module RUA_Emulation { /* RUA_Emulation runs on top of Iuh_Emulation. It multiplexes/demultiplexes * the individuao connections, so there can be separate TTCN-3 components * handling each of the connections (one connection per UE). * * The RUA_Emulation.main() function processes RUA messages from the Iuh stack * via the RUA_PT, and dispatches them to the per-connection components. * * Outbound RUA connections are initiated by sending a FIXME primitive to the * RUA_Emulation component. * * For each new inbound connection, the RuaOps.create_cb() is called. It can create * or resolve a TTCN-3 component, and returns a component reference to which that inbound * connection is routed/dispatched. * * If a pre-existing component wants to register to handle future inbound connection, * it can do so by registering an "expect" with the expected RANAP payload. * (C) 2022 by Harald Welte * All rights reserved. * * Released under the terms of GNU General Public License, Version 2 or * (at your option) any later version. */ import from General_Types all; import from Osmocom_Types all; import from Iuh_Emulation all; import from RUA_Templates all; //import from RUA_Constants all; import from RUA_PDU_Descriptions all; import from RUA_IEs all; import from RANAP_PDU_Descriptions all; //import from RANAP_Constants all; import from RANAP_IEs all; import from RANAP_Types all; import from RANAP_Templates all; modulepar { integer mp_max_context_id := hex2int('FFFFFF'H); } /* General "base class" component definition, of which specific implementations * derive themselves by means of the "extends" feature */ type component RUA_ConnHdlr { port RUA_Conn_PT RUA; } /* port between individual per-connection components and this dispatcher */ type port RUA_Conn_PT message { inout RANAP_PDU, RUA_Conn_Req, RUA_Disc_Req, RUA_Disc_Ind; } with { extension "internal" }; type record RUA_Conn_Req { boolean ps_domain, RANAP_PDU ranap }; type record RUA_Disc_Req { RUA_IEs.Cause cause, RANAP_PDU ranap optional }; type record RUA_Disc_Ind { RUA_IEs.Cause cause }; type bitstring ContextId length(24); // with { variant "FIELDLENGTH(24)" }; /* represents a single RANAP connection over RUA */ type record ConnectionData { RUA_ConnHdlr comp_ref, RUA_IEs.CN_DomainIndicator domain, integer context_id } type component RUA_Emulation_CT { /* port to the bottom side (Iuh) */ port RUA_PT RUA; /* ports to the upper side (per-connection components) */ port RUA_Conn_PT CLIENT; /* use 16 as this is also the number of SCCP connections that SCCP_Emulation can handle */ var ConnectionData ConnectionTable[16]; /* pending expected incoming connections */ //var ExpectData ExpectTable[8]; /* tables for mapping inbound unitdata (like paging) */ //var ImsiMapping ImsiTable[16]; /* procedure based port to register for incoming connections */ //port RUA_PROC_PT PROC; var charstring g_rua_id; var RuaOps g_rua_ops; } type function RanapCreateCallback(ContextId context_id, RUA_IEs.CN_DomainIndicator domain, charstring id) runs on RUA_Emulation_CT return RUA_ConnHdlr; type function RanapUnitdataCallback(RANAP_PDU ranap) runs on RUA_Emulation_CT return template RANAP_PDU; type record RuaOps { RanapCreateCallback create_cb optional, RanapUnitdataCallback unitdata_cb optional //boolean deode_dtap //boolean role_ms }; private function f_context_id_known(ContextId context_id) runs on RUA_Emulation_CT return boolean { var integer i; for (i := 0; i < sizeof(ConnectionTable); i := i+1) { if (ConnectionTable[i].context_id == bit2int(context_id)){ return true; } } return false; } private function f_comp_known(RUA_ConnHdlr client) runs on RUA_Emulation_CT return boolean { var integer i; for (i := 0; i < sizeof(ConnectionTable); i := i+1) { if (ConnectionTable[i].comp_ref == client) { return true; } } return false; } /* resolve connection ID by component reference */ private function f_context_id_by_comp(RUA_ConnHdlr client) runs on RUA_Emulation_CT return ContextId { for (var integer i := 0; i < sizeof(ConnectionTable); i := i+1) { if (ConnectionTable[i].comp_ref == client) { return int2bit(ConnectionTable[i].context_id, 24); } } setverdict(fail, "RAN Connection table not found by component ", client); mtc.stop; } /* resolve ConnectionTable index component reference */ private function f_idx_by_comp(RUA_ConnHdlr client) runs on RUA_Emulation_CT return integer { for (var integer i := 0; i < sizeof(ConnectionTable); i := i+1) { if (ConnectionTable[i].comp_ref == client) { return i; } } setverdict(fail, "RAN Connection table not found by component ", client); mtc.stop; } private function f_gen_context_id() runs on RUA_Emulation_CT return ContextId { var ContextId context_id; do { context_id := int2bit(float2int(rnd()*int2float(mp_max_context_id)), 24); } while (f_context_id_known(context_id) == true); return context_id; } private function f_conn_table_init() runs on RUA_Emulation_CT { for (var integer i := 0; i < sizeof(ConnectionTable); i := i+1) { ConnectionTable[i].comp_ref := null; ConnectionTable[i].context_id := -1; } /* for (var integer i := 0; i < sizeof(ImsiTable); i := i+1) { ImsiTable[i].comp_ref := null; ImsiTable[i].imsi := omit; ImsiTable[i].tmsi := 'FFFFFFFF'O; } */ } private function f_conn_table_add(RUA_ConnHdlr comp_ref, RUA_IEs.CN_DomainIndicator domain, ContextId context_id) runs on RUA_Emulation_CT { var integer int_context_id := bit2int(context_id); for (var integer i := 0; i < sizeof(ConnectionTable); i := i+1) { if (ConnectionTable[i].context_id == -1) { ConnectionTable[i].comp_ref := comp_ref; ConnectionTable[i].domain := domain; ConnectionTable[i].context_id := int_context_id; log("Added conn table entry ", i, comp_ref, int_context_id); return; } } testcase.stop("RUA Connection table full!"); } private function f_conn_table_del(ContextId context_id) runs on RUA_Emulation_CT { var integer int_context_id := bit2int(context_id); for (var integer i := 0; i < sizeof(ConnectionTable); i := i+1) { if (ConnectionTable[i].context_id == int_context_id) { log("Deleted conn table entry ", i, ConnectionTable[i].comp_ref, int_context_id); ConnectionTable[i].context_id := -1; return } } setverdict(fail, "RUA Connection table attempt to delete non-existant ", int_context_id); mtc.stop; } /* resolve component reference by connection ID */ private function f_comp_by_context_id(ContextId context_id) runs on RUA_Emulation_CT return RUA_ConnHdlr { var integer int_context_id := bit2int(context_id); for (var integer i := 0; i < sizeof(ConnectionTable); i := i+1) { if (ConnectionTable[i].context_id == int_context_id) { return ConnectionTable[i].comp_ref; } } setverdict(fail, "RUA Connection table not found by RUA Context ID ", int_context_id); mtc.stop; } private function CommonRanapUnitdataCallback(RANAP_PDU ranap) runs on RUA_Emulation_CT return template RANAP_PDU { /* TODO: paging */ return g_rua_ops.unitdata_cb.apply(ranap); } private function f_handle_userData_RANAP(RUA_ConnHdlr client, RANAP_PDU ranap) runs on RUA_Emulation_CT { /* TODO: L3 decoding, if requested */ CLIENT.send(ranap) to client; } private altstep as_reset_ack() runs on RUA_Emulation_CT { var RUA_PDU rua_clt; [] RUA.receive(tr_RUA_ConnectionlessTransfer(decmatch tr_RANAP_Reset)) -> value rua_clt { var RANAP_PDU rx := dec_RANAP_PDU(rua_clt.initiatingMessage.value_.connectionlessTransfer.protocolIEs[0].value_.rANAP_Message); var RANAP_IEs.CN_DomainIndicator dom; dom := rx.initiatingMessage.value_.Reset.protocolIEs[1].value_.cN_DomainIndicator; RUA.send(ts_RUA_ConnectionlessTransfer(enc_RANAP_PDU(valueof(ts_RANAP_ResetAck(dom))))); } } private altstep as_main_rua() runs on RUA_Emulation_CT { var RANAP_PDU ranap; var RUA_PDU rua; var octetstring ranap_enc; var ContextId context_id; var RUA_IEs.CN_DomainIndicator domain_ind; var RUA_ConnHdlr vc_conn; var RUA_Conn_Req creq; var RUA_Disc_Req dreq; var RUA_IEs.Cause cause; /* RUA -> Client: UNIT-DATA (connectionless RUA) from CN */ [] RUA.receive(tr_RUA_ConnectionlessTransfer) -> value rua { ranap := dec_RANAP_PDU(rua.initiatingMessage.value_.connectionlessTransfer.protocolIEs[0].value_.rANAP_Message); var template RANAP_PDU resp; resp := CommonRanapUnitdataCallback(ranap); if (isvalue(resp)) { RUA.send(ts_RUA_ConnectionlessTransfer(enc_RANAP_PDU(valueof(resp)))); } } /* RUA -> Client: new connection from CN */ [] RUA.receive(tr_RUA_Connect) -> value rua { domain_ind := rua.initiatingMessage.value_.connect_.protocolIEs[0].value_.cN_DomainIndicator; context_id := rua.initiatingMessage.value_.connect_.protocolIEs[1].value_.context_ID; ranap_enc := rua.initiatingMessage.value_.connect_.protocolIEs[3].value_.rANAP_Message; ranap := dec_RANAP_PDU(ranap_enc); vc_conn := g_rua_ops.create_cb.apply(context_id, domain_ind, g_rua_id); /* store mapping between client components and RUA contextId */ f_conn_table_add(vc_conn, domain_ind, context_id); /* TODO: notify user about incoming connection? */ /* handle user payload */ f_handle_userData_RANAP(vc_conn, ranap); } /* RUA -> Client: connection-oriented data in existing connection */ [] RUA.receive(tr_RUA_DirectTransfer) -> value rua { context_id := rua.initiatingMessage.value_.directTransfer.protocolIEs[1].value_.context_ID; vc_conn := f_comp_by_context_id(context_id); ranap_enc := rua.initiatingMessage.value_.directTransfer.protocolIEs[2].value_.rANAP_Message; f_handle_userData_RANAP(vc_conn, dec_RANAP_PDU(ranap_enc)); } /* RUA -> Client: disconnect of an existing connection */ [] RUA.receive(tr_RUA_Disconnect_opt_ranap) -> value rua { cause := rua.initiatingMessage.value_.disconnect_.protocolIEs[2].value_.cause; context_id := rua.initiatingMessage.value_.disconnect_.protocolIEs[1].value_.context_ID; vc_conn := f_comp_by_context_id(context_id); /* send contained RANAP message to user */ if (lengthof(rua.initiatingMessage.value_.disconnect_.protocolIEs) > 3) { ranap_enc := rua.initiatingMessage.value_.disconnect_.protocolIEs[3].value_.rANAP_Message; f_handle_userData_RANAP(vc_conn, dec_RANAP_PDU(ranap_enc)); } /* notify user of disconnect */ if (CLIENT.checkstate("Connected")) { CLIENT.send(RUA_Disc_Ind:{cause}) to vc_conn; } f_conn_table_del(context_id); } /* RANAP from client through an existing RANAP connection */ [] CLIENT.receive(RANAP_PDU:?) -> value ranap sender vc_conn { var integer idx := f_idx_by_comp(vc_conn); context_id := int2bit(ConnectionTable[idx].context_id, 24); domain_ind := ConnectionTable[idx].domain; RUA.send(ts_RUA_DirectTransfer(domain_ind, context_id, enc_RANAP_PDU(ranap))); } /* Disconnect request from client */ [] CLIENT.receive(RUA_Disc_Req:?) -> value dreq sender vc_conn { var integer idx := f_idx_by_comp(vc_conn); context_id := int2bit(ConnectionTable[idx].context_id, 24); domain_ind := ConnectionTable[idx].domain; if (ispresent(dreq.ranap)) { var octetstring enc_ranap := enc_RANAP_PDU(dreq.ranap); RUA.send(ts_RUA_Disconnect(domain_ind, context_id, dreq.cause, enc_ranap)); } else { RUA.send(ts_RUA_Disconnect_no_ranap(domain_ind, context_id, dreq.cause)); } f_conn_table_del(context_id); } /* RANAP from client, for a new RANAP connection */ [] CLIENT.receive(RUA_Conn_Req:?) -> value creq sender vc_conn { var octetstring enc_ranap := enc_RANAP_PDU(creq.ranap); if (f_comp_known(vc_conn) == false) { /* unknown client, create new connection */ context_id := f_gen_context_id(); if (creq.ps_domain) { domain_ind := ps_domain; } else { domain_ind := cs_domain; } f_conn_table_add(vc_conn, domain_ind, context_id); RUA.send(ts_RUA_Connect(domain_ind, context_id, normal_call, enc_ranap)); } else { /* known client, send via existing component */ context_id := f_context_id_by_comp(vc_conn); RUA.send(ts_RUA_DirectTransfer(domain_ind, context_id, enc_ranap)); } } } function f_ranap_reset(RANAP_IEs.CN_DomainIndicator dom) runs on RUA_Emulation_CT { timer T := 5.0; var RANAP_PDU tx := valueof(ts_RANAP_Reset(ts_RanapCause_om_intervention,dom)); RUA.send(ts_RUA_ConnectionlessTransfer(enc_RANAP_PDU(tx))); T.start; alt { [] RUA.receive(tr_RUA_ConnectionlessTransfer(decmatch tr_RANAP_ResetAck)) { log("RUA-RANAP: Received RESET-ACK in response to RESET, we're reay to go!"); } [] as_reset_ack(); [] RUA.receive { repeat; } [] T.timeout { setverdict(fail, "RUA-RANAP: Timeout waiting for RESET-ACK after sending RESET"); mtc.stop; } } } function main(RuaOps ops, charstring id) runs on RUA_Emulation_CT { g_rua_id := id; g_rua_ops := ops; f_conn_table_init(); //f_expect_table_init(); while (true) { alt { [] as_main_rua(); /* [] PROC.getcall(RUA_Register:{?,?}) -> param(l3_info, vc_hdlr) { f_create_expect(l3_info, vc_hdlr); PROC.reply(RUA_register:{l3_info, vc_hdlr}) to vc_hdlr; } */ } } } }