eNB_scheduler_bch.c 29.9 KB
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/*
 * Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The OpenAirInterface Software Alliance licenses this file to You under
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 * the OAI Public License, Version 1.1  (the "License"); you may not use this file
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 * except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.openairinterface.org/?page_id=698
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 *-------------------------------------------------------------------------------
 * For more information about the OpenAirInterface (OAI) Software Alliance:
 *      contact@openairinterface.org
 */
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/*! \file eNB_scheduler_bch.c
 * \brief procedures related to eNB for the BCH transport channel
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 * \author  Navid Nikaein and Raymond Knopp
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 * \date 2010 - 2014
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 * \email: navid.nikaein@eurecom.fr
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 * \version 1.0
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 * @ingroup _mac

 */

#include "assertions.h"
#include "PHY/defs.h"
#include "PHY/extern.h"

#include "SCHED/defs.h"
#include "SCHED/extern.h"

#include "LAYER2/MAC/defs.h"
#include "LAYER2/MAC/proto.h"
#include "LAYER2/MAC/extern.h"
#include "UTIL/LOG/log.h"
#include "UTIL/LOG/vcd_signal_dumper.h"
#include "UTIL/OPT/opt.h"
#include "OCG.h"
#include "OCG_extern.h"

#include "RRC/LITE/extern.h"
#include "RRC/L2_INTERFACE/openair_rrc_L2_interface.h"

//#include "LAYER2/MAC/pre_processor.c"
#include "pdcp.h"

#if defined(ENABLE_ITTI)
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#include "intertask_interface.h"
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#endif

#define ENABLE_MAC_PAYLOAD_DEBUG
#define DEBUG_eNB_SCHEDULER 1


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// NEED TO ADD schedule_SI_BR for SIB1_BR and SIB23_BR
// CCE_allocation_infeasible to be done for EPDCCH/MPDCCH

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#ifdef Rel14

#define size_Sj25 2
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int Sj25[size_Sj25] = { 0, 3 };

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#define size_Sj50 6
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int Sj50[size_Sj50] = { 0, 1, 2, 5, 6, 7 };

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#define size_Sj75 10
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int Sj75[size_Sj75] = { 0, 1, 2, 3, 4, 7, 8, 9, 10, 11 };

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#define size_Sj100 14
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int Sj100[size_Sj100] = { 0, 1, 2, 3, 4, 5, 6, 9, 10, 11, 12, 13, 14, 15 };
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int SIB1_BR_TBS_table[6] = { 208, 256, 328, 504, 712, 936 };
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//------------------------------------------------------------------------------
void
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schedule_SIB1_BR(module_id_t module_idP,
		 frame_t frameP, sub_frame_t subframeP)
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//------------------------------------------------------------------------------
{

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    int8_t bcch_sdu_length;
    int CC_id;
    eNB_MAC_INST *eNB = RC.mac[module_idP];
    COMMON_channels_t *cc;
    uint8_t *vrb_map;
    int first_rb = -1;
    int N_RB_DL;
    nfapi_dl_config_request_pdu_t *dl_config_pdu;
    nfapi_tx_request_pdu_t *TX_req;
    nfapi_dl_config_request_body_t *dl_req;
    int m, i, N_S_NB;
    int *Sj;
    int n_NB = 0;
    int TBS;
    int k = 0, rvidx;

    for (CC_id = 0; CC_id < MAX_NUM_CCs; CC_id++) {

	cc = &eNB->common_channels[CC_id];
	vrb_map = (void *) &cc->vrb_map;
	N_RB_DL = to_prb(cc->mib->message.dl_Bandwidth);
	dl_req = &eNB->DL_req[CC_id].dl_config_request_body;

	int foffset = cc->physCellId & 1;
	int sfoffset = (cc->tdd_Config == NULL) ? 0 : 1;

	// Time-domain scheduling
	if (cc->mib->message.schedulingInfoSIB1_BR_r13 == 0)
	    continue;
	else
	    switch ((cc->mib->message.schedulingInfoSIB1_BR_r13 - 1) % 3) {
	    case 0:		// repetition 4
		k = (frameP >> 1) & 3;
		if ((subframeP != (4 + sfoffset))
		    || ((frameP & 1) != foffset))
		    continue;
		break;
	    case 1:		// repetition 8
		k = frameP & 3;
		AssertFatal(N_RB_DL > 15,
			    "SIB1-BR repetition 8 not allowed for N_RB_DL= %d\n",
			    N_RB_DL);
		if ((foffset == 0) && (subframeP != (4 + sfoffset)))
		    continue;
		else if ((foffset == 1)
			 && (subframeP != ((9 + sfoffset) % 10)))
		    continue;
		break;
	    case 2:		// repetition 16
		k = ((10 * frameP) + subframeP) & 3;
		AssertFatal(N_RB_DL > 15,
			    "SIB1-BR repetition 16 not allowed for N_RB_DL= %d\n",
			    N_RB_DL);
		if ((sfoffset == 1)
		    && ((subframeP != 0) || (subframeP != 5)))
		    continue;
		else if ((sfoffset == 0) && (foffset == 0)
			 && (subframeP != 4) && (subframeP != 9))
		    continue;
		else if ((sfoffset == 0) && (foffset == 1)
			 && (subframeP != 0) && (subframeP != 9))
		    continue;
		break;
	    }
	// if we get here we have to schedule SIB1_BR in this frame/subframe

	// keep counter of SIB1_BR repetitions in 8 frame period to choose narrowband on which to transmit
	if ((frameP & 7) == 0)
	    cc->SIB1_BR_cnt = 0;
	else
	    cc->SIB1_BR_cnt++;

	// Frequency-domain scheduling
	switch (N_RB_DL) {
	case 6:
	case 15:
	default:
	    m = 1;
	    n_NB = 0;
	    N_S_NB = 0;
	    Sj = NULL;
	    break;
	case 25:
	    m = 2;
	    N_S_NB = 2;
	    Sj = Sj25;
	    break;
	case 50:
	    m = 2;
	    N_S_NB = 6;
	    Sj = Sj50;
	    break;
	case 75:
	    m = 4;
	    N_S_NB = 10;
	    Sj = Sj75;
	    break;
	case 100:
	    m = 4;
	    N_S_NB = 14;
	    Sj = Sj100;
	    break;
	}
	// Note: definition of k above and rvidx from 36.321 section 5.3.1
	rvidx = (((3 * k) >> 1) + (k & 1)) & 3;

	i = cc->SIB1_BR_cnt & (m - 1);

	n_NB = Sj[((cc->physCellId % N_S_NB) + (i * N_S_NB / m)) % N_S_NB];


	bcch_sdu_length = mac_rrc_data_req(module_idP, CC_id, frameP, BCCH_SIB1_BR, 1, &cc->BCCH_BR_pdu[0].payload[0], 1, module_idP, 0);	// not used in this case

	AssertFatal(cc->mib->message.schedulingInfoSIB1_BR_r13 < 19,
		    "schedulingInfoSIB1_BR_r13 %d > 18\n",
		    (int) cc->mib->message.schedulingInfoSIB1_BR_r13);

	AssertFatal(bcch_sdu_length > 0,
		    "RRC returned 0 bytes for SIB1-BR\n");

	TBS =
	    SIB1_BR_TBS_table[(cc->mib->message.schedulingInfoSIB1_BR_r13 -
			       1) / 3] >> 3;

	AssertFatal(bcch_sdu_length <= TBS,
		    "length returned by RRC %d is not compatible with the TBS %d from MIB\n",
		    bcch_sdu_length, TBS);

	if ((frameP & 1023) < 200)
	    LOG_D(MAC,
		  "[eNB %d] Frame %d Subframe %d: SIB1_BR->DLSCH CC_id %d, Received %d bytes, scheduling on NB %d (i %d,m %d,N_S_NB %d)  rvidx %d\n",
		  module_idP, frameP, subframeP, CC_id, bcch_sdu_length,
		  n_NB, i, m, N_S_NB, rvidx);

	// allocate all 6 PRBs in narrowband for SIB1_BR

	first_rb = narrowband_to_first_rb(cc, n_NB);

	vrb_map[first_rb] = 1;
	vrb_map[first_rb + 1] = 1;
	vrb_map[first_rb + 2] = 1;
	vrb_map[first_rb + 3] = 1;
	vrb_map[first_rb + 4] = 1;
	vrb_map[first_rb + 5] = 1;

	dl_config_pdu = &dl_req->dl_config_pdu_list[dl_req->number_pdu];
	memset((void *) dl_config_pdu, 0,
	       sizeof(nfapi_dl_config_request_pdu_t));
	dl_config_pdu->pdu_type = NFAPI_DL_CONFIG_DLSCH_PDU_TYPE;
	dl_config_pdu->pdu_size =
	    (uint8_t) (2 + sizeof(nfapi_dl_config_dlsch_pdu));
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.length = TBS;
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.pdu_index =
	    eNB->pdu_index[CC_id];
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.rnti = 0xFFFF;
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.resource_allocation_type = 2;	// format 1A/1B/1D
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.virtual_resource_block_assignment_flag = 0;	// localized
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.resource_block_coding =
	    getRIV(N_RB_DL, first_rb, 6);
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.modulation = 2;	//QPSK
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.redundancy_version = rvidx;
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.transport_blocks = 1;	// first block
	dl_config_pdu->dlsch_pdu.
	    dlsch_pdu_rel8.transport_block_to_codeword_swap_flag = 0;
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.transmission_scheme =
	    (cc->p_eNB == 1) ? 0 : 1;
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.number_of_layers = 1;
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.number_of_subbands = 1;
	//  dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.codebook_index                         = ;
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.ue_category_capacity = 1;
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.pa = 4;	// 0 dB
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.delta_power_offset_index =
	    0;
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.ngap = 0;
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.nprb = get_subbandsize(cc->mib->message.dl_Bandwidth);	// ignored
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.transmission_mode =
	    (cc->p_eNB == 1) ? 1 : 2;
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.num_bf_prb_per_subband = 1;
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.num_bf_vector = 1;
	// Rel10 fields
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel10.pdsch_start = 3;
	// Rel13 fields
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel13.ue_type = 1;	// CEModeA UE
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel13.pdsch_payload_type = 0;	// SIB1-BR
	dl_config_pdu->dlsch_pdu.dlsch_pdu_rel13.initial_transmission_sf_io = 0xFFFF;	// absolute SFx

	//  dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.bf_vector                    = ; 
	dl_req->number_pdu++;

	// Program TX Request
	TX_req =
	    &eNB->TX_req[CC_id].tx_request_body.tx_pdu_list[eNB->
							    TX_req
							    [CC_id].tx_request_body.number_of_pdus];
	TX_req->pdu_length = bcch_sdu_length;
	TX_req->pdu_index = eNB->pdu_index[CC_id]++;
	TX_req->num_segments = 1;
	TX_req->segments[0].segment_length = bcch_sdu_length;
	TX_req->segments[0].segment_data = cc->BCCH_BR_pdu[0].payload;
	eNB->TX_req[CC_id].tx_request_body.number_of_pdus++;



	if (opt_enabled == 1) {
	    trace_pdu(1,
		      &cc->BCCH_BR_pdu[0].payload[0],
		      bcch_sdu_length,
		      0xffff, 4, 0xffff, eNB->frame, eNB->subframe, 0, 0);
	    LOG_D(OPT,
		  "[eNB %d][BCH] Frame %d trace pdu for CC_id %d rnti %x with size %d\n",
		  module_idP, frameP, CC_id, 0xffff, bcch_sdu_length);
	}
	if (cc->tdd_Config != NULL) {	//TDD
	    LOG_D(MAC,
		  "[eNB] Frame %d : Scheduling BCCH-BR 0->DLSCH (TDD) for CC_id %d SIB1-BR %d bytes\n",
		  frameP, CC_id, bcch_sdu_length);
	} else {
	    LOG_D(MAC,
		  "[eNB] Frame %d : Scheduling BCCH-BR 0->DLSCH (FDD) for CC_id %d SIB1-BR %d bytes\n",
		  frameP, CC_id, bcch_sdu_length);
	}
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    }
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    return;
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}

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int si_WindowLength_BR_r13tab
    [SystemInformationBlockType1_v1310_IEs__bandwidthReducedAccessRelatedInfo_r13__si_WindowLength_BR_r13_spare]
= { 20, 40, 60, 80, 120, 160, 200 };
int si_TBS_r13tab[SchedulingInfo_BR_r13__si_TBS_r13_b936 + 1] =
    { 152, 208, 256, 328, 408, 504, 600, 712, 808, 936 };
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//------------------------------------------------------------------------------
void
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schedule_SI_BR(module_id_t module_idP, frame_t frameP,
	       sub_frame_t subframeP)
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//------------------------------------------------------------------------------
{

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    int8_t bcch_sdu_length;
    int CC_id;
    eNB_MAC_INST *eNB = RC.mac[module_idP];
    COMMON_channels_t *cc;
    uint8_t *vrb_map;
    int first_rb = -1;
    int N_RB_DL;
    nfapi_dl_config_request_pdu_t *dl_config_pdu;
    nfapi_tx_request_pdu_t *TX_req;
    nfapi_dl_config_request_body_t *dl_req;
    int i;
    int rvidx;
    int absSF = (frameP * 10) + subframeP;


    for (CC_id = 0; CC_id < MAX_NUM_CCs; CC_id++) {

	cc = &eNB->common_channels[CC_id];
	vrb_map = (void *) &cc->vrb_map;
	N_RB_DL = to_prb(cc->mib->message.dl_Bandwidth);
	dl_req = &eNB->DL_req[CC_id].dl_config_request_body;

	// Time-domain scheduling
	if (cc->mib->message.schedulingInfoSIB1_BR_r13 == 0)
	    continue;
	else {


	    AssertFatal(cc->
			sib1_v13ext->bandwidthReducedAccessRelatedInfo_r13
			!= NULL,
			"sib_v13ext->bandwidthReducedAccessRelatedInfo_r13 is null\n");

	    SchedulingInfoList_BR_r13_t *schedulingInfoList_BR_r13 =
		cc->sib1_v13ext->
		bandwidthReducedAccessRelatedInfo_r13->schedulingInfoList_BR_r13;
	    AssertFatal(schedulingInfoList_BR_r13 != NULL,
			"sib_v13ext->schedulingInfoList_BR_r13 is null\n");

	    SchedulingInfoList_t *schedulingInfoList =
		cc->schedulingInfoList;
	    AssertFatal(schedulingInfoList_BR_r13->list.count ==
			schedulingInfoList->list.count,
			"schedulingInfolist_BR.r13->list.count %d != schedulingInfoList.list.count %d\n",
			schedulingInfoList_BR_r13->list.count,
			schedulingInfoList->list.count);

	    AssertFatal(cc->
			sib1_v13ext->bandwidthReducedAccessRelatedInfo_r13->si_WindowLength_BR_r13
			<=
			SystemInformationBlockType1_v1310_IEs__bandwidthReducedAccessRelatedInfo_r13__si_WindowLength_BR_r13_ms200,
			"si_WindowLength_BR_r13 %d > %d\n",
			(int) cc->
			sib1_v13ext->bandwidthReducedAccessRelatedInfo_r13->si_WindowLength_BR_r13,
			SystemInformationBlockType1_v1310_IEs__bandwidthReducedAccessRelatedInfo_r13__si_WindowLength_BR_r13_ms200);

	    // check that SI frequency-hopping is disabled
	    AssertFatal(cc->
			sib1_v13ext->bandwidthReducedAccessRelatedInfo_r13->si_HoppingConfigCommon_r13
			==
			SystemInformationBlockType1_v1310_IEs__bandwidthReducedAccessRelatedInfo_r13__si_HoppingConfigCommon_r13_off,
			"Deactivate SI_HoppingConfigCommon_r13 in configuration file, not supported for now\n");
	    long si_WindowLength_BR_r13 =
		si_WindowLength_BR_r13tab[cc->
					  sib1_v13ext->bandwidthReducedAccessRelatedInfo_r13->si_WindowLength_BR_r13];

	    long si_RepetitionPattern_r13 =
		cc->sib1_v13ext->
		bandwidthReducedAccessRelatedInfo_r13->si_RepetitionPattern_r13;
	    AssertFatal(si_RepetitionPattern_r13 <=
			SystemInformationBlockType1_v1310_IEs__bandwidthReducedAccessRelatedInfo_r13__si_RepetitionPattern_r13_every8thRF,
			"si_RepetitionPattern_r13 %d > %d\n",
			(int) si_RepetitionPattern_r13,
			SystemInformationBlockType1_v1310_IEs__bandwidthReducedAccessRelatedInfo_r13__si_RepetitionPattern_r13_every8thRF);
	    // cycle through SIB list

	    for (i = 0; i < schedulingInfoList_BR_r13->list.count; i++) {
		long si_Periodicity =
		    schedulingInfoList->list.array[i]->si_Periodicity;
		long si_Narrowband_r13 =
		    schedulingInfoList_BR_r13->list.array[i]->
		    si_Narrowband_r13;
		long si_TBS_r13 =
		    si_TBS_r13tab[schedulingInfoList_BR_r13->
				  list.array[i]->si_TBS_r13];

		// check if the SI is to be scheduled now
		int period_in_sf = 80 << si_Periodicity;	// 2^i * 80 subframes, note: si_Periodicity is 2^i * 80ms
		int sf_mod_period = absSF % period_in_sf;
		int k = sf_mod_period & 3;
		// Note: definition of k and rvidx from 36.321 section 5.3.1
		rvidx = (((3 * k) >> 1) + (k & 1)) & 3;

		if ((sf_mod_period < si_WindowLength_BR_r13)
		    && ((frameP & (((1 << si_RepetitionPattern_r13) - 1))) == 0)) {	// this SIB is to be scheduled

		    bcch_sdu_length = mac_rrc_data_req(module_idP, CC_id, frameP, BCCH_SI_BR + i, 1, &cc->BCCH_BR_pdu[i + 1].payload[0], 1, module_idP, 0);	// not used in this case

		    AssertFatal(bcch_sdu_length > 0,
				"RRC returned 0 bytes for SI-BR %d\n", i);

		    if (bcch_sdu_length > 0) {
			AssertFatal(bcch_sdu_length <= (si_TBS_r13 >> 3),
				    "RRC provided bcch with length %d > %d (si_TBS_r13 %d)\n",
				    bcch_sdu_length,
				    (int) (si_TBS_r13 >> 3),
				    (int) schedulingInfoList_BR_r13->
				    list.array[i]->si_TBS_r13);

			// allocate all 6 PRBs in narrowband for SIB1_BR

			// check that SIB1 didn't take this narrowband
			if (vrb_map[first_rb] > 0)
			    continue;

			first_rb =
			    narrowband_to_first_rb(cc,
						   si_Narrowband_r13 - 1);
			vrb_map[first_rb] = 1;
			vrb_map[first_rb + 1] = 1;
			vrb_map[first_rb + 2] = 1;
			vrb_map[first_rb + 4] = 1;
			vrb_map[first_rb + 5] = 1;

			if ((frameP & 1023) < 200)
			    LOG_D(MAC,
				  "[eNB %d] Frame %d Subframe %d: SI_BR->DLSCH CC_id %d, Narrowband %d rvidx %d (sf_mod_period %d : si_WindowLength_BR_r13 %d : si_RepetitionPattern_r13 %d) bcch_sdu_length %d\n",
				  module_idP, frameP, subframeP, CC_id,
				  (int) si_Narrowband_r13 - 1, rvidx,
				  sf_mod_period,
				  (int) si_WindowLength_BR_r13,
				  (int) si_RepetitionPattern_r13,
				  bcch_sdu_length);




			dl_config_pdu =
			    &dl_req->dl_config_pdu_list[dl_req->
							number_pdu];
			memset((void *) dl_config_pdu, 0,
			       sizeof(nfapi_dl_config_request_pdu_t));
			dl_config_pdu->pdu_type =
			    NFAPI_DL_CONFIG_DLSCH_PDU_TYPE;
			dl_config_pdu->pdu_size =
			    (uint8_t) (2 +
				       sizeof(nfapi_dl_config_dlsch_pdu));
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.length =
			    si_TBS_r13 >> 3;
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.pdu_index =
			    eNB->pdu_index[CC_id];
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.rnti =
			    0xFFFF;
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.resource_allocation_type = 2;	// format 1A/1B/1D
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.virtual_resource_block_assignment_flag = 0;	// localized
			dl_config_pdu->dlsch_pdu.
			    dlsch_pdu_rel8.resource_block_coding =
			    getRIV(N_RB_DL, first_rb, 6);
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.modulation = 2;	//QPSK
			dl_config_pdu->dlsch_pdu.
			    dlsch_pdu_rel8.redundancy_version = rvidx;
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.transport_blocks = 1;	// first block
			dl_config_pdu->dlsch_pdu.
			    dlsch_pdu_rel8.transport_block_to_codeword_swap_flag
			    = 0;
			dl_config_pdu->dlsch_pdu.
			    dlsch_pdu_rel8.transmission_scheme =
			    (cc->p_eNB == 1) ? 0 : 1;
			dl_config_pdu->dlsch_pdu.
			    dlsch_pdu_rel8.number_of_layers = 1;
			dl_config_pdu->dlsch_pdu.
			    dlsch_pdu_rel8.number_of_subbands = 1;
			//  dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.codebook_index                         = ;
			dl_config_pdu->dlsch_pdu.
			    dlsch_pdu_rel8.ue_category_capacity = 1;
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.pa = 4;	// 0 dB
			dl_config_pdu->dlsch_pdu.
			    dlsch_pdu_rel8.delta_power_offset_index = 0;
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.ngap = 0;
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.nprb = get_subbandsize(cc->mib->message.dl_Bandwidth);	// ignored
			dl_config_pdu->dlsch_pdu.
			    dlsch_pdu_rel8.transmission_mode =
			    (cc->p_eNB == 1) ? 1 : 2;
			dl_config_pdu->dlsch_pdu.
			    dlsch_pdu_rel8.num_bf_prb_per_subband = 1;
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.
			    num_bf_vector = 1;
			// Rel10 fields (for PDSCH starting symbol)
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel10.
			    pdsch_start =
			    cc[CC_id].
			    sib1_v13ext->bandwidthReducedAccessRelatedInfo_r13->startSymbolBR_r13;
			// Rel13 fields
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel13.ue_type = 1;	// CEModeA UE
			dl_config_pdu->dlsch_pdu.dlsch_pdu_rel13.pdsch_payload_type = 1;	// SI-BR
			dl_config_pdu->dlsch_pdu.
			    dlsch_pdu_rel13.initial_transmission_sf_io =
			    absSF - sf_mod_period;

			//  dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.bf_vector                    = ; 
			dl_req->number_pdu++;

			// Program TX Request
			TX_req =
			    &eNB->TX_req[CC_id].
			    tx_request_body.tx_pdu_list[eNB->TX_req[CC_id].
							tx_request_body.number_of_pdus];
			TX_req->pdu_length = bcch_sdu_length;
			TX_req->pdu_index = eNB->pdu_index[CC_id]++;
			TX_req->num_segments = 1;
			TX_req->segments[0].segment_length =
			    bcch_sdu_length;
			TX_req->segments[0].segment_data =
			    cc->BCCH_BR_pdu[i + 1].payload;
			eNB->TX_req[CC_id].tx_request_body.
			    number_of_pdus++;

			if (opt_enabled == 1) {
			    trace_pdu(1,
				      &cc->BCCH_BR_pdu[i + 1].payload[0],
				      bcch_sdu_length,
				      0xffff,
				      4,
				      0xffff, eNB->frame, eNB->subframe, 0,
				      0);
			    LOG_D(OPT,
				  "[eNB %d][BCH] Frame %d trace pdu for CC_id %d rnti %x with size %d\n",
				  module_idP, frameP, CC_id, 0xffff,
				  bcch_sdu_length);
			}
			if (cc->tdd_Config != NULL) {	//TDD
			    LOG_D(MAC,
				  "[eNB] Frame %d : Scheduling BCCH-BR %d->DLSCH (TDD) for CC_id %d SI-BR %d bytes\n",
				  frameP, i, CC_id, bcch_sdu_length);
			} else {
			    LOG_D(MAC,
				  "[eNB] Frame %d : Scheduling BCCH-BR %d->DLSCH (FDD) for CC_id %d SI-BR %d bytes\n",
				  frameP, i, CC_id, bcch_sdu_length);
			}
		    }
		}		// scheduling in current frame/subframe
	    }			//for SI List
	}			// eMTC is activated
    }				// CC_id
    return;
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}
#endif

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void
schedule_mib(module_id_t module_idP, frame_t frameP, sub_frame_t subframeP)
{

    eNB_MAC_INST *eNB = RC.mac[module_idP];
    COMMON_channels_t *cc;
    nfapi_dl_config_request_pdu_t *dl_config_pdu;
    nfapi_tx_request_pdu_t *TX_req;
    int mib_sdu_length;
    int CC_id;
    nfapi_dl_config_request_body_t *dl_req;

    AssertFatal(subframeP == 0, "Subframe must be 0\n");
    AssertFatal((frameP & 3) == 0, "Frame must be a multiple of 4\n");

    for (CC_id = 0; CC_id < MAX_NUM_CCs; CC_id++) {

	dl_req = &eNB->DL_req[CC_id].dl_config_request_body;
	cc = &eNB->common_channels[CC_id];

	mib_sdu_length = mac_rrc_data_req(module_idP, CC_id, frameP, MIBCH, 1, &cc->MIB_pdu.payload[0], 1, module_idP, 0);	// not used in this case

	LOG_D(MAC, "Frame %d, subframe %d: BCH PDU length %d\n",
	      frameP, subframeP, mib_sdu_length);

	if (mib_sdu_length > 0) {

	    LOG_D(MAC,
		  "Frame %d, subframe %d: Adding BCH PDU in position %d (length %d)\n",
		  frameP, subframeP, dl_req->number_pdu, mib_sdu_length);

	    if ((frameP & 1023) < 40)
		LOG_D(MAC,
		      "[eNB %d] Frame %d : MIB->BCH  CC_id %d, Received %d bytes (cc->mib->message.schedulingInfoSIB1_BR_r13 %d)\n",
		      module_idP, frameP, CC_id, mib_sdu_length,
		      (int) cc->mib->message.schedulingInfoSIB1_BR_r13);

	    dl_config_pdu =
		&dl_req->dl_config_pdu_list[dl_req->number_pdu];
	    memset((void *) dl_config_pdu, 0,
		   sizeof(nfapi_dl_config_request_pdu_t));
	    dl_config_pdu->pdu_type =
		NFAPI_DL_CONFIG_BCH_PDU_TYPE, dl_config_pdu->pdu_size =
		2 + sizeof(nfapi_dl_config_bch_pdu);
	    dl_config_pdu->bch_pdu.bch_pdu_rel8.length = mib_sdu_length;
	    dl_config_pdu->bch_pdu.bch_pdu_rel8.pdu_index =
		eNB->pdu_index[CC_id];
	    dl_config_pdu->bch_pdu.bch_pdu_rel8.transmission_power = 6000;
	    dl_req->number_pdu++;

	    LOG_D(MAC, "eNB->DL_req[0].number_pdu %d (%p)\n",
		  dl_req->number_pdu, &dl_req->number_pdu);
	    // DL request

	    TX_req =
		&eNB->TX_req[CC_id].tx_request_body.tx_pdu_list[eNB->TX_req
								[CC_id].tx_request_body.number_of_pdus];
	    TX_req->pdu_length = 3;
	    TX_req->pdu_index = eNB->pdu_index[CC_id]++;
	    TX_req->num_segments = 1;
	    TX_req->segments[0].segment_length = 0;
	    TX_req->segments[0].segment_data = cc[CC_id].MIB_pdu.payload;
	    eNB->TX_req[CC_id].tx_request_body.number_of_pdus++;
	}
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    }
}


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//------------------------------------------------------------------------------
void
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schedule_SI(module_id_t module_idP, frame_t frameP, sub_frame_t subframeP)
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//------------------------------------------------------------------------------
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{
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    int8_t bcch_sdu_length;
    int mcs = -1;
    int CC_id;
    eNB_MAC_INST *eNB = RC.mac[module_idP];
    COMMON_channels_t *cc;
    uint8_t *vrb_map;
    int first_rb = -1;
    int N_RB_DL;
    nfapi_dl_config_request_pdu_t *dl_config_pdu;
    nfapi_tx_request_pdu_t *TX_req;
    nfapi_dl_config_request_body_t *dl_req;

    start_meas(&eNB->schedule_si);

    // Only schedule LTE System Information in subframe 5
    if (subframeP == 5) {

	for (CC_id = 0; CC_id < MAX_NUM_CCs; CC_id++) {

	    cc = &eNB->common_channels[CC_id];
	    vrb_map = (void *) &cc->vrb_map;
	    N_RB_DL = to_prb(cc->mib->message.dl_Bandwidth);
	    dl_req = &eNB->DL_req[CC_id].dl_config_request_body;


	    bcch_sdu_length = mac_rrc_data_req(module_idP, CC_id, frameP, BCCH, 1, &cc->BCCH_pdu.payload[0], 1, module_idP, 0);	// not used in this case

	    if (bcch_sdu_length > 0) {
		LOG_D(MAC,
		      "[eNB %d] Frame %d : BCCH->DLSCH CC_id %d, Received %d bytes \n",
		      module_idP, frameP, CC_id, bcch_sdu_length);

		// Allocate 4 PRBs in a random location
		/*
		   while (1) {
		   first_rb = (unsigned char)(taus()%(PHY_vars_eNB_g[module_idP][CC_id]->frame_parms.N_RB_DL-4));
		   if ((vrb_map[first_rb] != 1) && 
		   (vrb_map[first_rb+1] != 1) && 
		   (vrb_map[first_rb+2] != 1) && 
		   (vrb_map[first_rb+3] != 1))
		   break;
		   }
		 */
		switch (N_RB_DL) {
		case 6:
		    first_rb = 0;
		    break;
		case 15:
		    first_rb = 6;
		    break;
		case 25:
		    first_rb = 11;
		    break;
		case 50:
		    first_rb = 23;
		    break;
		case 100:
		    first_rb = 48;
		    break;
		}

		vrb_map[first_rb] = 1;
		vrb_map[first_rb + 1] = 1;
		vrb_map[first_rb + 2] = 1;
		vrb_map[first_rb + 3] = 1;

		// Get MCS for length of SI, 3 PRBs
		if (bcch_sdu_length <= 7) {
		    mcs = 0;
		} else if (bcch_sdu_length <= 11) {
		    mcs = 1;
		} else if (bcch_sdu_length <= 18) {
		    mcs = 2;
		} else if (bcch_sdu_length <= 22) {
		    mcs = 3;
		} else if (bcch_sdu_length <= 26) {
		    mcs = 4;
		} else if (bcch_sdu_length <= 28) {
		    mcs = 5;
		} else if (bcch_sdu_length <= 32) {
		    mcs = 6;
		} else if (bcch_sdu_length <= 41) {
		    mcs = 7;
		} else if (bcch_sdu_length <= 49) {
		    mcs = 8;
		}


		dl_config_pdu =
		    &dl_req->dl_config_pdu_list[dl_req->number_pdu];
		memset((void *) dl_config_pdu, 0,
		       sizeof(nfapi_dl_config_request_pdu_t));
		dl_config_pdu->pdu_type = NFAPI_DL_CONFIG_DCI_DL_PDU_TYPE;
		dl_config_pdu->pdu_size =
		    (uint8_t) (2 + sizeof(nfapi_dl_config_dci_dl_pdu));
		dl_config_pdu->dci_dl_pdu.dci_dl_pdu_rel8.dci_format =
		    NFAPI_DL_DCI_FORMAT_1A;
		dl_config_pdu->dci_dl_pdu.dci_dl_pdu_rel8.
		    aggregation_level = 4;
		dl_config_pdu->dci_dl_pdu.dci_dl_pdu_rel8.rnti = 0xFFFF;
		dl_config_pdu->dci_dl_pdu.dci_dl_pdu_rel8.rnti_type = 2;	// S-RNTI : see Table 4-10 from SCF082 - nFAPI specifications
		dl_config_pdu->dci_dl_pdu.dci_dl_pdu_rel8.transmission_power = 6000;	// equal to RS power

		dl_config_pdu->dci_dl_pdu.dci_dl_pdu_rel8.harq_process = 0;
		dl_config_pdu->dci_dl_pdu.dci_dl_pdu_rel8.tpc = 1;	// no TPC
		dl_config_pdu->dci_dl_pdu.dci_dl_pdu_rel8.
		    new_data_indicator_1 = 0;
		dl_config_pdu->dci_dl_pdu.dci_dl_pdu_rel8.mcs_1 = mcs;
		dl_config_pdu->dci_dl_pdu.dci_dl_pdu_rel8.
		    redundancy_version_1 = 0;

		dl_config_pdu->dci_dl_pdu.
		    dci_dl_pdu_rel8.resource_block_coding =
		    getRIV(N_RB_DL, first_rb, 4);

		// Rel10 fields
		dl_config_pdu->dlsch_pdu.dlsch_pdu_rel10.pdsch_start = 3;
		// Rel13 fields
		dl_config_pdu->dlsch_pdu.dlsch_pdu_rel13.ue_type = 0;	// regular UE
		dl_config_pdu->dlsch_pdu.dlsch_pdu_rel13.pdsch_payload_type = 2;	// not BR
		dl_config_pdu->dlsch_pdu.dlsch_pdu_rel13.initial_transmission_sf_io = 0xFFFF;	// absolute SF 

		if (!CCE_allocation_infeasible
		    (module_idP, CC_id, 0, subframeP,
		     dl_config_pdu->dci_dl_pdu.
		     dci_dl_pdu_rel8.aggregation_level, SI_RNTI)) {
		    LOG_D(MAC,
			  "Frame %d: Subframe %d : Adding common DCI for S_RNTI\n",
			  frameP, subframeP);
		    dl_req->number_dci++;
		    dl_req->number_pdu++;
		    dl_config_pdu =
			&dl_req->dl_config_pdu_list[dl_req->number_pdu];
		    memset((void *) dl_config_pdu, 0,
			   sizeof(nfapi_dl_config_request_pdu_t));
		    dl_config_pdu->pdu_type =
			NFAPI_DL_CONFIG_DLSCH_PDU_TYPE;
		    dl_config_pdu->pdu_size =
			(uint8_t) (2 + sizeof(nfapi_dl_config_dlsch_pdu));
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.pdu_index =
			eNB->pdu_index[CC_id];
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.rnti = 0xFFFF;
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.resource_allocation_type = 2;	// format 1A/1B/1D
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.virtual_resource_block_assignment_flag = 0;	// localized
		    dl_config_pdu->dlsch_pdu.
			dlsch_pdu_rel8.resource_block_coding =
			getRIV(N_RB_DL, first_rb, 4);
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.modulation = 2;	//QPSK
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.
			redundancy_version = 0;
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.transport_blocks = 1;	// first block
		    dl_config_pdu->dlsch_pdu.
			dlsch_pdu_rel8.transport_block_to_codeword_swap_flag
			= 0;
		    dl_config_pdu->dlsch_pdu.
			dlsch_pdu_rel8.transmission_scheme =
			(cc->p_eNB == 1) ? 0 : 1;
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.
			number_of_layers = 1;
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.
			number_of_subbands = 1;
		    //    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.codebook_index                         = ;
		    dl_config_pdu->dlsch_pdu.
			dlsch_pdu_rel8.ue_category_capacity = 1;
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.pa = 4;	// 0 dB
		    dl_config_pdu->dlsch_pdu.
			dlsch_pdu_rel8.delta_power_offset_index = 0;
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.ngap = 0;
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.nprb = get_subbandsize(cc->mib->message.dl_Bandwidth);	// ignored
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.
			transmission_mode = (cc->p_eNB == 1) ? 1 : 2;
		    dl_config_pdu->dlsch_pdu.
			dlsch_pdu_rel8.num_bf_prb_per_subband = 1;
		    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.num_bf_vector =
			1;
		    //    dl_config_pdu->dlsch_pdu.dlsch_pdu_rel8.bf_vector                    = ; 
		    dl_req->number_pdu++;

		    // Program TX Request
		    TX_req =
			&eNB->TX_req[CC_id].
			tx_request_body.tx_pdu_list[eNB->TX_req[CC_id].
						    tx_request_body.number_of_pdus];
		    TX_req->pdu_length = bcch_sdu_length;
		    TX_req->pdu_index = eNB->pdu_index[CC_id]++;
		    TX_req->num_segments = 1;
		    TX_req->segments[0].segment_length = bcch_sdu_length;
		    TX_req->segments[0].segment_data =
			cc->BCCH_pdu.payload;
		    eNB->TX_req[CC_id].tx_request_body.number_of_pdus++;

		} else {
		    LOG_E(MAC,
			  "[eNB %d] CCid %d Frame %d, subframe %d : Cannot add DCI 1A for SI\n",
			  module_idP, CC_id, frameP, subframeP);
		}

		if (opt_enabled == 1) {
		    trace_pdu(1,
			      &cc->BCCH_pdu.payload[0],
			      bcch_sdu_length,
			      0xffff,
			      4, 0xffff, eNB->frame, eNB->subframe, 0, 0);
		    LOG_D(OPT,
			  "[eNB %d][BCH] Frame %d trace pdu for CC_id %d rnti %x with size %d\n",
			  module_idP, frameP, CC_id, 0xffff,
			  bcch_sdu_length);
		}
		if (cc->tdd_Config != NULL) {	//TDD
		    LOG_D(MAC,
			  "[eNB] Frame %d : Scheduling BCCH->DLSCH (TDD) for CC_id %d SI %d bytes (mcs %d, rb 3)\n",
			  frameP, CC_id, bcch_sdu_length, mcs);
		} else {
		    LOG_D(MAC,
			  "[eNB] Frame %d : Scheduling BCCH->DLSCH (FDD) for CC_id %d SI %d bytes (mcs %d, rb 3)\n",
			  frameP, CC_id, bcch_sdu_length, mcs);
		}


		eNB->eNB_stats[CC_id].total_num_bcch_pdu += 1;
		eNB->eNB_stats[CC_id].bcch_buffer = bcch_sdu_length;
		eNB->eNB_stats[CC_id].total_bcch_buffer += bcch_sdu_length;
		eNB->eNB_stats[CC_id].bcch_mcs = mcs;
	    } else {
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		//LOG_D(MAC,"[eNB %d] Frame %d : BCCH not active \n",Mod_id,frame);
	    }
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	}
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    }
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#ifdef Rel14
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    schedule_SIB1_BR(module_idP, frameP, subframeP);
    schedule_SI_BR(module_idP, frameP, subframeP);
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#endif
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    stop_meas(&eNB->schedule_si);
    return;
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}