732 lines
22 KiB
Plaintext
732 lines
22 KiB
Plaintext
module PCU_Tests_RAW {
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/* "RAW" PCU tests: Talk directly to the PCU socket of OsmoPCU on the one hand side (emulating
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the BTS/BSC side PCU socket server) and the Gb interface on the other hand side. No NS/BSSGP
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Emulation is used; rather, we simply use the NS_CodecPort to implement both standard and non-
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standard procedures on the NS and BSSGP level. The goal of these tests is to test exactly
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those NS and BSSGP implementations on the BSS (PCU) side. */
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/* (C) 2018-2019 Harald Welte <laforge@gnumonks.org>
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* (C) 2019 Vadim Yanitskiy <axilirator@gmail.com>
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* All rights reserved.
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*
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* Released under the terms of GNU General Public License, Version 2 or
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* (at your option) any later version.
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*
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* SPDX-License-Identifier: GPL-2.0-or-later
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*/
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import from General_Types all;
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import from Osmocom_Types all;
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import from GSM_Types all;
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import from GSM_RR_Types all;
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import from RLCMAC_CSN1_Types all;
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import from RLCMAC_Types all;
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import from NS_Types all;
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import from BSSGP_Types all;
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import from Osmocom_Gb_Types all;
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import from BSSGP_Emulation all; /* BssgpConfig */
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import from NS_Emulation all; /* NSConfiguration */
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import from UD_Types all;
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import from PCUIF_Types all;
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import from PCUIF_CodecPort all;
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import from PCUIF_RAW_Components all;
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import from IPL4asp_Types all;
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import from NS_CodecPort all;
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import from NS_CodecPort_CtrlFunct all;
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import from Native_Functions all;
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import from PCU_Tests all;
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modulepar {
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charstring mp_pcu_sock_path := PCU_SOCK_DEFAULT;
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}
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type component RAW_NS_CT {
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/* UDP port towards the bottom (IUT) */
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port NS_CODEC_PT NSCP[4];
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var ConnectionId g_ns_conn_id[4] := {-1, -1, -1, -1};
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var NSConfiguration g_nsconfig[4];
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timer g_T_guard;
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}
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type component RAW_PCU_CT {
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/* PCUIF (we emulate the BTS part) */
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port PCUIF_CODEC_PT PCU;
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var ConnectionId g_pcu_conn_id := -1;
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}
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type component RAW_Test_CT extends RAW_NS_CT, RAW_PCU_CT {
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}
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private altstep as_Tguard() runs on RAW_NS_CT {
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[] g_T_guard.timeout {
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setverdict(fail, "Timeout of T_guard");
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mtc.stop;
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}
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}
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function f_init_pcuif() runs on RAW_PCU_CT {
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map(self:PCU, system:PCU);
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/* Connect the Unix Domain Socket */
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g_pcu_conn_id := f_pcuif_listen(PCU, mp_pcu_sock_path);
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PCU.receive(UD_connected:?);
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/* Wait for PCU_VERSION and return INFO_IND */
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PCU.receive(t_SD_PCUIF(g_pcu_conn_id, tr_PCUIF_TXT_IND(0, PCU_VERSION, ?)));
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/* FIXME: make sure to use parameters from mp_gb_cfg.cell_id in the PCU INFO IND */
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var template PCUIF_Message info_ind := ts_PCUIF_INFO_IND(bts_nr := 0,
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nsei := mp_nsconfig.nsei,
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nsvci := mp_nsconfig.nsvci,
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bvci := mp_gb_cfg.bvci,
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local_port := mp_nsconfig.remote_udp_port,
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remote_port := mp_nsconfig.local_udp_port,
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remote_ip := f_inet_haddr(mp_nsconfig.local_ip)
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);
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PCU.send(t_SD_PCUIF(g_pcu_conn_id, info_ind));
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}
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function f_pcuif_tx(template (value) PCUIF_Message msg) runs on RAW_PCU_CT {
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PCU.send(t_SD_PCUIF(g_pcu_conn_id, msg));
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}
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function f_init_ns_codec(integer idx := 0, float guard_secs := 60.0) runs on RAW_NS_CT {
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var Result res;
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if (not g_T_guard.running) {
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g_T_guard.start(guard_secs);
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activate(as_Tguard());
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}
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if (not isbound(g_nsconfig) or not isbound(g_nsconfig[idx])) {
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/* copy most parts from mp_nsconfig */
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g_nsconfig[idx] := mp_nsconfig;
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/* adjust those parts different for each NS-VC */
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g_nsconfig[idx].nsvci := mp_nsconfig.nsvci + idx;
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g_nsconfig[idx].local_udp_port := mp_nsconfig.local_udp_port + idx;
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}
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map(self:NSCP[idx], system:NSCP);
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/* Connect the UDP socket */
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log("connecting NSCP[", idx, "] to ", g_nsconfig[idx]);
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res := f_IPL4_connect(NSCP[idx], g_nsconfig[idx].remote_ip, g_nsconfig[idx].remote_udp_port,
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g_nsconfig[idx].local_ip, g_nsconfig[idx].local_udp_port, 0, { udp := {}});
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if (not ispresent(res.connId)) {
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setverdict(fail, "Could not connect NS UDP socket, check your configuration ", g_nsconfig[idx]);
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mtc.stop;
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}
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g_ns_conn_id[idx] := res.connId;
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}
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function f_ns_exp(template PDU_NS exp_rx, integer idx := 0) runs on RAW_NS_CT return PDU_NS {
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var NS_RecvFrom nrf;
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log("f_ns_exp() expecting ", exp_rx);
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alt {
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[] NSCP[idx].receive(t_NS_RecvFrom(exp_rx)) -> value nrf { }
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[] NSCP[idx].receive {
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setverdict(fail, "Received unexpected NS: ", nrf);
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mtc.stop;
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}
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}
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return nrf.msg;
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}
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/* perform outbound NS-ALIVE procedure */
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function f_outgoing_ns_alive(integer idx := 0) runs on RAW_NS_CT {
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NSCP[idx].send(t_NS_Send(g_ns_conn_id[idx], t_NS_ALIVE));
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alt {
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[] NSCP[idx].receive(t_NS_RecvFrom(t_NS_ALIVE_ACK));
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[] NSCP[idx].receive { repeat; }
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}
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}
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/* perform outbound NS-ALIVE procedure */
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function f_outgoing_ns_alive_no_ack(integer idx := 0, float tout := 10.0) runs on RAW_NS_CT {
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timer T := tout;
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NSCP[idx].send(t_NS_Send(g_ns_conn_id[idx], t_NS_ALIVE));
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T.start;
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alt {
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[] NSCP[idx].receive(t_NS_RecvFrom(t_NS_ALIVE_ACK)) {
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setverdict(fail, "Received unexpected NS-ALIVE ACK");
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}
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[] NSCP[idx].receive { repeat; }
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[] T.timeout {
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setverdict(pass);
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}
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}
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}
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/* ensure no matching message is received within 'tout' */
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function f_ensure_no_ns(template PDU_NS ns := ?, integer idx := 0, float tout := 3.0)
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runs on RAW_Test_CT {
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timer T := tout;
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T.start;
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alt {
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[] NSCP[idx].receive(t_NS_RecvFrom(ns)) {
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setverdict(fail, "NS-ALIVE from unconfigured (possibly initial) endpoint");
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}
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[] T.timeout {
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setverdict(pass);
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}
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}
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}
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/* perform outbound NS-BLOCK procedure */
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function f_outgoing_ns_block(NsCause cause, integer idx := 0) runs on RAW_NS_CT {
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NSCP[idx].send(t_NS_Send(g_ns_conn_id[idx], ts_NS_BLOCK(cause, g_nsconfig[idx].nsvci)));
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alt {
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[] NSCP[idx].receive(t_NS_RecvFrom(tr_NS_BLOCK_ACK(g_nsconfig[idx].nsvci)));
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[] NSCP[idx].receive { repeat; }
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}
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}
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/* receive NS-ALIVE and ACK it */
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altstep as_rx_alive_tx_ack(boolean oneshot := false, integer idx := 0) runs on RAW_NS_CT {
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[] NSCP[idx].receive(t_NS_RecvFrom(t_NS_ALIVE)) {
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NSCP[idx].send(t_NS_Send(g_ns_conn_id[idx], t_NS_ALIVE_ACK));
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if (not oneshot) { repeat; }
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}
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}
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/* Transmit BSSGP RESET for given BVCI and expect ACK */
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function f_tx_bvc_reset_rx_ack(BssgpBvci bvci, integer idx := 0, boolean exp_ack := true)
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runs on RAW_NS_CT {
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var PDU_BSSGP bssgp_tx := valueof(ts_BVC_RESET(BSSGP_CAUSE_NET_SV_CAP_MOD_GT_ZERO_KBPS, bvci,
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mp_gb_cfg.cell_id));
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timer T := 5.0;
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NSCP[idx].send(t_NS_Send(g_ns_conn_id[idx], ts_NS_UNITDATA(t_SduCtrlB, 0, enc_PDU_BSSGP(bssgp_tx))));
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T.start;
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alt {
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[exp_ack] NSCP[idx].receive(t_NS_RecvFrom(tr_NS_UNITDATA(t_SduCtrlB, 0,
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decmatch tr_BVC_RESET_ACK(bvci, ?)))) {
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setverdict(pass);
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}
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[exp_ack] T.timeout {
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setverdict(fail, "No response to BVC-RESET");
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}
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[not exp_ack] T.timeout {
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setverdict(pass);
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}
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[] NSCP[idx].receive { repeat; }
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}
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}
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/* Receive a BSSGP RESET for given BVCI and ACK it */
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altstep as_rx_bvc_reset_tx_ack(BssgpBvci bvci, boolean oneshot := false, integer idx := 0) runs on RAW_NS_CT {
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var NS_RecvFrom ns_rf;
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/* FIXME: nail down received cell_id in match */
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[] NSCP[idx].receive(t_NS_RecvFrom(tr_NS_UNITDATA(t_SduCtrlB, 0,
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decmatch tr_BVC_RESET(?, bvci, ?))))
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-> value ns_rf {
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var PDU_BSSGP bssgp_rx := dec_PDU_BSSGP(ns_rf.msg.pDU_NS_Unitdata.nS_SDU);
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var PDU_BSSGP bssgp_tx := valueof(ts_BVC_RESET_ACK(bvci, mp_gb_cfg.cell_id));
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NSCP[idx].send(t_NS_Send(g_ns_conn_id[idx], ts_NS_UNITDATA(t_SduCtrlB, 0, enc_PDU_BSSGP(bssgp_tx))));
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if (not oneshot) { repeat; }
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}
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}
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/* Receive a BSSGP UNBLOCK for given BVCI and ACK it */
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altstep as_rx_bvc_unblock_tx_ack(BssgpBvci bvci, boolean oneshot := false, integer idx := 0) runs on RAW_NS_CT {
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var NS_RecvFrom ns_rf;
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[] NSCP[idx].receive(t_NS_RecvFrom(tr_NS_UNITDATA(t_SduCtrlB, 0,
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decmatch t_BVC_UNBLOCK(bvci))))
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-> value ns_rf {
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var PDU_BSSGP bssgp_rx := dec_PDU_BSSGP(ns_rf.msg.pDU_NS_Unitdata.nS_SDU);
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var PDU_BSSGP bssgp_tx := valueof(t_BVC_UNBLOCK_ACK(bvci));
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NSCP[idx].send(t_NS_Send(g_ns_conn_id[idx], ts_NS_UNITDATA(t_SduCtrlB, 0, enc_PDU_BSSGP(bssgp_tx))));
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if (not oneshot) { repeat; }
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}
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}
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/* Receive a BSSGP FLOW-CONTROL-BVC and ACK it */
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altstep as_rx_bvc_fc_tx_ack(BssgpBvci bvci, boolean oneshot := false, integer idx := 0) runs on RAW_NS_CT {
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var NS_RecvFrom ns_rf;
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[] NSCP[idx].receive(t_NS_RecvFrom(tr_NS_UNITDATA(t_SduCtrlB, bvci,
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decmatch tr_BVC_FC_BVC)))
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-> value ns_rf {
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var PDU_BSSGP bssgp_rx := dec_PDU_BSSGP(ns_rf.msg.pDU_NS_Unitdata.nS_SDU);
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var OCT1 tag := bssgp_rx.pDU_BSSGP_FLOW_CONTROL_BVC.tag.unstructured_Value;
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var PDU_BSSGP bssgp_tx := valueof(t_BVC_FC_BVC_ACK(tag));
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NSCP[idx].send(t_NS_Send(g_ns_conn_id[idx], ts_NS_UNITDATA(t_SduCtrlB, bvci, enc_PDU_BSSGP(bssgp_tx))));
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if (not oneshot) { repeat; }
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}
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}
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/**********************************************************************************
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* Classic Gb/IP bring-up test cases using NS-{RESET,BLOCK,UNBLOCK} and no IP-SNS *
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**********************************************************************************/
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/* Receive a NS-RESET and ACK it */
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private altstep as_rx_ns_reset_ack(boolean oneshot := false, integer idx := 0) runs on RAW_NS_CT {
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var NS_RecvFrom ns_rf;
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[] NSCP[idx].receive(t_NS_RecvFrom(tr_NS_RESET(NS_CAUSE_OM_INTERVENTION, g_nsconfig[idx].nsvci,
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g_nsconfig[idx].nsei))) -> value ns_rf {
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NSCP[idx].send(t_NS_Send(g_ns_conn_id[idx], ts_NS_RESET_ACK(g_nsconfig[idx].nsvci,
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g_nsconfig[idx].nsei)));
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if (not oneshot) { repeat; }
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}
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}
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/* Receive a NS-UNBLOCK and ACK it */
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private altstep as_rx_ns_unblock_ack(boolean oneshot := false, integer idx := 0) runs on RAW_NS_CT {
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var NS_RecvFrom ns_rf;
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[] NSCP[idx].receive(t_NS_RecvFrom(t_NS_UNBLOCK)) -> value ns_rf {
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NSCP[idx].send(t_NS_Send(g_ns_conn_id[idx], t_NS_UNBLOCK_ACK));
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if (not oneshot) { repeat; }
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}
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}
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/* test the NS-RESET procedure */
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testcase TC_ns_reset() runs on RAW_Test_CT {
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f_init_ns_codec();
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f_init_pcuif();
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/* Expect inbound NS-RESET procedure */
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as_rx_ns_reset_ack(oneshot := true);
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setverdict(pass);
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}
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/* ensure NS-RESET are re-transmitted */
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testcase TC_ns_reset_retrans() runs on RAW_Test_CT {
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f_init_ns_codec();
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f_init_pcuif();
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var integer i;
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for (i := 0; i < 3; i := i+1) {
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NSCP[0].receive(t_NS_RecvFrom(tr_NS_RESET(NS_CAUSE_OM_INTERVENTION,
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g_nsconfig[0].nsvci, g_nsconfig[0].nsei)));
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}
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/* Expect inbound NS-RESET procedure */
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as_rx_ns_reset_ack(oneshot := true);
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setverdict(pass);
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}
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/* test the inbound NS-ALIVE procedure after NS-RESET */
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testcase TC_ns_alive() runs on RAW_Test_CT {
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f_init_ns_codec();
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f_init_pcuif();
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/* Expect inbound NS-RESET procedure */
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as_rx_ns_reset_ack(oneshot := true);
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/* wait for one ALIVE cycle, then ACK any further ALIVE in the background */
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as_rx_alive_tx_ack(oneshot := true);
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setverdict(pass);
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}
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/* Test for NS-RESET after NS-ALIVE timeout */
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testcase TC_ns_alive_timeout_reset() runs on RAW_Test_CT {
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f_init_ns_codec(guard_secs := 100.0);
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f_init_pcuif();
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/* Expect inbound NS-RESET procedure */
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as_rx_ns_reset_ack(oneshot := true);
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/* wait for at least one NS-ALIVE */
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NSCP[0].receive(t_NS_RecvFrom(t_NS_ALIVE));
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/* wait for NS-RESET to re-appear, ignoring any NS-ALIVE until then */
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alt {
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[] as_rx_ns_reset_ack(oneshot := true) { setverdict(pass); }
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[] NSCP[0].receive(t_NS_RecvFrom(t_NS_ALIVE)) { repeat; }
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}
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}
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/* test for NS-RESET/NS-ALIVE/NS-UNBLOCK */
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testcase TC_ns_unblock() runs on RAW_Test_CT {
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f_init_ns_codec();
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f_init_pcuif();
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/* Expect inbound NS-RESET procedure */
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as_rx_ns_reset_ack(oneshot := true);
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/* wait for one ALIVE cycle, then ACK any further ALIVE in the background */
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as_rx_alive_tx_ack(oneshot := true);
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activate(as_rx_alive_tx_ack());
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as_rx_ns_unblock_ack(oneshot := true);
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setverdict(pass);
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}
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/* test for NS-UNBLOCK re-transmissions */
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testcase TC_ns_unblock_retrans() runs on RAW_Test_CT {
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f_init_ns_codec();
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f_init_pcuif();
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/* Expect inbound NS-RESET procedure */
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as_rx_ns_reset_ack(oneshot := true);
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/* wait for one ALIVE cycle, then ACK any further ALIVE in the background */
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as_rx_alive_tx_ack(oneshot := true);
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activate(as_rx_alive_tx_ack());
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/* wait for first NS-UNBLOCK, don't respond */
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NSCP[0].receive(t_NS_RecvFrom(t_NS_UNBLOCK));
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/* wait for re-transmission of NS-UNBLOCK */
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as_rx_ns_unblock_ack(oneshot := true);
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setverdict(pass);
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}
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/* full bring-up of the Gb link for NS and BSSGP layer up to BVC-FC */
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testcase TC_ns_full_bringup() runs on RAW_Test_CT {
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f_init_ns_codec();
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f_init_pcuif();
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/* Expect inbound NS-RESET procedure */
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as_rx_ns_reset_ack(oneshot := true);
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/* wait for one ALIVE cycle, then ACK any further ALIVE in the background */
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as_rx_alive_tx_ack(oneshot := true);
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activate(as_rx_alive_tx_ack());
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as_rx_ns_unblock_ack(oneshot := true);
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f_outgoing_ns_alive();
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/* Expect BVC-RESET for signaling (0) and ptp BVCI */
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as_rx_bvc_reset_tx_ack(0, oneshot := true);
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as_rx_bvc_reset_tx_ack(mp_gb_cfg.bvci, oneshot := true);
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as_rx_bvc_unblock_tx_ack(mp_gb_cfg.bvci, oneshot := true);
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/* wait for one FLOW-CONTROL BVC and then ACK any further in the future */
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as_rx_bvc_fc_tx_ack(mp_gb_cfg.bvci, oneshot := true);
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activate(as_rx_bvc_fc_tx_ack(mp_gb_cfg.bvci));
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setverdict(pass);
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}
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/* test outbound (SGSN-originated) NS-BLOCK procedure */
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testcase TC_ns_so_block() runs on RAW_Test_CT {
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f_init_ns_codec();
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f_init_pcuif();
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/* Expect inbound NS-RESET procedure */
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as_rx_ns_reset_ack(oneshot := true);
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/* wait for one ALIVE cycle, then ACK any further ALIVE in the background */
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as_rx_alive_tx_ack(oneshot := true);
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activate(as_rx_alive_tx_ack());
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as_rx_ns_unblock_ack(oneshot := true);
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f_outgoing_ns_alive();
|
|
|
|
f_outgoing_ns_block(NS_CAUSE_EQUIPMENT_FAILURE);
|
|
setverdict(pass);
|
|
}
|
|
|
|
type component RAW_PCU_Test_CT extends bssgp_CT {
|
|
/* Connection to the BTS component (one for now) */
|
|
port RAW_PCU_MSG_PT BTS;
|
|
/* Connection to the PCUIF component */
|
|
port RAW_PCU_MSG_PT PCUIF;
|
|
|
|
/* Guard timeout */
|
|
timer g_T_guard := 60.0;
|
|
};
|
|
|
|
private altstep as_Tguard_RAW() runs on RAW_PCU_Test_CT {
|
|
[] g_T_guard.timeout {
|
|
setverdict(fail, "Timeout of T_guard");
|
|
mtc.stop;
|
|
}
|
|
}
|
|
|
|
private function f_init_raw(charstring id)
|
|
runs on RAW_PCU_Test_CT {
|
|
var PCUIF_info_ind info_ind;
|
|
var RAW_PCUIF_CT vc_PCUIF;
|
|
var RAW_PCU_BTS_CT vc_BTS;
|
|
|
|
/* Start the guard timer */
|
|
g_T_guard.start;
|
|
activate(as_Tguard_RAW());
|
|
|
|
/* Init PCU interface component */
|
|
vc_PCUIF := RAW_PCUIF_CT.create("PCUIF-" & id);
|
|
connect(vc_PCUIF:MTC, self:PCUIF);
|
|
map(vc_PCUIF:PCU, system:PCU);
|
|
|
|
/* Create one BTS component (we may want more some day) */
|
|
vc_BTS := RAW_PCU_BTS_CT.create("BTS-" & id);
|
|
connect(vc_BTS:PCUIF, vc_PCUIF:BTS);
|
|
connect(vc_BTS:TC, self:BTS);
|
|
|
|
/* FIXME: make sure to use parameters from mp_gb_cfg.cell_id in the PCU INFO IND */
|
|
info_ind := {
|
|
version := PCU_IF_VERSION,
|
|
flags := c_PCUIF_Flags_default,
|
|
trx := valueof(ts_PCUIF_InfoTrxs_def),
|
|
/* TODO: make this configurable */
|
|
bsic := 7, mcc := 262, mnc := 42,
|
|
mnc_3_digits := 0,
|
|
/* TODO: make this configurable */
|
|
lac := 13135, rac := 0,
|
|
nsei := mp_nsconfig.nsei,
|
|
nse_timer := { 3, 3, 3, 3, 30, 3, 10 },
|
|
cell_timer := { 3, 3, 3, 3, 3, 10, 3, 10, 3, 10, 3 },
|
|
cell_id := 20960,
|
|
repeat_time := 5 * 50,
|
|
repeat_count := 3,
|
|
bvci := mp_gb_cfg.bvci,
|
|
t3142 := 20,
|
|
t3169 := 5,
|
|
t3191 := 5,
|
|
t3193_10ms := 160,
|
|
t3195 := 5,
|
|
t3101 := 10,
|
|
t3103 := 4,
|
|
t3105 := 8,
|
|
cv_countdown := 15,
|
|
dl_tbf_ext := 250 * 10, /* ms */
|
|
ul_tbf_ext := 250 * 10, /* ms */
|
|
initial_cs := 2,
|
|
initial_mcs := 6,
|
|
nsvci := { mp_nsconfig.nsvci, 0 },
|
|
local_pprt := { mp_nsconfig.remote_udp_port, 0 },
|
|
remote_port := { mp_nsconfig.local_udp_port, 0 },
|
|
remote_ip := { f_inet_haddr(mp_nsconfig.local_ip), '00000000'O }
|
|
};
|
|
|
|
vc_PCUIF.start(f_PCUIF_CT_handler(mp_pcu_sock_path));
|
|
vc_BTS.start(f_BTS_CT_handler(0, info_ind));
|
|
|
|
/* Wait until the BTS is ready (SI13 negotiated) */
|
|
BTS.receive(tr_RAW_PCU_EV(BTS_EV_SI13_NEGO));
|
|
}
|
|
|
|
/* FIXME: properly encode RA (see TS 24.060, table 11.2.5.2) */
|
|
private function f_establish_tbf(out GsmRrMessage rr_imm_ass, uint8_t bts_nr := 0,
|
|
uint16_t ra := oct2int('3A'O), uint8_t is_11bit := 0,
|
|
PCUIF_BurstType burst_type := BURST_TYPE_0,
|
|
TimingAdvance ta := 0)
|
|
runs on RAW_PCU_Test_CT return boolean {
|
|
var PCUIF_Message pcu_msg;
|
|
var GsmRrMessage rr_msg;
|
|
var uint32_t fn;
|
|
timer T;
|
|
|
|
/* FIXME: ask the BTS component to give us the current TDMA fn */
|
|
fn := 1337 + ta;
|
|
|
|
/* Send RACH.ind */
|
|
log("Sending RACH.ind on fn=", fn, " with RA=", ra, ", TA=", ta);
|
|
BTS.send(ts_PCUIF_RACH_IND(bts_nr := bts_nr,
|
|
ra := ra, is_11bit := is_11bit,
|
|
burst_type := burst_type,
|
|
fn := fn, arfcn := 871,
|
|
qta := ta * 4));
|
|
|
|
/* Expect Immediate (TBF) Assignment on TS0/AGCH */
|
|
T.start(2.0);
|
|
alt {
|
|
[] BTS.receive(tr_PCUIF_DATA_REQ(bts_nr := bts_nr, trx_nr := ?, ts_nr := 0,
|
|
sapi := PCU_IF_SAPI_AGCH, data := ?))
|
|
-> value pcu_msg {
|
|
rr_imm_ass := dec_GsmRrMessage(pcu_msg.u.data_req.data);
|
|
log("Rx Immediate Assignment: ", rr_imm_ass);
|
|
|
|
/* Make sure this assignment is for us
|
|
* TODO: Uplink or Downlink TBF? */
|
|
if (match(rr_imm_ass, tr_IMM_TBF_ASS(?, ra, fn))) {
|
|
setverdict(pass);
|
|
return true;
|
|
}
|
|
|
|
/* Not for us? Wait for more. */
|
|
repeat;
|
|
}
|
|
[] BTS.receive { repeat; }
|
|
[] T.timeout {
|
|
setverdict(fail, "Timeout waiting for Immediate Assignment");
|
|
}
|
|
}
|
|
|
|
return false;
|
|
}
|
|
|
|
testcase TC_pcuif_suspend() runs on RAW_PCU_Test_CT {
|
|
var octetstring ra_id := enc_RoutingAreaIdentification(mp_gb_cfg.cell_id.ra_id);
|
|
var GprsTlli tlli := 'FFFFFFFF'O;
|
|
timer T;
|
|
|
|
/* Initialize NS/BSSGP side */
|
|
f_init_bssgp();
|
|
|
|
/* Initialize the PCU interface abstraction */
|
|
f_init_raw(testcasename());
|
|
|
|
/* Establish BSSGP connection to the PCU */
|
|
f_bssgp_establish();
|
|
|
|
BTS.send(ts_PCUIF_SUSP_REQ(0, tlli, ra_id, 0));
|
|
|
|
T.start(2.0);
|
|
alt {
|
|
[] BSSGP_SIG[0].receive(tr_BSSGP_SUSPEND(tlli, mp_gb_cfg.cell_id.ra_id)) {
|
|
setverdict(pass);
|
|
}
|
|
[] T.timeout {
|
|
setverdict(fail, "Timeout waiting for BSSGP SUSPEND");
|
|
}
|
|
}
|
|
}
|
|
|
|
/* Test of correct Timing Advance at the time of TBF establishment
|
|
* (derived from timing offset of the Access Burst). */
|
|
testcase TC_ta_rach_imm_ass() runs on RAW_PCU_Test_CT {
|
|
var GsmRrMessage rr_msg;
|
|
var boolean ok;
|
|
|
|
/* Initialize the PCU interface abstraction */
|
|
f_init_raw(testcasename());
|
|
|
|
/* We cannot send too many TBF requests in a short time because
|
|
* at some point the PCU will fail to allocate a new TBF. */
|
|
for (var TimingAdvance ta := 0; ta < 64; ta := ta + 16) {
|
|
/* Establish an Uplink TBF (send RACH.ind with current TA) */
|
|
ok := f_establish_tbf(rr_msg, bts_nr := 0, ta := ta);
|
|
if (not ok) {
|
|
setverdict(fail, "Failed to establish an Uplink TBF");
|
|
mtc.stop;
|
|
}
|
|
|
|
/* Make sure Timing Advance IE matches out expectations */
|
|
if (match(rr_msg, tr_IMM_TBF_ASS(dl := false, ta := ta))) {
|
|
setverdict(pass);
|
|
}
|
|
}
|
|
}
|
|
|
|
/* Default link quality adaptation (Coding Scheme) ranges:
|
|
/* CS1: ... 6 dB, CS2: 5 .. 8 dB, CS3: 7 .. 13 db, CS4: 12 ... dB */
|
|
private template integer CS1_lqual_dB_range := (-infinity .. 6);
|
|
private template integer CS2_lqual_dB_range := (5 .. 8);
|
|
private template integer CS3_lqual_dB_range := (7 .. 13);
|
|
private template integer CS4_lqual_dB_range := (12 .. infinity);
|
|
|
|
testcase TC_cs_lqual_ul_tbf() runs on RAW_PCU_Test_CT {
|
|
var PacketUlAssign ul_tbf_ass;
|
|
var RlcmacDlBlock dl_block;
|
|
var PCUIF_Message pcu_msg;
|
|
var GsmRrMessage rr_msg;
|
|
var octetstring data;
|
|
var boolean ok;
|
|
|
|
/* Initialize the PCU interface abstraction */
|
|
f_init_raw(testcasename());
|
|
|
|
/* Establish an Uplink TBF */
|
|
ok := f_establish_tbf(rr_msg);
|
|
if (not ok) {
|
|
setverdict(fail, "Failed to establish an Uplink TBF");
|
|
mtc.stop;
|
|
}
|
|
|
|
/* Make sure we received an UL TBF Assignment */
|
|
if (match(rr_msg, tr_IMM_TBF_ASS(dl := false, rest := tr_IaRestOctets_ULAss(?)))) {
|
|
ul_tbf_ass := rr_msg.payload.imm_ass.rest_octets.hh.pa.uldl.ass.ul;
|
|
log("Rx Uplink TBF assignment: ", ul_tbf_ass);
|
|
setverdict(pass);
|
|
} else {
|
|
setverdict(fail, "Failed to match UL TBF Assignment");
|
|
mtc.stop;
|
|
}
|
|
|
|
/* Make sure we have got a TBF with Dynamic Block Allocation */
|
|
if (ul_tbf_ass.dynamic == omit) {
|
|
setverdict(fail, "Single Block Allocation is not handled by ", testcasename());
|
|
mtc.stop;
|
|
}
|
|
|
|
var template (value) RlcmacUlBlock ul_data := t_RLCMAC_UL_DATA(
|
|
tfi := ul_tbf_ass.dynamic.tfi_assignment,
|
|
cv := 15, /* 15 UL blocks to be sent (to be overridden in loop) */
|
|
bsn := 0, /* TODO: what should be here? */
|
|
blocks := { /* To be generated in loop */ });
|
|
|
|
/* HACK: patch missing TLLI; otherwise OsmoPCU rejects DATA.req */
|
|
ul_data.data.tlli := '00000001'O;
|
|
|
|
/* 16 UL blocks (0 .. 32 dB, step = 2 dB) */
|
|
for (var integer i := 0; i < 16; i := i + 1) {
|
|
/* Prepare a new UL block (CV, random payload) */
|
|
ul_data.data.mac_hdr.countdown := (15 - i);
|
|
ul_data.data.blocks := { valueof(t_RLCMAC_LLCBLOCK(f_rnd_octstring(10))) };
|
|
|
|
/* Encode the payload of DATA.ind */
|
|
data := enc_RlcmacUlBlock(valueof(ul_data));
|
|
data := f_pad_oct(data, 23, '00'O); /* CS-1 */
|
|
|
|
/* Link quality in dB and our CS1-4 expectations */
|
|
var integer lqual := i * 2;
|
|
|
|
/* Enqueue DATA.ind (both TDMA frame and block numbers to be patched) */
|
|
log("Sending DATA.ind with link quality (dB): ", lqual);
|
|
BTS.send(ts_PCUIF_DATA_IND(bts_nr := 0, trx_nr := 0, ts_nr := 7, block_nr := 0,
|
|
sapi := PCU_IF_SAPI_PDTCH, data := data,
|
|
fn := 0, arfcn := 871, lqual_cb := lqual * 10));
|
|
BTS.receive(tr_RAW_PCU_EV(TDMA_EV_PDTCH_BLOCK_SENT));
|
|
|
|
/* Enqueue RTS.req, expect DATA.req with UL ACK from the PCU */
|
|
BTS.send(ts_PCUIF_RTS_REQ(bts_nr := 0, trx_nr := 0, ts_nr := 7,
|
|
sapi := PCU_IF_SAPI_PDTCH, fn := 0,
|
|
arfcn := 871, block_nr := 0));
|
|
BTS.receive(tr_PCUIF_DATA_REQ(bts_nr := 0, trx_nr := 0, ts_nr := 7,
|
|
sapi := PCU_IF_SAPI_PDTCH)) -> value pcu_msg;
|
|
dl_block := dec_RlcmacDlBlock(pcu_msg.u.data_req.data);
|
|
if (not match(dl_block, tr_RLCMAC_ACK_NACK(ul_tfi := ?, tlli := ?))) {
|
|
setverdict(fail, "Failed to match Packet Uplink ACK / NACK");
|
|
mtc.stop;
|
|
}
|
|
|
|
log("Rx Packet Uplink ACK / NACK with Channel Coding Command: ",
|
|
dl_block.ctrl.payload.u.ul_ack_nack.gprs.ch_coding_cmd);
|
|
|
|
/* Match the received Channel Coding Command */
|
|
var template ChCodingCommand ch_coding;
|
|
select (lqual) {
|
|
case (CS1_lqual_dB_range) { ch_coding := CH_CODING_CS1; }
|
|
case (CS2_lqual_dB_range) { ch_coding := CH_CODING_CS2; }
|
|
case (CS3_lqual_dB_range) { ch_coding := CH_CODING_CS3; }
|
|
case (CS4_lqual_dB_range) { ch_coding := CH_CODING_CS4; }
|
|
}
|
|
|
|
if (not match(dl_block.ctrl.payload.u.ul_ack_nack.gprs.ch_coding_cmd, ch_coding)) {
|
|
setverdict(fail, "Channel Coding does not match our expectations: ", ch_coding);
|
|
} else {
|
|
setverdict(pass);
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
control {
|
|
execute( TC_ns_reset() );
|
|
execute( TC_ns_reset_retrans() );
|
|
execute( TC_ns_alive() );
|
|
execute( TC_ns_alive_timeout_reset() );
|
|
execute( TC_ns_unblock() );
|
|
execute( TC_ns_unblock_retrans() );
|
|
execute( TC_ns_full_bringup() );
|
|
execute( TC_ns_so_block() );
|
|
|
|
execute( TC_pcuif_suspend() );
|
|
execute( TC_ta_rach_imm_ass() );
|
|
execute( TC_cs_lqual_ul_tbf() );
|
|
}
|
|
|
|
|
|
|
|
|
|
|
|
|
|
}
|