP_UserEquipmentInfo({ tr_AVP_UserEquipmentInfoType(IMEISV), tr_AVP_UserEquipmentInfoValue(imeisv) }) )) )) )); } } return tpl; } private altstep as_DIA_Gy_CCR(template (omit) PdpContext ctx, DCC_NONE_CC_Request_Type req_type) runs on GT_CT { [] Gy_UNIT.receive(f_tr_DIA_Gy_CCR(ctx, req_type := req_type)) -> value g_rx_gy { var template (value) PDU_DIAMETER tx_dia; var template (omit) AVP avp; var octetstring sess_id; var AVP_Unsigned32 req_num; avp := f_DIAMETER_get_avp(g_rx_gy, c_AVP_Code_BASE_NONE_Session_Id); sess_id := valueof(avp.avp_data.avp_BASE_NONE_Session_Id); avp := f_DIAMETER_get_avp(g_rx_gy, c_AVP_Code_DCC_NONE_CC_Request_Number); req_num := valueof(avp.avp_data.avp_DCC_NONE_CC_Request_Number); if (g_gy_validity_time > 0) { if (g_gy_volume_quota > 0) { tx_dia := ts_DIA_Gy_CCA_ValidityTimeVolumeThreshold( g_rx_gy.hop_by_hop_id, g_rx_gy.end_to_end_id, sess_id, req_type, req_num, g_gy_validity_time, g_gy_volume_quota, g_gy_volume_threshold); } else { tx_dia := ts_DIA_Gy_CCA_ValidityTime( g_rx_gy.hop_by_hop_id, g_rx_gy.end_to_end_id, sess_id, req_type, req_num, g_gy_validity_time); } } else { tx_dia := ts_DIA_Gy_CCA(g_rx_gy.hop_by_hop_id, g_rx_gy.end_to_end_id, sess_id, DIAMETER_SUCCESS, req_type, req_num); } Gy_UNIT.send(tx_dia); } [] Gy_UNIT.receive(PDU_DIAMETER:?) -> value g_rx_gy { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, log2str("Received unexpected DIAMETER Gy", g_rx_gy)); } } /* send a PDP context activation */ function f_pdp_ctx_act(inout PdpContext ctx, template OCT1 exp_cause := '80'O) runs on GT_CT return CreatePDPContextResponse { var Gtp1cUnitdata ud; var CreatePDPContextResponse cpr; var default d; log("sending CreatePDP"); f_send_gtpc(ts_GTPC_CreatePDP(g_peer_c, g_c_seq_nr, ctx.imsi, g_restart_ctr, ctx.teid, ctx.teic, ctx.nsapi, ctx.eua, ctx.apn, g_sgsn_ip_c, g_sgsn_ip_u, ctx.msisdn, ctx.pco_req, ctx.ratType, ctx.uli, ctx.charging_char, ctx.imeisv, ctx.ms_tz)); T_default.start; d := activate(pingpong()); if (Gx_PROC.checkstate("Connected")) { as_DIA_Gx_CCR(INITIAL_REQUEST); } if (Gy_PROC.checkstate("Connected")) { as_DIA_Gy_CCR(ctx, INITIAL_REQUEST); } alt { [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, createPDPContextResponse, ctx.teic)) -> value ud { f_handle_create_req(ctx, ud, exp_cause); cpr := ud.gtpc.gtpc_pdu.createPDPContextResponse; } } deactivate(d); T_default.stop; return cpr; } function f_pdp_ctx_exp_del_req(PdpContext ctx, template (omit) OCT1 expect_cause := omit, boolean expect_teardown := false) runs on GT_CT { var Gtp1cUnitdata ud; var default d; T_default.start; d := activate(pingpong()); alt { [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, deletePDPContextRequest, ctx.teic)) -> value ud { if (istemplatekind(expect_cause, "omit") and not ispresent(ud.gtpc.gtpc_pdu.deletePDPContextRequest.cause.causevalue)) { setverdict(pass); } else if (not istemplatekind(expect_cause, "omit") and ispresent(ud.gtpc.gtpc_pdu.deletePDPContextRequest.cause.causevalue) and ud.gtpc.gtpc_pdu.deletePDPContextRequest.cause.causevalue == valueof(expect_cause)) { setverdict(pass); } else { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "DeletePDPContextReq: cause expectancies didn't match"); } if (expect_teardown == ispresent(ud.gtpc.gtpc_pdu.deletePDPContextRequest.tearDownIndicator)) { setverdict(pass); } else { setverdict(fail); Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "DeletePDPContextReq: tearDownIndicator expectancies didn't match"); } } } deactivate(d); T_default.stop; } function f_pdp_ctx_del(PdpContext ctx, template BIT1 teardown_ind, OCT1 expect_causevalue := '80'O, boolean expect_diameter := true) runs on GT_CT { var Gtp1cUnitdata ud; var default d; var OCT4 expect_teid; /* 3GPP TS 29.060 sec 7.3.6 specifies TEID used in response message with cause value "Non existent" shall be zero. */ if (expect_causevalue == 'C0'O) { expect_teid := '00000000'O; } else { expect_teid := ctx.teic; } f_send_gtpc(ts_GTPC_DeletePDP(g_peer_c, g_c_seq_nr, ctx.teic_remote, ctx.nsapi, teardown_ind)); T_default.start; d := activate(pingpong()); if (Gx_PROC.checkstate("Connected") and expect_diameter) { as_DIA_Gx_CCR(TERMINATION_REQUEST); } if (Gy_PROC.checkstate("Connected") and expect_diameter) { as_DIA_Gy_CCR(ctx, TERMINATION_REQUEST); } alt { [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, deletePDPContextResponse, expect_teid)) -> value ud { if (ud.gtpc.gtpc_pdu.deletePDPContextResponse.cause.causevalue == expect_causevalue) { setverdict(pass); } else { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "DeletePDPContextResp: cause expectancies didn't match"); } } } deactivate(d); T_default.stop; } /* send a Update PdP Context Request, expect Response */ function f_pdp_ctx_update(inout PdpContext ctx, OCT1 exp_cause := '80'O, template (omit) OCT4 new_teid := omit, template (omit) OCT4 new_teic := omit) runs on GT_CT { var Gtp1cUnitdata ud; var default d; if (not istemplatekind(new_teid, "omit")) { ctx.teid := valueof(new_teid); } if (not istemplatekind(new_teic, "omit")) { ctx.teic := valueof(new_teic); } log("sending UpdatePDP"); f_send_gtpc(ts_GTPC_UpdatePDP(g_peer_c, ctx.teic_remote, g_c_seq_nr, ctx.imsi, g_restart_ctr, ctx.teid, ctx.teic, ctx.nsapi, g_sgsn_ip_c, g_sgsn_ip_u, ctx.pco_req, ctx.ratType, ctx.uli)); T_default.start; d := activate(pingpong()); alt { [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, updatePDPContextResponse, ctx.teic)) -> value ud { f_handle_update_resp(ctx, ud, exp_cause); } } deactivate(d); T_default.stop; } /* Get link-id from PDP Context EUA */ function f_ctx_get_ipv6_interface_id(in PdpContext ctx) return OCT16 { var OCT16 interface_id; if (ischosen(ctx.eua.endUserAddress.endUserAddressIPv4andIPv6)) { interface_id := ctx.eua.endUserAddress.endUserAddressIPv4andIPv6.ipv6_address; } else if (ischosen(ctx.eua.endUserAddress.endUserAddressIPv6)) { interface_id := ctx.eua.endUserAddress.endUserAddressIPv6.ipv6_address; } else { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Unexpected request to submit icmpv6 rs in IPv4 PDP context"); } return interface_id; } /* create ICMPv6 router solicitation deriving link-id from PDP Context EUA */ function f_icmpv6_rs_for_pdp(in PdpContext ctx) return octetstring { var OCT16 interface_id := f_ctx_get_ipv6_interface_id(ctx); return f_gen_icmpv6_router_solicitation(interface_id); } /* generate and encode ICMPv6 neighbor solicitation for PDP Context */ function f_gen_icmpv6_neigh_solicit_for_pdp(in PdpContext ctx) return octetstring { var OCT16 interface_id := f_ctx_get_ipv6_interface_id(ctx); var OCT16 link_local := f_ipv6_link_local(interface_id); var OCT16 daddr := f_ipv6_sol_node_mcast(link_local); return f_gen_icmpv6_neigh_solicit(link_local, daddr, link_local); } /* Wait for ICMPv4 from GTP */ function f_wait_icmp4(PdpContext ctx, template PDU_ICMP expected) runs on GT_CT { var Gtp1uUnitdata ud; T_default.start; alt { [] GTPU.receive(tr_GTPU_GPDU(g_peer_u, ctx.teid)) -> value ud { if (f_verify_gtpu_txseq(ud.gtpu, use_gtpu_txseq) == false) { setverdict(fail); stop; } var octetstring gpdu := ud.gtpu.gtpu_IEs.g_PDU_IEs.data; var IPv4_packet ip4 := f_IPv4_dec(gpdu); if (ip4.header.ver != 4) { repeat; } var PDU_ICMP icmp4 := f_dec_PDU_ICMP(ip4.payload); if (not match(icmp4, expected)) { repeat; } } [] GTPU.receive(tr_GTPU_GPDU(g_peer_u, ?)) -> value ud { setverdict(fail, "Received wrong local TEID"); } [] GTPU.receive { setverdict(fail); } [] T_default.timeout { setverdict(fail); } } T_default.stop; } /* Wait for ICMPv4 echo request from GTP */ function f_wait_icmp4_echo_request(PdpContext ctx) runs on GT_CT { f_wait_icmp4(ctx, tr_ICMPv4_ERQ); } /* Wait for ICMPv4 echo reply (or unreachable) from GTP */ function f_wait_icmp4_echo_reply(PdpContext ctx) runs on GT_CT { f_wait_icmp4(ctx, (tr_ICMPv4_ERP, tr_ICMPv4_DU)); } /* Wait for ICMPv6 from GTP */ function f_wait_icmp6(PdpContext ctx, template PDU_ICMPv6 expected) runs on GT_CT { var Gtp1uUnitdata ud; T_default.start; alt { [] GTPU.receive(tr_GTPU_GPDU(g_peer_u, ?)) -> value ud { if (f_verify_gtpu_txseq(ud.gtpu, use_gtpu_txseq) == false) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, log2str("Received GTPU with wrong txseq while waiting for ICMPv6: ", expected)); } var octetstring gpdu := ud.gtpu.gtpu_IEs.g_PDU_IEs.data; var IPv6_packet ip6 := f_IPv6_dec(gpdu); if (ip6.header.ver != 6 or ip6.header.nexthead != 58) { repeat; } var PDU_ICMPv6 icmp6 := f_dec_PDU_ICMPv6(ip6.payload); if (not match(icmp6, expected)) { repeat; } /* We are waiting for RA, update ctx */ if (match(icmp6, tr_ICMPv6_RA(?))) { for (var integer i := 0; i < lengthof(icmp6.routerAdvertisement.options); i := i + 1) { var OptionField opt := icmp6.routerAdvertisement.options[i]; if (ischosen(opt.prefixInformation)) { ctx.ip6_prefix := opt.prefixInformation.prefix; log("RA with /64 prefix ", ctx.ip6_prefix); } } } } [] GTPU.receive(tr_GTPU_GPDU(?, ?)) { repeat; } [] GTPU.receive { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, log2str("Received unexpected GTPU while waiting for ICMPv6: ", expected)); } [] T_default.timeout { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, log2str("Timeout waiting for ICMPv6: ", expected)); } } T_default.stop; } /* wait for GGSN to send us an ICMPv6 router advertisement */ function f_wait_rtr_adv(PdpContext ctx, template integer mtu := *) runs on GT_CT { var template (present) OptionField opt_prefix := tr_ICMP6_OptPrefix(?, 64); var template (present) Options opts; if (istemplatekind(mtu, "*")) { opts := ( { opt_prefix }, { opt_prefix, tr_ICMP6_OptMTU(?) } ); } else { opts := { opt_prefix, tr_ICMP6_OptMTU(mtu) }; } f_wait_icmp6(ctx, tr_ICMPv6_RA(opts)); } /* Wait for ICMPv6 echo request from GTP */ function f_wait_icmp6_echo_request(PdpContext ctx) runs on GT_CT { f_wait_icmp6(ctx, tr_ICMPv6_ERQ); } /* Wait for ICMPv6 echo reply (or unreachable) from GTP */ function f_wait_icmp6_echo_reply(PdpContext ctx) runs on GT_CT { f_wait_icmp6(ctx, (tr_ICMPv6_ERP,tr_ICMPv6_DU)); } /* create ICMPv6 router solicitation deriving link-id from PDP Context EUA */ function f_icmpv6_rs_for_pdp46(in PdpContext ctx) return octetstring { var OCT16 interface_id := ctx.eua.endUserAddress.endUserAddressIPv4andIPv6.ipv6_address; return f_gen_icmpv6_router_solicitation(interface_id); } /* generate and encode ICMPv6 neighbor solicitation for PDP Context */ function f_gen_icmpv6_neigh_solicit_for_pdp46(in PdpContext ctx) return octetstring { var OCT16 interface_id := ctx.eua.endUserAddress.endUserAddressIPv4andIPv6.ipv6_address; var OCT16 link_local := f_ipv6_link_local(interface_id); var OCT16 daddr := f_ipv6_sol_node_mcast(link_local); return f_gen_icmpv6_neigh_solicit(link_local, daddr, link_local); } /* Assert we don't receive a ICMPv4/6 echo reply (or unreachable) from GTP */ function f_wait_gtpu_fail(PdpContext ctx) runs on GT_CT { T_default.start; alt { [] GTPU.receive { setverdict(fail); } [] T_default.timeout { } } T_default.stop; } /* list of protocols where we don't accept duplicates */ const OCT2List protocol_ids_nodupes := { 'C021'O, 'C023'O, 'C223'O, '8021'O }; private function f_PCO_permits_duplicates(OCT2 id) return boolean { var integer i; for (i := 0; i < lengthof(protocol_ids_nodupes); i := i+1) { if (id == protocol_ids_nodupes[i]) { return false; } } return true; } /* ensure that every given protocol Identifier exist only exactly once in the PCO */ function f_PCO_ensure_no_duplicates(ProtConfigOptions pco) { var OCT2List protocol_ids := {}; var integer i, j; for (i := 0; i < lengthof(pco.protocols); i := i+1) { var OCT2 id := pco.protocols[i].protocolID; for (j := 0; j < lengthof(protocol_ids); j := j+1) { if (not f_PCO_permits_duplicates(id) and id == protocol_ids[j]) { setverdict(fail, "Duplicate ProtocolID ", id, " already present in ", pco.protocols); } } protocol_ids := protocol_ids & { id }; } } /* Test IPv6 context activation for dynamic IPv6 EUA without request of IPv6 DNS */ testcase TC_pdp6_act_deact() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet6, valueof(t_EuaIPv6Dyn))); f_pdp_ctx_act(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test IPv6 context activation for dynamic IPv6 EUA wirh request of IPv6 DNS in PCO */ testcase TC_pdp6_act_deact_pcodns() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet6, valueof(t_EuaIPv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv6_DNS); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); /* verify PCO contains both primary and secondary DNS */ var OCT4 ggsn_ip6_dns1 := f_inet6_addr(m_ggsn_ip6_dns1); if (not match(f_PCO_extract_proto(ctx.pco_neg, '0003'O, 1), ggsn_ip6_dns1)) { setverdict(fail, "Primary DNS IPv6 PCO option not found"); } var OCT4 ggsn_ip6_dns2 := f_inet6_addr(m_ggsn_ip6_dns2); if (not match(f_PCO_extract_proto(ctx.pco_neg, '0003'O, 2), ggsn_ip6_dns2)) { setverdict(fail, "Secondary DNS IPv6 PCO option not found"); } f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test PDP context activation for dynamic IPv6 EUA with IPv6 DNS in PCO and router solicitation/advertisement */ testcase TC_pdp6_act_deact_icmp6() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet6, valueof(t_EuaIPv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv6_DNS); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); f_send_gtpu(ctx, f_icmpv6_rs_for_pdp(ctx)); f_wait_rtr_adv(ctx); f_send_gtpu(ctx, f_gen_icmpv6_neigh_solicit_for_pdp(ctx)); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test PDP context activation for dynamic IPv6 EUA with MTU in router solicitation/advertisement */ testcase TC_pdp6_act_deact_mtu() runs on GT_CT { f_init(); if (m_ggsn_impl == GGSN_IMPL_OSMOCOM) { f_vty_set_mtu(m_configured_mtu); } else { /* In GGSN_IMPL_OPEN5GS we expect open5gs-smfd to be * configured with mtu value m_configured_mtu */ } var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet6, valueof(t_EuaIPv6Dyn))); f_pdp_ctx_act(ctx); f_send_gtpu(ctx, f_icmpv6_rs_for_pdp(ctx)); f_wait_rtr_adv(ctx, m_configured_mtu); f_send_gtpu(ctx, f_gen_icmpv6_neigh_solicit_for_pdp(ctx)); f_pdp_ctx_del(ctx, '1'B); if (m_ggsn_impl == GGSN_IMPL_OSMOCOM) { f_vty_set_mtu(-1); } f_shutdown_helper(); } /* Test PDP context activation for dynamic IPv6 EUA with IPv6 DNS in PCO and router solicitation/advertisement. Test we can send ICMPv6 ping over GTPU to DNS server. */ testcase TC_pdp6_act_deact_gtpu_access() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet6, valueof(t_EuaIPv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv6_DNS); f_pdp_ctx_act(ctx); f_send_gtpu(ctx, f_icmpv6_rs_for_pdp(ctx)); f_wait_rtr_adv(ctx); f_send_gtpu(ctx, f_gen_icmpv6_neigh_solicit_for_pdp(ctx)); var OCT16 dns1_addr := f_PCO_extract_proto(ctx.pco_neg, '0003'O); /* Check if we can use valid global src addr, should work */ var OCT16 saddr_glob := f_ipv6_global(ctx.eua.endUserAddress.endUserAddressIPv6.ipv6_address); f_send_gtpu(ctx, f_gen_icmpv6_echo(saddr_glob, dns1_addr)); f_wait_icmp6_echo_reply(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Same as TC_pdp6_act_deact_gtpu_access, but using the ll addr as src address. * The ability to reach the DNS IP using this ll-addr is not really * well-specified, and it really depends on the network/routing setup, * the address of the DNS server, etc. * osmo-ggsn (userspace) and open5gs allow using it, but open5gs doesn't support it. * Also osmo-ggsn (gtp-u kernel module) is unable to use it due to kernel implementation * constrains, see OS#6382. * Hence, run the test for completeness to test the GGSN, but expect/allow both behaviors. */ testcase TC_pdp6_act_deact_gtpu_access_ll_saddr() runs on GT_CT { var Gtp1uUnitdata ud; f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet6, valueof(t_EuaIPv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv6_DNS); f_pdp_ctx_act(ctx); f_send_gtpu(ctx, f_icmpv6_rs_for_pdp(ctx)); f_wait_rtr_adv(ctx); f_send_gtpu(ctx, f_gen_icmpv6_neigh_solicit_for_pdp(ctx)); var OCT16 dns1_addr := f_PCO_extract_proto(ctx.pco_neg, '0003'O); /* Check if we can use valid link-local src addr. */ var OCT16 saddr_ll := f_ipv6_link_local(ctx.eua.endUserAddress.endUserAddressIPv6.ipv6_address); f_send_gtpu(ctx, f_gen_icmpv6_echo(saddr_ll, dns1_addr)); T_default.start; alt { [] GTPU.receive(tr_GTPU_GPDU(g_peer_u, ?)) -> value ud { var octetstring gpdu := ud.gtpu.gtpu_IEs.g_PDU_IEs.data; var IPv6_packet ip6 := f_IPv6_dec(gpdu); if (ip6.header.ver != 6 or ip6.header.nexthead != 58) { repeat; } var PDU_ICMPv6 icmp6 := f_dec_PDU_ICMPv6(ip6.payload); if (not match(icmp6, (tr_ICMPv6_ERP,tr_ICMPv6_DU))) { repeat; } log("This GGSN does support forwarding link-local source address."); T_default.stop; } [] GTPU.receive(tr_GTPU_GPDU(?, ?)) { repeat; } [] GTPU.receive { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, log2str("Received unexpected GTPU while waiting for ICMPv6: ", (tr_ICMPv6_ERP,tr_ICMPv6_DU))); } [] T_default.timeout { log("This GGSN does NOT support forwarding link-local source address."); } } f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Check that attempting RA with another ll src addr won't work, packet dropped: */ testcase TC_pdp6_act_deact_gtpu_access_wrong_ll_saddr() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet6, valueof(t_EuaIPv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv6_DNS); f_pdp_ctx_act(ctx); f_send_gtpu(ctx, f_icmpv6_rs_for_pdp(ctx)); f_wait_rtr_adv(ctx); f_send_gtpu(ctx, f_gen_icmpv6_neigh_solicit_for_pdp(ctx)); var OCT16 saddr_ll := f_ipv6_link_local(ctx.eua.endUserAddress.endUserAddressIPv6.ipv6_address); var OCT16 saddr_ll_wrong := f_ipv6_mangle(saddr_ll, 8); f_send_gtpu(ctx, f_gen_icmpv6_router_solicitation(saddr_ll_wrong)); f_wait_gtpu_fail(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Assert that packets with wrong global src addr are dropped by GGSN */ testcase TC_pdp6_act_deact_gtpu_access_wrong_global_saddr() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet6, valueof(t_EuaIPv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv6_DNS); f_pdp_ctx_act(ctx); f_send_gtpu(ctx, f_icmpv6_rs_for_pdp(ctx)); f_wait_rtr_adv(ctx); f_send_gtpu(ctx, f_gen_icmpv6_neigh_solicit_for_pdp(ctx)); var OCT16 dns1_addr := f_PCO_extract_proto(ctx.pco_neg, '0003'O); var OCT16 saddr_glob := f_ipv6_global(ctx.eua.endUserAddress.endUserAddressIPv6.ipv6_address); var OCT16 saddr_wrong := f_ipv6_mangle(saddr_glob); f_send_gtpu(ctx, f_gen_icmpv6_echo(saddr_wrong, dns1_addr)); f_wait_gtpu_fail(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Send an IPv4 ICMP ECHO REQUEST to APN6, should fail (packet dropped */ testcase TC_pdp6_act_deact_gtpu_access_ipv4_apn6() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet6, valueof(t_EuaIPv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv6_DNS); f_pdp_ctx_act(ctx); f_send_gtpu(ctx, f_icmpv6_rs_for_pdp(ctx)); f_wait_rtr_adv(ctx); f_send_gtpu(ctx, f_gen_icmpv6_neigh_solicit_for_pdp(ctx)); var OCT4 saddr_v4 := f_inet_addr("192.168.10.2"); var OCT4 daddr_v4 := f_inet_addr("8.8.8.8"); f_send_gtpu(ctx, f_gen_icmpv4_echo(saddr_v4, daddr_v4)); f_wait_gtpu_fail(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Validate if different clients (pdp ctx) can reach one another through GGSN. */ testcase TC_pdp6_clients_interact() runs on GT_CT { f_init(); var PdpContext ctxA := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet6, valueof(t_EuaIPv6Dyn))); var PdpContext ctxB := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet6, valueof(t_EuaIPv6Dyn))); f_pdp_ctx_act(ctxA); f_send_gtpu(ctxA, f_icmpv6_rs_for_pdp(ctxA)); f_wait_rtr_adv(ctxA); f_send_gtpu(ctxA, f_gen_icmpv6_neigh_solicit_for_pdp(ctxA)); f_pdp_ctx_act(ctxB); f_send_gtpu(ctxB, f_icmpv6_rs_for_pdp(ctxB)); f_wait_rtr_adv(ctxB); f_send_gtpu(ctxB, f_gen_icmpv6_neigh_solicit_for_pdp(ctxB)); var OCT16 addrA_ll := f_ipv6_link_local(ctxA.eua.endUserAddress.endUserAddressIPv6.ipv6_address); var OCT16 addrB_ll := f_ipv6_link_local(ctxB.eua.endUserAddress.endUserAddressIPv6.ipv6_address); var OCT16 addrA_glob := f_ipv6_global(ctxA.eua.endUserAddress.endUserAddressIPv6.ipv6_address); var OCT16 addrB_glob := f_ipv6_global(ctxB.eua.endUserAddress.endUserAddressIPv6.ipv6_address); /* Validate if clients can interact using ll addr. */ f_send_gtpu(ctxA, f_gen_icmpv6_echo(addrA_ll, addrB_ll)); f_wait_gtpu_fail(ctxB); /* Validate if clients can interact using global addr. */ f_send_gtpu(ctxA, f_gen_icmpv6_echo(addrA_glob, addrB_glob)); f_wait_gtpu_fail(ctxB); f_pdp_ctx_del(ctxA, '1'B); f_pdp_ctx_del(ctxB, '1'B); f_shutdown_helper(); } /* Test PDP context activation for dynamic IPv4 EUA without DNS request */ testcase TC_pdp4_act_deact() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); f_pdp_ctx_act(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test PDP context activation for dynamic IPv4 EUA with IPv4 DNS in IPCP */ testcase TC_pdp4_act_deact_ipcp() runs on GT_CT { f_init(); var OCT4 ggsn_ip4_dns1 := f_inet_addr(m_ggsn_ip4_dns1); var OCT4 ggsn_ip4_dns2 := f_inet_addr(m_ggsn_ip4_dns2); var uint8_t ipcp_req_id := oct2int(f_rnd_octstring(1)); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_IPCP(ipcp_req_id)); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); /* verify IPCP is at all contained */ if (not match(ctx.pco_neg, tr_PCO_Contains('8021'O))) { setverdict(fail, "IPCP not found in PCO"); } /* verify IPCP contains both primary and secondary DNS */ var IpcpPacket ipcp := dec_IpcpPacket(f_PCO_extract_proto(ctx.pco_neg, '8021'O)); if (not match(ipcp, tr_IPCP_Ack_DNS(ipcp_req_id, ggsn_ip4_dns1, ggsn_ip4_dns2))) { if (not match(ipcp, tr_IPCP_Ack_DNS(ipcp_req_id))) { if (not match(ipcp, tr_IPCP_Ack_DNS(?))) { setverdict(fail, "Primary/Secondary DNS PCO IPCP option not found"); } else { setverdict(fail, "Primary/Secondary DNS PCO IPCP option found but not matching expected identifier"); } } else { setverdict(fail, "Primary/Secondary DNS PCO IPCP option found but not matching expected values"); } } f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test PDP context activation for dynamic IPv4 EUA with IPv4 DNS in IPCP + PAP authentication (broken) */ testcase TC_pdp4_act_deact_ipcp_pap_broken() runs on GT_CT { f_init(); var OCT4 ggsn_ip4_dns1 := f_inet_addr(m_ggsn_ip4_dns1); var OCT4 ggsn_ip4_dns2 := f_inet_addr(m_ggsn_ip4_dns2); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_PAP_IPv4_DNS); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); /* verify IPCP is at all contained */ if (not match(ctx.pco_neg, tr_PCO_Contains('8021'O))) { setverdict(fail, "IPCP not found in PCO"); } /* verify IPCP contains both primary and secondary DNS */ var IpcpPacket ipcp := dec_IpcpPacket(f_PCO_extract_proto(ctx.pco_neg, '8021'O)); if (not match(ipcp, tr_IPCP_Ack_DNS(0, ggsn_ip4_dns1, ggsn_ip4_dns2))) { if (not match(ipcp, tr_IPCP_Ack_DNS(0))) { setverdict(fail, "Primary/Secondary DNS PCO IPCP option not found"); } else { setverdict(fail, "Primary/Secondary DNS PCO IPCP option found but not matching expected values"); } } /* verify that PAP is contained */ if (not match(ctx.pco_neg, tr_PCO_Contains('C023'O))) { setverdict(fail, "PAP not found in PCO"); } var PapPacket pap := dec_PapPacket(f_PCO_extract_proto(ctx.pco_neg, 'C023'O)); if (not match(pap, tr_PAP_AuthAck)) { setverdict(fail, "PAP isn't an AuthenticateAck: ", pap); } f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test PDP context activation for dynamic IPv4 EUA with IPv4 DNS in PCO */ testcase TC_pdp4_act_deact_pcodns() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); /* verify PCO contains both primary and secondary DNS */ var OCT4 ggsn_ip4_dns1 := f_inet_addr(m_ggsn_ip4_dns1); if (not match(f_PCO_extract_proto(ctx.pco_neg, '000d'O, 1), ggsn_ip4_dns1)) { setverdict(fail, "Primary DNS IPv4 PCO option not found"); } var OCT4 ggsn_ip4_dns2 := f_inet_addr(m_ggsn_ip4_dns2); if (not match(f_PCO_extract_proto(ctx.pco_neg, '000d'O, 2), ggsn_ip4_dns2)) { setverdict(fail, "Secondary DNS IPv4 PCO option not found"); } f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test PDP context activation requesting MTU in PCO */ testcase TC_pdp4_act_deact_mtu() runs on GT_CT { f_init(); if (m_ggsn_impl == GGSN_IMPL_OSMOCOM) { f_vty_set_mtu(m_configured_mtu); } else { /* In GGSN_IMPL_OPEN5GS we expect open5gs-smfd to be * configured with mtu value m_configured_mtu */ } var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_MTU); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); /* verify PCO contains MTU */ var octetstring rx_mtu_octstr := f_PCO_extract_proto(ctx.pco_neg, PCO_P_to_OCT2(PCO_P_IPv4_LINK_MTU), 1); if (not match(rx_mtu_octstr, decmatch tr_PCO_P_UV_U16(m_configured_mtu))) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, log2str("Rx Unexpected MTU ", rx_mtu_octstr, " vs exp ", tr_PCO_P_UV_U16(m_configured_mtu))); } f_pdp_ctx_del(ctx, '1'B); if (m_ggsn_impl == GGSN_IMPL_OSMOCOM) { f_vty_set_mtu(-1); } f_shutdown_helper(); } /* Test PDP context activation for dynamic IPv4 EUA. Test we can send ICMPv4 ping over GTPU to DNS server. */ testcase TC_pdp4_act_deact_gtpu_access() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); var OCT4 dns1_addr := f_PCO_extract_proto(ctx.pco_neg, '000d'O); /* Check if we can use valid global src addr, should work */ var OCT4 saddr := ctx.eua.endUserAddress.endUserAddressIPv4.ipv4_address; f_send_gtpu(ctx, f_gen_icmpv4_echo(saddr, dns1_addr)); f_wait_icmp4_echo_reply(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Assert that packets with wrong global src addr are dropped by GGSN */ testcase TC_pdp4_act_deact_gtpu_access_wrong_saddr() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); var OCT4 dns1_addr := f_PCO_extract_proto(ctx.pco_neg, '000d'O); var OCT4 saddr := ctx.eua.endUserAddress.endUserAddressIPv4.ipv4_address; var OCT4 saddr_wrong := substr(saddr, 0, 3) & (saddr[3] xor4b '11'O); f_send_gtpu(ctx, f_gen_icmpv4_echo(saddr_wrong, dns1_addr)); f_wait_gtpu_fail(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Send an IPv6 RA to APN4, should fail (packet dropped) */ testcase TC_pdp4_act_deact_gtpu_access_ipv6_apn4() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); /* Send an IPv6 RA to APN4, should fail (packet dropped) */ var OCT16 saddr_v6 := f_inet6_addr("fde4:8dba:82e1:2000:1:2:3:4"); f_send_gtpu(ctx, f_gen_icmpv6_router_solicitation(saddr_v6)); f_wait_gtpu_fail(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Helper function for tests below. */ function f_pdp4_clients_interact() runs on GT_CT { f_init(); var PdpContext ctxA := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); var PdpContext ctxB := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); f_pdp_ctx_act(ctxA); f_pdp_ctx_act(ctxB); var OCT4 addrA := ctxA.eua.endUserAddress.endUserAddressIPv4.ipv4_address; var OCT4 addrB := ctxB.eua.endUserAddress.endUserAddressIPv4.ipv4_address; f_send_gtpu(ctxA, f_gen_icmpv4_echo(addrA, addrB)); f_wait_icmp4_echo_request(ctxB); f_pdp_ctx_del(ctxA, '1'B); f_pdp_ctx_del(ctxB, '1'B); } /* Validate if different clients (pdp ctx) can reach one another through GGSN. */ testcase TC_pdp4_clients_interact_with_txseq() runs on GT_CT { use_gtpu_txseq := true; f_pdp4_clients_interact(); f_shutdown_helper(); } /* Validate if different clients (pdp ctx) can reach one another through GGSN (without Tx sequence number). */ testcase TC_pdp4_clients_interact_without_txseq() runs on GT_CT { use_gtpu_txseq := false; f_pdp4_clients_interact(); f_shutdown_helper(); } testcase TC_echo_req_resp() runs on GT_CT { f_init(); f_send_gtpc(ts_GTPC_PING(g_peer_c, g_c_seq_nr)); T_default.start; alt { [] GTPC.receive(tr_GTPC_PONG(g_peer_c)) { setverdict(pass); }; [] GTPC.receive { repeat; }; [] T_default.timeout { setverdict(fail); } } T_default.stop; f_shutdown_helper(); } testcase TC_echo_req_resp_gtpu() runs on GT_CT { f_init(); GTPU.send(ts_GTPU_PING(g_peer_u, g_d_seq_nr)); T_default.start; alt { [] GTPU.receive(tr_GTPU_PONG(g_peer_u)) { setverdict(pass); }; [] GTPU.receive { repeat; }; [] T_default.timeout { setverdict(fail); } } T_default.stop; f_shutdown_helper(); } /* Test if the parser can cope with PCO that only contain either a * single primary DNS or a secondary DNS. */ testcase TC_pdp4_act_deact_with_single_dns() runs on GT_CT { /* Note: an unpatched osmo-ggsn version will enter an endless-loop when * the test is executed. * see also: Change-Id Icffde89f9bc5d8fcadf6e2dd6c0b4de03440edd5 and OS#3288 */ f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); var OCT4 ggsn_ip4_dns1 := f_inet_addr(m_ggsn_ip4_dns1); var OCT4 ggsn_ip4_dns2 := f_inet_addr(m_ggsn_ip4_dns2); var octetstring pco_neg_dns; var octetstring pco_neg_dns_expected; /* PCO with primary DNS only */ ctx.pco_req := valueof(ts_PCO_IPv4_PRI_DNS_IPCP); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); pco_neg_dns := f_PCO_extract_proto(ctx.pco_neg, '8021'O, 1); pco_neg_dns_expected := '0200000A8106'O & ggsn_ip4_dns1 /* Note: The prepended hex bytes encode the following information: * 0x02 = Configuration ACK * 0x00 = Identifier * 0x000a = Length * 0x81 = Type (Primary DNS Server Address) * 0x06 = Length * (4 byte IP-Address appended) */ if (not match(pco_neg_dns, pco_neg_dns_expected)) { setverdict(fail, "Primary DNS IPv4 PCO option not found"); } f_pdp_ctx_del(ctx, '1'B); /* PCO with secondary DNS only */ ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_SEC_DNS_IPCP); f_pdp_ctx_act(ctx); pco_neg_dns := f_PCO_extract_proto(ctx.pco_neg, '8021'O, 1); pco_neg_dns_expected := '0200000A8306'O & ggsn_ip4_dns2 if (not match(pco_neg_dns, pco_neg_dns_expected)) { setverdict(fail, "Secondary DNS IPv4 PCO option not found"); } f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test if the parser can cope with PCO that contains primary and secondary DNS in a separate IPCP container. * Note: an unpatched osmo-ggsn version will enter an endless-loop when the test is run * see Change-Id Icffde89f9bc5d8fcadf6e2dd6c0b4de03440edd5 and OS#3288. */ testcase TC_pdp4_act_deact_with_separate_dns() runs on GT_CT { /* Note: an unpatched osmo-ggsn version will enter an endless-loop when * the test is executed. * see also: Change-Id Icffde89f9bc5d8fcadf6e2dd6c0b4de03440edd5 and OS#3288 */ f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); var OCT4 ggsn_ip4_dns1 := f_inet_addr(m_ggsn_ip4_dns1); var OCT4 ggsn_ip4_dns2 := f_inet_addr(m_ggsn_ip4_dns2); var octetstring pco_neg_dns; var octetstring pco_neg_dns_expected; ctx.pco_req := valueof(ts_PCO_IPv4_SEPARATE_DNS_IPCP); f_pdp_ctx_act(ctx); /* Check if primary DNS is contained */ pco_neg_dns := f_PCO_extract_proto(ctx.pco_neg, '8021'O, 1); pco_neg_dns_expected := '0200000A8106'O & ggsn_ip4_dns1 if (not match(pco_neg_dns, pco_neg_dns_expected)) { setverdict(fail, "Primary DNS IPv4 PCO option not found"); } /* Check if secondary DNS is contained */ /* This used to fail due to a bug in osmo-ggsn, see OS#3381 */ pco_neg_dns := f_PCO_extract_proto(ctx.pco_neg, '8021'O, 2); pco_neg_dns_expected := '0200000A8306'O & ggsn_ip4_dns2 if (not match(pco_neg_dns, pco_neg_dns_expected)) { setverdict(fail, "Secondary DNS IPv4 PCO option not found"); } f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Validate that SUT updates remote TEIC when requested through UpdatePDPContextRequest */ testcase TC_pdp4_act_update_teic() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); /* UpdatePDPContestRequest changing the local TEIC */ var OCT4 new_teic := ctx.teic; new_teic[3] := new_teic[3] xor4b '11'O; f_pdp_ctx_update(ctx, new_teic := new_teic); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Validate that SUT updates remote TEID when requested through UpdatePDPContextRequest */ testcase TC_pdp4_act_update_teid() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); var OCT4 dns1_addr := f_PCO_extract_proto(ctx.pco_neg, '000d'O); var OCT4 saddr := ctx.eua.endUserAddress.endUserAddressIPv4.ipv4_address; /* Data is sent (back) to the local TEID established during CreatePDPContext */ f_send_gtpu(ctx, f_gen_icmpv4_echo(saddr, dns1_addr)); f_wait_icmp4_echo_reply(ctx); /* UpdatePDPContestRequest changing the local TEID */ var OCT4 new_teid := ctx.teid; new_teid[3] := new_teid[3] xor4b '11'O; f_pdp_ctx_update(ctx, new_teid := new_teid); /* Check if we can send data after updating the PDP context. Answer should be sent to the new TEID */ f_send_gtpu(ctx, f_gen_icmpv4_echo(saddr, dns1_addr)); f_wait_icmp4_echo_reply(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test IPv4v6 context activation for dynamic IPv4v6 EUA without DNS request */ testcase TC_pdp46_act_deact() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet46, valueof(t_EuaIPv4Dynv6Dyn))); f_pdp_ctx_act(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test PDP context activation for dynamic IPv4v6 EUA with IPv4 DNS in IPCP */ testcase TC_pdp46_act_deact_ipcp() runs on GT_CT { f_init(); var OCT4 ggsn_ip4_dns1 := f_inet_addr(m_ggsn_ip4_dns1); var OCT4 ggsn_ip4_dns2 := f_inet_addr(m_ggsn_ip4_dns2); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet46, valueof(t_EuaIPv4Dynv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_IPCP); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); /* verify IPCP is at all contained */ if (not match(ctx.pco_neg, tr_PCO_Contains('8021'O))) { setverdict(fail, "IPCP not found in PCO"); } f_PCO_ensure_no_duplicates(ctx.pco_neg); /* verify IPCP contains both primary and secondary IPv4 DNS */ var IpcpPacket ipcp := dec_IpcpPacket(f_PCO_extract_proto(ctx.pco_neg, '8021'O)); if (not match(ipcp, tr_IPCP_Ack_DNS(0, ggsn_ip4_dns1, ggsn_ip4_dns2))) { if (not match(ipcp, tr_IPCP_Ack_DNS(0))) { setverdict(fail, "Primary/Secondary DNS PCO IPCP option not found"); } else { setverdict(fail, "Primary/Secondary DNS PCO IPCP option found but not matching expected values"); } } f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test PDP context activation for dynamic IPv4v6 EUA with IPv6 DNS in PCO and router solicitation/advertisement */ testcase TC_pdp46_act_deact_icmp6() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet46, valueof(t_EuaIPv4Dynv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv6_DNS); f_pdp_ctx_act(ctx); f_send_gtpu(ctx, f_icmpv6_rs_for_pdp46(ctx)); f_wait_rtr_adv(ctx); f_send_gtpu(ctx, f_gen_icmpv6_neigh_solicit_for_pdp46(ctx)); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test IPv4v6 context activation for dynamic IPv4v6 EUA with request of IPv4 DNS in PCO */ testcase TC_pdp46_act_deact_pcodns4() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet46, valueof(t_EuaIPv4Dynv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); /* verify PCO contains both primary and secondary IPv4 DNS */ var OCT4 ggsn_ip4_dns1 := f_inet_addr(m_ggsn_ip4_dns1); if (not match(f_PCO_extract_proto(ctx.pco_neg, '000d'O, 1), ggsn_ip4_dns1)) { setverdict(fail, "Primary DNS IPv4 PCO option not found"); } var OCT4 ggsn_ip4_dns2 := f_inet_addr(m_ggsn_ip4_dns2); if (not match(f_PCO_extract_proto(ctx.pco_neg, '000d'O, 2), ggsn_ip4_dns2)) { setverdict(fail, "Secondary DNS IPv4 PCO option not found"); } f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test IPv4v6 context activation for dynamic IPv4v6 EUA with request of IPv6 DNS in PCO */ testcase TC_pdp46_act_deact_pcodns6() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet46, valueof(t_EuaIPv4Dynv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv6_DNS); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); /* verify PCO contains both primary and secondary IPv6 DNS */ var OCT4 ggsn_ip6_dns1 := f_inet6_addr(m_ggsn_ip6_dns1); if (not match(f_PCO_extract_proto(ctx.pco_neg, '0003'O, 1), ggsn_ip6_dns1)) { setverdict(fail, "Primary DNS IPv6 PCO option not found"); } var OCT4 ggsn_ip6_dns2 := f_inet6_addr(m_ggsn_ip6_dns2); if (not match(f_PCO_extract_proto(ctx.pco_neg, '0003'O, 2), ggsn_ip6_dns2)) { setverdict(fail, "Secondary DNS IPv6 PCO option not found"); } f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Test IPv4v6 context activation requesting MTU in PCO */ testcase TC_pdp46_act_deact_mtu() runs on GT_CT { f_init(); if (m_ggsn_impl == GGSN_IMPL_OSMOCOM) { f_vty_set_mtu(m_configured_mtu); } else { /* In GGSN_IMPL_OPEN5GS we expect open5gs-smfd to be * configured with mtu value m_configured_mtu */ } var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet46, valueof(t_EuaIPv4Dynv6Dyn))); ctx.pco_req := valueof(ts_PCO_MTU); f_pdp_ctx_act(ctx); f_PCO_ensure_no_duplicates(ctx.pco_neg); /* verify PCO contains MTU */ var octetstring rx_mtu_octstr := f_PCO_extract_proto(ctx.pco_neg, PCO_P_to_OCT2(PCO_P_IPv4_LINK_MTU), 1); if (not match(rx_mtu_octstr, decmatch tr_PCO_P_UV_U16(m_configured_mtu))) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, log2str("Rx Unexpected MTU ", rx_mtu_octstr, " vs exp ", tr_PCO_P_UV_U16(m_configured_mtu))); } f_send_gtpu(ctx, f_icmpv6_rs_for_pdp(ctx)); f_wait_rtr_adv(ctx, m_configured_mtu); f_send_gtpu(ctx, f_gen_icmpv6_neigh_solicit_for_pdp(ctx)); f_pdp_ctx_del(ctx, '1'B); if (m_ggsn_impl == GGSN_IMPL_OSMOCOM) { f_vty_set_mtu(-1); } f_shutdown_helper(); } /* Test PDP context activation for dynamic IPv4v6 EUA. Test we can send ICMPv6 ping over GTPU to DNS server. */ testcase TC_pdp46_act_deact_gtpu_access() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet46, valueof(t_EuaIPv4Dynv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); var OCT4 dns1_addr := f_PCO_extract_proto(ctx.pco_neg, '000d'O); /* Check if we can use valid global src addr, should work */ var OCT4 saddr := ctx.eua.endUserAddress.endUserAddressIPv4andIPv6.ipv4_address; f_send_gtpu(ctx, f_gen_icmpv4_echo(saddr, dns1_addr)); f_wait_icmp4_echo_reply(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Assert that packets with wrong ipv4 src addr are dropped by GGSN on APN IPv4v6 */ testcase TC_pdp46_act_deact_gtpu_access_wrong_saddr_ipv4() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet46, valueof(t_EuaIPv4Dynv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); var OCT4 dns1_addr := f_PCO_extract_proto(ctx.pco_neg, '000d'O); var OCT4 saddr := ctx.eua.endUserAddress.endUserAddressIPv4andIPv6.ipv4_address; var OCT4 saddr_wrong := substr(saddr, 0, 3) & (saddr[3] xor4b '11'O); f_send_gtpu(ctx, f_gen_icmpv4_echo(saddr_wrong, dns1_addr)); f_wait_gtpu_fail(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Check that attempting RA with another ll src addr won't work, packet dropped: */ testcase TC_pdp46_act_deact_gtpu_access_wrong_ll_saddr_ipv6() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet46, valueof(t_EuaIPv4Dynv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); var OCT16 saddr_ll := f_ipv6_link_local(ctx.eua.endUserAddress.endUserAddressIPv4andIPv6.ipv6_address); var OCT16 saddr_ll_wrong := f_ipv6_mangle(saddr_ll, 8); f_send_gtpu(ctx, f_gen_icmpv6_router_solicitation(saddr_ll_wrong)); f_wait_gtpu_fail(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Assert that packets with wrong ipv6 global src addr are dropped by GGSN on APN IPv4v6 */ testcase TC_pdp46_act_deact_gtpu_access_wrong_global_saddr_ipv6() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet46, valueof(t_EuaIPv4Dynv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv6_DNS); f_pdp_ctx_act(ctx); f_send_gtpu(ctx, f_icmpv6_rs_for_pdp(ctx)); f_wait_rtr_adv(ctx); f_send_gtpu(ctx, f_gen_icmpv6_neigh_solicit_for_pdp(ctx)); var OCT16 dns1_addr := f_PCO_extract_proto(ctx.pco_neg, '0003'O); var OCT16 saddr_glob := f_ipv6_global(ctx.eua.endUserAddress.endUserAddressIPv4andIPv6.ipv6_address); var OCT16 saddr_wrong := f_ipv6_mangle(saddr_glob); f_send_gtpu(ctx, f_gen_icmpv6_echo(saddr_wrong, dns1_addr)); f_wait_gtpu_fail(ctx); f_pdp_ctx_del(ctx, '1'B); f_shutdown_helper(); } /* Validate if different clients (pdp ctx) can reach one another through GGSN. */ testcase TC_pdp46_clients_interact() runs on GT_CT { f_init(); var PdpContext ctxA := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet46, valueof(t_EuaIPv4Dynv6Dyn))); var PdpContext ctxB := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInet46, valueof(t_EuaIPv4Dynv6Dyn))); f_pdp_ctx_act(ctxA); f_send_gtpu(ctxA, f_icmpv6_rs_for_pdp46(ctxA)); f_wait_rtr_adv(ctxA); f_send_gtpu(ctxA, f_gen_icmpv6_neigh_solicit_for_pdp46(ctxA)); f_pdp_ctx_act(ctxB); f_send_gtpu(ctxB, f_icmpv6_rs_for_pdp46(ctxB)); f_wait_rtr_adv(ctxB); f_send_gtpu(ctxB, f_gen_icmpv6_neigh_solicit_for_pdp46(ctxB)); var OCT16 addrA_ll := f_ipv6_link_local(ctxA.eua.endUserAddress.endUserAddressIPv4andIPv6.ipv6_address); var OCT16 addrB_ll := f_ipv6_link_local(ctxB.eua.endUserAddress.endUserAddressIPv4andIPv6.ipv6_address); var OCT16 addrA_glob := f_ipv6_global(ctxA.eua.endUserAddress.endUserAddressIPv4andIPv6.ipv6_address); var OCT16 addrB_glob := f_ipv6_global(ctxB.eua.endUserAddress.endUserAddressIPv4andIPv6.ipv6_address); /* Validate if clients can interact using ll addr. */ f_send_gtpu(ctxA, f_gen_icmpv6_echo(addrA_ll, addrB_ll)); f_wait_gtpu_fail(ctxB); /* Validate if clients can interact using global addr. */ f_send_gtpu(ctxA, f_gen_icmpv6_echo(addrA_glob, addrB_glob)); f_wait_gtpu_fail(ctxB); f_pdp_ctx_del(ctxA, '1'B); f_pdp_ctx_del(ctxB, '1'B); f_shutdown_helper(); } /* Test IPv4v6 context activation for dynamic IPv4v6 EUA on a v4-only APN */ testcase TC_pdp46_act_deact_apn4() runs on GT_CT { const OCT1 cause_accept := '80'O; /* Normal accept cause */ const OCT1 cause_new_pdp_type := '81'O; /* Cause: New PDP type due to network preference */ const OCT1 cause_unknown_pdp := 'DC'O; /* Cause: Unknown PDP address or PDP type */ var CreatePDPContextResponse cpr; f_init(); var PdpContext ctx46 := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dynv6Dyn))); cpr := f_pdp_ctx_act(ctx46, (cause_unknown_pdp, cause_new_pdp_type)); if (cpr.cause.causevalue == cause_new_pdp_type) { /* 3GPP TS 23.060 sec 9.2.1: "If the MS requests PDP type IPv4v6, * but the operator preferences dictate the use of a single IP * version only, the PDP type shall be changed to a single address * PDP type (IPv4 or IPv6) and a reason cause shall be returned to * the MS indicating that only the assigned PDP type is allowed. In * this case, the MS shall not request another PDP context for the * other PDP type during the existence of the PDP context." */ f_pdp_ctx_del(ctx46, '1'B); } else { /* 3GPP TS 23.060 sec 9.2.1 NOTE 5: If the MS requests PDP type * IPv4v6, and the PDP context is rejected due to "unknown PDP * type", the MS can attempt to establish dual-stack connectivity * by performing two PDP context request procedures to activate an * IPv4 PDP context and an IPv6 PDP context, both to the same APN. A * typical MS first attempts v4v6, and if rejected, then tries v4 * and v6 separetly */ var PdpContext ctx4 := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); f_pdp_ctx_act(ctx4, cause_accept); /* Normal accept cause */ var PdpContext ctx6 := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv6Dyn))); f_pdp_ctx_act(ctx6, cause_unknown_pdp); /* Cause: Unknown PDP address or PDP type */ f_pdp_ctx_del(ctx4, '1'B); } f_shutdown_helper(); } /* Validate if 2nd CtxCreateReq with increased Recovery IE causes ggsn to drop 1st one (while keeping 2nd one). */ testcase TC_pdp_act2_recovery() runs on GT_CT { var Gtp1cUnitdata ud; var default d; var boolean ctxA_deleted := false; var boolean ctxB_created := false; f_init(); var PdpContext ctxA := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); var PdpContext ctxB := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); f_pdp_ctx_act(ctxA); g_restart_ctr := int2oct((oct2int(g_restart_ctr) + 1) mod 256, 1); log("sending 2nd CreatePDP (recovery increased)"); f_send_gtpc(ts_GTPC_CreatePDP(g_peer_c, g_c_seq_nr, ctxB.imsi, g_restart_ctr, ctxB.teid, ctxB.teic, ctxB.nsapi, ctxB.eua, ctxB.apn, g_sgsn_ip_c, g_sgsn_ip_u, ctxB.msisdn, ctxB.pco_req)); T_default.start; d := activate(pingpong()); alt { [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, createPDPContextResponse, ctxB.teic)) -> value ud { f_handle_create_req(ctxB, ud); if (not ctxB_created) { ctxB_created := true; setverdict(pass); } else { setverdict(fail, "Repeated createPDPContextResponse(ctxB)"); } if (not ctxA_deleted) { repeat; } } [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, deletePDPContextRequest, ctxA.teic)) -> value ud { if (ispresent(ud.gtpc.gtpc_pdu.deletePDPContextRequest.tearDownIndicator)) { setverdict(pass); } else { setverdict(fail); } if (not ctxA_deleted) { ctxA_deleted := true; setverdict(pass); } else { setverdict(fail, "Repeated deletePDPContextRequest(ctxA)"); } if (not ctxB_created) { repeat; } } [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, deletePDPContextRequest, ctxB.teic)) -> value ud { setverdict(fail, "GGSN dropping still valid pdp ctx"); } } deactivate(d); T_default.stop; f_pdp_ctx_del(ctxB, '1'B); f_shutdown_helper(); } /* Send a duplicate echo req. osmo-ggsn maintains a queue for sent responses (T3-RESPONSE * N3-REQUESTS): * If same delete req is sent and duplicate is detected, saved duplicate response should be sent back. */ testcase TC_act_deact_retrans_duplicate() runs on GT_CT { f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); f_pdp_ctx_act(ctx); f_pdp_ctx_del(ctx, '1'B); /* leave some time in between to make sure retransmit response queue keeps packets for a while */ f_sleep(int2float(mp_t3_response)); /* g_c_seq_nr was increased during f_pdp_ctx_del(), we want a duplicate. If it was not a duplicate, osmo-ggsn would answer with a failure since that PDP ctx was already deleted. */ if (g_c_seq_nr == 0) { g_c_seq_nr := 65535; } else { g_c_seq_nr := g_c_seq_nr - 1; } f_pdp_ctx_del(ctx, '1'B, expect_diameter := false); /* Now send a new pdp ctx del (increased seqnum). It should fail with cause "non-existent": */ var OCT1 cause_nonexistent := 'C0'O; f_pdp_ctx_del(ctx, '1'B, cause_nonexistent, expect_diameter := false); f_shutdown_helper(); } /* Activate PDP context + trigger Recovery procedure through EchoResp */ testcase TC_pdp_act_restart_ctr_echo() runs on GT_CT { var Gtp1cUnitdata ud; g_use_echo_intval := 5; timer T_echo; f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); f_pdp_ctx_act(ctx); /* Wait to receive echo request and send initial Restart counter */ T_echo.start(int2float(g_use_echo_intval) + 1.0); alt { [] GTPC.receive(tr_GTPC_PING(?)) -> value ud { var uint16_t seq := oct2int(ud.gtpc.opt_part.sequenceNumber); GTPC.send(ts_GTPC_PONG(ud.peer, seq, g_restart_ctr)); } [] T_echo.timeout { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Timeout waiting for ping"); } } T_echo.stop; /* Wait to receive second echo request and send incremented Restart counter. This will fake a restarted SGSN, and pdp ctx allocated should be released by GGSN */ g_restart_ctr := int2oct((oct2int(g_restart_ctr) + 1) mod 256, 1); T_echo.start(int2float(g_use_echo_intval) + 1.0); alt { [] GTPC.receive(tr_GTPC_PING(?)) -> value ud { var uint16_t seq := oct2int(ud.gtpc.opt_part.sequenceNumber); GTPC.send(ts_GTPC_PONG(ud.peer, seq, g_restart_ctr)); } [] T_echo.timeout { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Timeout waiting for ping"); } } T_echo.stop; f_pdp_ctx_exp_del_req(ctx, omit, true); f_shutdown_helper(); } /* Test creation, user plane and deletion of big amount (1000) of concurrent PDP context */ testcase TC_lots_of_concurrent_pdp_ctx() runs on GT_CT { var Gtp1cUnitdata udc; var Gtp1uUnitdata udu; const integer num_ctx := 1000; var PdpContext ctx[num_ctx]; timer T_next := 0.01; var integer next_req_ctx := 0; var integer rx_resp_ctx := 0; var integer rx_pong := 0; var OCT4 dns1_addr; var OCT4 saddr; var integer teic; var integer idx; f_init(); for (var integer i := 0; i < num_ctx; i := i + 1) { ctx[i] := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234" & int2str(f_rnd_int(4294967296)), c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx[i].teic := int2oct(i+1, 4); /* +1: skip TEIC=0 */ ctx[i].teid := int2oct(i+1, 4); /* +1: skip TEID=0 */ ctx[i].pco_req := valueof(ts_PCO_IPv4_DNS_CONT); } T_default.start(60.0); T_next.start; alt { [Gx_PROC.checkstate("Connected")] as_DIA_Gx_CCR(INITIAL_REQUEST) { repeat; } [Gy_PROC.checkstate("Connected")] as_DIA_Gy_CCR(omit, INITIAL_REQUEST) { repeat; } [] pingpong(); [] T_next.timeout { f_send_gtpc(ts_GTPC_CreatePDP(g_peer_c, g_c_seq_nr, ctx[next_req_ctx].imsi, g_restart_ctr, ctx[next_req_ctx].teid, ctx[next_req_ctx].teic, ctx[next_req_ctx].nsapi, ctx[next_req_ctx].eua, ctx[next_req_ctx].apn, g_sgsn_ip_c, g_sgsn_ip_u, ctx[next_req_ctx].msisdn, ctx[next_req_ctx].pco_req, ctx[next_req_ctx].ratType, ctx[next_req_ctx].uli, ctx[next_req_ctx].charging_char, ctx[next_req_ctx].imeisv, ctx[next_req_ctx].ms_tz)); next_req_ctx := next_req_ctx + 1; if (next_req_ctx < num_ctx) { T_next.start; } repeat; } [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, createPDPContextResponse, ?)) -> value udc { teic := oct2int(udc.gtpc.teid); if (not match(teic, (1 .. num_ctx))) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Rx Unexpected TEIC"); } idx := teic - 1; f_handle_create_req(ctx[idx], udc); rx_resp_ctx := rx_resp_ctx + 1; dns1_addr := f_PCO_extract_proto(ctx[idx].pco_neg, '000d'O); saddr := ctx[idx].eua.endUserAddress.endUserAddressIPv4.ipv4_address; f_send_gtpu(ctx[idx], f_gen_icmpv4_echo(saddr, dns1_addr)); repeat; } [] GTPU.receive(tr_GTPU_GPDU(g_peer_u, ?)) -> value udu { var octetstring gpdu := udu.gtpu.gtpu_IEs.g_PDU_IEs.data; var IPv4_packet ip4 := f_IPv4_dec(gpdu); if (ip4.header.ver != 4) { repeat; } var PDU_ICMP icmp4 := f_dec_PDU_ICMP(ip4.payload); if (not match(icmp4, (tr_ICMPv4_ERP, tr_ICMPv4_DU))) { repeat; } rx_pong := rx_pong + 1; if (rx_pong < num_ctx) { repeat; } setverdict(pass); } [] GTPC.receive { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Rx Unexpected GTPC"); } [] GTPU.receive { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Rx Unexpected GTPU"); } } /* Let's close them now: */ next_req_ctx := 0; rx_resp_ctx := 0; T_next.start; alt { [Gx_PROC.checkstate("Connected")] as_DIA_Gx_CCR(TERMINATION_REQUEST) { repeat; } [Gy_PROC.checkstate("Connected")] as_DIA_Gy_CCR(omit, TERMINATION_REQUEST) { repeat; } [] pingpong(); [] T_next.timeout { f_send_gtpc(ts_GTPC_DeletePDP(g_peer_c, g_c_seq_nr, ctx[next_req_ctx].teic_remote, ctx[next_req_ctx].nsapi, '1'B)); next_req_ctx := next_req_ctx + 1; if (next_req_ctx < num_ctx) { T_next.start; } repeat; } [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, deletePDPContextResponse, ?)) -> value udc { teic := oct2int(udc.gtpc.teid); if (not match(teic, (1 .. num_ctx))) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Rx Unexpected TEIC"); } rx_resp_ctx := rx_resp_ctx + 1; if (rx_resp_ctx < num_ctx) { repeat; } setverdict(pass); } [] GTPC.receive { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Rx Unexpected GTPC"); } [] GTPU.receive { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Rx Unexpected GTPU"); } } T_next.stop; T_default.stop; f_shutdown_helper(); } /* Test callocation of PDP contexts until reaching addr pool exhaustion */ type record of OCT4 TEIClist; testcase TC_addr_pool_exhaustion() runs on GT_CT { var Gtp1cUnitdata udc; var Gtp1uUnitdata udu; var PdpContext ctx; timer T_next := 0.005; var integer next_req_ctx := 0; var integer rx_resp_ctx := 0; var integer num_ctx; var boolean cont_req := true; var CreatePDPContextResponse cpr; var TEIClist teic_list := {}; var integer teic; f_init(); T_default.start(120.0); T_next.start; alt { [Gx_PROC.checkstate("Connected")] as_DIA_Gx_CCR(INITIAL_REQUEST) { repeat; } [Gy_PROC.checkstate("Connected")] as_DIA_Gy_CCR(omit, INITIAL_REQUEST) { repeat; } [] pingpong(); [] T_next.timeout { if (cont_req) { if (next_req_ctx - rx_resp_ctx < 100) { /* if we have too many in progress, wait a bit to continue */ ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234" & int2str(f_rnd_int(4294967296)), c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.nsapi := '0001'B; ctx.teic := int2oct(next_req_ctx+1, 4); /* +1: skip TEIC=0 */ ctx.teid := int2oct(next_req_ctx+1, 4); /* +1: skip TEID=0 */ f_send_gtpc(ts_GTPC_CreatePDP(g_peer_c, g_c_seq_nr, ctx.imsi, g_restart_ctr, ctx.teid, ctx.teic, ctx.nsapi, ctx.eua, ctx.apn, g_sgsn_ip_c, g_sgsn_ip_u, ctx.msisdn, ctx.pco_req, ctx.ratType, ctx.uli, ctx.charging_char, ctx.imeisv, ctx.ms_tz)); next_req_ctx := next_req_ctx + 1; } T_next.start; } repeat; } [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, createPDPContextResponse, ?)) -> value udc { cpr := udc.gtpc.gtpc_pdu.createPDPContextResponse; if (cpr.cause.causevalue == '80'O) { teic_list := teic_list & {cpr.teidControlPlane.teidControlPlane}; } else { if (cont_req == true) { num_ctx := rx_resp_ctx; log("Successfully created ", num_ctx, " PDP contexts before exhausting the pool"); setverdict(pass); } cont_req := false; } rx_resp_ctx := rx_resp_ctx + 1; if (not cont_req and next_req_ctx == rx_resp_ctx) { break; } else { repeat; } } [] GTPC.receive { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Rx Unexpected GTPC"); } [] GTPU.receive { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Rx Unexpected GTPU"); } } /* Let's close them now: */ next_req_ctx := 0; rx_resp_ctx := 0; T_next.start; alt { [Gx_PROC.checkstate("Connected")] as_DIA_Gx_CCR(TERMINATION_REQUEST) { repeat; } [Gy_PROC.checkstate("Connected")] as_DIA_Gy_CCR(omit, TERMINATION_REQUEST) { repeat; } [] pingpong(); [lengthof(teic_list) > 0] T_next.timeout { f_send_gtpc(ts_GTPC_DeletePDP(g_peer_c, g_c_seq_nr, teic_list[next_req_ctx], '0001'B, '1'B)); next_req_ctx := next_req_ctx + 1; if (next_req_ctx < num_ctx) { T_next.start; } repeat; } [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, deletePDPContextResponse, ?)) -> value udc { teic := oct2int(udc.gtpc.teid); if (not match(teic, (1 .. num_ctx))) { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Rx Unexpected TEIC"); } rx_resp_ctx := rx_resp_ctx + 1; if (rx_resp_ctx < num_ctx) { repeat; } setverdict(pass); } [] GTPC.receive { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Rx Unexpected GTPC"); } [] GTPU.receive { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Rx Unexpected GTPU"); } } T_next.stop; T_default.stop; f_shutdown_helper(); } /* Test charging over Gy interface. */ testcase TC_gy_charging_cc_time() runs on GT_CT { var default d; g_gy_validity_time := 3; /* Grant access for 3 seconds, needs to be re-validated afterwards */ f_init(); var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); var OCT4 dns1_addr := f_PCO_extract_proto(ctx.pco_neg, '000d'O); /* Send some UL traffic: */ var OCT4 saddr := ctx.eua.endUserAddress.endUserAddressIPv4.ipv4_address; f_send_gtpu(ctx, f_gen_icmpv4_echo(saddr, dns1_addr)); f_wait_icmp4_echo_reply(ctx); T_default.start(10.0); d := activate(pingpong()); g_gy_validity_time := 2; /* First update reports octests/pkt on both UL/DL (see icmp ping-pong above) */ as_DIA_Gy_CCR(ctx, UPDATE_REQUEST); f_validate_gy_cc_report(g_rx_gy, VALIDITY_TIME, (3..4), 28, 28); /* Second update: 0 ul/dl pkt/octet should be reported, since nothing was sent */ as_DIA_Gy_CCR(ctx, UPDATE_REQUEST); f_validate_gy_cc_report(g_rx_gy, VALIDITY_TIME, (2..3), 0, 0); /* Third update: make sure report contains again octets/pkts for both UL/DL: */ f_send_gtpu(ctx, f_gen_icmpv4_echo(saddr, dns1_addr)); f_wait_icmp4_echo_reply(ctx); f_send_gtpu(ctx, f_gen_icmpv4_echo(saddr, dns1_addr)); f_wait_icmp4_echo_reply(ctx); as_DIA_Gy_CCR(ctx, UPDATE_REQUEST); f_validate_gy_cc_report(g_rx_gy, VALIDITY_TIME, (2..3), 56, 56); /* Let the CCA reach the GGSN */ f_sleep(0.5); deactivate(d); T_default.stop; /* Send some data and validate it is reported in the TERMINATION_REQUEST * (triggered by PFCP Session Deletion Response): */ f_send_gtpu(ctx, f_gen_icmpv4_echo(saddr, dns1_addr)); f_wait_icmp4_echo_reply(ctx); f_pdp_ctx_del(ctx, '1'B); f_validate_gy_cc_report(g_rx_gy, FINAL, (0..2), 28, 28); f_shutdown_helper(); } /* Test Volume-Quota-Thresold AVP triggers request before Validity-Time */ testcase TC_gy_charging_volume_quota_threshold() runs on GT_CT { var default d; timer Tout; g_gy_volume_quota := 10000; /* Allow for sending 10000 bytes */ g_gy_volume_threshold := 9000; /* Will make a trigger when we send bigger payload below (10000-9000 = 1000 bytes) */ g_gy_validity_time := 8; /* Grant access for 8 seconds, needs to be re-validated afterwards */ f_init(); var float tout_sec := int2float(g_gy_validity_time) / 2.0; var PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), "1234", c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); var OCT4 dns1_addr := f_PCO_extract_proto(ctx.pco_neg, '000d'O); T_default.start(40.0); d := activate(pingpong()); /* Send some UL traffic: */ var octetstring payload := f_rnd_octstring(1200); var OCT4 saddr := ctx.eua.endUserAddress.endUserAddressIPv4.ipv4_address; f_send_gtpu(ctx, f_gen_icmpv4_echo(saddr, dns1_addr, payload)); f_wait_icmp4_echo_reply(ctx); /* ICMP Req generates one report: */ Tout.start(tout_sec); alt { [] as_DIA_Gy_CCR(ctx, UPDATE_REQUEST); [] Tout.timeout { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "TImeout waiting for Gy UPDATE triggered by Volume-Quota-Threshold"); } } f_validate_gy_cc_report(g_rx_gy, THRESHOLD, (0..6), (1200..1400), 0); /* ICMP Resp (echo back) generates one report: */ as_DIA_Gy_CCR(ctx, UPDATE_REQUEST); f_validate_gy_cc_report(g_rx_gy, THRESHOLD, (0..1), 0, (1200..1400)); /* Second update: 0 ul/dl pkt/octet should be reported, since nothing was sent */ as_DIA_Gy_CCR(ctx, UPDATE_REQUEST); f_validate_gy_cc_report(g_rx_gy, VALIDITY_TIME, (8..9), 0, 0); /* Let the CCA reach the GGSN */ f_sleep(0.5); deactivate(d); T_default.stop; f_pdp_ctx_del(ctx, '1'B); f_validate_gy_cc_report(g_rx_gy, FINAL, (0..2), 0, 0); f_shutdown_helper(); } control { if (m_ggsn_conf != GGSN_CONF_V6_ONLY) { execute(TC_pdp4_act_deact()); execute(TC_pdp4_act_deact_ipcp()); execute(TC_pdp4_act_deact_ipcp_pap_broken()); execute(TC_pdp4_act_deact_pcodns()); execute(TC_pdp4_act_deact_mtu()); execute(TC_pdp4_act_deact_gtpu_access()); execute(TC_pdp4_act_deact_gtpu_access_wrong_saddr()); execute(TC_pdp4_act_deact_gtpu_access_ipv6_apn4()); execute(TC_pdp4_clients_interact_with_txseq()); execute(TC_pdp4_clients_interact_without_txseq()); execute(TC_pdp4_act_deact_with_single_dns()); execute(TC_pdp4_act_deact_with_separate_dns()); execute(TC_pdp4_act_update_teic()); execute(TC_pdp4_act_update_teid()); } if (m_ggsn_conf != GGSN_CONF_V4_ONLY) { execute(TC_pdp6_act_deact()); execute(TC_pdp6_act_deact_pcodns()); execute(TC_pdp6_act_deact_icmp6()); execute(TC_pdp6_act_deact_mtu()); execute(TC_pdp6_act_deact_gtpu_access()); execute(TC_pdp6_act_deact_gtpu_access_ll_saddr()); execute(TC_pdp6_act_deact_gtpu_access_wrong_ll_saddr()); execute(TC_pdp6_act_deact_gtpu_access_wrong_global_saddr()); execute(TC_pdp6_act_deact_gtpu_access_ipv4_apn6()); execute(TC_pdp6_clients_interact()); } if (m_ggsn_conf != GGSN_CONF_V4_ONLY and m_ggsn_conf != GGSN_CONF_V6_ONLY) { execute(TC_pdp46_act_deact()); execute(TC_pdp46_act_deact_ipcp()); execute(TC_pdp46_act_deact_icmp6()); execute(TC_pdp46_act_deact_pcodns4()); execute(TC_pdp46_act_deact_pcodns6()); execute(TC_pdp46_act_deact_mtu()); execute(TC_pdp46_act_deact_gtpu_access()); execute(TC_pdp46_act_deact_gtpu_access_wrong_saddr_ipv4()); execute(TC_pdp46_act_deact_gtpu_access_wrong_ll_saddr_ipv6()); execute(TC_pdp46_act_deact_gtpu_access_wrong_global_saddr_ipv6()); execute(TC_pdp46_clients_interact()); } if (m_ggsn_conf == GGSN_CONF_ALL) { execute(TC_pdp46_act_deact_apn4()); } execute(TC_echo_req_resp()); execute(TC_echo_req_resp_gtpu()); if (m_ggsn_conf == GGSN_CONF_V4_ONLY or m_ggsn_conf == GGSN_CONF_ALL) { execute(TC_pdp_act2_recovery()); execute(TC_act_deact_retrans_duplicate()); } if (m_ggsn_conf != GGSN_CONF_V6_ONLY) { execute(TC_pdp_act_restart_ctr_echo()); execute(TC_lots_of_concurrent_pdp_ctx()); /* Keep at the end, crashes older osmo-ggsn versions (OS#5469): */ execute(TC_addr_pool_exhaustion()); } /* open5gs specific tests: */ if (m_ggsn_impl == GGSN_IMPL_OPEN5GS) { execute(TC_gy_charging_cc_time()); execute(TC_gy_charging_volume_quota_threshold()); } } }