module GGSN_Tests { import from General_Types all; import from Osmocom_Types all; import from IPL4asp_PortType all; import from IPL4asp_Types all; import from GTP_CodecPort all; import from GTP_CodecPort_CtrlFunct all; import from GTPC_Types all; import from GTPU_Types all; import from IPCP_Types all; import from IP_Types all; import from ICMPv6_Types all; import from Native_Functions all; const integer GTP0_PORT := 3386; const integer GTP1C_PORT := 2123; const integer GTP1U_PORT := 2152; modulepar { charstring m_bind_ip_gtpc := "127.23.42.1"; charstring m_bind_ip_gtpu := "127.23.42.1"; charstring m_ggsn_ip_gtpc := "127.0.0.6"; charstring m_ggsn_ip_gtpu := "127.0.0.6"; 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" } 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 } 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 GtpPeer g_peer_c := { connId := 0, remName := m_ggsn_ip_gtpc, remPort := GTP1C_PORT }; var GtpPeer 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; } 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 := GTP_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 := GTP_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); } /* generalized GTP-C receive template */ template PDU_GTPC tr_GTP1C_PDU(template OCT1 msg_type, template OCT4 teid, template GTPC_PDUs pdu := ?) := { /* N-PDU Number flag (PN) shall be set to '0'. A GTP-C receiver shall not return an * error if this flag is set to '1'. */ pn_bit := '0'B, /* Sequence number flag (S) shall be set to '1'. */ s_bit := '1'B, e_bit := ?, spare := ?, /* Protocol Type flag (PT) shall be set to '1'.*/ pt := '1'B, /* Version shall be set to decimal 1 ('001'). */ version := '001'B, messageType := msg_type, lengthf := ?, teid := teid, opt_part := *, gtpc_pdu := pdu } /* generalized GTP-C send template */ template PDU_GTPC ts_GTP1C_PDU(OCT1 msg_type, OCT4 teid, GTPC_PDUs pdu, uint16_t seq_nr) := { /* N-PDU Number flag (PN) shall be set to '0'. A GTP-C receiver shall not return an * error if this flag is set to '1'. */ pn_bit := '0'B, /* Sequence number flag (S) shall be set to '1'. */ s_bit := '1'B, e_bit := '0'B, spare := '0'B, /* Protocol Type flag (PT) shall be set to '1'.*/ pt := '1'B, /* Version shall be set to decimal 1 ('001'). */ version := '001'B, messageType := msg_type, lengthf := 0, /* we assume encoder overwrites this */ teid := teid, opt_part := { sequenceNumber := int2oct(seq_nr, 2), npduNumber := '00'O, nextExtHeader := '00'O, gTPC_extensionHeader_List := omit }, gtpc_pdu := pdu } /* recovery IE */ template Recovery_gtpc ts_Recovery(OCT1 restart_counter) := { type_gtpc := '0E'O, restartCounter := restart_counter } template Recovery_gtpc tr_Recovery(template OCT1 restart_counter) := { type_gtpc := '0E'O, restartCounter := restart_counter } /* template matching reception of GTP-C echo-request */ template Gtp1cUnitdata tr_GTPC_MsgType(template GtpPeer peer, template OCT1 msg_type, template OCT4 teid, template GTPC_PDUs pdus := ?) := { peer := peer, gtpc := tr_GTP1C_PDU(msg_type, teid, pdus) } /* template matching reception of GTP-C echo-request */ template Gtp1cUnitdata tr_GTPC_PING(template GtpPeer peer) := tr_GTPC_MsgType(peer, echoRequest, '00000000'O); template GTPC_PDUs tr_EchoRespPDU(template OCT1 restart_counter) := { echoResponse := { recovery := tr_Recovery(restart_counter), private_extension_gtpc := * } } /* template matching reception of GTP-C echo-response */ template Gtp1cUnitdata tr_GTPC_PONG(template GtpPeer peer) := tr_GTPC_MsgType(peer, echoResponse, '00000000'O, tr_EchoRespPDU(?)); template GTPC_PDUs ts_EchoRespPDU(OCT1 restart_counter) := { echoResponse := { recovery := ts_Recovery(restart_counter), private_extension_gtpc := omit } } /* master template for senidng a GTP-C echo response */ template Gtp1cUnitdata ts_GTPC_PONG(GtpPeer peer, uint16_t seq, OCT1 rest_ctr) := { peer := peer, gtpc := ts_GTP1C_PDU(echoResponse, '00000000'O, valueof(ts_EchoRespPDU(rest_ctr)), seq) } template GTPC_PDUs ts_EchoReqPDU := { echoRequest := { private_extension_gtpc := omit } } /* master template for sending a GTP-C echo request */ template Gtp1cUnitdata ts_GTPC_PING(GtpPeer peer, uint16_t seq) := { peer := peer, gtpc := ts_GTP1C_PDU(echoRequest, '00000000'O, valueof(ts_EchoReqPDU), seq) } template EndUserAddress t_EuaIPv4(template OCT4 ip_addr) := { type_gtpc := '80'O, endUserAddress := { endUserAddressIPv4 := { lengthf := 2, pdp_typeorg := '0001'B, spare := '1111'B, pdp_typenum := '21'O, ipv4_address := ip_addr } } } template EndUserAddress t_EuaIPv4Dyn := t_EuaIPv4(omit); template EndUserAddress tr_EuaIPv4(template OCT4 ip_addr) modifies t_EuaIPv4 := { endUserAddress := { endUserAddressIPv4 := { lengthf := 2+lengthof(ip_addr) } } } template EndUserAddress t_EuaIPv6(template OCT16 ip_addr) := { type_gtpc := '80'O, endUserAddress := { endUserAddressIPv6 := { lengthf := 2, pdp_typeorg := '0001'B, spare := '1111'B, pdp_typenum := '57'O, ipv6_address := ip_addr } } } template EndUserAddress t_EuaIPv6Dyn := t_EuaIPv6(omit); template EndUserAddress tr_EuaIPv6(template OCT16 ip_addr) modifies t_EuaIPv6 := { endUserAddress := { endUserAddressIPv6 := { lengthf := 2+lengthof(ip_addr) } } } template AccessPointName ts_APN(octetstring apn) := { type_gtpc := '83'O, lengthf := lengthof(apn), apn_value := apn } template GSN_Address_GTPC ts_GsnAddr(octetstring ip_addr) := { type_gtpc := '85'O, lengthf := lengthof(ip_addr), addressf := ip_addr } template MSISDN ts_Msisdn(octetstring msisdn) := { type_gtpc := '86'O, lengthf := lengthof(msisdn), msisdn := msisdn } template QualityOfServiceProfile ts_QosDefault := { type_gtpc := '87'O, lengthf := 4, allocRetensionPrio := '00'O, qos_ProfileValue := { reliabilityClass := '011'B, delayClass := '001'B, spare1 := '00'B, precedenceClass := '010'B, spare2 := '0'B, peakThroughput := '1001'B, meanThroughput := '11111'B, spare3 := '000'B, deliverErroneusSDU := omit, deliveryOrder := omit, trafficClass := omit, maxSDUSize := omit, maxBitrateUplink := omit, maxBitrateDownlink := omit, sduErrorRatio := omit, residualBER := omit, trafficHandlingPriority := omit, transferDelay := omit, guaranteedBitRateUplink := omit, guaranteedBitRateDownlink := omit, sourceStatisticsDescriptor := omit, signallingIndication := omit, spare4 := omit, maxBitrateDownlinkExt := omit, guaranteedBitRateDownlinkExt := omit, maxBitrateUplinkExt := omit, guaranteedBitRateUplinkExt := omit } } template IMSI_gtpc ts_Imsi(hexstring digits) := { type_gtpc := '02'O, digits := digits, padding := 'F'H } template GTPC_PDUs ts_CreatePdpPDU(hexstring imsi, OCT1 restart_ctr, OCT4 teid_data, OCT4 teid_ctrl, BIT4 nsapi, EndUserAddress eua, octetstring apn, octetstring sgsn_ip_sign, octetstring sgsn_ip_data, octetstring msisdn, template ProtConfigOptions pco := omit) := { createPDPContextRequest := { imsi := ts_Imsi(imsi), rai := omit, recovery := ts_Recovery(restart_ctr), selectionMode := { type_gtpc := '0F'O, selectModeValue := '00'B, spare := '111111'B }, teidDataI := { type_gtpc := '00'O, teidDataI := teid_data }, teidControlPlane := { type_gtpc := '00'O, teidControlPlane := teid_ctrl }, nsapi := { type_gtpc := '00'O, nsapi := nsapi, unused := '0000'B }, linked_nsapi := omit, charging_char := omit, trace_ref := omit, trace_type := omit, endUserAddress := eua, accessPointName := ts_APN(apn), protConfigOptions := pco, sgsn_addr_signalling := ts_GsnAddr(sgsn_ip_sign), sgsn_addr_traffic := ts_GsnAddr(sgsn_ip_data), msisdn := ts_Msisdn(msisdn), qualityOfServiceProfile := ts_QosDefault, tft := omit, triggerId := omit, omcId := omit, commonFlags := omit, aPN_Restriction := omit, ratType := omit, userLocationInformation := omit, mS_TimeZone := omit, imeisv := omit, camelChargingInformationContainer := omit, additionalTraceInfo := omit, correlationID := omit, evolvedAllocationRetentionPriorityI := omit, extendedCommonFlags := omit, userCSGInformation := omit, aPN_AMBR := omit, signallingPriorityIndication := omit, cN_OperatorSelectionEntity := omit, private_extension_gtpc := omit } } template Gtp1cUnitdata ts_GTPC_CreatePDP(GtpPeer peer, uint16_t seq, hexstring imsi, OCT1 restart_ctr, OCT4 teid_data, OCT4 teid_ctrl, BIT4 nsapi, EndUserAddress eua, octetstring apn, octetstring sgsn_ip_sign, octetstring sgsn_ip_data, octetstring msisdn, template ProtConfigOptions pco := omit) := { peer := peer, gtpc := ts_GTP1C_PDU(createPDPContextRequest, '00000000'O, valueof(ts_CreatePdpPDU(imsi, restart_ctr, teid_data, teid_ctrl, nsapi, eua, apn, sgsn_ip_sign, sgsn_ip_data, msisdn, pco)), seq) } /* PCO send base template */ template ProtConfigOptions ts_PCO := { type_gtpc := '84'O, lengthf := 0, configProtocol := '000'B, spare := '0000'B, extension0 := '1'B, protocols := {} } /* PCO receive base template */ template ProtConfigOptions tr_PCO := { type_gtpc := '84'O, lengthf := ?, configProtocol := '000'B, spare := ?, extension0 := '1'B, protocols := {} } template ProtConfigOptions ts_PCO_IPv6_DNS modifies ts_PCO := { protocols := { { protocolID := '0003'O, lengthProtoID := 0, protoIDContents := ''O } } } template ProtConfigOptions tr_PCO_IPv6_DNS_resp(template OCT16 contents) modifies tr_PCO := { protocols := { *, { protocolID := '0003'O, lengthProtoID := 16, protoIDContents := contents }, * } } template ProtConfigOptions ts_PCO_IPv4_DNS_IPCP modifies ts_PCO := { protocols := { /* dummy PAP entry to check if our parser in the GGSN can properly iterate over * the list of protocols, see Change-Id Icc2e6716c33d78d3c3e000f529806228d8aa155e */ { protocolID := 'C023'O, lengthProtoID := 0, protoIDContents := ''O }, { protocolID := '8021'O, lengthProtoID := 16, protoIDContents := enc_IpcpPacket(valueof(ts_IPCP_ReqDNS)) } } } template ProtocolElement tr_PCO_Proto(OCT2 prot_id) := { protocolID := prot_id, lengthProtoID := ?, protoIDContents := ? } template ProtConfigOptions tr_PCO_Contains(OCT2 prot_id) modifies tr_PCO := { protocols := { *, tr_PCO_Proto(prot_id), * } } template ProtConfigOptions ts_PCO_IPv4_DNS_CONT modifies ts_PCO := { protocols := { { protocolID := '000d'O, lengthProtoID := 0, protoIDContents := ''O } } } template ProtConfigOptions tr_PCO_IPv4_DNS_CONT_resp(template OCT4 contents) modifies tr_PCO := { protocols := { *, { protocolID := '000d'O, lengthProtoID := 4, protoIDContents := contents }, * } } /* extract a given protocol payload from PCO */ function f_PCO_extract_proto(ProtConfigOptions pco, OCT2 protocol, integer nth_match := 1) return octetstring { var integer i; var integer num_matches := 0; for (i := 0; i < lengthof(pco.protocols); i := i + 1) { if (pco.protocols[i].protocolID == protocol) { num_matches := num_matches + 1; if (num_matches == nth_match) { return pco.protocols[i].protoIDContents; } } } setverdict(fail); return ''O; } template IpcpPacket tr_IPCP(template LcpCode code, template uint8_t identifier, template IpcpOptionList opts) := { code := code, identifier := identifier, len := ?, options := opts } template IpcpOption tr_IPCP_PrimaryDns(template OCT4 addr) := { code := IPCP_OPT_PrimaryDNS, len := 6, data := addr } template IpcpOption tr_IPCP_SecondaryDns(template OCT4 addr) := { code := IPCP_OPT_SecondaryDNS, len := 6, data := addr } template IpcpPacket tr_IPCP_Ack_DNS(template uint8_t identifier := ?, template OCT4 dns1 := ?, template OCT4 dns2 := ?) := tr_IPCP(LCP_Configure_Ack, identifier, { *, tr_IPCP_PrimaryDns(dns1), *, tr_IPCP_SecondaryDns(dns2), * }); template IpcpPacket ts_IPCP(LcpCode code, uint8_t identifier, template IpcpOptionList opts) := { code := code, identifier := identifier, len := 0, /* overwritten */ options := opts } template IpcpPacket ts_IPCP_ReqDNS(uint8_t identifier := 0) := ts_IPCP(LCP_Configure_Request, identifier, { tr_IPCP_PrimaryDns('00000000'O), tr_IPCP_SecondaryDns('00000000'O) }); function f_teardown_ind_IE(in template BIT1 ind) return template TearDownInd { /* if (not isvalue(ind)) { return omit; } */ var TearDownInd ret := { type_gtpc := '13'O, tdInd := valueof(ind), spare:= '0000000'B } return ret; } template GTPC_PDUs ts_DeletePdpPDU(BIT4 nsapi, template BIT1 teardown_ind) := { deletePDPContextRequest := { cause := omit, tearDownIndicator := f_teardown_ind_IE(teardown_ind), nsapi := { type_gtpc := '14'O, nsapi := nsapi, unused := '0000'B }, protConfigOptions := omit, userLocationInformation := omit, mS_TimeZone := omit, extendedCommonFlags := omit, uLI_Timestamp := omit, private_extension_gtpc := omit } } template Gtp1cUnitdata ts_GTPC_DeletePDP(GtpPeer peer, uint16_t seq, OCT4 teid, BIT4 nsapi, template BIT1 teardown_ind) := { peer := peer, gtpc := ts_GTP1C_PDU(deletePDPContextRequest, teid, valueof(ts_DeletePdpPDU(nsapi, teardown_ind)), seq) } /* GTP-U */ template PDU_GTPU tr_GTP1U_PDU(template OCT1 msg_type, template OCT4 teid, template GTPU_IEs ies := ?) := { pn_bit := ?, s_bit := ?, e_bit := ?, spare := ?, /* Protocol Type flag (PT) shall be set to '1' in GTP */ pt := '1'B, /* Version shall be set to decimal 1 ('001'). */ version := '001'B, messageType := msg_type, lengthf := ?, teid := teid, opt_part := *, gtpu_IEs := ies } /* generalized GTP-U send template */ template PDU_GTPU ts_GTP1U_PDU(OCT1 msg_type, uint16_t seq, OCT4 teid, GTPU_IEs ies) := { /* N-PDU Number flag (PN): the GTP-U header contains a meaningful N-PDU Number field if the PN * flag is set to 1. */ pn_bit := '0'B, /* we assume the encoder overwrites this if an optional part is given */ /* If the Sequence Number flag (S) is set to '1' the sequence number field is present and * meaningful otherwise it is set to '0'. For GTP-U messages Echo Request, Echo Response, * Error Indication and Supported Extension Headers Notification, the S flag shall be set to '1'. */ s_bit := '1'B, /* we assume the encoder overwrites this if an optional part is given */ /* Extension header presence */ e_bit := '0'B, spare := '0'B, /* Protocol Type flag (PT) shall be set to '1' in GTP */ pt := '1'B, /* Version shall be set to decimal 1 ('001'). */ version := '001'B, messageType := msg_type, lengthf := 0, /* we assume encoder overwrites this */ teid := teid, opt_part := { sequenceNumber := int2oct(seq, 2), npduNumber := '00'O, nextExtHeader := '00'O, gTPU_extensionHeader_List := omit }, gtpu_IEs := ies } template Gtp1uUnitdata tr_GTPU_MsgType(template GtpPeer peer, template OCT1 msg_type, template OCT4 teid) := { peer := peer, gtpu := tr_GTP1U_PDU(msg_type, teid) } /* template matching reception of GTP-U echo-request */ template Gtp1uUnitdata tr_GTPU_PING(template GtpPeer peer) := tr_GTPU_MsgType(peer, echoRequest, '00000000'O); /* template matching reception of GTP-U GPDU */ template GTPU_IEs t_GPDU(template octetstring data) := { g_PDU_IEs := { data := data } } template Gtp1uUnitdata tr_GTPU_GPDU(template GtpPeer peer, template OCT4 teid, template octetstring data := ?) := { peer := peer, gtpu := tr_GTP1U_PDU('FF'O, teid, t_GPDU(data)) } template GTPU_IEs ts_UEchoRespPDU(OCT1 restart_counter) := { echoResponse_IEs := { recovery_gtpu := { type_gtpu := '00'O, /* we assume encoder fixes? */ restartCounter := restart_counter }, private_extension_gtpu := omit } } /* master template for sending a GTP-U echo response */ template Gtp1uUnitdata ts_GTPU_PONG(GtpPeer peer, uint16_t seq, OCT1 rest_ctr) := { peer := peer, gtpu := ts_GTP1U_PDU(echoResponse, seq, '00000000'O, valueof(ts_UEchoRespPDU(rest_ctr))) } /* master template for sending a GTP-U user plane data */ template Gtp1uUnitdata ts_GTP1U_GPDU(GtpPeer peer, uint16_t seq, OCT4 teid, octetstring data) := { peer := peer, gtpu := ts_GTP1U_PDU('FF'O, seq, teid, { g_PDU_IEs := { data := data }}) } /* Altstep implementing responses to any incoming echo requests */ altstep pingpong() runs on GT_CT { var Gtp1cUnitdata ud; var Gtp1uUnitdata udu; [] 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, '00'O)); repeat; }; [] GTPU.receive(tr_GTPU_PING(?)) -> value udu { var uint16_t seq := oct2int(udu.gtpu.opt_part.sequenceNumber); GTPU.send(ts_GTPU_PONG(udu.peer, seq, '00'O)); }; [] T_default.timeout { setverdict(fail); }; } /* '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); } /* define an (internal) representation of a PDP context */ template PdpContext t_DefinePDP(hexstring imsi, octetstring msisdn, octetstring apn, EndUserAddress eua) := { imsi := imsi, msisdn := msisdn, nsapi := f_rnd_nsapi(), apn := apn, pco_req := omit, eua := eua, teid := f_rnd_tei(), teic := f_rnd_tei() } /* 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; } /* 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 { GTPU.send(ts_GTP1U_GPDU(g_peer_u, g_d_seq_nr, ctx.teid_remote, data)); g_d_seq_nr := g_d_seq_nr + 1; } /* send a PDP context activation */ function f_pdp_ctx_act(inout PdpContext ctx) runs on GT_CT { var Gtp1cUnitdata ud; 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)); T_default.start; d := activate(pingpong()); alt { [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, createPDPContextResponse, ctx.teic)) -> value ud { var CreatePDPContextResponse cpr := ud.gtpc.gtpc_pdu.createPDPContextResponse; if (cpr.cause.causevalue == '80'O) { /* Check if EUA type corresponds to requested type */ if (match(ctx.eua, t_EuaIPv4(?)) and not match(cpr.endUserAddress, tr_EuaIPv4(?))){ setverdict(fail); } if (match(ctx.eua, t_EuaIPv6(?)) and not match(cpr.endUserAddress, tr_EuaIPv6(?))) { setverdict(fail); } /* 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(?))) { log("IPv4 DNS Container requested, but missing"); setverdict(fail); } if (match(ctx.pco_req, ts_PCO_IPv6_DNS) and not match(cpr.protConfigOptions, tr_PCO_IPv6_DNS_resp(?))) { log("IPv6 DNS Container requested, but missing"); setverdict(fail); } } ctx.teid_remote := cpr.teidDataI.teidDataI; ctx.teic_remote := cpr.teidControlPlane.teidControlPlane; ctx.eua := cpr.endUserAddress; ctx.pco_neg := cpr.protConfigOptions; setverdict(pass); } else { setverdict(fail); } } } deactivate(d); T_default.stop; } function f_pdp_ctx_del(PdpContext ctx, template BIT1 teardown_ind) runs on GT_CT { var Gtp1cUnitdata ud; var default d; 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()); alt { [] GTPC.receive(tr_GTPC_MsgType(g_peer_c, deletePDPContextResponse, ctx.teic)) -> value ud { if (ud.gtpc.gtpc_pdu.deletePDPContextResponse.cause.causevalue == '80'O) { setverdict(pass); } else { setverdict(fail); } } } deactivate(d); T_default.stop; } /* IPv6 router solicitation fe80::2 -> ff02::2 from 02:88:b5:1f:25:59 */ const octetstring c_router_solicit := '6000000000103afffe800000000000000000000000000002ff02000000000000000000000000000285009f2b0000000001010288b51f2559'O; /* IPv6 neighbor solicitation fe80::2 -> ff02::1:ff00:2 from 02:88:b5:1f:25:59 */ const octetstring c_neigh_solicit:= '6000000000203afffe800000000000000000000000000002ff0200000000000000000001ff00000287009f9600000000fe80000000000000000000000000000201010288b51f2559'O; /* template to generate a 'Prefix Information' ICMPv6 option */ template OptionField ts_ICMP6_OptPrefix(OCT16 prefix, INT1 prefix_len) := { prefixInformation := { typeField := 3, lengthIndicator := 8, prefixLength := prefix_len, reserved1 := '000000'B, a_Bit := '0'B, l_Bit := '0'B, validLifetime := oct2int('FFFFFFFF'O), preferredLifetime := oct2int('FFFFFFFF'O), reserved2 := '00000000'O, prefix := prefix } } /* template for an ICMPv6 router solicitation */ template PDU_ICMPv6 ts_ICMPv6_RS := { routerSolicitation := { typeField := 133, code := 0, checksum := '0000'O, reserved := '00000000'O, /* TODO: do we need 'Source link-layer address' ? */ options := omit } } /* template for an ICMPv6 router advertisement */ template PDU_ICMPv6 ts_ICMPv6_RA(OCT16 prefix, INT1 prefix_len) := { routerAdvertisement := { typeField := 134, code := 0, checksum := '0000'O, curHopLimit := ?, reserved := '000000'B, o_Bit := '0'B, m_Bit := '0'B, routerLifetime := oct2int('FFFF'O), reachableTime := oct2int('FFFFFFFF'O), retransTimer := oct2int('FFFFFFFF'O), options := { ts_ICMP6_OptPrefix(prefix, prefix_len) } } } template PDU_ICMPv6 ts_ICMPv6_NS(OCT16 target_addr) := { neighborSolicitation := { typeField := 135, code := 0, checksum := '0000'O, reserved := '00000000'O, targetAddress := target_addr, /* TODO: do we need 'Source link-layer address' ? */ options := omit } } /* derive ICMPv6 link-local address from lower 64bit of link_id */ /* template for receiving/matching an ICMPv6 'Prefix Information' option */ template OptionField tr_ICMP6_OptPrefix(template OCT16 prefix, template INT1 prefix_len) := { prefixInformation := { typeField := 3, lengthIndicator := 4, prefixLength := prefix_len, reserved1 := ?, a_Bit := ?, l_Bit := ?, validLifetime := ?, preferredLifetime := ?, reserved2 := ?, prefix := prefix } } /* template for receiving/matching an ICMPv6 router advertisement */ template PDU_ICMPv6 tr_ICMPv6_RA(template OCT16 prefix, template INT1 prefix_len) := { routerAdvertisement := { typeField := 134, code := 0, checksum := ?, curHopLimit := ?, reserved := ?, o_Bit := '0'B, m_Bit := '0'B, routerLifetime := ?, reachableTime := ?, retransTimer := ?, options := { tr_ICMP6_OptPrefix(prefix, prefix_len) } } } /* template to construct IPv6_packet from input arguments, ready for use in f_IPv6_enc() */ template IPv6_packet ts_IP6(OCT16 srcaddr, OCT16 dstaddr, LIN1 nexthead, octetstring payload, LIN1 hlim := 255) := { header := { ver := 6, trclass := 0, flabel := 0, plen := 0, nexthead := nexthead, hlim := hlim, srcaddr := srcaddr, dstaddr := dstaddr }, ext_headers := omit, payload := payload } function f_ipv6_link_local(in OCT16 link_id) return OCT16 { return 'FE80000000000000'O & substr(link_id, 8, 8); } /* Compute solicited-node multicast address as per RFC4291 2.7.1 */ function f_ipv6_sol_node_mcast(in OCT16 addr) return OCT16 { return 'FF0200000000000000000001FF'O & substr(addr, 13, 3); } /* generate and encode ICMPv6 router solicitation */ function f_gen_icmpv6_router_solicitation(in OCT16 link_id) return octetstring { const OCT16 c_ip6_all_router_mcast := 'FF020000000000000000000000000002'O; var OCT16 saddr := f_ipv6_link_local(link_id); var octetstring tmp; tmp := f_enc_PDU_ICMPv6(valueof(ts_ICMPv6_RS), saddr, c_ip6_all_router_mcast); var IPv6_packet ip6 := valueof(ts_IP6(saddr, c_ip6_all_router_mcast, 58, tmp)); return f_IPv6_enc(ip6); } /* 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 := ctx.eua.endUserAddress.endUserAddressIPv6.ipv6_address; return f_gen_icmpv6_router_solicitation(interface_id); } /* generate and encode ICMPv6 neighbor solicitation */ function f_gen_icmpv6_neigh_solicit(in OCT16 saddr, in OCT16 daddr, in OCT16 tgt_addr) return octetstring { var octetstring tmp; tmp := f_enc_PDU_ICMPv6(valueof(ts_ICMPv6_NS(tgt_addr)), saddr, daddr); var IPv6_packet ip6 := valueof(ts_IP6(saddr, daddr, 58, tmp)); return f_IPv6_enc(ip6); } /* 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 := ctx.eua.endUserAddress.endUserAddressIPv6.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); } /* wait for GGSN to send us an ICMPv6 router advertisement */ function f_wait_rtr_adv(PdpContext ctx) runs on GT_CT { var Gtp1uUnitdata ud; T_default.start; alt { //'6???????????3aff'O [] 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 or ip6.header.hlim != 255) { repeat; } var PDU_ICMPv6 icmp6 := f_dec_PDU_ICMPv6(ip6.payload); if (not match(icmp6, tr_ICMPv6_RA(?, 64))) { repeat; } ctx.ip6_prefix := icmp6.routerAdvertisement.options[0].prefixInformation.prefix; log("RA with /64 prefix ", ctx.ip6_prefix); } [] GTPU.receive(tr_GTPU_GPDU(?, ?)) { repeat; } [] GTPU.receive { setverdict(fail); } [] T_default.timeout { setverdict(fail); } } T_default.stop; } /* 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'O, c_ApnInet6, valueof(t_EuaIPv6Dyn))); f_pdp_ctx_act(ctx); f_pdp_ctx_del(ctx, '1'B); } /* 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'O, c_ApnInet6, valueof(t_EuaIPv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv6_DNS); f_pdp_ctx_act(ctx); /* 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); } /* 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'O, c_ApnInet6, valueof(t_EuaIPv6Dyn))); ctx.pco_req := valueof(ts_PCO_IPv6_DNS); f_pdp_ctx_act(ctx); //f_send_gtpu(ctx, c_router_solicit); //f_send_gtpu(ctx, c_neigh_solicit); 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); } /* 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'O, c_ApnInternet, valueof(t_EuaIPv4Dyn))); f_pdp_ctx_act(ctx); f_pdp_ctx_del(ctx, '1'B); } /* 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 PdpContext ctx := valueof(t_DefinePDP(f_rnd_imsi('26242'H), '1234'O, c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_IPCP); f_pdp_ctx_act(ctx); /* 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"); } } f_pdp_ctx_del(ctx, '1'B); } /* 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'O, c_ApnInternet, valueof(t_EuaIPv4Dyn))); ctx.pco_req := valueof(ts_PCO_IPv4_DNS_CONT); f_pdp_ctx_act(ctx); /* 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); } 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; } control { execute(TC_pdp4_act_deact()); execute(TC_pdp4_act_deact_ipcp()); execute(TC_pdp4_act_deact_pcodns()); execute(TC_pdp6_act_deact()); execute(TC_pdp6_act_deact_pcodns()); execute(TC_pdp6_act_deact_icmp6()); execute(TC_echo_req_resp()); } }