pre_processor.c 72.9 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 pre_processor.c
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 * \brief eNB scheduler preprocessing fuction prior to scheduling
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 * \author Navid Nikaein and Ankit Bhamri
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 * \date 2013 - 2014
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 * \email navid.nikaein@eurecom.fr
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 * \version 1.0
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 * @ingroup _mac

 */

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#define _GNU_SOURCE
#include <stdlib.h>

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#include "assertions.h"
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#include "LAYER2/MAC/mac.h"
#include "LAYER2/MAC/mac_proto.h"
#include "LAYER2/MAC/mac_extern.h"
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#include "common/utils/LOG/log.h"
#include "common/utils/LOG/vcd_signal_dumper.h"
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#include "UTIL/OPT/opt.h"
#include "OCG.h"
#include "OCG_extern.h"
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#include "RRC/LTE/rrc_extern.h"
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#include "RRC/L2_INTERFACE/openair_rrc_L2_interface.h"
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#include "rlc.h"
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#include "PHY/LTE_TRANSPORT/transport_common_proto.h"
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#include "common/ran_context.h"
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extern RAN_CONTEXT_t RC;
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#define DEBUG_eNB_SCHEDULER 1
#define DEBUG_HEADER_PARSING 1
//#define DEBUG_PACKET_TRACE 1

//#define ICIC 0

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/* this function checks that get_eNB_UE_stats returns
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 * a non-NULL pointer for all the active CCs of an UE
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 */
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/*
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int phy_stats_exist(module_id_t Mod_id, int rnti)
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{
  int CC_id;
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  int i;
  int UE_id          = find_UE_id(Mod_id, rnti);
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  UE_list_t *UE_list = &RC.mac[Mod_id]->UE_list;
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  if (UE_id == -1) {
    LOG_W(MAC, "[eNB %d] UE %x not found, should be there (in phy_stats_exist)\n",
	  Mod_id, rnti);
    return 0;
  }
  if (UE_list->numactiveCCs[UE_id] == 0) {
    LOG_W(MAC, "[eNB %d] UE %x has no active CC (in phy_stats_exist)\n",
	  Mod_id, rnti);
    return 0;
  }
  for (i = 0; i < UE_list->numactiveCCs[UE_id]; i++) {
    CC_id = UE_list->ordered_CCids[i][UE_id];
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    if (mac_xface->get_eNB_UE_stats(Mod_id, CC_id, rnti) == NULL)
      return 0;
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  }
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  return 1;
}
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*/
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// This function stores the downlink buffer for all the logical channels
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void
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store_dlsch_buffer(module_id_t Mod_id,
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                   int slice_idx,
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                   frame_t frameP,
                   sub_frame_t subframeP) {
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  int UE_id, lcid;
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  rnti_t rnti;
  mac_rlc_status_resp_t rlc_status;
  UE_list_t *UE_list = &RC.mac[Mod_id]->UE_list;
  UE_TEMPLATE *UE_template;
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  for (UE_id = 0; UE_id < MAX_MOBILES_PER_ENB; UE_id++) {
    if (UE_list->active[UE_id] != TRUE)
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	    continue;

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    if (!ue_dl_slice_membership(Mod_id, UE_id, slice_idx))
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      continue;
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    UE_template = &UE_list->UE_template[UE_PCCID(Mod_id, UE_id)][UE_id];
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    // clear logical channel interface variables
    UE_template->dl_buffer_total = 0;
    UE_template->dl_pdus_total = 0;
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    for (lcid = 0; lcid < MAX_NUM_LCID; ++lcid) {
      UE_template->dl_buffer_info[lcid] = 0;
      UE_template->dl_pdus_in_buffer[lcid] = 0;
      UE_template->dl_buffer_head_sdu_creation_time[lcid] = 0;
      UE_template->dl_buffer_head_sdu_remaining_size_to_send[lcid] = 0;
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    }
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    rnti = UE_RNTI(Mod_id, UE_id);
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    for (lcid = 0; lcid < MAX_NUM_LCID; ++lcid) {    // loop over all the logical channels
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	    rlc_status = mac_rlc_status_ind(Mod_id, rnti, Mod_id, frameP, subframeP,
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				   ENB_FLAG_YES, MBMS_FLAG_NO, lcid, 0
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#if (RRC_VERSION >= MAKE_VERSION(14, 0, 0))
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                   ,0, 0
#endif
                   );
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      UE_template->dl_buffer_info[lcid] = rlc_status.bytes_in_buffer;    //storing the dlsch buffer for each logical channel
      UE_template->dl_pdus_in_buffer[lcid] = rlc_status.pdus_in_buffer;
      UE_template->dl_buffer_head_sdu_creation_time[lcid] = rlc_status.head_sdu_creation_time;
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      UE_template->dl_buffer_head_sdu_creation_time_max =
              cmax(UE_template->dl_buffer_head_sdu_creation_time_max, rlc_status.head_sdu_creation_time);
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      UE_template->dl_buffer_head_sdu_remaining_size_to_send[lcid] = rlc_status.head_sdu_remaining_size_to_send;
      UE_template->dl_buffer_head_sdu_is_segmented[lcid] = rlc_status.head_sdu_is_segmented;
      UE_template->dl_buffer_total += UE_template->dl_buffer_info[lcid];    //storing the total dlsch buffer
      UE_template->dl_pdus_total += UE_template->dl_pdus_in_buffer[lcid];
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#ifdef DEBUG_eNB_SCHEDULER
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      /* note for dl_buffer_head_sdu_remaining_size_to_send[lcid] :
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       * 0 if head SDU has not been segmented (yet), else remaining size not already segmented and sent
       */
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      if (UE_template->dl_buffer_info[lcid] > 0)
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        LOG_D(MAC,
              "[eNB %d][SLICE %d] Frame %d Subframe %d : RLC status for UE %d in LCID%d: total of %d pdus and size %d, head sdu queuing time %d, remaining size %d, is segmeneted %d \n",
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              Mod_id, RC.mac[Mod_id]->slice_info.dl[slice_idx].id, frameP,
              subframeP, UE_id, lcid, UE_template->dl_pdus_in_buffer[lcid],
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              UE_template->dl_buffer_info[lcid],
              UE_template->dl_buffer_head_sdu_creation_time[lcid],
              UE_template->dl_buffer_head_sdu_remaining_size_to_send[lcid],
              UE_template->dl_buffer_head_sdu_is_segmented[lcid]);
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#endif
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    }
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    if (UE_template->dl_buffer_total > 0)
      LOG_D(MAC,
            "[eNB %d] Frame %d Subframe %d : RLC status for UE %d : total DL buffer size %d and total number of pdu %d \n",
            Mod_id, frameP, subframeP, UE_id,
            UE_template->dl_buffer_total,
            UE_template->dl_pdus_total);
  }
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}

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int cqi2mcs(int cqi) {
  return cqi_to_mcs[cqi];
}
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// This function returns the estimated number of RBs required by each UE for downlink scheduling
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void
assign_rbs_required(module_id_t Mod_id,
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                    int slice_idx,
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                    frame_t frameP,
                    sub_frame_t subframe,
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                    uint16_t nb_rbs_required[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB],
                    int min_rb_unit[NFAPI_CC_MAX])
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{
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  uint16_t TBS = 0;
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  int UE_id, n, i, j, CC_id, pCCid, tmp;
  UE_list_t *UE_list = &RC.mac[Mod_id]->UE_list;
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  slice_info_t *sli = &RC.mac[Mod_id]->slice_info;
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  eNB_UE_STATS *eNB_UE_stats, *eNB_UE_stats_i, *eNB_UE_stats_j;
  int N_RB_DL;
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  // clear rb allocations across all CC_id
  for (UE_id = 0; UE_id < MAX_MOBILES_PER_ENB; UE_id++) {
    if (UE_list->active[UE_id] != TRUE) continue;
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    if (!ue_dl_slice_membership(Mod_id, UE_id, slice_idx)) continue;
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    pCCid = UE_PCCID(Mod_id, UE_id);
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    //update CQI information across component carriers
    for (n = 0; n < UE_list->numactiveCCs[UE_id]; n++) {
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      CC_id = UE_list->ordered_CCids[n][UE_id];
      eNB_UE_stats = &UE_list->eNB_UE_stats[CC_id][UE_id];
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//      eNB_UE_stats->dlsch_mcs1 = cmin(cqi_to_mcs[UE_list->UE_sched_ctrl[UE_id].dl_cqi[CC_id]], sli->dl[slice_idx].maxmcs);
      eNB_UE_stats->dlsch_mcs1 = cmin(cqi2mcs(UE_list->UE_sched_ctrl[UE_id].dl_cqi[CC_id]), sli->dl[slice_idx].maxmcs);
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    }
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    // provide the list of CCs sorted according to MCS
    for (i = 0; i < UE_list->numactiveCCs[UE_id]; ++i) {
      eNB_UE_stats_i = &UE_list->eNB_UE_stats[UE_list->ordered_CCids[i][UE_id]][UE_id];
      for (j = i + 1; j < UE_list->numactiveCCs[UE_id]; j++) {
        DevAssert(j < NFAPI_CC_MAX);
        eNB_UE_stats_j = &UE_list->eNB_UE_stats[UE_list->ordered_CCids[j][UE_id]][UE_id];
        if (eNB_UE_stats_j->dlsch_mcs1 > eNB_UE_stats_i->dlsch_mcs1) {
          tmp = UE_list->ordered_CCids[i][UE_id];
          UE_list->ordered_CCids[i][UE_id] = UE_list->ordered_CCids[j][UE_id];
          UE_list->ordered_CCids[j][UE_id] = tmp;
        }
      }
    }
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    if (UE_list->UE_template[pCCid][UE_id].dl_buffer_total > 0) {
      LOG_D(MAC, "[preprocessor] assign RB for UE %d\n", UE_id);
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      for (i = 0; i < UE_list->numactiveCCs[UE_id]; i++) {
        CC_id = UE_list->ordered_CCids[i][UE_id];
        eNB_UE_stats = &UE_list->eNB_UE_stats[CC_id][UE_id];
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        if (eNB_UE_stats->dlsch_mcs1 == 0) {
          nb_rbs_required[CC_id][UE_id] = 4;    // don't let the TBS get too small
        } else {
          nb_rbs_required[CC_id][UE_id] = min_rb_unit[CC_id];
        }
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        TBS = get_TBS_DL(eNB_UE_stats->dlsch_mcs1, nb_rbs_required[CC_id][UE_id]);
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        LOG_D(MAC,
              "[preprocessor] start RB assignement for UE %d CC_id %d dl buffer %d (RB unit %d, MCS %d, TBS %d) \n",
              UE_id, CC_id,
              UE_list->UE_template[pCCid][UE_id].dl_buffer_total,
              nb_rbs_required[CC_id][UE_id],
              eNB_UE_stats->dlsch_mcs1, TBS);
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        N_RB_DL = to_prb(RC.mac[Mod_id]->common_channels[CC_id].mib->message.dl_Bandwidth);
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        UE_list->UE_sched_ctrl[UE_id].max_rbs_allowed_slice[CC_id][slice_idx] =
                nb_rbs_allowed_slice(sli->dl[slice_idx].pct, N_RB_DL);
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        /* calculating required number of RBs for each UE */
        while (TBS < UE_list->UE_template[pCCid][UE_id].dl_buffer_total) {
          nb_rbs_required[CC_id][UE_id] += min_rb_unit[CC_id];

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          if (nb_rbs_required[CC_id][UE_id] > UE_list->UE_sched_ctrl[UE_id].max_rbs_allowed_slice[CC_id][slice_idx]) {
            TBS = get_TBS_DL(eNB_UE_stats->dlsch_mcs1, UE_list->UE_sched_ctrl[UE_id].max_rbs_allowed_slice[CC_id][slice_idx]);
            nb_rbs_required[CC_id][UE_id] = UE_list->UE_sched_ctrl[UE_id].max_rbs_allowed_slice[CC_id][slice_idx];
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            break;
          }
          TBS = get_TBS_DL(eNB_UE_stats->dlsch_mcs1, nb_rbs_required[CC_id][UE_id]);
        } // end of while

        LOG_D(MAC,
              "[eNB %d] Frame %d: UE %d on CC %d: RB unit %d,  nb_required RB %d (TBS %d, mcs %d)\n",
              Mod_id, frameP, UE_id, CC_id, min_rb_unit[CC_id],
              nb_rbs_required[CC_id][UE_id], TBS,
              eNB_UE_stats->dlsch_mcs1);
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        sli->pre_processor_results[slice_idx].mcs[CC_id][UE_id] = eNB_UE_stats->dlsch_mcs1;
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      }
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    }
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  }
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}
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// This function scans all CC_ids for a particular UE to find the maximum round index of its HARQ processes
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int
maxround(module_id_t Mod_id, uint16_t rnti, int frame,
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         sub_frame_t subframe, uint8_t ul_flag) {
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  uint8_t round, round_max = 0, UE_id;
  int CC_id, harq_pid;
  UE_list_t *UE_list = &RC.mac[Mod_id]->UE_list;
  COMMON_channels_t *cc;
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  for (CC_id = 0; CC_id < RC.nb_mac_CC[Mod_id]; CC_id++) {
    cc = &RC.mac[Mod_id]->common_channels[CC_id];
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    UE_id = find_UE_id(Mod_id, rnti);
    harq_pid = frame_subframe2_dl_harq_pid(cc->tdd_Config,frame ,subframe);
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    round = UE_list->UE_sched_ctrl[UE_id].round[CC_id][harq_pid];
    if (round > round_max) {
      round_max = round;
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    }
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  }
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  return round_max;
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}
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// This function scans all CC_ids for a particular UE to find the maximum DL CQI
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// it returns -1 if the UE is not found in PHY layer (get_eNB_UE_stats gives NULL)
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int maxcqi(module_id_t Mod_id, int32_t UE_id) {
  UE_list_t *UE_list = &RC.mac[Mod_id]->UE_list;
  int CC_id, n;
  int CQI = 0;
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  for (n = 0; n < UE_list->numactiveCCs[UE_id]; n++) {
    CC_id = UE_list->ordered_CCids[n][UE_id];
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    if (UE_list->UE_sched_ctrl[UE_id].dl_cqi[CC_id] > CQI) {
      CQI = UE_list->UE_sched_ctrl[UE_id].dl_cqi[CC_id];
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    }
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  }
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  return CQI;
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}
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long min_lcgidpriority(module_id_t Mod_id, int32_t UE_id) {
  UE_list_t *UE_list = &RC.mac[Mod_id]->UE_list;
  int i;
  int pCC_id = UE_PCCID(Mod_id, UE_id);
  long ret = UE_list->UE_template[pCC_id][UE_id].lcgidpriority[0];

  for (i = 1; i < 11; ++i) {
    if (UE_list->UE_template[pCC_id][UE_id].lcgidpriority[i] < ret)
      ret = UE_list->UE_template[pCC_id][UE_id].lcgidpriority[i];
  }

  return ret;
}

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struct sort_ue_dl_params {
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    int Mod_idP;
    int frameP;
    int subframeP;
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    int slice_idx;
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};
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static int ue_dl_compare(const void *_a, const void *_b, void *_params)
{
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  struct sort_ue_dl_params *params = _params;
  UE_list_t *UE_list = &RC.mac[params->Mod_idP]->UE_list;
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  int i;
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  int slice_idx = params->slice_idx;
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  int UE_id1 = *(const int *) _a;
  int UE_id2 = *(const int *) _b;
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  int rnti1 = UE_RNTI(params->Mod_idP, UE_id1);
  int pCC_id1 = UE_PCCID(params->Mod_idP, UE_id1);
  int round1 = maxround(params->Mod_idP, rnti1, params->frameP, params->subframeP, 1);
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  int rnti2 = UE_RNTI(params->Mod_idP, UE_id2);
  int pCC_id2 = UE_PCCID(params->Mod_idP, UE_id2);
  int round2 = maxround(params->Mod_idP, rnti2, params->frameP, params->subframeP, 1);
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  int cqi1 = maxcqi(params->Mod_idP, UE_id1);
  int cqi2 = maxcqi(params->Mod_idP, UE_id2);
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  long lcgid1 = min_lcgidpriority(params->Mod_idP, UE_id1);
  long lcgid2 = min_lcgidpriority(params->Mod_idP, UE_id2);

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  for (i = 0; i < CR_NUM; ++i) {
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    switch (UE_list->sorting_criteria[slice_idx][i]) {
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      case CR_ROUND :
        if (round1 > round2)
          return -1;
        if (round1 < round2)
          return 1;
        break;

      case CR_SRB12 :
        if (UE_list->UE_template[pCC_id1][UE_id1].dl_buffer_info[1] +
            UE_list->UE_template[pCC_id1][UE_id1].dl_buffer_info[2] >
            UE_list->UE_template[pCC_id2][UE_id2].dl_buffer_info[1] +
            UE_list->UE_template[pCC_id2][UE_id2].dl_buffer_info[2])
          return -1;
        if (UE_list->UE_template[pCC_id1][UE_id1].dl_buffer_info[1] +
            UE_list->UE_template[pCC_id1][UE_id1].dl_buffer_info[2] <
            UE_list->UE_template[pCC_id2][UE_id2].dl_buffer_info[1] +
            UE_list->UE_template[pCC_id2][UE_id2].dl_buffer_info[2])
          return 1;
        break;

      case CR_HOL :
        if (UE_list-> UE_template[pCC_id1][UE_id1].dl_buffer_head_sdu_creation_time_max >
            UE_list-> UE_template[pCC_id2][UE_id2].dl_buffer_head_sdu_creation_time_max)
          return -1;
        if (UE_list-> UE_template[pCC_id1][UE_id1].dl_buffer_head_sdu_creation_time_max <
            UE_list-> UE_template[pCC_id2][UE_id2].dl_buffer_head_sdu_creation_time_max)
          return 1;
        break;

      case CR_LC :
        if (UE_list->UE_template[pCC_id1][UE_id1].dl_buffer_total >
            UE_list->UE_template[pCC_id2][UE_id2].dl_buffer_total)
          return -1;
        if (UE_list->UE_template[pCC_id1][UE_id1].dl_buffer_total <
            UE_list->UE_template[pCC_id2][UE_id2].dl_buffer_total)
          return 1;
        break;

      case CR_CQI :
        if (cqi1 > cqi2)
          return -1;
        if (cqi1 < cqi2)
          return 1;
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        break;
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      case CR_LCP :
        if (lcgid1 < lcgid2)
          return -1;
        if (lcgid1 > lcgid2)
          return 1;

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      default :
        break;
    }
  }
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    return 0;
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}
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void decode_sorting_policy(module_id_t Mod_idP, int slice_idx) {
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  int i;

  UE_list_t *UE_list = &RC.mac[Mod_idP]->UE_list;
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  uint32_t policy = RC.mac[Mod_idP]->slice_info.dl[slice_idx].sorting;
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  uint32_t mask = 0x0000000F;
  uint16_t criterion;

  for (i = 0; i < CR_NUM; ++i) {
    criterion = (uint16_t) (policy >> 4 * (CR_NUM - 1 - i) & mask);
    if (criterion >= CR_NUM) {
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      LOG_W(MAC,
            "Invalid criterion in slice index %d ID %d policy, revert to default policy \n",
            slice_idx, RC.mac[Mod_idP]->slice_info.dl[slice_idx].id);
      RC.mac[Mod_idP]->slice_info.dl[slice_idx].sorting = 0x12345;
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      break;
    }
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    UE_list->sorting_criteria[slice_idx][i] = criterion;
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  }
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}

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void decode_slice_positioning(module_id_t Mod_idP,
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                              int slice_idx,
                              uint8_t slice_allocation_mask[NFAPI_CC_MAX][N_RBG_MAX])
{
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  uint8_t CC_id;
  int RBG, start_frequency, end_frequency;

  // Init slice_alloc_mask
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  for (CC_id = 0; CC_id < RC.nb_mac_CC[Mod_idP]; ++CC_id) {
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    for (RBG = 0; RBG < N_RBG_MAX; ++RBG) {
      slice_allocation_mask[CC_id][RBG] = 0;
    }
  }

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  start_frequency = RC.mac[Mod_idP]->slice_info.dl[slice_idx].pos_low;
  end_frequency = RC.mac[Mod_idP]->slice_info.dl[slice_idx].pos_high;
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  for (CC_id = 0; CC_id < RC.nb_mac_CC[Mod_idP]; ++CC_id) {
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    for (RBG = start_frequency; RBG <= end_frequency; ++RBG) {
      slice_allocation_mask[CC_id][RBG] = 1;
    }
  }
}

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// This fuction sorts the UE in order their dlsch buffer and CQI
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void sort_UEs(module_id_t Mod_idP, int slice_idx, int frameP, sub_frame_t subframeP)
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{
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  int i;
  int list[MAX_MOBILES_PER_ENB];
  int list_size = 0;
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  struct sort_ue_dl_params params = {Mod_idP, frameP, subframeP, slice_idx};
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  UE_list_t *UE_list = &RC.mac[Mod_idP]->UE_list;
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  for (i = 0; i < MAX_MOBILES_PER_ENB; i++) {
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    if (UE_list->active[i] == FALSE) continue;
    if (UE_RNTI(Mod_idP, i) == NOT_A_RNTI) continue;
    if (UE_list->UE_sched_ctrl[i].ul_out_of_sync == 1) continue;
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    if (!ue_dl_slice_membership(Mod_idP, i, slice_idx)) continue;
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    list[list_size] = i;
    list_size++;
  }
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  decode_sorting_policy(Mod_idP, slice_idx);
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  qsort_r(list, list_size, sizeof(int), ue_dl_compare, &params);
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  if (list_size) {
    for (i = 0; i < list_size - 1; ++i)
      UE_list->next[list[i]] = list[i + 1];
    UE_list->next[list[list_size - 1]] = -1;
    UE_list->head = list[0];
  } else {
    UE_list->head = -1;
  }
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}

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void dlsch_scheduler_pre_processor_partitioning(module_id_t Mod_id,
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                                                int slice_idx,
                                                const uint8_t rbs_retx[NFAPI_CC_MAX])
{
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  int UE_id, CC_id, N_RB_DL, i;
  UE_list_t *UE_list = &RC.mac[Mod_id]->UE_list;
  UE_sched_ctrl *ue_sched_ctl;
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  uint16_t available_rbs;
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  for (UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id]) {

    if (UE_RNTI(Mod_id, UE_id) == NOT_A_RNTI) continue;
    if (UE_list->UE_sched_ctrl[UE_id].ul_out_of_sync == 1) continue;
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    if (!ue_dl_slice_membership(Mod_id, UE_id, slice_idx)) continue;
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    ue_sched_ctl = &UE_list->UE_sched_ctrl[UE_id];

    for (i = 0; i < UE_num_active_CC(UE_list, UE_id); ++i) {
      CC_id = UE_list->ordered_CCids[i][UE_id];
      N_RB_DL = to_prb(RC.mac[Mod_id]->common_channels[CC_id].mib->message.dl_Bandwidth);
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      available_rbs = nb_rbs_allowed_slice(RC.mac[Mod_id]->slice_info.dl[slice_idx].pct, N_RB_DL);
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      if (rbs_retx[CC_id] < available_rbs)
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        ue_sched_ctl->max_rbs_allowed_slice[CC_id][slice_idx] = available_rbs - rbs_retx[CC_id];
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      else
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        ue_sched_ctl->max_rbs_allowed_slice[CC_id][slice_idx] = 0;
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    }
  }
}

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void dlsch_scheduler_pre_processor_accounting(module_id_t Mod_id,
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                                              int slice_idx,
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                                              frame_t frameP,
                                              sub_frame_t subframeP,
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                                              int min_rb_unit[NFAPI_CC_MAX],
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                                              uint16_t nb_rbs_required[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB],
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                                              uint16_t nb_rbs_accounted[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB])
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{
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  int UE_id, CC_id;
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  int i;
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  rnti_t rnti;
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  uint8_t harq_pid, round;
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  uint16_t available_rbs[NFAPI_CC_MAX];
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  uint8_t rbs_retx[NFAPI_CC_MAX];
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  uint16_t average_rbs_per_user[NFAPI_CC_MAX];
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  int total_ue_count[NFAPI_CC_MAX];
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  int ue_count_newtx[NFAPI_CC_MAX];
  int ue_count_retx[NFAPI_CC_MAX];
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  //uint8_t ue_retx_flag[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB];
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  UE_list_t *UE_list = &RC.mac[Mod_id]->UE_list;
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  UE_sched_ctrl *ue_sched_ctl;
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  COMMON_channels_t *cc;
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  // Reset
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  for (CC_id = 0; CC_id < RC.nb_mac_CC[Mod_id]; CC_id++) {
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    total_ue_count[CC_id] = 0;
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    ue_count_newtx[CC_id] = 0;
    ue_count_retx[CC_id] = 0;
    rbs_retx[CC_id] = 0;
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    average_rbs_per_user[CC_id] = 0;
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    available_rbs[CC_id] = 0;
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    //for (UE_id = 0; UE_id < NFAPI_CC_MAX; ++UE_id) {
    //  ue_retx_flag[CC_id][UE_id] = 0;
    //}
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  }
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  // Find total UE count, and account the RBs required for retransmissions
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  for (UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id]) {
    rnti = UE_RNTI(Mod_id, UE_id);
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    if (rnti == NOT_A_RNTI) continue;
    if (UE_list->UE_sched_ctrl[UE_id].ul_out_of_sync == 1) continue;
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    if (!ue_dl_slice_membership(Mod_id, UE_id, slice_idx)) continue;
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    for (i = 0; i < UE_num_active_CC(UE_list, UE_id); ++i) {
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      CC_id = UE_list->ordered_CCids[i][UE_id];
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      ue_sched_ctl = &UE_list->UE_sched_ctrl[UE_id];
      cc = &RC.mac[Mod_id]->common_channels[CC_id];
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      harq_pid = frame_subframe2_dl_harq_pid(cc->tdd_Config,frameP ,subframeP);
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      round = ue_sched_ctl->round[CC_id][harq_pid];

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      if (nb_rbs_required[CC_id][UE_id] > 0) {
        total_ue_count[CC_id]++;
      }
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      if (round != 8) {
        nb_rbs_required[CC_id][UE_id] = UE_list->UE_template[CC_id][UE_id].nb_rb[harq_pid];
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        rbs_retx[CC_id] += nb_rbs_required[CC_id][UE_id];
        ue_count_retx[CC_id]++;
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        //ue_retx_flag[CC_id][UE_id] = 1;
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      } else {
        ue_count_newtx[CC_id]++;
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      }
    }
  }
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  // PARTITIONING
  // Reduces the available RBs according to slicing configuration
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  dlsch_scheduler_pre_processor_partitioning(Mod_id, slice_idx, rbs_retx);
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  for (CC_id = 0; CC_id < RC.nb_mac_CC[Mod_id]; ++CC_id) {
    if (UE_list->head < 0) continue; // no UEs in list
      // max_rbs_allowed_slice is saved in every UE, so take it from the first one
    ue_sched_ctl = &UE_list->UE_sched_ctrl[UE_list->head];
    available_rbs[CC_id] = ue_sched_ctl->max_rbs_allowed_slice[CC_id][slice_idx];
  }

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  switch (RC.mac[Mod_id]->slice_info.dl[slice_idx].accounting) {
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    // If greedy scheduling, try to account all the required RBs
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    case POL_GREEDY:
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      for (UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id]) {
        rnti = UE_RNTI(Mod_id, UE_id);
        if (rnti == NOT_A_RNTI) continue;
        if (UE_list->UE_sched_ctrl[UE_id].ul_out_of_sync == 1) continue;
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        if (!ue_dl_slice_membership(Mod_id, UE_id, slice_idx)) continue;
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        for (i = 0; i < UE_num_active_CC(UE_list, UE_id); i++) {
          CC_id = UE_list->ordered_CCids[i][UE_id];
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          if (available_rbs[CC_id] == 0) continue;
          nb_rbs_accounted[CC_id][UE_id] = cmin(nb_rbs_required[CC_id][UE_id], available_rbs[CC_id]);
          available_rbs[CC_id] -= nb_rbs_accounted[CC_id][UE_id];
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        }
      }
      break;

    // Use the old, fair algorithm
    // Loop over all active UEs and account the avg number of RBs to each UE, based on all non-retx UEs.
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    // case POL_FAIR:
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    default:
      // FIXME: This is not ideal, why loop on UEs to find average_rbs_per_user[], that is per-CC?
      // TODO: Look how to loop on active CCs only without using the UE_num_active_CC() function.
      for (UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id]) {
        rnti = UE_RNTI(Mod_id, UE_id);

        if (rnti == NOT_A_RNTI) continue;
        if (UE_list->UE_sched_ctrl[UE_id].ul_out_of_sync == 1) continue;
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        if (!ue_dl_slice_membership(Mod_id, UE_id, slice_idx)) continue;
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        for (i = 0; i < UE_num_active_CC(UE_list, UE_id); ++i) {
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          CC_id = UE_list->ordered_CCids[i][UE_id];
          ue_sched_ctl = &UE_list->UE_sched_ctrl[UE_id];
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          available_rbs[CC_id] = ue_sched_ctl->max_rbs_allowed_slice[CC_id][slice_idx];
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          if (ue_count_newtx[CC_id] == 0) {
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            average_rbs_per_user[CC_id] = 0;
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          } else if (min_rb_unit[CC_id]*ue_count_newtx[CC_id] <= available_rbs[CC_id]) {
            average_rbs_per_user[CC_id] = (uint16_t)floor(available_rbs[CC_id]/ue_count_newtx[CC_id]);
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          } else {
            // consider the total number of use that can be scheduled UE
            average_rbs_per_user[CC_id] = (uint16_t)min_rb_unit[CC_id];
          }
        }
      }
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      // note: nb_rbs_required is assigned according to total_buffer_dl
      // extend nb_rbs_required to capture per LCID RB required
      for (UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id]) {
        rnti = UE_RNTI(Mod_id, UE_id);
        if (rnti == NOT_A_RNTI) continue;
        if (UE_list->UE_sched_ctrl[UE_id].ul_out_of_sync == 1) continue;
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        if (!ue_dl_slice_membership(Mod_id, UE_id, slice_idx)) continue;
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        for (i = 0; i < UE_num_active_CC(UE_list, UE_id); i++) {
          CC_id = UE_list->ordered_CCids[i][UE_id];
          nb_rbs_accounted[CC_id][UE_id] = cmin(average_rbs_per_user[CC_id], nb_rbs_required[CC_id][UE_id]);
        }
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      }
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      break;
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  }
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  // Check retransmissions
  // TODO: Do this once at the beginning
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  for (UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id]) {
    rnti = UE_RNTI(Mod_id, UE_id);
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    if (rnti == NOT_A_RNTI) continue;
    if (UE_list->UE_sched_ctrl[UE_id].ul_out_of_sync == 1) continue;
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    if (!ue_dl_slice_membership(Mod_id, UE_id, slice_idx)) continue;
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    for (i = 0; i < UE_num_active_CC(UE_list, UE_id); i++) {
      CC_id = UE_list->ordered_CCids[i][UE_id];
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      ue_sched_ctl = &UE_list->UE_sched_ctrl[UE_id];
      cc = &RC.mac[Mod_id]->common_channels[CC_id];
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      harq_pid = frame_subframe2_dl_harq_pid(cc->tdd_Config,frameP ,subframeP);
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      round = ue_sched_ctl->round[CC_id][harq_pid];

      // control channel or retransmission
      /* TODO: do we have to check for retransmission? */
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      if (mac_eNB_get_rrc_status(Mod_id, rnti) < RRC_RECONFIGURED || round != 8) {
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        nb_rbs_accounted[CC_id][UE_id] = nb_rbs_required[CC_id][UE_id];
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      }
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    }
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  }
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}

void dlsch_scheduler_pre_processor_positioning(module_id_t Mod_id,
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                                               int slice_idx,
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                                               int min_rb_unit[NFAPI_CC_MAX],
                                               uint16_t nb_rbs_required[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB],
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                                               uint16_t nb_rbs_accounted[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB],
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                                               uint16_t nb_rbs_remaining[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB],
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                                               uint8_t rballoc_sub[NFAPI_CC_MAX][N_RBG_MAX],
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                                               uint8_t MIMO_mode_indicator[NFAPI_CC_MAX][N_RBG_MAX])
{
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  int UE_id, CC_id;
  int i;
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#ifdef TM5
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  uint8_t transmission_mode;
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#endif
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  uint8_t slice_allocation_mask[NFAPI_CC_MAX][N_RBG_MAX];
  int N_RBG[NFAPI_CC_MAX];
  UE_list_t *UE_list = &RC.mac[Mod_id]->UE_list;

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  decode_slice_positioning(Mod_id, slice_idx, slice_allocation_mask);
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  for (CC_id = 0; CC_id < RC.nb_mac_CC[Mod_id]; CC_id++) {
    COMMON_channels_t *cc = &RC.mac[Mod_id]->common_channels[CC_id];
    N_RBG[CC_id] = to_rbg(cc->mib->message.dl_Bandwidth);
  }
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  // Try to allocate accounted RBs
  for (UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id]) {
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    if (UE_RNTI(Mod_id, UE_id) == NOT_A_RNTI) continue;
    if (UE_list->UE_sched_ctrl[UE_id].ul_out_of_sync == 1) continue;
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    if (!ue_dl_slice_membership(Mod_id, UE_id, slice_idx)) continue;
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    for (i = 0; i < UE_num_active_CC(UE_list, UE_id); i++) {
      CC_id = UE_list->ordered_CCids[i][UE_id];
      nb_rbs_remaining[CC_id][UE_id] = nb_rbs_accounted[CC_id][UE_id];
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#ifdef TM5
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      transmission_mode = get_tmode(Mod_id, CC_id, UE_id);
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#endif
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      if (nb_rbs_required[CC_id][UE_id] > 0)
        LOG_D(MAC,
              "Step 1: nb_rbs_remaining[%d][%d]= %d (accounted %d, required %d,  pre_nb_available_rbs %d, N_RBG %d, rb_unit %d)\n",
              CC_id,
              UE_id,
              nb_rbs_remaining[CC_id][UE_id],
              nb_rbs_accounted[CC_id][UE_id],
              nb_rbs_required[CC_id][UE_id],
              UE_list->UE_sched_ctrl[UE_id].pre_nb_available_rbs[CC_id],
              N_RBG[CC_id],
              min_rb_unit[CC_id]);

      LOG_T(MAC, "calling dlsch_scheduler_pre_processor_allocate .. \n ");
      dlsch_scheduler_pre_processor_allocate(Mod_id,
                                             UE_id,
                                             CC_id,
                                             N_RBG[CC_id],
                                             min_rb_unit[CC_id],
                                             nb_rbs_required,
                                             nb_rbs_remaining,
                                             rballoc_sub,
                                             slice_allocation_mask,
                                             MIMO_mode_indicator);
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#ifdef TM5
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      // data chanel TM5: to be revisited
        if ((round == 0) &&
        (transmission_mode == 5) &&
        (ue_sched_ctl->dl_pow_off[CC_id] != 1)) {

        for (j = 0; j < N_RBG[CC_id]; j += 2) {

            if ((((j == (N_RBG[CC_id] - 1))
              && (rballoc_sub[CC_id][j] == 0)
              && (ue_sched_ctl->
                  rballoc_sub_UE[CC_id][j] == 0))
             || ((j < (N_RBG[CC_id] - 1))
                 && (rballoc_sub[CC_id][j + 1] == 0)
                 &&
                 (ue_sched_ctl->rballoc_sub_UE
                  [CC_id][j + 1] == 0)))
            && (nb_rbs_remaining[CC_id][UE_id]
                > 0)) {

            for (i = UE_list->next[UE_id + 1]; i >= 0;
                 i = UE_list->next[i]) {

                UE_id2 = i;
                rnti2 = UE_RNTI(Mod_id, UE_id2);
                ue_sched_ctl2 =
                &UE_list->UE_sched_ctrl[UE_id2];
                round2 = ue_sched_ctl2->round[CC_id];
                if (rnti2 == NOT_A_RNTI)
                continue;
                if (UE_list->
                UE_sched_ctrl
                [UE_id2].ul_out_of_sync == 1)
                continue;

                eNB_UE_stats2 =
                UE_list->
                eNB_UE_stats[CC_id][UE_id2];
                //mac_xface->get_ue_active_harq_pid(Mod_id,CC_id,rnti2,frameP,subframeP,&harq_pid2,&round2,0);

                if ((mac_eNB_get_rrc_status
                 (Mod_id,
                  rnti2) >= RRC_RECONFIGURED)
                && (round2 == 0)
                &&
                (get_tmode(Mod_id, CC_id, UE_id2)
                 == 5)
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                && (ue_sched_ctl->
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                    dl_pow_off[CC_id] != 1)) {

                if ((((j == (N_RBG[CC_id] - 1))
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                      &&
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                      (ue_sched_ctl->rballoc_sub_UE
                       [CC_id][j] == 0))
                     || ((j < (N_RBG[CC_id] - 1))
                     &&
                     (ue_sched_ctl->
                      rballoc_sub_UE[CC_id][j +
                                1]
                      == 0)))
                    &&
                    (nb_rbs_remaining
                     [CC_id]
                     [UE_id2] > 0)) {

                    if ((((eNB_UE_stats2->
                       DL_pmi_single ^
                       eNB_UE_stats1->
                       DL_pmi_single)
                      << (14 - j)) & 0xc000) == 0x4000) {	//MU-MIMO only for 25 RBs configuration

                    rballoc_sub[CC_id][j] = 1;
                    ue_sched_ctl->
                        rballoc_sub_UE[CC_id]
                        [j] = 1;
                    ue_sched_ctl2->
                        rballoc_sub_UE[CC_id]
                        [j] = 1;
                    MIMO_mode_indicator[CC_id]
                        [j] = 0;

                    if (j < N_RBG[CC_id] - 1) {
                        rballoc_sub[CC_id][j +
                                   1] =
                        1;
                        ue_sched_ctl->
                        rballoc_sub_UE
                        [CC_id][j + 1] = 1;
                        ue_sched_ctl2->rballoc_sub_UE
                        [CC_id][j + 1] = 1;
                        MIMO_mode_indicator
                        [CC_id][j + 1]
                        = 0;
                    }

                    ue_sched_ctl->
                        dl_pow_off[CC_id]
                        = 0;
                    ue_sched_ctl2->
                        dl_pow_off[CC_id]
                        = 0;


                    if ((j == N_RBG[CC_id] - 1)
                        && ((N_RB_DL == 25)
                        || (N_RB_DL ==
                            50))) {

                        nb_rbs_remaining
                        [CC_id][UE_id] =
                        nb_rbs_remaining
                        [CC_id][UE_id] -
                        min_rb_unit[CC_id]
                        + 1;
                        ue_sched_ctl->pre_nb_available_rbs
                        [CC_id] =
                        ue_sched_ctl->pre_nb_available_rbs
                        [CC_id] +
                        min_rb_unit[CC_id]
                        - 1;
                        nb_rbs_remaining
                        [CC_id][UE_id2] =
                        nb_rbs_remaining
                        [CC_id][UE_id2] -
                        min_rb_unit[CC_id]
                        + 1;
                        ue_sched_ctl2->pre_nb_available_rbs
                        [CC_id] =
                        ue_sched_ctl2->pre_nb_available_rbs
                        [CC_id] +
                        min_rb_unit[CC_id]
                        - 1;
                    } else {

                        nb_rbs_remaining
                        [CC_id][UE_id] =
                        nb_rbs_remaining
                        [CC_id][UE_id] - 4;
                        ue_sched_ctl->pre_nb_available_rbs
                        [CC_id] =
                        ue_sched_ctl->pre_nb_available_rbs
                        [CC_id] + 4;
                        nb_rbs_remaining
                        [CC_id][UE_id2] =
                        nb_rbs_remaining
                        [CC_id][UE_id2] -
                        4;
                        ue_sched_ctl2->pre_nb_available_rbs
                        [CC_id] =
                        ue_sched_ctl2->pre_nb_available_rbs
                        [CC_id] + 4;
                    }

                    break;
                    }
                }
                }
            }
            }
        }
        }
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#endif
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    }
  }
}

void dlsch_scheduler_pre_processor_intraslice_sharing(module_id_t Mod_id,
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                                                      int slice_idx,
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                                                      int min_rb_unit[NFAPI_CC_MAX],
                                                      uint16_t nb_rbs_required[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB],
                                                      uint16_t nb_rbs_accounted[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB],
                                                      uint16_t nb_rbs_remaining[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB],
                                                      uint8_t rballoc_sub[NFAPI_CC_MAX][N_RBG_MAX],
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                                                      uint8_t MIMO_mode_indicator[NFAPI_CC_MAX][N_RBG_MAX])
{
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  int UE_id, CC_id;
  int i;
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#ifdef TM5
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  uint8_t transmission_mode;
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#endif
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  UE_list_t *UE_list = &RC.mac[Mod_id]->UE_list;
  int N_RBG[NFAPI_CC_MAX];
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  slice_info_t *sli = &RC.mac[Mod_id]->slice_info;
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  uint8_t (*slice_allocation_mask)[N_RBG_MAX] = sli->pre_processor_results[slice_idx].slice_allocation_mask;
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  decode_slice_positioning(Mod_id, slice_idx, slice_allocation_mask);
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  for (CC_id = 0; CC_id < RC.nb_mac_CC[Mod_id]; CC_id++) {
    COMMON_channels_t *cc = &RC.mac[Mod_id]->common_channels[CC_id];
    N_RBG[CC_id] = to_rbg(cc->mib->message.dl_Bandwidth);
  }

  // Remaining RBs are allocated to high priority UEs
  for (UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id]) {

    if (UE_RNTI(Mod_id, UE_id) == NOT_A_RNTI) continue;
    if (UE_list->UE_sched_ctrl[UE_id].ul_out_of_sync == 1) continue;
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    if (!ue_dl_slice_membership(Mod_id, UE_id, slice_idx)) continue;
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    for (i = 0; i < UE_num_active_CC(UE_list, UE_id); i++) {
      CC_id = UE_list->ordered_CCids[i][UE_id];
      nb_rbs_remaining[CC_id][UE_id] =
              nb_rbs_required[CC_id][UE_id] - nb_rbs_accounted[CC_id][UE_id] + nb_rbs_remaining[CC_id][UE_id];
      if (nb_rbs_remaining[CC_id][UE_id] < 0)
        abort();
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#ifdef TM5
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      transmission_mode = get_tmode(Mod_id, CC_id, UE_id);
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#endif
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      if (nb_rbs_required[CC_id][UE_id] > 0)
        LOG_D(MAC,
              "Step 2: nb_rbs_remaining[%d][%d]= %d (accounted %d, required %d,  pre_nb_available_rbs %d, N_RBG %d, rb_unit %d)\n",
              CC_id,
              UE_id,
              nb_rbs_remaining[CC_id][UE_id],
              nb_rbs_accounted[CC_id][UE_id],
              nb_rbs_required[CC_id][UE_id],
              UE_list->UE_sched_ctrl[UE_id].pre_nb_available_rbs[CC_id],
              N_RBG[CC_id],
              min_rb_unit[CC_id]);

      LOG_T(MAC, "calling dlsch_scheduler_pre_processor_allocate .. \n ");
      dlsch_scheduler_pre_processor_allocate(Mod_id,
                                             UE_id,
                                             CC_id,
                                             N_RBG[CC_id],
                                             min_rb_unit[CC_id],
                                             nb_rbs_required,
                                             nb_rbs_remaining,
                                             rballoc_sub,
                                             slice_allocation_mask,
                                             MIMO_mode_indicator);

#ifdef TM5
      // data chanel TM5: to be revisited
    if ((round == 0) &&
    (transmission_mode == 5) &&
    (ue_sched_ctl->dl_pow_off[CC_id] != 1)) {

    for (j = 0; j < N_RBG[CC_id]; j += 2) {

        if ((((j == (N_RBG[CC_id] - 1))
          && (rballoc_sub[CC_id][j] == 0)
          && (ue_sched_ctl->
              rballoc_sub_UE[CC_id][j] == 0))
         || ((j < (N_RBG[CC_id] - 1))
             && (rballoc_sub[CC_id][j + 1] == 0)
             &&
             (ue_sched_ctl->rballoc_sub_UE
              [CC_id][j + 1] == 0)))
        && (nb_rbs_remaining[CC_id][UE_id]
            > 0)) {

        for (i = UE_list->next[UE_id + 1]; i >= 0;
             i = UE_list->next[i]) {

            UE_id2 = i;
            rnti2 = UE_RNTI(Mod_id, UE_id2);
            ue_sched_ctl2 =
            &UE_list->UE_sched_ctrl[UE_id2];
            round2 = ue_sched_ctl2->round[CC_id];
            if (rnti2 == NOT_A_RNTI)
            continue;
            if (UE_list->
            UE_sched_ctrl
            [UE_id2].ul_out_of_sync == 1)
            continue;

            eNB_UE_stats2 =
            UE_list->
            eNB_UE_stats[CC_id][UE_id2];
            //mac_xface->get_ue_active_harq_pid(Mod_id,CC_id,rnti2,frameP,subframeP,&harq_pid2,&round2,0);

            if ((mac_eNB_get_rrc_status
             (Mod_id,
              rnti2) >= RRC_RECONFIGURED)
            && (round2 == 0)
            &&
            (get_tmode(Mod_id, CC_id, UE_id2)
             == 5)
            && (ue_sched_ctl->
                dl_pow_off[CC_id] != 1)) {

            if ((((j == (N_RBG[CC_id] - 1))
                  &&
                  (ue_sched_ctl->rballoc_sub_UE
                   [CC_id][j] == 0))
                 || ((j < (N_RBG[CC_id] - 1))
                 &&
                 (ue_sched_ctl->
                  rballoc_sub_UE[CC_id][j +
                            1]
                  == 0)))
                &&
                (nb_rbs_remaining
                 [CC_id]
                 [UE_id2] > 0)) {

                if ((((eNB_UE_stats2->
                   DL_pmi_single ^
                   eNB_UE_stats1->
                   DL_pmi_single)
                  << (14 - j)) & 0xc000) == 0x4000) {	//MU-MIMO only for 25 RBs configuration

                rballoc_sub[CC_id][j] = 1;
                ue_sched_ctl->
                    rballoc_sub_UE[CC_id]
                    [j] = 1;
                ue_sched_ctl2->
                    rballoc_sub_UE[CC_id]
                    [j] = 1;
                MIMO_mode_indicator[CC_id]
                    [j] = 0;

                if (j < N_RBG[CC_id] - 1) {
                    rballoc_sub[CC_id][j +
                               1] =
                    1;
                    ue_sched_ctl->
                    rballoc_sub_UE
                    [CC_id][j + 1] = 1;
                    ue_sched_ctl2->rballoc_sub_UE
                    [CC_id][j + 1] = 1;
                    MIMO_mode_indicator
                    [CC_id][j + 1]
                    = 0;
                }

                ue_sched_ctl->
                    dl_pow_off[CC_id]
                    = 0;
                ue_sched_ctl2->
                    dl_pow_off[CC_id]
                    = 0;


                if ((j == N_RBG[CC_id] - 1)
                    && ((N_RB_DL == 25)
                    || (N_RB_DL ==
                        50))) {

                    nb_rbs_remaining
                    [CC_id][UE_id] =
                    nb_rbs_remaining
                    [CC_id][UE_id] -
                    min_rb_unit[CC_id]
                    + 1;
                    ue_sched_ctl->pre_nb_available_rbs
                    [CC_id] =
                    ue_sched_ctl->pre_nb_available_rbs
                    [CC_id] +
                    min_rb_unit[CC_id]
                    - 1;
                    nb_rbs_remaining
                    [CC_id][UE_id2] =
                    nb_rbs_remaining
                    [CC_id][UE_id2] -
                    min_rb_unit[CC_id]
                    + 1;
                    ue_sched_ctl2->pre_nb_available_rbs
                    [CC_id] =
                    ue_sched_ctl2->pre_nb_available_rbs
                    [CC_id] +
                    min_rb_unit[CC_id]
                    - 1;
                } else {

                    nb_rbs_remaining
                    [CC_id][UE_id] =
                    nb_rbs_remaining
                    [CC_id][UE_id] - 4;
                    ue_sched_ctl->pre_nb_available_rbs
                    [CC_id] =
                    ue_sched_ctl->pre_nb_available_rbs
                    [CC_id] + 4;
                    nb_rbs_remaining
                    [CC_id][UE_id2] =
                    nb_rbs_remaining
                    [CC_id][UE_id2] -
                    4;
                    ue_sched_ctl2->pre_nb_available_rbs
                    [CC_id] =
                    ue_sched_ctl2->pre_nb_available_rbs
                    [CC_id] + 4;
                }

                break;
                }
            }
            }
        }
        }
    }
    }
#endif
    }
  }
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}
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// This function assigns pre-available RBS to each UE in specified sub-bands before scheduling is done
void
dlsch_scheduler_pre_processor(module_id_t Mod_id,
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                              int slice_idx,
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                              frame_t frameP,
                              sub_frame_t subframeP,
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                              int *mbsfn_flag,
                              uint8_t rballoc_sub[NFAPI_CC_MAX][N_RBG_MAX])
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{
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  int UE_id;
  uint8_t CC_id;
  uint16_t i, j;
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  int min_rb_unit[NFAPI_CC_MAX];
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  slice_info_t *sli = &RC.mac[Mod_id]->slice_info;
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  uint16_t (*nb_rbs_required)[MAX_MOBILES_PER_ENB]  = sli->pre_processor_results[slice_idx].nb_rbs_required;
  uint16_t (*nb_rbs_accounted)[MAX_MOBILES_PER_ENB] = sli->pre_processor_results[slice_idx].nb_rbs_accounted;
  uint16_t (*nb_rbs_remaining)[MAX_MOBILES_PER_ENB] = sli->pre_processor_results[slice_idx].nb_rbs_remaining;
  uint8_t  (*MIMO_mode_indicator)[N_RBG_MAX]     = sli->pre_processor_results[slice_idx].MIMO_mode_indicator;
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  UE_list_t *UE_list = &RC.mac[Mod_id]->UE_list;
  UE_sched_ctrl *ue_sched_ctl;
//  int rrc_status = RRC_IDLE;
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#ifdef TM5
  int harq_pid1 = 0;
  int round1 = 0, round2 = 0;
  int UE_id2;
  uint16_t i1, i2, i3;
  rnti_t rnti1, rnti2;
  LTE_eNB_UE_stats *eNB_UE_stats1 = NULL;
  LTE_eNB_UE_stats *eNB_UE_stats2 = NULL;
  UE_sched_ctrl *ue_sched_ctl1, *ue_sched_ctl2;
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#endif
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  // Initialize scheduling information for all active UEs
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  memset(&sli->pre_processor_results[slice_idx], 0, sizeof(sli->pre_processor_results[slice_idx]));
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  // FIXME: After the memset above, some of the resets in reset() are redundant
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  dlsch_scheduler_pre_processor_reset(Mod_id, slice_idx, frameP, subframeP,
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                                      min_rb_unit,
                                      nb_rbs_required,
                                      rballoc_sub,
                                      MIMO_mode_indicator,
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                                      mbsfn_flag); // FIXME: Not sure if useful
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  // STATUS
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  // Store the DLSCH buffer for each logical channel
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  store_dlsch_buffer(Mod_id, slice_idx, frameP, subframeP);
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  // Calculate the number of RBs required by each UE on the basis of logical channel's buffer
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  assign_rbs_required(Mod_id, slice_idx, frameP, subframeP, nb_rbs_required, min_rb_unit);
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  // Sorts the user on the basis of dlsch logical channel buffer and CQI
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  sort_UEs(Mod_id, slice_idx, frameP, subframeP);
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  // ACCOUNTING
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  // This procedure decides the number of RBs to allocate
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  dlsch_scheduler_pre_processor_accounting(Mod_id, slice_idx, frameP, subframeP,
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                                           min_rb_unit,
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                                           nb_rbs_required,
                                           nb_rbs_accounted);
  // POSITIONING
  // This procedure does the main allocation of the RBs
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  dlsch_scheduler_pre_processor_positioning(Mod_id, slice_idx,
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                                            min_rb_unit,
                                            nb_rbs_required,
                                            nb_rbs_accounted,
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                                            nb_rbs_remaining,
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                                            rballoc_sub,
                                            MIMO_mode_indicator);
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  // SHARING
  // If there are available RBs left in the slice, allocate them to the highest priority UEs
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  if (RC.mac[Mod_id]->slice_info.intraslice_share_active) {
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    dlsch_scheduler_pre_processor_intraslice_sharing(Mod_id, slice_idx,
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                                                     min_rb_unit,
                                                     nb_rbs_required,
                                                     nb_rbs_accounted,
                                                     nb_rbs_remaining,
                                                     rballoc_sub,
                                                     MIMO_mode_indicator);
  }
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#ifdef TM5
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  // This has to be revisited!!!!
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  for (CC_id = 0; CC_id < RC.nb_mac_CC[Mod_id]; CC_id++) {
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    COMMON_channels_t *cc = &RC.mac[Mod_id]->common_channels[CC_id];
    int N_RBG = to_rbg(cc->mib->message.dl_Bandwidth);
    i1 = 0;
    i2 = 0;
    i3 = 0;
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    for (j = 0; j < N_RBG; j++) {
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      if (MIMO_mode_indicator[CC_id][j] == 2) {
      i1 = i1 + 1;
      } else if (MIMO_mode_indicator[CC_id][j] == 1) {
      i2 = i2 + 1;
      } else if (MIMO_mode_indicator[CC_id][j] == 0) {
      i3 = i3 + 1;
      }
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    }
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    if ((i1 < N_RBG) && (i2 > 0) && (i3 == 0)) {
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      PHY_vars_eNB_g[Mod_id][CC_id]->check_for_SUMIMO_transmissions =
      PHY_vars_eNB_g[Mod_id][CC_id]->
      check_for_SUMIMO_transmissions + 1;
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    }
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    if (i3 == N_RBG && i1 == 0 && i2 == 0) {
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      PHY_vars_eNB_g[Mod_id][CC_id]->FULL_MUMIMO_transmissions =
      PHY_vars_eNB_g[Mod_id][CC_id]->FULL_MUMIMO_transmissions +
      1;
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    }
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    if ((i1 < N_RBG) && (i3 > 0)) {
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      PHY_vars_eNB_g[Mod_id][CC_id]->check_for_MUMIMO_transmissions =
      PHY_vars_eNB_g[Mod_id][CC_id]->
      check_for_MUMIMO_transmissions + 1;
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    }
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    PHY_vars_eNB_g[Mod_id][CC_id]->check_for_total_transmissions =
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      PHY_vars_eNB_g[Mod_id][CC_id]->check_for_total_transmissions +
      1;
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  }
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#endif

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  for (UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id]) {
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    ue_sched_ctl = &UE_list->UE_sched_ctrl[UE_id];
    for (i = 0; i < UE_num_active_CC(UE_list, UE_id); i++) {
      CC_id = UE_list->ordered_CCids[i][UE_id];
      //PHY_vars_eNB_g[Mod_id]->mu_mimo_mode[UE_id].dl_pow_off = dl_pow_off[UE_id];
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      COMMON_channels_t *cc = &RC.mac[Mod_id]->common_channels[CC_id];
      int N_RBG = to_rbg(cc->mib->message.dl_Bandwidth);
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      if (ue_sched_ctl->pre_nb_available_rbs[CC_id] > 0) {
        LOG_D(MAC, "******************DL Scheduling Information for UE%d ************************\n", UE_id);
        LOG_D(MAC, "dl power offset UE%d = %d \n", UE_id, ue_sched_ctl->dl_pow_off[CC_id]);
        LOG_D(MAC, "***********RB Alloc for every subband for UE%d ***********\n", UE_id);
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        for (j = 0; j < N_RBG; j++) {
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          //PHY_vars_eNB_g[Mod_id]->mu_mimo_mode[UE_id].rballoc_sub[UE_id] = rballoc_sub_UE[CC_id][UE_id][UE_id];
          LOG_D(MAC, "RB Alloc for UE%d and Subband%d = %d\n", UE_id, j, ue_sched_ctl->rballoc_sub_UE[CC_id][j]);
        }

        //PHY_vars_eNB_g[Mod_id]->mu_mimo_mode[UE_id].pre_nb_available_rbs = pre_nb_available_rbs[CC_id][UE_id];
        LOG_D(MAC, "[eNB %d][SLICE %d]Total RBs allocated for UE%d = %d\n",
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              Mod_id, RC.mac[Mod_id]->slice_info.dl[slice_idx].id, UE_id,
              ue_sched_ctl->pre_nb_available_rbs[CC_id]);
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      }
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Raymond Knopp committed
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    }
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  }
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}

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Cedric Roux committed
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#define SF0_LIMIT 1
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void
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dlsch_scheduler_pre_processor_reset(module_id_t module_idP,
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                                    int slice_idx,
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                                    frame_t frameP,
                                    sub_frame_t subframeP,
                                    int min_rb_unit[NFAPI_CC_MAX],
                                    uint16_t nb_rbs_required[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB],
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                                    uint8_t rballoc_sub[NFAPI_CC_MAX][N_RBG_MAX],
                                    uint8_t MIMO_mode_indicator[NFAPI_CC_MAX][N_RBG_MAX],
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                                    int *mbsfn_flag)
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{
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  int UE_id;
  uint8_t CC_id;
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  int i, j;
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  UE_list_t *UE_list;
  UE_sched_ctrl *ue_sched_ctl;
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  int N_RB_DL, RBGsize, RBGsize_last;
  int N_RBG[NFAPI_CC_MAX];
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#ifdef SF0_LIMIT
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  int sf0_lower, sf0_upper;
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#endif
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  rnti_t rnti;
  uint8_t *vrb_map;
  COMMON_channels_t *cc;
//
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  for (CC_id = 0; CC_id < RC.nb_mac_CC[module_idP]; CC_id++) {
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    LOG_D(MAC, "Running preprocessor for UE %d (%x)\n", UE_id,(int)(UE_RNTI(module_idP, UE_id)));
    // initialize harq_pid and round
    cc = &RC.mac[module_idP]->common_channels[CC_id];
    N_RBG[CC_id] = to_rbg(cc->mib->message.dl_Bandwidth);
    min_rb_unit[CC_id] = get_min_rb_unit(module_idP, CC_id);

    if (mbsfn_flag[CC_id] > 0)    // If this CC is allocated for MBSFN skip it here
      continue;

    for (UE_id = 0; UE_id < MAX_MOBILES_PER_ENB; ++UE_id) {


      UE_list = &RC.mac[module_idP]->UE_list;
      ue_sched_ctl = &UE_list->UE_sched_ctrl[UE_id];
      rnti = UE_RNTI(module_idP, UE_id);
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      if (rnti == NOT_A_RNTI)
        continue;

      if (UE_list->active[UE_id] != TRUE)
        continue;

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      if (!ue_dl_slice_membership(module_idP, UE_id, slice_idx))
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        continue;

      LOG_D(MAC, "Running preprocessor for UE %d (%x)\n", UE_id, rnti);
      // initialize harq_pid and round
      if (ue_sched_ctl->ta_timer)
        ue_sched_ctl->ta_timer--;


      /*
         eNB_UE_stats *eNB_UE_stats;

         if (eNB_UE_stats == NULL)
         return;


         mac_xface->get_ue_active_harq_pid(module_idP,CC_id,rnti,
         frameP,subframeP,
         &ue_sched_ctl->harq_pid[CC_id],
         &ue_sched_ctl->round[CC_id],
         openair_harq_DL);


         if (ue_sched_ctl->ta_timer == 0) {

         // WE SHOULD PROTECT the eNB_UE_stats with a mutex here ...

         ue_sched_ctl->ta_timer = 20;  // wait 20 subframes before taking TA measurement from PHY
         switch (N_RB_DL) {
         case 6:
         ue_sched_ctl->ta_update = eNB_UE_stats->timing_advance_update;
         break;

         case 15:
         ue_sched_ctl->ta_update = eNB_UE_stats->timing_advance_update/2;
         break;

         case 25:
         ue_sched_ctl->ta_update = eNB_UE_stats->timing_advance_update/4;
         break;

         case 50:
         ue_sched_ctl->ta_update = eNB_UE_stats->timing_advance_update/8;
         break;

         case 75:
         ue_sched_ctl->ta_update = eNB_UE_stats->timing_advance_update/12;
         break;

         case 100:
         ue_sched_ctl->ta_update = eNB_UE_stats->timing_advance_update/16;
         break;
         }
         // clear the update in case PHY does not have a new measurement after timer expiry
         eNB_UE_stats->timing_advance_update =  0;
         }
         else {
         ue_sched_ctl->ta_timer--;
         ue_sched_ctl->ta_update =0; // don't trigger a timing advance command
         }


         if (UE_id==0) {
         VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_UE0_TIMING_ADVANCE,ue_sched_ctl->ta_update);
         }
       */

      nb_rbs_required[CC_id][UE_id] = 0;
      ue_sched_ctl->pre_nb_available_rbs[CC_id] = 0;
      ue_sched_ctl->dl_pow_off[CC_id] = 2;

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      for (i = 0; i < N_RBG[CC_id]; i++) {
        ue_sched_ctl->rballoc_sub_UE[CC_id][i] = 0;
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      }
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    }

    N_RB_DL = to_prb(RC.mac[module_idP]->common_channels[CC_id].mib->message.dl_Bandwidth);
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#ifdef SF0_LIMIT
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    switch (N_RBG[CC_id]) {
      case 6:
        sf0_lower = 0;
        sf0_upper = 5;
        break;
      case 8:
        sf0_lower = 2;
        sf0_upper = 5;
        break;
      case 13:
        sf0_lower = 4;
        sf0_upper = 7;
        break;
      case 17:
        sf0_lower = 7;
        sf0_upper = 9;
        break;
      case 25:
        sf0_lower = 11;
        sf0_upper = 13;
        break;
      default:
        AssertFatal(1 == 0, "unsupported RBs (%d)\n", N_RB_DL);
    }
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#endif
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    switch (N_RB_DL) {
      case 6:
        RBGsize = 1;
        RBGsize_last = 1;
        break;
      case 15:
        RBGsize = 2;
        RBGsize_last = 1;
        break;
      case 25:
        RBGsize = 2;
        RBGsize_last = 1;
        break;
      case 50:
        RBGsize = 3;
        RBGsize_last = 2;
        break;
      case 75:
        RBGsize = 4;
        RBGsize_last = 3;
        break;
      case 100:
        RBGsize = 4;
        RBGsize_last = 4;
        break;
      default:
        AssertFatal(1 == 0, "unsupported RBs (%d)\n", N_RB_DL);
    }

    vrb_map = RC.mac[module_idP]->common_channels[CC_id].vrb_map;
    // Initialize Subbands according to VRB map
    for (i = 0; i < N_RBG[CC_id]; i++) {
      int rb_size = i == N_RBG[CC_id] - 1 ? RBGsize_last : RBGsize;
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#ifdef SF0_LIMIT
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      // for avoiding 6+ PRBs around DC in subframe 0 (avoid excessive errors)
      /* TODO: make it proper - allocate those RBs, do not "protect" them, but
        * compute number of available REs and limit MCS according to the
        * TBS table 36.213 7.1.7.2.1-1 (can be done after pre-processor)
        */
      if (subframeP == 0 && i >= sf0_lower && i <= sf0_upper)
        rballoc_sub[CC_id][i] = 1;
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#endif
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      // for SI-RNTI,RA-RNTI and P-RNTI allocations
      for (j = 0; j < rb_size; j++) {
        if (vrb_map[j + (i*RBGsize)] != 0) {
          rballoc_sub[CC_id][i] = 1;
          LOG_D(MAC, "Frame %d, subframe %d : vrb %d allocated\n", frameP, subframeP, j + (i*RBGsize));
          break;
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        }
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      }
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      //LOG_D(MAC, "Frame %d Subframe %d CC_id %d RBG %i : rb_alloc %d\n",
            //frameP, subframeP, CC_id, i, rballoc_sub[CC_id][i]);
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      MIMO_mode_indicator[CC_id][i] = 2;
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    }
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  }
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}


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void
dlsch_scheduler_pre_processor_allocate(module_id_t Mod_id,
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                                       int UE_id,
                                       uint8_t CC_id,
                                       int N_RBG,
                                       int min_rb_unit,
                                       uint16_t nb_rbs_required[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB],
                                       uint16_t nb_rbs_remaining[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB],
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                                       uint8_t rballoc_sub[NFAPI_CC_MAX][N_RBG_MAX],
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                                       uint8_t slice_allocation_mask[NFAPI_CC_MAX][N_RBG_MAX],
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                                       uint8_t MIMO_mode_indicator[NFAPI_CC_MAX][N_RBG_MAX])
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{
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  int i;
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  int tm = get_tmode(Mod_id, CC_id, UE_id);
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  UE_list_t *UE_list = &RC.mac[Mod_id]->UE_list;
  UE_sched_ctrl *ue_sched_ctl = &UE_list->UE_sched_ctrl[UE_id];
  int N_RB_DL = to_prb(RC.mac[Mod_id]->common_channels[CC_id].mib->message.dl_Bandwidth);

  for (i = 0; i < N_RBG; i++) {

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    if (rballoc_sub[CC_id][i] != 0) continue;
    if (ue_sched_ctl->rballoc_sub_UE[CC_id][i] != 0) continue;
    if (nb_rbs_remaining[CC_id][UE_id] <= 0) continue;
    if (ue_sched_ctl->pre_nb_available_rbs[CC_id] >= nb_rbs_required[CC_id][UE_id]) continue;
    if (ue_sched_ctl->dl_pow_off[CC_id] == 0) continue;
    if (slice_allocation_mask[CC_id][i] == 0) continue;
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    if ((i == N_RBG - 1) && ((N_RB_DL == 25) || (N_RB_DL == 50))) {
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      // Allocating last, smaller RBG
      if (nb_rbs_remaining[CC_id][UE_id] >= min_rb_unit - 1) {
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        rballoc_sub[CC_id][i] = 1;
        ue_sched_ctl->rballoc_sub_UE[CC_id][i] = 1;
        MIMO_mode_indicator[CC_id][i] = 1;
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        if (tm == 5) {
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          ue_sched_ctl->dl_pow_off[CC_id] = 1;
        }
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        nb_rbs_remaining[CC_id][UE_id] = nb_rbs_remaining[CC_id][UE_id] - min_rb_unit + 1;
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        ue_sched_ctl->pre_nb_available_rbs[CC_id] = ue_sched_ctl->pre_nb_available_rbs[CC_id] + min_rb_unit - 1;
      }
    } else {
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      // Allocating a standard-sized RBG
      if (nb_rbs_remaining[CC_id][UE_id] >= min_rb_unit) {
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        rballoc_sub[CC_id][i] = 1;
        ue_sched_ctl->rballoc_sub_UE[CC_id][i] = 1;
        MIMO_mode_indicator[CC_id][i] = 1;
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        if (tm == 5) {
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          ue_sched_ctl->dl_pow_off[CC_id] = 1;
        }
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        nb_rbs_remaining[CC_id][UE_id] = nb_rbs_remaining[CC_id][UE_id] - min_rb_unit;
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        ue_sched_ctl->pre_nb_available_rbs[CC_id] = ue_sched_ctl->pre_nb_available_rbs[CC_id] + min_rb_unit;
      }
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    }
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  }
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}


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/// ULSCH PRE_PROCESSOR
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void ulsch_scheduler_pre_processor(module_id_t module_idP,
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                                   int slice_idx,
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                                   int frameP,
                                   sub_frame_t subframeP,
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                                   unsigned char sched_subframeP,
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                                   uint16_t *first_rb)
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{
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    int16_t i;
    uint16_t UE_id, n, r;
    uint8_t CC_id, harq_pid;
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    uint16_t nb_allocated_rbs[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB],
	total_allocated_rbs[NFAPI_CC_MAX],
	average_rbs_per_user[NFAPI_CC_MAX];
    int16_t total_remaining_rbs[NFAPI_CC_MAX];
    uint16_t total_ue_count[NFAPI_CC_MAX];
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    rnti_t rnti = -1;
    UE_list_t *UE_list = &RC.mac[module_idP]->UE_list;
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    slice_info_t *sli = &RC.mac[module_idP]->slice_info;
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    UE_TEMPLATE *UE_template = 0;
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    UE_sched_ctrl *ue_sched_ctl;
    int N_RB_UL = 0;
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    uint16_t available_rbs, first_rb_offset;
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    LOG_D(MAC, "In ulsch_preprocessor: assign max mcs min rb\n");
    // maximize MCS and then allocate required RB according to the buffer occupancy with the limit of max available UL RB
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    assign_max_mcs_min_rb(module_idP, slice_idx, frameP, subframeP, first_rb);
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    LOG_D(MAC, "In ulsch_preprocessor: sort ue \n");
    // sort ues
    sort_ue_ul(module_idP, frameP, subframeP);


    // we need to distribute RBs among UEs
    // step1:  reset the vars
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    for (CC_id = 0; CC_id < RC.nb_mac_CC[module_idP]; CC_id++) {
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      total_allocated_rbs[CC_id] = 0;
      total_remaining_rbs[CC_id] = 0;
      average_rbs_per_user[CC_id] = 0;
      total_ue_count[CC_id] = 0;
    }

    // Step 1.5: Calculate total_ue_count
    for (i = UE_list->head_ul; i >= 0; i = UE_list->next_ul[i]) {
      for (n = 0; n < UE_list->numactiveULCCs[i]; n++) {
        // This is the actual CC_id in the list
        CC_id = UE_list->ordered_ULCCids[n][i];
        UE_template = &UE_list->UE_template[CC_id][i];
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        if (!ue_ul_slice_membership(module_idP, i, slice_idx))
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          continue;
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        if (UE_template->pre_allocated_nb_rb_ul[slice_idx] > 0) {
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          total_ue_count[CC_id] += 1;
        }
      }
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    }

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    LOG_D(MAC, "In ulsch_preprocessor: step2 \n");
    // step 2: calculate the average rb per UE
    for (i = UE_list->head_ul; i >= 0; i = UE_list->next_ul[i]) {
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      rnti = UE_RNTI(module_idP, i);
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      UE_id = i;
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      if (rnti == NOT_A_RNTI)
        continue;

      if (UE_list->UE_sched_ctrl[i].ul_out_of_sync == 1)
        continue;

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      if (!ue_ul_slice_membership(module_idP, UE_id, slice_idx))
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          continue;

      LOG_D(MAC, "In ulsch_preprocessor: handling UE %d/%x\n", UE_id,
            rnti);
      for (n = 0; n < UE_list->numactiveULCCs[UE_id]; n++) {
        // This is the actual CC_id in the list
        CC_id = UE_list->ordered_ULCCids[n][UE_id];
        LOG_D(MAC,
              "In ulsch_preprocessor: handling UE %d/%x CCid %d\n",
              UE_id, rnti, CC_id);

        average_rbs_per_user[CC_id] = 0;

        /*
           if((mac_xface->get_nCCE_max(module_idP,CC_id,3,subframeP) - nCCE_to_be_used[CC_id])  > (1<<aggregation)) {
           nCCE_to_be_used[CC_id] = nCCE_to_be_used[CC_id] + (1<<aggregation);
           max_num_ue_to_be_scheduled+=1;
           } */



        N_RB_UL = to_prb(RC.mac[module_idP]->common_channels[CC_id].ul_Bandwidth);
        ue_sched_ctl = &UE_list->UE_sched_ctrl[UE_id];
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        ue_sched_ctl->max_rbs_allowed_slice_uplink[CC_id][slice_idx] =
                nb_rbs_allowed_slice(sli->ul[slice_idx].pct, N_RB_UL);
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        first_rb_offset = UE_list->first_rb_offset[CC_id][slice_idx];
        available_rbs = cmin(ue_sched_ctl->max_rbs_allowed_slice_uplink[CC_id][slice_idx],
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                             N_RB_UL - first_rb[CC_id] - first_rb_offset);
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        if (available_rbs < 0)
          available_rbs = 0;
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        if (total_ue_count[CC_id] == 0) {
          average_rbs_per_user[CC_id] = 0;
        } else if (total_ue_count[CC_id] == 1) {    // increase the available RBs, special case,
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          average_rbs_per_user[CC_id] = (uint16_t) (available_rbs + 1);
        } else if (total_ue_count[CC_id] <= available_rbs) {
          average_rbs_per_user[CC_id] = (uint16_t) floor(available_rbs / total_ue_count[CC_id]);
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        } else {
          average_rbs_per_user[CC_id] = 1;
          LOG_W(MAC,
                "[eNB %d] frame %d subframe %d: UE %d CC %d: can't get average rb per user (should not be here)\n",
                module_idP, frameP, subframeP, UE_id, CC_id);
        }
        if (total_ue_count[CC_id] > 0)
          LOG_D(MAC, "[eNB %d] Frame %d subframe %d: total ue to be scheduled %d\n",
                module_idP, frameP, subframeP, total_ue_count[CC_id]);
      }
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    }
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    // step 3: assigne RBS
    for (i = UE_list->head_ul; i >= 0; i = UE_list->next_ul[i]) {
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      rnti = UE_RNTI(module_idP, i);

      if (rnti == NOT_A_RNTI)
        continue;
      if (UE_list->UE_sched_ctrl[i].ul_out_of_sync == 1)
        continue;
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      if (!ue_ul_slice_membership(module_idP, i, slice_idx))
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        continue;


      UE_id = i;

      for (n = 0; n < UE_list->numactiveULCCs[UE_id]; n++) {
        // This is the actual CC_id in the list
        CC_id = UE_list->ordered_ULCCids[n][UE_id];
        UE_template = &UE_list->UE_template[CC_id][UE_id];
        harq_pid = subframe2harqpid(&RC.mac[module_idP]->common_channels[CC_id],
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                                    frameP, sched_subframeP);
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        //      mac_xface->get_ue_active_harq_pid(module_idP,CC_id,rnti,frameP,subframeP,&harq_pid,&round,openair_harq_UL);

        if (UE_list->UE_sched_ctrl[UE_id].round_UL[CC_id] > 0) {
          nb_allocated_rbs[CC_id][UE_id] = UE_list->UE_template[CC_id][UE_id].nb_rb_ul[harq_pid];
        } else {
          nb_allocated_rbs[CC_id][UE_id] =
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                  cmin(UE_list->UE_template[CC_id][UE_id].pre_allocated_nb_rb_ul[slice_idx],
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                       average_rbs_per_user[CC_id]);
        }

        total_allocated_rbs[CC_id] += nb_allocated_rbs[CC_id][UE_id];
        LOG_D(MAC,
              "In ulsch_preprocessor: assigning %d RBs for UE %d/%x CCid %d, harq_pid %d\n",
              nb_allocated_rbs[CC_id][UE_id], UE_id, rnti, CC_id,
              harq_pid);
      }
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    }
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    // step 4: assigne the remaining RBs and set the pre_allocated rbs accordingly
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  for (r = 0; r < 2; r++) {
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    for (i = UE_list->head_ul; i >= 0; i = UE_list->next_ul[i]) {
      rnti = UE_RNTI(module_idP, i);

      if (rnti == NOT_A_RNTI)
        continue;
      if (UE_list->UE_sched_ctrl[i].ul_out_of_sync == 1)
        continue;
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      if (!ue_ul_slice_membership(module_idP, i, slice_idx))
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        continue;

      UE_id = i;
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      ue_sched_ctl = &UE_list->UE_sched_ctrl[UE_id];
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      for (n = 0; n < UE_list->numactiveULCCs[UE_id]; n++) {
        // This is the actual CC_id in the list
        CC_id = UE_list->ordered_ULCCids[n][UE_id];
        UE_template = &UE_list->UE_template[CC_id][UE_id];
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        N_RB_UL = to_prb(RC.mac[module_idP]->common_channels[CC_id].ul_Bandwidth);
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        first_rb_offset = UE_list->first_rb_offset[CC_id][slice_idx];
        available_rbs = cmin(ue_sched_ctl->max_rbs_allowed_slice_uplink[CC_id][slice_idx],
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                             N_RB_UL - first_rb[CC_id] - first_rb_offset);
        total_remaining_rbs[CC_id] = available_rbs - total_allocated_rbs[CC_id];
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        if (total_ue_count[CC_id] == 1) {
          total_remaining_rbs[CC_id] += 1;
        }

        if (r == 0) {
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          while ((UE_template->pre_allocated_nb_rb_ul[slice_idx] > 0)
                 && (nb_allocated_rbs[CC_id][UE_id] < UE_template->pre_allocated_nb_rb_ul[slice_idx])
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                 && (total_remaining_rbs[CC_id] > 0)) {
            nb_allocated_rbs[CC_id][UE_id] =
                    cmin(nb_allocated_rbs[CC_id][UE_id] + 1,
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                         UE_template->pre_allocated_nb_rb_ul[slice_idx]);
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            total_remaining_rbs[CC_id]--;
            total_allocated_rbs[CC_id]++;
          }
        } else {
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          UE_template->pre_allocated_nb_rb_ul[slice_idx] =
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                  nb_allocated_rbs[CC_id][UE_id];
          LOG_D(MAC,
                "******************UL Scheduling Information for UE%d CC_id %d ************************\n",
                UE_id, CC_id);
          LOG_D(MAC,
                "[eNB %d] total RB allocated for UE%d CC_id %d  = %d\n",
                module_idP, UE_id, CC_id,
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                UE_template->pre_allocated_nb_rb_ul[slice_idx]);
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        }
      }
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    }
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  }
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}

1815
void
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assign_max_mcs_min_rb(module_id_t module_idP, int slice_idx, int frameP,
1817
		      sub_frame_t subframeP, uint16_t * first_rb)
1818 1819
{

1820 1821 1822 1823
  int i;
  uint16_t n, UE_id;
  uint8_t CC_id;
  rnti_t rnti = -1;
1824
  int mcs;
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  int rb_table_index = 0, tbs, tx_power;
  eNB_MAC_INST *eNB = RC.mac[module_idP];
  UE_list_t *UE_list = &eNB->UE_list;
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  slice_info_t *sli = &RC.mac[module_idP]->slice_info;
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  UE_TEMPLATE *UE_template;
  UE_sched_ctrl *ue_sched_ctl;
  int Ncp;
  int N_RB_UL;
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  int first_rb_offset, available_rbs;
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1836
  for (i = 0; i < MAX_MOBILES_PER_ENB; i++) {
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    if (UE_list->active[i] != TRUE)
      continue;

    rnti = UE_RNTI(module_idP, i);

    if (rnti == NOT_A_RNTI)
      continue;
    if (UE_list->UE_sched_ctrl[i].ul_out_of_sync == 1)
      continue;
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    if (!ue_ul_slice_membership(module_idP, i, slice_idx))
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      continue;

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    if (UE_list->UE_sched_ctrl[i].phr_received == 1) {
      /* if we've received the power headroom information the UE, we can go to
       * maximum mcs */
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      mcs = cmin(20, sli->ul[slice_idx].maxmcs);
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    } else {
      /* otherwise, limit to QPSK PUSCH */
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      mcs = cmin(10, sli->ul[slice_idx].maxmcs);
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    }
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1858
    UE_id = i;
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    for (n = 0; n < UE_list->numactiveULCCs[UE_id]; n++) {
      // This is the actual CC_id in the list
      CC_id = UE_list->ordered_ULCCids[n][UE_id];


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      AssertFatal(CC_id < RC.nb_mac_CC[module_idP],
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                  "CC_id %u should be < %u, loop n=%u < numactiveULCCs[%u]=%u",
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                  CC_id, NFAPI_CC_MAX, n, UE_id,
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                  UE_list->numactiveULCCs[UE_id]);

      UE_template = &UE_list->UE_template[CC_id][UE_id];
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      UE_template->pre_assigned_mcs_ul = mcs;
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      ue_sched_ctl = &UE_list->UE_sched_ctrl[UE_id];

      Ncp = RC.mac[module_idP]->common_channels[CC_id].Ncp;
      N_RB_UL = to_prb(RC.mac[module_idP]->common_channels[CC_id].ul_Bandwidth);
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      ue_sched_ctl->max_rbs_allowed_slice_uplink[CC_id][slice_idx] =
              nb_rbs_allowed_slice(sli->ul[slice_idx].pct, N_RB_UL);
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      int bytes_to_schedule = UE_template->estimated_ul_buffer - UE_template->scheduled_ul_bytes;
      if (bytes_to_schedule < 0) bytes_to_schedule = 0;
      int bits_to_schedule = bytes_to_schedule * 8;

1884
      // if this UE has UL traffic
1885
      if (bits_to_schedule > 0) {
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        tbs = get_TBS_UL(UE_template->pre_assigned_mcs_ul, 3) << 3; // 1 or 2 PRB with cqi enabled does not work well!
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        rb_table_index = 2;

        // fixme: set use_srs flag
        tx_power = estimate_ue_tx_power(tbs, rb_table[rb_table_index], 0, Ncp, 0);

        while ((((UE_template->phr_info - tx_power) < 0)
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              || (tbs > bits_to_schedule))
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              && (UE_template->pre_assigned_mcs_ul > 3)) {
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          // LOG_I(MAC,"UE_template->phr_info %d tx_power %d mcs %d\n", UE_template->phr_info,tx_power, mcs);
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          UE_template->pre_assigned_mcs_ul--;
          tbs = get_TBS_UL(UE_template->pre_assigned_mcs_ul, rb_table[rb_table_index]) << 3;
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          tx_power = estimate_ue_tx_power(tbs, rb_table[rb_table_index], 0, Ncp, 0);   // fixme: set use_srs
        }

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        first_rb_offset = UE_list->first_rb_offset[CC_id][slice_idx];
        available_rbs = cmin(ue_sched_ctl->max_rbs_allowed_slice_uplink[CC_id][slice_idx],
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                             N_RB_UL - first_rb[CC_id] - first_rb_offset);

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        while ((tbs < bits_to_schedule)
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               && (rb_table[rb_table_index] < available_rbs)
               && ((UE_template->phr_info - tx_power) > 0)
               && (rb_table_index < 32)) {
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          rb_table_index++;
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          tbs = get_TBS_UL(UE_template->pre_assigned_mcs_ul, rb_table[rb_table_index]) << 3;
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          tx_power = estimate_ue_tx_power(tbs, rb_table[rb_table_index], 0, Ncp, 0);
        }

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        if (rb_table[rb_table_index] > (available_rbs - 1)) {
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          rb_table_index--;
        }
        // 1 or 2 PRB with cqi enabled does not work well
        if (rb_table[rb_table_index] < 3) {
            rb_table_index = 2;	//3PRB
        }

        UE_template->pre_allocated_rb_table_index_ul = rb_table_index;
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        UE_template->pre_allocated_nb_rb_ul[slice_idx] = rb_table[rb_table_index];
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        LOG_D(MAC,
              "[eNB %d] frame %d subframe %d: for UE %d CC %d: pre-assigned mcs %d, pre-allocated rb_table[%d]=%d RBs (phr %d, tx power %d)\n",
              module_idP, frameP, subframeP, UE_id, CC_id,
              UE_template->pre_assigned_mcs_ul,
              UE_template->pre_allocated_rb_table_index_ul,
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              UE_template->pre_allocated_nb_rb_ul[slice_idx],
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              UE_template->phr_info, tx_power);
      } else {
        /* if UE has pending scheduling request then pre-allocate 3 RBs */
        //if (UE_template->ul_active == 1 && UE_template->ul_SR == 1) {
        if (UE_is_to_be_scheduled(module_idP, CC_id, i)) {
          /* use QPSK mcs */
          UE_template->pre_assigned_mcs_ul = 10;
          UE_template->pre_allocated_rb_table_index_ul = 2;
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          UE_template->pre_allocated_nb_rb_ul[slice_idx] = 3;
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        } else {
          UE_template->pre_assigned_mcs_ul = 0;
          UE_template->pre_allocated_rb_table_index_ul = -1;
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          UE_template->pre_allocated_nb_rb_ul[slice_idx] = 0;
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        }
      }
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    }
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  }
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}

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struct sort_ue_ul_params {
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    int module_idP;
    int frameP;
    int subframeP;
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};

static int ue_ul_compare(const void *_a, const void *_b, void *_params)
{
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    struct sort_ue_ul_params *params = _params;
    UE_list_t *UE_list = &RC.mac[params->module_idP]->UE_list;

    int UE_id1 = *(const int *) _a;
    int UE_id2 = *(const int *) _b;

    int rnti1 = UE_RNTI(params->module_idP, UE_id1);
    int pCCid1 = UE_PCCID(params->module_idP, UE_id1);
    int round1 = maxround(params->module_idP, rnti1, params->frameP,
			  params->subframeP, 1);

    int rnti2 = UE_RNTI(params->module_idP, UE_id2);
    int pCCid2 = UE_PCCID(params->module_idP, UE_id2);
    int round2 = maxround(params->module_idP, rnti2, params->frameP,
			  params->subframeP, 1);

    if (round1 > round2)
	return -1;
    if (round1 < round2)
	return 1;

    if (UE_list->UE_template[pCCid1][UE_id1].ul_buffer_info[LCGID0] >
	UE_list->UE_template[pCCid2][UE_id2].ul_buffer_info[LCGID0])
	return -1;
    if (UE_list->UE_template[pCCid1][UE_id1].ul_buffer_info[LCGID0] <
	UE_list->UE_template[pCCid2][UE_id2].ul_buffer_info[LCGID0])
	return 1;

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    int bytes_to_schedule1 = UE_list->UE_template[pCCid1][UE_id1].estimated_ul_buffer - UE_list->UE_template[pCCid1][UE_id1].scheduled_ul_bytes;
    if (bytes_to_schedule1 < 0) bytes_to_schedule1 = 0;
    int bytes_to_schedule2 = UE_list->UE_template[pCCid2][UE_id2].estimated_ul_buffer - UE_list->UE_template[pCCid2][UE_id2].scheduled_ul_bytes;
    if (bytes_to_schedule2 < 0) bytes_to_schedule2 = 0;

    if (bytes_to_schedule1 > bytes_to_schedule2)
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	return -1;
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    if (bytes_to_schedule1 < bytes_to_schedule2)
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	return 1;

    if (UE_list->UE_template[pCCid1][UE_id1].pre_assigned_mcs_ul >
	UE_list->UE_template[pCCid2][UE_id2].pre_assigned_mcs_ul)
	return -1;
    if (UE_list->UE_template[pCCid1][UE_id1].pre_assigned_mcs_ul <
	UE_list->UE_template[pCCid2][UE_id2].pre_assigned_mcs_ul)
	return 1;
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    return 0;
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}
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void sort_ue_ul(module_id_t module_idP, int frameP, sub_frame_t subframeP)
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{
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    int i;
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    int list[MAX_MOBILES_PER_ENB];
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    int list_size = 0;
    int rnti;
    struct sort_ue_ul_params params = { module_idP, frameP, subframeP };
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    UE_list_t *UE_list = &RC.mac[module_idP]->UE_list;
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    for (i = 0; i < MAX_MOBILES_PER_ENB; i++) {
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	if (UE_list->active[i] == FALSE)
	    continue;
	if ((rnti = UE_RNTI(module_idP, i)) == NOT_A_RNTI)
	    continue;
	if (UE_list->UE_sched_ctrl[i].ul_out_of_sync == 1)
	    continue;
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	list[list_size] = i;
	list_size++;
    }
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    qsort_r(list, list_size, sizeof(int), ue_ul_compare, &params);
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    if (list_size) {
	for (i = 0; i < list_size - 1; i++)
	    UE_list->next_ul[list[i]] = list[i + 1];
	UE_list->next_ul[list[list_size - 1]] = -1;
	UE_list->head_ul = list[0];
    } else {
	UE_list->head_ul = -1;
    }
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}