module GPRS_Components { /* * Osmocom PCU test suite in TTCN-3, components for GPRS handlng * (C) 2018-2019 Harald Welte * (C) 2019 Vadim Yanitskiy * (C) 2020 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 */ import from General_Types all; import from Osmocom_Types all; import from GSM_Types all; import from GSM_RR_Types all; import from Osmocom_VTY_Functions all; import from TELNETasp_PortType all; import from MobileL3_GMM_SM_Types all; import from RLCMAC_CSN1_Types all; import from RLCMAC_CSN1_Templates all; import from RLCMAC_Types all; import from RLCMAC_Templates all; import from MobileL3_CommonIE_Types all; import from L3_Templates all; import from NS_Types all; import from BSSGP_Types all; import from Osmocom_Gb_Types all; import from BSSGP_Emulation all; /* BssgpConfig */ import from NS_Emulation all; /* NSConfiguration */ import from UD_Types all; import from PCUIF_Types all; import from PCUIF_CodecPort all; import from PCUIF_Components all; import from IPL4asp_Types all; import from Native_Functions all; import from SGSN_Components all; type component MS_BTS_IFACE_CT { /* Virtual BTS component */ var RAW_PCU_BTS_CT vc_BTS; /* Connection to the BTS component (one for now) */ port RAW_PCU_MSG_PT BTS; /* Value at which Countdown Procedure starts. Announced by network (GPRS Cell Options as per TS 04.60 Chapter 12.24) */ var uint4_t g_bs_cv_max := 4; } function f_shutdown(charstring file, integer line, boolean final := false) runs on MS_BTS_IFACE_CT { /* Determine if the test case was aborted in the middle */ if (not final) { log("Test case ", testcasename(), " aborted at ", file, ":", line); } else { /* Guard verdict to avoid 'none' */ setverdict(pass); } /* Properly shutdown virtual BTS and its clock generator */ BTS.send(ts_RAW_PCU_CMD(GENERAL_CMD_SHUTDOWN)); vc_BTS.done; /* wait untill it's done */ /* Shutdown the others and MTC */ all component.stop; mtc.stop; } template AckNackDescription t_AckNackDescription_init := { final_ack := '0'B, starting_seq_nr := 0, receive_block_bitmap := '0000000000000000000000000000000000000000000000000000000000000000'B } function f_rlcmac_dl_block_get_tfi(RlcmacDlBlock dl_block) runs on MS_BTS_IFACE_CT return uint5_t { if (ischosen(dl_block.data)) { return dl_block.data.mac_hdr.hdr_ext.tfi; } else if (ischosen(dl_block.data_egprs)) { return dl_block.data_egprs.mac_hdr.tfi; } else { /* Ctrl block */ if (match(dl_block, tr_RLCMAC_UL_PACKET_ASS_GPRS(?, tr_PktUlAssGprsDynamic(tr_DynamicAllocation(?))))) { return dl_block.ctrl.payload.u.ul_assignment.gprs.dyn_block_alloc.ul_tfi_assignment; } if (match(dl_block, tr_RLCMAC_UL_PACKET_ASS_EGPRS(?, tr_PktUlAssEgprsDynamic(tr_DynamicAllocation(?))))) { return dl_block.ctrl.payload.u.ul_assignment.egprs.dyn_block_alloc.ul_tfi_assignment; } } setverdict(fail, "DlBlock doesn't contain a TFI:", dl_block); f_shutdown(__BFILE__, __LINE__); return 0; /* make compiler happy */ } /* Get the Chan coding command from a dl block containing PACCH UL Assignment */ function f_rlcmac_dl_block_get_assigned_ul_cs_mcs(RlcmacDlBlock dl_block) runs on MS_BTS_IFACE_CT return CodingScheme { if (match(dl_block, tr_RLCMAC_UL_PACKET_ASS_GPRS(?, tr_PktUlAssGprsDynamic(?)))) { return f_rlcmac_block_ChCodingCommand2cs_mcs(dl_block.ctrl.payload.u.ul_assignment.gprs.ch_coding_cmd); } if (match(dl_block, tr_RLCMAC_UL_PACKET_ASS_EGPRS(?, tr_PktUlAssEgprsDynamic(?)))) { return f_rlcmac_block_EgprsChCodingCommand2cs_mcs(dl_block.ctrl.payload.u.ul_assignment.egprs.chan_coding_cmd); } setverdict(fail, "DlBlock doesn't contain CS_MCS information:", dl_block); f_shutdown(__BFILE__, __LINE__); return CS_1; /* make compiler happy */ } /* TS 44.060 sec 12.3 Ack/Nack Description */ function f_acknackdesc_ack_block(inout AckNackDescription desc, RlcmacDlBlock dl_block, BIT1 final_ack := '0'B) { var uint7_t bsn; var integer i; var integer inc; if (ischosen(dl_block.data)) { bsn := dl_block.data.mac_hdr.hdr_ext.bsn; } else { bsn := dl_block.data_egprs.mac_hdr.bsn1; } inc := bsn - desc.starting_seq_nr + 1; /* Filling hole? */ if (bsn < desc.starting_seq_nr) { desc.receive_block_bitmap[lengthof(desc.receive_block_bitmap) - (desc.starting_seq_nr - bsn)] := int2bit(1, 1); return; } /* SSN is increased, and so RBB values need to be moved */ for (i := 0; i < lengthof(desc.receive_block_bitmap) - inc; i := i+1) { desc.receive_block_bitmap[i] := desc.receive_block_bitmap[i + inc]; } for (i := lengthof(desc.receive_block_bitmap) - inc; i < lengthof(desc.receive_block_bitmap) - 1; i := i+1) { desc.receive_block_bitmap[i] := int2bit(0, 1); } /* Now we can set current bit and update SSN */ desc.starting_seq_nr := bsn + 1; desc.receive_block_bitmap[lengthof(desc.receive_block_bitmap) - 1] := int2bit(1, 1); /* Finally update the final_ack bit as requested: */ desc.final_ack := final_ack; } /* This function can be used to send DATA.cnf in response to the IUT originated DATA.req. * NOTE: it's the responsibility of caller to make sure that pcu_msg contains u.data_req. */ function f_pcuif_tx_data_cnf(in PCUIF_Message pcu_msg) runs on MS_BTS_IFACE_CT { var PCUIF_Message pcu_msg_cnf := { msg_type := PCU_IF_MSG_DATA_CNF, bts_nr := pcu_msg.bts_nr, spare := pcu_msg.spare, u := { data_cnf := pcu_msg.u.data_req } }; /* PCU wants DATA.cnf containing basically everything that was in DATA.req, * but PCU_IF_SAPI_PCH is a special case - paging group shall be excluded. */ if (pcu_msg.u.data_req.sapi == PCU_IF_SAPI_PCH) { pcu_msg_cnf.u.data_cnf.data := substr(pcu_msg.u.data_req.data, 3, pcu_msg.u.data_req.len - 3); } BTS.send(pcu_msg_cnf); } function f_pcuif_rx_imm_ass(out GsmRrMessage rr_imm_ass, template PCUIF_Sapi sapi := PCU_IF_SAPI_AGCH, template GsmRrMessage t_imm_ass := ?) runs on MS_BTS_IFACE_CT return boolean { var PCUIF_Message pcu_msg; var octetstring data; timer T; T.start(2.0); alt { [] BTS.receive(tr_PCUIF_DATA_REQ(bts_nr := 0, trx_nr := 0, ts_nr := 0, sapi := sapi, data := ?)) -> value pcu_msg { /* On PCH the payload is prefixed with paging group (3 octets): skip it. * TODO: add an additional template parameter, so we can match it. */ if (pcu_msg.u.data_req.sapi == PCU_IF_SAPI_PCH) { data := substr(pcu_msg.u.data_req.data, 3, pcu_msg.u.data_req.len - 3); } else { data := pcu_msg.u.data_req.data; } rr_imm_ass := dec_GsmRrMessage(data); if (not match(rr_imm_ass, t_imm_ass)) { /* Not for us? Wait for more. */ repeat; } log("Rx Immediate Assignment: ", rr_imm_ass); setverdict(pass); return true; } [] BTS.receive { repeat; } [] T.timeout { setverdict(fail, "Timeout waiting for Immediate Assignment"); f_shutdown(__BFILE__, __LINE__); } } return false; } /* One phase packet access (see 3GPP TS 44.018, table 9.1.8.1) */ const BIT8 chan_req_def := '01111000'B; /* Establish an Uplink TBF by sending RACH.ind towards the PCU */ function f_establish_tbf(out GsmRrMessage rr_imm_ass, uint16_t ra := bit2int(chan_req_def), uint8_t is_11bit := 0, PCUIF_BurstType burst_type := BURST_TYPE_0, TimingAdvance ta := 0) runs on MS_BTS_IFACE_CT return boolean { var uint32_t fn; /* 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 := 0, trx_nr := 0, ts_nr := 0, ra := ra, is_11bit := is_11bit, burst_type := burst_type, fn := fn, arfcn := 871, qta := ta * 4)); /* 3GPP TS 44.018, table 9.1.8.1, note 2b: Request Reference shall be set to 127 * when Immediate Assignment is triggered by EGPRS Packet Channel Request. Here * we assume that 11 bit RA always contains EGPRS Packet Channel Request. */ if (is_11bit != 0) { ra := 127; } /* Expect Immediate (TBF) Assignment on TS0/AGCH */ return f_pcuif_rx_imm_ass(rr_imm_ass, PCU_IF_SAPI_AGCH, tr_IMM_TBF_ASS(false, ra, fn)); } function f_imm_ass_verify_ul_tbf_ass(in GsmRrMessage rr_imm_ass, out PacketUlAssign ul_tbf_ass, template PacketUlAssign ul_ass := tr_PacketUlDynAssign) runs on MS_BTS_IFACE_CT { /* Make sure we received an UL TBF Assignment */ if (match(rr_imm_ass, tr_IMM_TBF_ASS(dl := false, rest := tr_IaRestOctets_ULAss(ul_ass)))) { ul_tbf_ass := rr_imm_ass.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"); f_shutdown(__BFILE__, __LINE__); } } function f_imm_ass_verify_dl_tbf_ass(in GsmRrMessage rr_imm_ass, out PacketDlAssign dl_tbf_ass) runs on MS_BTS_IFACE_CT { /* Make sure we received a DL TBF Assignment */ if (match(rr_imm_ass, tr_IMM_TBF_ASS(dl := true, rest := tr_IaRestOctets_DLAss(?)))) { dl_tbf_ass := rr_imm_ass.payload.imm_ass.rest_octets.hh.pa.uldl.ass.dl; log("Rx Downlink TBF assignment: ", dl_tbf_ass); setverdict(pass); } else { setverdict(fail, "Failed to match DL TBF Assignment"); f_shutdown(__BFILE__, __LINE__); } } /* Enqueue DATA.ind (both TDMA frame and block numbers to be patched) */ function f_pcuif_tx_data_ind(octetstring data, int16_t lqual_cb := 0, uint32_t fn := 0) runs on MS_BTS_IFACE_CT { var template RAW_PCU_EventParam ev_param := {tdma_fn := ? }; 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 := fn, arfcn := 871, lqual_cb := lqual_cb)); if (fn != 0) { ev_param := {tdma_fn := fn }; } BTS.receive(tr_RAW_PCU_EV(TDMA_EV_PDTCH_BLOCK_SENT, ev_param)); } /* Enqueue RTS.req, expect DATA.req with UL ACK from the PCU */ function f_pcuif_rx_data_req(out PCUIF_Message pcu_msg) runs on MS_BTS_IFACE_CT { 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; } /* Expect an Immediate Assignment (paging) from PCU on PCUIF on specified sapi. */ function f_pcuif_rx_pch_imm_tbf_ass(out GsmRrMessage rr_imm_ass) runs on MS_BTS_IFACE_CT { var PCUIF_Message pcu_msg; var octetstring macblock; BTS.receive(tr_PCUIF_DATA_REQ(bts_nr := 0, trx_nr := 0, ts_nr := 0, sapi := PCU_IF_SAPI_PCH)) -> value pcu_msg; /* First 3 bytes contain paging group: */ macblock := substr(pcu_msg.u.data_req.data, 3, pcu_msg.u.data_req.len - 3); rr_imm_ass := dec_GsmRrMessage(macblock); if (not match(rr_imm_ass, tr_IMM_TBF_ASS())) { setverdict(fail, "Failed to match Immediate Assignment: ", rr_imm_ass); f_shutdown(__BFILE__, __LINE__); } f_pcuif_tx_data_cnf(pcu_msg); } /* Expect a Paging Request Type 1 from PCU on PCUIF on specified sapi. */ function f_pcuif_rx_pch_pag_req1(template MobileIdentityV mi1 := ?, template integer pag_group := ?) runs on MS_BTS_IFACE_CT return GsmRrMessage { var GsmRrMessage rr_pag_req1; var PCUIF_Message pcu_msg; var octetstring imsi_suff_octstr; var integer pag_group_rx; var octetstring macblock; BTS.receive(tr_PCUIF_DATA_REQ(bts_nr := 0, trx_nr := 0, ts_nr := 0, sapi := PCU_IF_SAPI_PCH)) -> value pcu_msg; /* First 3 bytes contain IMSI suffix to calculate paging group: */ imsi_suff_octstr := substr(pcu_msg.u.data_req.data, 0, 3); pag_group_rx := str2int(oct2char(imsi_suff_octstr[0])) * 100 + str2int(oct2char(imsi_suff_octstr[1])) * 10 + str2int(oct2char(imsi_suff_octstr[2])); /* Make sure we've got RR Paging Request Type 1 for a given MI */ macblock := substr(pcu_msg.u.data_req.data, 3, pcu_msg.u.data_req.len - 3); rr_pag_req1 := dec_GsmRrMessage(macblock); if (not match(rr_pag_req1, tr_PAG_REQ1(tr_MI_LV(mi1)))) { setverdict(fail, "Failed to match Paging Request Type 1: ", rr_pag_req1); f_shutdown(__BFILE__, __LINE__); } /* Make sure that received paging froup matches the expected one */ if (not match(pag_group_rx, pag_group)) { setverdict(fail, "Paging group", pag_group_rx, " does not match expected ", pag_group); f_shutdown(__BFILE__, __LINE__); } f_pcuif_tx_data_cnf(pcu_msg); return rr_pag_req1; } /* Send one rlcmac UL block adding necessary extra padding at the end. * returns length of extra padding added at the end, in octets. * FIXME: Only supports CS-1 so far. */ function f_tx_rlcmac_ul_block(template (value) RlcmacUlBlock ul_data, int16_t lqual_cb := 0, uint32_t fn := 0) runs on MS_BTS_IFACE_CT return integer { var octetstring data; var integer padding_len; /* Encode the payload of DATA.ind */ data := enc_RlcmacUlBlock(valueof(ul_data)); padding_len := 23 - lengthof(data); data := f_pad_oct(data, 23, '00'O); /* CS-1 */ /* Enqueue DATA.ind (both TDMA frame and block numbers to be patched) */ f_pcuif_tx_data_ind(data, lqual_cb, fn); return padding_len; } function f_tx_rlcmac_ul_n_blocks(uint5_t tfi, inout uint14_t bsn, integer num_blocks := 1, template (omit) GprsTlli tlli := omit) runs on MS_BTS_IFACE_CT return octetstring { var octetstring total_payload := ''O; var template (value) RlcmacUlBlock ul_data := t_RLCMAC_UL_DATA( tfi := tfi, cv := 15, /* num UL blocks to be sent (to be overridden in loop) */ bsn := 0, /* To be generated in loop */ blocks := { /* To be generated in loop */ }); if (not istemplatekind(tlli, "omit")) { ul_data.data.mac_hdr.tlli_ind := true; ul_data.data.tlli := tlli; } for (var integer i := 0; i < num_blocks; i := i + 1) { var integer padding_len; var octetstring payload := f_rnd_octstring(10); /* Prepare a new UL block (CV, random payload) */ var integer cv := num_blocks - i - 1; if (cv > g_bs_cv_max) { cv := 15; } ul_data.data.mac_hdr.countdown := cv; ul_data.data.mac_hdr.bsn := bsn + i; ul_data.data.blocks := { valueof(t_RLCMAC_LLCBLOCK(payload)) }; padding_len := f_tx_rlcmac_ul_block(ul_data); total_payload := total_payload & payload & f_pad_oct(''O, padding_len, '00'O); } bsn := valueof(ul_data.data.mac_hdr.bsn) + 1; /* update bsn to point to next one */ return total_payload; } function f_rx_rlcmac_dl_block(out RlcmacDlBlock dl_block, out uint32_t dl_fn, template (present) CodingScheme exp_cs_mcs := ?) runs on MS_BTS_IFACE_CT { var PCUIF_Message pcu_msg; f_pcuif_rx_data_req(pcu_msg); dl_block := dec_RlcmacDlBlock(pcu_msg.u.data_req.data); dl_fn := pcu_msg.u.data_req.fn; var integer len := lengthof(pcu_msg.u.data_req.data); var CodingScheme cs_mcs := f_rlcmac_block_len2cs_mcs(len) if (not match(f_rlcmac_block_len2cs_mcs(len), exp_cs_mcs)) { setverdict(fail, "Failed to match Coding Scheme exp ", exp_cs_mcs, " vs ", cs_mcs, " (", len, ")"); f_shutdown(__BFILE__, __LINE__); } } function f_rx_rlcmac_dl_block_exp_ack_nack(out RlcmacDlBlock dl_block, out uint32_t poll_fn) runs on MS_BTS_IFACE_CT { var uint32_t dl_fn; f_rx_rlcmac_dl_block(dl_block, dl_fn); if (match(dl_block, tr_RLCMAC_UL_ACK_NACK_GPRS(ul_tfi := ?)) or match(dl_block, tr_RLCMAC_UL_ACK_NACK_EGPRS(ul_tfi := ?))) { poll_fn := f_rrbp_ack_fn(dl_fn, dl_block.ctrl.mac_hdr.rrbp); return; } setverdict(fail, "Failed to match Packet Uplink ACK / NACK:", dl_block); f_shutdown(__BFILE__, __LINE__); } function f_rx_rlcmac_dl_block_exp_dummy(out RlcmacDlBlock dl_block) runs on MS_BTS_IFACE_CT { var uint32_t dl_fn; f_rx_rlcmac_dl_block(dl_block, dl_fn); if (not match(dl_block, tr_RLCMAC_DUMMY_CTRL())) { setverdict(fail, "Failed to match Packet DUMMY DL"); f_shutdown(__BFILE__, __LINE__); } } function f_rx_rlcmac_dl_block_exp_pkt_ass(out RlcmacDlBlock dl_block, out uint32_t poll_fn) runs on MS_BTS_IFACE_CT { var uint32_t dl_fn; f_rx_rlcmac_dl_block(dl_block, dl_fn); if (not match(dl_block, tr_RLCMAC_DL_PACKET_ASS())) { setverdict(fail, "Failed to match Packet Downlink Assignment"); f_shutdown(__BFILE__, __LINE__); } poll_fn := f_rrbp_ack_fn(dl_fn, dl_block.ctrl.mac_hdr.rrbp); } function f_rx_rlcmac_dl_block_exp_pkt_ul_ass(out RlcmacDlBlock dl_block, out uint32_t poll_fn) runs on MS_BTS_IFACE_CT { var uint32_t dl_fn; f_rx_rlcmac_dl_block(dl_block, dl_fn); if (not match(dl_block, tr_RLCMAC_UL_PACKET_ASS())) { setverdict(fail, "Failed to match Packet Uplink Assignment"); f_shutdown(__BFILE__, __LINE__); } poll_fn := f_rrbp_ack_fn(dl_fn, dl_block.ctrl.mac_hdr.rrbp); } function f_rx_rlcmac_dl_block_exp_pkt_dl_ass(out RlcmacDlBlock dl_block, out uint32_t poll_fn) runs on MS_BTS_IFACE_CT { var uint32_t dl_fn; f_rx_rlcmac_dl_block(dl_block, dl_fn); if (not match(dl_block, tr_RLCMAC_DL_PACKET_ASS())) { setverdict(fail, "Failed to match Packet Downlink Assignment"); f_shutdown(__BFILE__, __LINE__); } poll_fn := f_rrbp_ack_fn(dl_fn, dl_block.ctrl.mac_hdr.rrbp); } function f_rx_rlcmac_dl_block_exp_pkt_pag_req(out RlcmacDlBlock dl_block) runs on MS_BTS_IFACE_CT { var uint32_t dl_fn; f_rx_rlcmac_dl_block(dl_block, dl_fn); if (not match(dl_block, tr_RLCMAC_PACKET_PAG_REQ())) { setverdict(fail, "Failed to match Packet Paging Request: ", dl_block, " vs ", tr_RLCMAC_PACKET_PAG_REQ()); f_shutdown(__BFILE__, __LINE__); } } /* This function does what could probably be done with templates */ function f_rlcmac_dl_block_verify_data_gprs(in RlcmacDlDataBlock data_block, template (present) octetstring data := ?, template (present) uint7_t exp_bsn := ?, template (present) CodingScheme exp_cs := ?) runs on MS_BTS_IFACE_CT { if (not match(data_block.mac_hdr.hdr_ext.bsn, exp_bsn)) { setverdict(fail, "DL block BSN doesn't match: ", data_block.mac_hdr.hdr_ext.bsn, " vs exp ", exp_bsn); } if (lengthof(data_block.blocks) < 1) { setverdict(fail, "DL block has no LLC payload: ", data_block); f_shutdown(__BFILE__, __LINE__); } if (not match(data_block.blocks[0].payload, data)) { setverdict(fail, "Failed to match content of LLC payload in DL Block: ", data_block.blocks[0].payload, " vs ", data); f_shutdown(__BFILE__, __LINE__); } /* Check next data blocks contain dummy frames */ if (lengthof(data_block.blocks) > 1 and substr(data_block.blocks[1].payload, 0, 3) != '43C001'O) { setverdict(fail, "Second data payload is not a dummy frame: ", data_block.blocks[1].payload); f_shutdown(__BFILE__, __LINE__); } /* TODO: check exp_cs */ } /* This function does what could probably be done with templates */ function f_rlcmac_dl_block_verify_data_egprs(in RlcmacDlEgprsDataBlock data_block, template (present) octetstring data := ?, template (present) uint14_t exp_bsn := ?, template (present) CodingScheme exp_cs := ?) runs on MS_BTS_IFACE_CT { if (not match(data_block.mac_hdr.bsn1, exp_bsn)) { setverdict(fail, "DL block BSN doesn't match: ", data_block.mac_hdr.bsn1, " vs exp ", exp_bsn); } if (lengthof(data_block.blocks) < 1) { setverdict(fail, "DL block has no LLC payload: ", data_block); f_shutdown(__BFILE__, __LINE__); } if (not match(data_block.blocks[0].payload, data)) { setverdict(fail, "Failed to match content of LLC payload in DL Block: ", data_block.blocks[0].payload, " vs ", data); f_shutdown(__BFILE__, __LINE__); } /* Check next data blocks contain dummy frames */ if (lengthof(data_block.blocks) > 1 and substr(data_block.blocks[1].payload, 0, 3) != '43C001'O) { setverdict(fail, "Second data payload is not a dummy frame: ", data_block.blocks[1].payload); f_shutdown(__BFILE__, __LINE__); } /* TODO: Check exp_cs. In the case of EGPRS, first check mac_hdr.header_type and then decode CPS = exp_cs based on mac_hdr.header_type. See wireshark's egprs_Header_type1_coding_puncturing_scheme_to_mcs. */ } /* High level (task specific) helper for receiving and matching GPRS/EGPRS data blocks */ function f_rx_rlcmac_dl_block_exp_data(out RlcmacDlBlock dl_block, out uint32_t dl_fn, template (present) octetstring data := ?, template (present) uint7_t exp_bsn := ?, template (present) CodingScheme exp_cs := ?) runs on MS_BTS_IFACE_CT { /* FIXME: ideally we should use an alt statement with timeout here, rather than * having +100500 layers of abstraction. This would facilitate developing the * multi-TBF/-TRX/-BTS tests, where you cannot expect that the first received * block is exactly what you need. */ f_rx_rlcmac_dl_block(dl_block, dl_fn); /* Make sure it's either GPRS or EGPRS data block */ if (not match(dl_block, tr_RLCMAC_DATA)) { setverdict(fail, "Failed to match DL DATA: ", dl_block, " vs ", tr_RLCMAC_DATA); f_shutdown(__BFILE__, __LINE__); } if (ischosen(dl_block.data_egprs)) { f_rlcmac_dl_block_verify_data_egprs(dl_block.data_egprs, data, exp_bsn, exp_cs); } else if (ischosen(dl_block.data)) { f_rlcmac_dl_block_verify_data_gprs(dl_block.data, data, exp_bsn, exp_cs); } else { /* Should not happen, but the caller may theoretically give us a template for CTRL */ setverdict(fail, "DL block is neither GPRS nor EGPRS data block: ", dl_block); f_shutdown(__BFILE__, __LINE__); } } function f_dl_block_ack_fn(in RlcmacDlBlock dl_block, uint32_t dl_fn) runs on MS_BTS_IFACE_CT return uint32_t { var boolean rrbp_valid; var MacRrbp rrbp; /* The argument must be either a GPRS or EGPRS data block */ if (ischosen(dl_block.data_egprs)) { rrbp_valid := true; /* always valid */ rrbp := dl_block.data_egprs.mac_hdr.rrbp; } else if (ischosen(dl_block.data)) { rrbp_valid := dl_block.data.mac_hdr.mac_hdr.rrbp_valid; rrbp := dl_block.data.mac_hdr.mac_hdr.rrbp; } else { rrbp_valid := dl_block.ctrl.mac_hdr.rrbp_valid; rrbp := dl_block.ctrl.mac_hdr.rrbp; } /* Make sure that the given block really needs to be ACKnowledged */ if (not rrbp_valid) { setverdict(fail, "DL block shall not be ACKnowledged, field RRBP is not valid"); f_shutdown(__BFILE__, __LINE__); } return f_rrbp_ack_fn(dl_fn, rrbp); } function f_pkt_paging_match_tmsi(in PacketPagingReq req, template GsmTmsi tmsi) runs on MS_BTS_IFACE_CT { if (not match(req.repeated_pageinfo.cs.tmsi, tmsi)) { setverdict(fail, "Mobile Identity (TMSI/P-TMSI) mismatch: ", "expected: ", tmsi, "got: ", req.repeated_pageinfo.cs.tmsi); f_shutdown(__BFILE__, __LINE__); } } }