/* NS Provider for NS/FR/E1 * (C) 2020 Harald Welte * contributions by 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 */ module NS_Provider_FR { import from NS_Emulation all; import from NS_Types all; import from AF_PACKET_PortType all; import from FrameRelay_Types all; import from FrameRelay_Emulation all; type component NS_Provider_FR_CT extends NS_Provider_CT, FR_Client_CT { /* component reference to Frame Relay emulation */ var FR_Emulation_CT vc_FREMU; var boolean link_available := false; var boolean pvc_active := false; }; function main(NSVCConfiguration config, NSConfiguration nsconfig, charstring id) runs on NS_Provider_FR_CT system af_packet { /* start Frame Relay Emulation */ vc_FREMU := FR_Emulation_CT.create(id & "-FRemu"); var Q933em_Config q933_cfg := valueof(ts_Q933em_Config(ats_is_user := not nsconfig.role_sgsn, bidirectional := false)); q933_cfg.T391 := 1.0; map(vc_FREMU:FR, system:AF_PACKET) param (config.provider.fr.netdev); vc_FREMU.start(FrameRelay_Emulation.main(q933_cfg)); /* connect ourselves to frame relay emulation */ connect(self:FR, vc_FREMU:CLIENT); connect(self:FR_PROC, vc_FREMU:PROC); /* register ourselves for the specified DLCI */ f_fremu_register(config.provider.fr.dlci); /* transceive between user-facing port and FR socket */ while (true) { var FrameRelayFrame rx_fr; var FRemu_Event rx_frevt; var PDU_NS rx_pdu; alt { [not link_available] FR.receive(FrameRelayFrame:?) -> value rx_fr { log("Dropping Rx Msg because FR link not yet available", rx_fr); /* this can happen if the remote side has not yet recognized the * link is dead; don' fail here */ } [link_available and pvc_active] FR.receive(tr_FR(config.provider.fr.dlci)) -> value rx_fr { var PDU_NS ns := dec_PDU_NS(rx_fr.payload); NSE.send(ns); } [not pvc_active] FR.receive(tr_FR(config.provider.fr.dlci)) -> value rx_fr { log("Dropping Rx Msg because FR DLC not yet available", rx_fr); } [] FR.receive(tr_FR(?)) -> value rx_fr { log("Dropping Rx Msg because DLCI unknown", rx_fr); setverdict(fail); } [] FR.receive(FRemu_Event:{link_status:=FR_LINK_STS_AVAILABLE}) -> value rx_frevt { if (link_available == false and pvc_active == true) { NSE.send(NS_Provider_Evt:{link_status := NS_PROV_LINK_STATUS_UP}); } link_available := true; } [] FR.receive(FRemu_Event:{link_status:=FR_LINK_STS_UNAVAILABLE}) -> value rx_frevt { link_available := false; pvc_active := false; NSE.send(NS_Provider_Evt:{link_status := NS_PROV_LINK_STATUS_DOWN}); } [] FR.receive(tr_FRemu_PvcStatusAct(config.provider.fr.dlci, true)) -> value rx_frevt { if (pvc_active == false and link_available == true) { NSE.send(NS_Provider_Evt:{link_status := NS_PROV_LINK_STATUS_UP}); } pvc_active := true; } [] FR.receive(tr_FRemu_PvcStatusAct(config.provider.fr.dlci, false)) -> value rx_frevt { pvc_active := false; NSE.send(NS_Provider_Evt:{link_status := NS_PROV_LINK_STATUS_DOWN}); } [] FR.receive(FRemu_Event:?) -> value rx_frevt { log("Unhandled FRemu_event: ", rx_frevt); } [] NSE.receive(PDU_NS:?) -> value rx_pdu { FR.send(ts_FR(config.provider.fr.dlci, enc_PDU_NS(rx_pdu), true)); } } } } /* main */ } /* module */