eNB_scheduler_ulsch.c 61.1 KB
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/*
 * Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The OpenAirInterface Software Alliance licenses this file to You under
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 * the OAI Public License, Version 1.1  (the "License"); you may not use this file
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 * except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.openairinterface.org/?page_id=698
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 *-------------------------------------------------------------------------------
 * For more information about the OpenAirInterface (OAI) Software Alliance:
 *      contact@openairinterface.org
 */
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/*! \file eNB_scheduler_ulsch.c
 * \brief eNB procedures for the ULSCH transport channel
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 * \author Navid Nikaein and Raymond Knopp
 * \date 2010 - 2014
 * \email: navid.nikaein@eurecom.fr
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 * \version 1.0
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 * @ingroup _mac

 */

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/* indented with: indent -kr eNB_scheduler_RA.c */

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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 "UTIL/LOG/log.h"
#include "UTIL/LOG/vcd_signal_dumper.h"
#include "UTIL/OPT/opt.h"
#include "OCG.h"
#include "OCG_extern.h"
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#include "PHY/LTE_TRANSPORT/transport_common_proto.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 "assertions.h"
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//#include "LAYER2/MAC/pre_processor.c"
#include "pdcp.h"

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

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#include "ENB_APP/flexran_agent_defs.h"
#include "flexran_agent_ran_api.h"
#include "header.pb-c.h"
#include "flexran.pb-c.h"
#include "flexran_agent_mac.h"
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#include <dlfcn.h>
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#include "T.h"

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#define ENABLE_MAC_PAYLOAD_DEBUG
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#define DEBUG_eNB_SCHEDULER 1

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extern int oai_nfapi_hi_dci0_req(nfapi_hi_dci0_request_t *hi_dci0_req);
extern void add_subframe(uint16_t *frameP, uint16_t *subframeP, int offset);
extern uint16_t sfnsf_add_subframe(uint16_t frameP, uint16_t subframeP, int offset);
extern int oai_nfapi_ul_config_req(nfapi_ul_config_request_t *ul_config_req);
extern uint8_t nfapi_mode;

extern uint8_t nfapi_mode;

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// This table holds the allowable PRB sizes for ULSCH transmissions
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uint8_t rb_table[34] =
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  { 1, 2, 3, 4, 5, 6, 8, 9, 10, 12, 15, 16, 18, 20, 24, 25, 27, 30, 32,
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    36, 40, 45, 48, 50, 54, 60, 64, 72, 75, 80, 81, 90, 96, 100
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  };
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/* number of active slices for  past and current time*/
int n_active_slices_uplink = 1;
int n_active_slices_current_uplink = 1;

/* RB share for each slice for past and current time*/
float avg_slice_percentage_uplink=0.25;
float slice_percentage_uplink[MAX_NUM_SLICES] = {1.0, 0.0, 0.0, 0.0};
float slice_percentage_current_uplink[MAX_NUM_SLICES] = {1.0, 0.0, 0.0, 0.0};
float total_slice_percentage_uplink = 0;
float total_slice_percentage_current_uplink = 0;

// MAX MCS for each slice for past and current time
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int slice_maxmcs_uplink[MAX_NUM_SLICES] = {20, 20, 20, 20};
int slice_maxmcs_current_uplink[MAX_NUM_SLICES] = {20,20,20,20};
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/*resource blocks allowed*/
uint16_t         nb_rbs_allowed_slice_uplink[MAX_NUM_CCs][MAX_NUM_SLICES];
/*Slice Update */
int update_ul_scheduler[MAX_NUM_SLICES] = {1, 1, 1, 1};
int update_ul_scheduler_current[MAX_NUM_SLICES] = {1, 1, 1, 1};

/* name of available scheduler*/
char *ul_scheduler_type[MAX_NUM_SLICES] = {"schedule_ulsch_rnti",
					   "schedule_ulsch_rnti",
					   "schedule_ulsch_rnti",
					   "schedule_ulsch_rnti"
};

/* Slice Function Pointer */
slice_scheduler_ul slice_sched_ul[MAX_NUM_SLICES] = {0};

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void
rx_sdu(const module_id_t enb_mod_idP,
       const int CC_idP,
       const frame_t frameP,
       const sub_frame_t subframeP,
       const rnti_t rntiP,
       uint8_t * sduP,
       const uint16_t sdu_lenP,
       const uint16_t timing_advance, const uint8_t ul_cqi)
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{
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  int current_rnti = rntiP;
  unsigned char rx_ces[MAX_NUM_CE], num_ce, num_sdu, i, *payload_ptr;
  unsigned char rx_lcids[NB_RB_MAX];
  unsigned short rx_lengths[NB_RB_MAX];
  int UE_id = find_UE_id(enb_mod_idP, current_rnti);
  int RA_id;
  int ii, j;
  eNB_MAC_INST *mac = RC.mac[enb_mod_idP];
  int harq_pid =
    subframe2harqpid(&mac->common_channels[CC_idP], frameP, subframeP);
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  int lcgid_updated[4] = {0, 0, 0, 0};
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  UE_list_t *UE_list = &mac->UE_list;
  int crnti_rx = 0;
  RA_t *ra =
    (RA_t *) & RC.mac[enb_mod_idP]->common_channels[CC_idP].ra[0];
  int first_rb = 0;

  start_meas(&mac->rx_ulsch_sdu);

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  if ((UE_id > MAX_MOBILES_PER_ENB) || (UE_id == -1))
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    for (ii = 0; ii < NB_RB_MAX; ii++) {
      rx_lengths[ii] = 0;
    }

  VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME
    (VCD_SIGNAL_DUMPER_FUNCTIONS_RX_SDU, 1);
  if (opt_enabled == 1) {
    trace_pdu(0, sduP, sdu_lenP, 0, 3, current_rnti, frameP, subframeP,
	      0, 0);
    LOG_D(OPT, "[eNB %d][ULSCH] Frame %d  rnti %x  with size %d\n",
	  enb_mod_idP, frameP, current_rnti, sdu_lenP);
  }

  if (UE_id != -1) {
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    LOG_I(MAC,
	  "[eNB %d][PUSCH %d] CC_id %d %d.%d Received ULSCH sdu round %d from PHY (rnti %x, UE_id %d) ul_cqi %d\n",
	  enb_mod_idP, harq_pid, CC_idP,frameP,subframeP,
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	  UE_list->UE_sched_ctrl[UE_id].round_UL[CC_idP][harq_pid],
	  current_rnti, UE_id, ul_cqi);

    AssertFatal(UE_list->UE_sched_ctrl[UE_id].
		round_UL[CC_idP][harq_pid] < 8, "round >= 8\n");
    if (sduP != NULL) {
      UE_list->UE_sched_ctrl[UE_id].ul_inactivity_timer = 0;
      UE_list->UE_sched_ctrl[UE_id].ul_failure_timer = 0;
      UE_list->UE_sched_ctrl[UE_id].ul_scheduled &= (~(1 << harq_pid));
      /* Update with smoothing: 3/4 of old value and 1/4 of new.
       * This is the logic that was done in the function
       * lte_est_timing_advance_pusch, maybe it's not necessary?
       * maybe it's even not correct at all?
       */
      UE_list->UE_sched_ctrl[UE_id].ta_update =	(UE_list->UE_sched_ctrl[UE_id].ta_update * 3 + timing_advance) / 4;
      UE_list->UE_sched_ctrl[UE_id].pusch_snr[CC_idP] = ul_cqi;
      UE_list->UE_sched_ctrl[UE_id].ul_consecutive_errors = 0;
      first_rb = UE_list->UE_template[CC_idP][UE_id].first_rb_ul[harq_pid];

      if (UE_list->UE_sched_ctrl[UE_id].ul_out_of_sync > 0) {
	UE_list->UE_sched_ctrl[UE_id].ul_out_of_sync = 0;
	mac_eNB_rrc_ul_in_sync(enb_mod_idP, CC_idP, frameP,
			       subframeP, UE_RNTI(enb_mod_idP,
						  UE_id));
      }
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      /* update scheduled bytes */
      UE_list->UE_template[CC_idP][UE_id].scheduled_ul_bytes -= UE_list->UE_template[CC_idP][UE_id].TBS_UL[harq_pid];
      if (UE_list->UE_template[CC_idP][UE_id].scheduled_ul_bytes < 0)
        UE_list->UE_template[CC_idP][UE_id].scheduled_ul_bytes = 0;
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    } else {		// we've got an error
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      LOG_I(MAC,
	    "[eNB %d][PUSCH %d] CC_id %d %d.%d ULSCH in error in round %d, ul_cqi %d\n",
	    enb_mod_idP, harq_pid, CC_idP,frameP,subframeP,
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	    UE_list->UE_sched_ctrl[UE_id].round_UL[CC_idP][harq_pid],
	    ul_cqi);

      //      AssertFatal(1==0,"ulsch in error\n");
      if (UE_list->UE_sched_ctrl[UE_id].round_UL[CC_idP][harq_pid] == 3) {
	UE_list->UE_sched_ctrl[UE_id].ul_scheduled &= (~(1 << harq_pid));
	UE_list->UE_sched_ctrl[UE_id].round_UL[CC_idP][harq_pid] = 0;
	if (UE_list->UE_sched_ctrl[UE_id].ul_consecutive_errors++ == 10)
	  UE_list->UE_sched_ctrl[UE_id].ul_failure_timer = 1;
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        /* update scheduled bytes */
        UE_list->UE_template[CC_idP][UE_id].scheduled_ul_bytes -= UE_list->UE_template[CC_idP][UE_id].TBS_UL[harq_pid];
        if (UE_list->UE_template[CC_idP][UE_id].scheduled_ul_bytes < 0)
          UE_list->UE_template[CC_idP][UE_id].scheduled_ul_bytes = 0;
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      } else
	UE_list->UE_sched_ctrl[UE_id].round_UL[CC_idP][harq_pid]++;
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      first_rb = UE_list->UE_template[CC_idP][UE_id].first_rb_ul[harq_pid];

      // Program NACK for PHICH
      LOG_D(MAC,
	"Programming PHICH NACK for rnti %x harq_pid %d (first_rb %d)\n",
	current_rnti, harq_pid, first_rb);
      nfapi_hi_dci0_request_t *hi_dci0_req = &mac->HI_DCI0_req[CC_idP];
      nfapi_hi_dci0_request_body_t *hi_dci0_req_body = &hi_dci0_req->hi_dci0_request_body;
      nfapi_hi_dci0_request_pdu_t *hi_dci0_pdu =
        &hi_dci0_req_body->hi_dci0_pdu_list[hi_dci0_req_body->number_of_dci + hi_dci0_req_body->number_of_hi];
      memset((void *) hi_dci0_pdu, 0, sizeof(nfapi_hi_dci0_request_pdu_t));
      hi_dci0_pdu->pdu_type = NFAPI_HI_DCI0_HI_PDU_TYPE;
      hi_dci0_pdu->pdu_size = 2 + sizeof(nfapi_hi_dci0_hi_pdu);
      hi_dci0_pdu->hi_pdu.hi_pdu_rel8.tl.tag = NFAPI_HI_DCI0_REQUEST_HI_PDU_REL8_TAG;
      hi_dci0_pdu->hi_pdu.hi_pdu_rel8.resource_block_start = first_rb;
      hi_dci0_pdu->hi_pdu.hi_pdu_rel8.cyclic_shift_2_for_drms = 0;
      hi_dci0_pdu->hi_pdu.hi_pdu_rel8.hi_value = 0;
      hi_dci0_req_body->number_of_hi++;
      hi_dci0_req_body->sfnsf = sfnsf_add_subframe(frameP,subframeP, 0);
      hi_dci0_req_body->tl.tag = NFAPI_HI_DCI0_REQUEST_BODY_TAG;
      hi_dci0_req->sfn_sf = sfnsf_add_subframe(frameP,subframeP, 4);
      hi_dci0_req->header.message_id = NFAPI_HI_DCI0_REQUEST;

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      return;
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    }
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  } else if ((RA_id = find_RA_id(enb_mod_idP, CC_idP, current_rnti)) != -1) {	// Check if this is an RA process for the rnti
    AssertFatal(mac->common_channels[CC_idP].
		radioResourceConfigCommon->rach_ConfigCommon.
		maxHARQ_Msg3Tx > 1,
		"maxHARQ %d should be greater than 1\n",
		(int) mac->common_channels[CC_idP].
		radioResourceConfigCommon->rach_ConfigCommon.
		maxHARQ_Msg3Tx);
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    LOG_D(MAC,
	  "[eNB %d][PUSCH %d] CC_id %d [RAPROC Msg3] Received ULSCH sdu round %d from PHY (rnti %x, RA_id %d) ul_cqi %d\n",
	  enb_mod_idP, harq_pid, CC_idP, ra[RA_id].msg3_round,
	  current_rnti, RA_id, ul_cqi);

    first_rb = ra->msg3_first_rb;

    if (sduP == NULL) {	// we've got an error on Msg3
      LOG_D(MAC,
	    "[eNB %d] CC_id %d, RA %d ULSCH in error in round %d/%d\n",
	    enb_mod_idP, CC_idP, RA_id,
	    ra[RA_id].msg3_round,
	    (int) mac->common_channels[CC_idP].
	    radioResourceConfigCommon->rach_ConfigCommon.
	    maxHARQ_Msg3Tx);
      if (ra[RA_id].msg3_round == mac->common_channels[CC_idP].radioResourceConfigCommon->rach_ConfigCommon.maxHARQ_Msg3Tx - 1) {
	cancel_ra_proc(enb_mod_idP, CC_idP, frameP, current_rnti);
      }

      else {
	first_rb = UE_list->UE_template[CC_idP][UE_id].first_rb_ul[harq_pid];
	ra[RA_id].msg3_round++;
	// prepare handling of retransmission
	ra[RA_id].Msg3_frame    = (ra[RA_id].Msg3_frame + ((ra[RA_id].Msg3_subframe > 1) ? 1 : 0)) % 1024;
	ra[RA_id].Msg3_subframe = (ra[RA_id].Msg3_subframe + 8) % 10;
	add_msg3(enb_mod_idP, CC_idP, &ra[RA_id], frameP, subframeP);
      }
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      /* TODO: program NACK for PHICH? */

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      return;
    }
  } else {
    LOG_W(MAC,
	  "Cannot find UE or RA corresponding to ULSCH rnti %x, dropping it\n",
	  current_rnti);
    return;
  }
  payload_ptr = parse_ulsch_header(sduP, &num_ce, &num_sdu, rx_ces, rx_lcids, rx_lengths, sdu_lenP);

  T(T_ENB_MAC_UE_UL_PDU, T_INT(enb_mod_idP), T_INT(CC_idP),
    T_INT(current_rnti), T_INT(frameP), T_INT(subframeP),
    T_INT(harq_pid), T_INT(sdu_lenP), T_INT(num_ce), T_INT(num_sdu));
  T(T_ENB_MAC_UE_UL_PDU_WITH_DATA, T_INT(enb_mod_idP), T_INT(CC_idP),
    T_INT(current_rnti), T_INT(frameP), T_INT(subframeP),
    T_INT(harq_pid), T_INT(sdu_lenP), T_INT(num_ce), T_INT(num_sdu),
    T_BUFFER(sduP, sdu_lenP));

  mac->eNB_stats[CC_idP].ulsch_bytes_rx = sdu_lenP;
  mac->eNB_stats[CC_idP].total_ulsch_bytes_rx += sdu_lenP;
  mac->eNB_stats[CC_idP].total_ulsch_pdus_rx += 1;

  UE_list->UE_sched_ctrl[UE_id].round_UL[CC_idP][harq_pid] = 0;

  // control element
  for (i = 0; i < num_ce; i++) {

    T(T_ENB_MAC_UE_UL_CE, T_INT(enb_mod_idP), T_INT(CC_idP),
      T_INT(current_rnti), T_INT(frameP), T_INT(subframeP),
      T_INT(rx_ces[i]));
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    switch (rx_ces[i]) {	// implement and process BSR + CRNTI +
    case POWER_HEADROOM:
      if (UE_id != -1) {
	UE_list->UE_template[CC_idP][UE_id].phr_info =
	  (payload_ptr[0] & 0x3f) - PHR_MAPPING_OFFSET;
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	LOG_D(MAC,
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	      "[eNB %d] CC_id %d MAC CE_LCID %d : Received PHR PH = %d (db)\n",
	      enb_mod_idP, CC_idP, rx_ces[i],
	      UE_list->UE_template[CC_idP][UE_id].phr_info);
	UE_list->UE_template[CC_idP][UE_id].phr_info_configured =
	  1;
	UE_list->UE_sched_ctrl[UE_id].phr_received = 1;
      }
      payload_ptr += sizeof(POWER_HEADROOM_CMD);
      break;

    case CRNTI:
      {
	int old_rnti =
	  (((uint16_t) payload_ptr[0]) << 8) + payload_ptr[1];
	int old_UE_id = find_UE_id(enb_mod_idP, old_rnti);
	LOG_D(MAC,
	      "[eNB %d] Frame %d, Subframe %d CC_id %d MAC CE_LCID %d (ce %d/%d): CRNTI %x (UE_id %d) in Msg3\n",
	      enb_mod_idP, frameP, subframeP, CC_idP, rx_ces[i], i,
	      num_ce, old_rnti, old_UE_id);
	/* receiving CRNTI means that the current rnti has to go away */
	cancel_ra_proc(enb_mod_idP, CC_idP, frameP,
		       current_rnti);
	if (old_UE_id != -1) {
	  /* TODO: if the UE did random access (followed by a MAC uplink with
	   * CRNTI) because none of its scheduling request was granted, then
	   * according to 36.321 5.4.4 the UE's MAC will notify RRC to release
	   * PUCCH/SRS. According to 36.331 5.3.13 the UE will then apply
	   * default configuration for CQI reporting and scheduling requests,
	   * which basically means that the CQI requests won't work anymore and
	   * that the UE won't do any scheduling request anymore as long as the
	   * eNB doesn't reconfigure the UE.
	   * We have to take care of this. As the code is, nothing is done and
	   * the UE state in the eNB is wrong.
	   */
	  UE_id = old_UE_id;
	  UE_list->UE_sched_ctrl[UE_id].ul_inactivity_timer = 0;
	  UE_list->UE_sched_ctrl[UE_id].ul_failure_timer = 0;
	  if (UE_list->UE_sched_ctrl[UE_id].ul_out_of_sync > 0) {
	    UE_list->UE_sched_ctrl[UE_id].ul_out_of_sync = 0;
	    mac_eNB_rrc_ul_in_sync(enb_mod_idP, CC_idP, frameP,
				   subframeP, old_rnti);
	  }
	  current_rnti = old_rnti;
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	}
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	crnti_rx = 1;
	payload_ptr += 2;
	break;
      }

    case TRUNCATED_BSR:
    case SHORT_BSR:
      {
	uint8_t lcgid;
	lcgid = (payload_ptr[0] >> 6);
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	LOG_D(MAC,
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	      "[eNB %d] CC_id %d MAC CE_LCID %d : Received short BSR LCGID = %u bsr = %d\n",
	      enb_mod_idP, CC_idP, rx_ces[i], lcgid,
	      payload_ptr[0] & 0x3f);

	if (crnti_rx == 1)
	  LOG_D(MAC,
		"[eNB %d] CC_id %d MAC CE_LCID %d : Received short BSR LCGID = %u bsr = %d\n",
		enb_mod_idP, CC_idP, rx_ces[i], lcgid,
		payload_ptr[0] & 0x3f);
	if (UE_id != -1) {
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          int bsr = payload_ptr[0] & 0x3f;
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          lcgid_updated[lcgid] = 1;
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          // update buffer info
          UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[lcgid] = BSR_TABLE[bsr];
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          UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer =
              UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[0] +
              UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[1] +
              UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[2] +
              UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[3];
          //UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer += UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer / 4;
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	  RC.eNB[enb_mod_idP][CC_idP]->pusch_stats_bsr[UE_id][(frameP * 10) + subframeP] = (payload_ptr[0] & 0x3f);
	  if (UE_id == UE_list->head)
	    VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_UE0_BSR,
						    RC.eNB[enb_mod_idP][CC_idP]->pusch_stats_bsr
						    [UE_id][(frameP * 10) + subframeP]);
	  if (UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[lcgid] == 0) {
	    UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[lcgid] = frameP;
	  }
	  if (mac_eNB_get_rrc_status(enb_mod_idP,UE_RNTI(enb_mod_idP, UE_id)) < RRC_CONNECTED)
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	    LOG_D(MAC,
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		  "[eNB %d] CC_id %d MAC CE_LCID %d : estimated_ul_buffer = %d (lcg increment %d)\n",
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		  enb_mod_idP, CC_idP, rx_ces[i],
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		  UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer,
		  UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[lcgid]);
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	} else {
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	}
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	payload_ptr += 1;	//sizeof(SHORT_BSR); // fixme
      }
      break;

    case LONG_BSR:
      if (UE_id != -1) {
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        int bsr0 = (payload_ptr[0] & 0xFC) >> 2;
        int bsr1 = ((payload_ptr[0] & 0x03) << 4) | ((payload_ptr[1] & 0xF0) >> 4);
        int bsr2 = ((payload_ptr[1] & 0x0F) << 2) | ((payload_ptr[2] & 0xC0) >> 6);
        int bsr3 = payload_ptr[2] & 0x3F;

        lcgid_updated[0] = 1;
        lcgid_updated[1] = 1;
        lcgid_updated[2] = 1;
        lcgid_updated[3] = 1;

        // update buffer info
        UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID0] = BSR_TABLE[bsr0];
        UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID1] = BSR_TABLE[bsr1];
        UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID2] = BSR_TABLE[bsr2];
        UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID3] = BSR_TABLE[bsr3];

        UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer =
            UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[0] +
            UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[1] +
            UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[2] +
            UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[3];
        //UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer += UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer / 4;

        LOG_D(MAC,
              "[eNB %d] CC_id %d MAC CE_LCID %d: Received long BSR. Size is LCGID0 = %u LCGID1 = "
              "%u LCGID2 = %u LCGID3 = %u\n", enb_mod_idP, CC_idP,
              rx_ces[i],
              UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID0],
              UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID1],
              UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID2],
              UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID3]);
        if (crnti_rx == 1)
          LOG_D(MAC,
                "[eNB %d] CC_id %d MAC CE_LCID %d: Received long BSR. Size is LCGID0 = %u LCGID1 = "
                "%u LCGID2 = %u LCGID3 = %u\n", enb_mod_idP,
                CC_idP, rx_ces[i],
                UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID0],
                UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID1],
                UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID2],
                UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID3]);

	if (UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID0] == 0) {
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	  UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[LCGID0] = 0;
	} else if (UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[LCGID0] == 0) {
	  UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[LCGID0] = frameP;
	}
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	if (UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID1] == 0) {
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	  UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[LCGID1] = 0;
	} else if (UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[LCGID1] == 0) {
	  UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[LCGID1] = frameP;
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	}

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	if (UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID2] == 0) {
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	  UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[LCGID2] = 0;
	} else if (UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[LCGID2] == 0) {
	  UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[LCGID2] = frameP;
	}
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	if (UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[LCGID3] == 0) {
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	  UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[LCGID3] = 0;
	} else if (UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[LCGID3] == 0) {
	  UE_list->UE_template[CC_idP][UE_id].ul_buffer_creation_time[LCGID3] = frameP;
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	}
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      }

      payload_ptr += 3;	////sizeof(LONG_BSR);
      break;

    default:
      LOG_E(MAC,
	    "[eNB %d] CC_id %d Received unknown MAC header (0x%02x)\n",
	    enb_mod_idP, CC_idP, rx_ces[i]);
      break;
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    }
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  }
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  for (i = 0; i < num_sdu; i++) {
    LOG_D(MAC, "SDU Number %d MAC Subheader SDU_LCID %d, length %d\n",
	  i, rx_lcids[i], rx_lengths[i]);

    T(T_ENB_MAC_UE_UL_SDU, T_INT(enb_mod_idP), T_INT(CC_idP),
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      T_INT(current_rnti), T_INT(frameP), T_INT(subframeP),
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      T_INT(rx_lcids[i]), T_INT(rx_lengths[i]));
    T(T_ENB_MAC_UE_UL_SDU_WITH_DATA, T_INT(enb_mod_idP), T_INT(CC_idP),
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      T_INT(current_rnti), T_INT(frameP), T_INT(subframeP),
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      T_INT(rx_lcids[i]), T_INT(rx_lengths[i]), T_BUFFER(payload_ptr,
							 rx_lengths
							 [i]));

    switch (rx_lcids[i]) {
    case CCCH:
      if (rx_lengths[i] > CCCH_PAYLOAD_SIZE_MAX) {
	LOG_E(MAC,
	      "[eNB %d/%d] frame %d received CCCH of size %d (too big, maximum allowed is %d, sdu_len %d), dropping packet\n",
	      enb_mod_idP, CC_idP, frameP, rx_lengths[i],
	      CCCH_PAYLOAD_SIZE_MAX, sdu_lenP);
	break;
      }
      LOG_D(MAC,
	    "[eNB %d][RAPROC] CC_id %d Frame %d, Received CCCH:  %x.%x.%x.%x.%x.%x, Terminating RA procedure for UE rnti %x\n",
	    enb_mod_idP, CC_idP, frameP, payload_ptr[0],
	    payload_ptr[1], payload_ptr[2], payload_ptr[3],
	    payload_ptr[4], payload_ptr[5], current_rnti);
      VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_TERMINATE_RA_PROC, 1);
      VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_TERMINATE_RA_PROC, 0);
      for (ii = 0; ii < NB_RA_PROC_MAX; ii++) {
	RA_t *ra = &mac->common_channels[CC_idP].ra[ii];
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	LOG_D(MAC,
	      "[mac %d][RAPROC] CC_id %d Checking proc %d : rnti (%x, %x), state %d\n",
	      enb_mod_idP, CC_idP, ii, ra->rnti,
	      current_rnti, ra->state);
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	if ((ra->rnti == current_rnti) && (ra->state != IDLE)) {
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	  //payload_ptr = parse_ulsch_header(msg3,&num_ce,&num_sdu,rx_ces,rx_lcids,rx_lengths,msg3_len);
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	  if (UE_id < 0) {
	    memcpy(&ra->cont_res_id[0], payload_ptr, 6);
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	    LOG_D(MAC,
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		  "[eNB %d][RAPROC] CC_id %d Frame %d CCCH: Received Msg3: length %d, offset %ld\n",
		  enb_mod_idP, CC_idP, frameP, rx_lengths[i],
		  payload_ptr - sduP);

	    if ((UE_id = add_new_ue(enb_mod_idP, CC_idP,
				    mac->common_channels[CC_idP].
				    ra[ii].rnti, harq_pid
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#if (RRC_VERSION >= MAKE_VERSION(14, 0, 0))
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				    ,
				    mac->common_channels[CC_idP].
				    ra[ii].rach_resource_type
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#endif
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				    )) == -1) {
	      AssertFatal(1 == 0,
			  "[MAC][eNB] Max user count reached\n");
	      // kill RA procedure
	    } else
	      LOG_D(MAC,
		    "[eNB %d][RAPROC] CC_id %d Frame %d Added user with rnti %x => UE %d\n",
		    enb_mod_idP, CC_idP, frameP, ra->rnti,
		    UE_id);
	  } else {
	    LOG_D(MAC,
		  "[eNB %d][RAPROC] CC_id %d Frame %d CCCH: Received Msg3 from already registered UE %d: length %d, offset %ld\n",
		  enb_mod_idP, CC_idP, frameP, UE_id,
		  rx_lengths[i], payload_ptr - sduP);
	    // kill RA procedure
	  }

	  mac_rrc_data_ind(enb_mod_idP,
			   CC_idP,
			   frameP, subframeP,
			   current_rnti,
			   CCCH,
			   (uint8_t *) payload_ptr,
			   rx_lengths[i],
			   0);


	  if (num_ce > 0) {	// handle msg3 which is not RRCConnectionRequest
	    //  process_ra_message(msg3,num_ce,rx_lcids,rx_ces);
	  }
	  // prepare transmission of Msg4
	  ra->state = MSG4;



	  // Program Msg4 PDCCH+DLSCH/MPDCCH transmission 4 subframes from now, // Check if this is ok for BL/CE, or if the rule is different
	  ra->Msg4_frame = frameP + ((subframeP > 5) ? 1 : 0);
	  ra->Msg4_subframe = (subframeP + 4) % 10;

	}		// if process is active
      }			// loop on RA processes

      break;

    case DCCH:
    case DCCH1:
      //      if(eNB_mac_inst[module_idP][CC_idP].Dcch_lchan[UE_id].Active==1){
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#if defined(ENABLE_MAC_PAYLOAD_DEBUG)
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      LOG_T(MAC, "offset: %d\n",
	    (unsigned char) ((unsigned char *) payload_ptr - sduP));
      for (j = 0; j < 32; j++) {
	LOG_T(MAC, "%x ", payload_ptr[j]);
      }
      LOG_T(MAC, "\n");
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#endif
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      if (UE_id != -1) {
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        if (lcgid_updated[UE_list->UE_template[CC_idP][UE_id].lcgidmap[rx_lcids[i]]] == 0) {
	  // adjust buffer occupancy of the correponding logical channel group
	  if (UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[UE_list->UE_template[CC_idP][UE_id].lcgidmap[rx_lcids[i]]] >= rx_lengths[i])
	    UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[UE_list->UE_template[CC_idP][UE_id].lcgidmap[rx_lcids[i]]] -= rx_lengths[i];
	  else
	    UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[UE_list->UE_template[CC_idP][UE_id].lcgidmap[rx_lcids[i]]] = 0;

          UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer =
          UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[0] +
          UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[1] +
          UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[2] +
          UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[3];
          //UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer += UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer / 4;
        }
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	LOG_D(MAC,
	      "[eNB %d] CC_id %d Frame %d : ULSCH -> UL-DCCH, received %d bytes form UE %d on LCID %d \n",
	      enb_mod_idP, CC_idP, frameP, rx_lengths[i], UE_id,
	      rx_lcids[i]);
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	mac_rlc_data_ind(enb_mod_idP, current_rnti, enb_mod_idP, frameP, ENB_FLAG_YES, MBMS_FLAG_NO, rx_lcids[i], (char *) payload_ptr, rx_lengths[i], 1, NULL);	//(unsigned int*)crc_status);
	UE_list->eNB_UE_stats[CC_idP][UE_id].num_pdu_rx[rx_lcids[i]] += 1;
	UE_list->eNB_UE_stats[CC_idP][UE_id].num_bytes_rx[rx_lcids[i]] += rx_lengths[i];
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      }
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      /* UE_id != -1 */
      // }
      break;
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      // all the DRBS
    case DTCH:
    default:
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#if defined(ENABLE_MAC_PAYLOAD_DEBUG)
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      LOG_T(MAC, "offset: %d\n",
	    (unsigned char) ((unsigned char *) payload_ptr - sduP));
      for (j = 0; j < 32; j++) {
	LOG_T(MAC, "%x ", payload_ptr[j]);
      }
      LOG_T(MAC, "\n");
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#endif
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      if (rx_lcids[i] < NB_RB_MAX) {
	LOG_D(MAC,
	      "[eNB %d] CC_id %d Frame %d : ULSCH -> UL-DTCH, received %d bytes from UE %d for lcid %d\n",
	      enb_mod_idP, CC_idP, frameP, rx_lengths[i], UE_id,
	      rx_lcids[i]);
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	if (UE_id != -1) {
	  // adjust buffer occupancy of the correponding logical channel group
	  LOG_D(MAC,
		"[eNB %d] CC_id %d Frame %d : ULSCH -> UL-DTCH, received %d bytes from UE %d for lcid %d, removing from LCGID %ld, %d\n",
		enb_mod_idP, CC_idP, frameP, rx_lengths[i],
		UE_id, rx_lcids[i],
		UE_list->UE_template[CC_idP][UE_id].
		lcgidmap[rx_lcids[i]],
		UE_list->UE_template[CC_idP][UE_id].
		ul_buffer_info[UE_list->UE_template[CC_idP]
			       [UE_id].lcgidmap[rx_lcids[i]]]);

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          if (lcgid_updated[UE_list->UE_template[CC_idP][UE_id].lcgidmap[rx_lcids[i]]] == 0) {
	    if (UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[UE_list->UE_template[CC_idP][UE_id].lcgidmap[rx_lcids[i]]] >= rx_lengths[i])
	      UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[UE_list->UE_template[CC_idP][UE_id].lcgidmap[rx_lcids[i]]] -= rx_lengths[i];
	    else
	      UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[UE_list->UE_template[CC_idP][UE_id].lcgidmap[rx_lcids[i]]] = 0;

            UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer =
               UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[0] +
               UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[1] +
               UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[2] +
               UE_list->UE_template[CC_idP][UE_id].ul_buffer_info[3];
            //UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer += UE_list->UE_template[CC_idP][UE_id].estimated_ul_buffer / 4;
          }

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	  if ((rx_lengths[i] < SCH_PAYLOAD_SIZE_MAX) && (rx_lengths[i] > 0)) {	// MAX SIZE OF transport block
	    mac_rlc_data_ind(enb_mod_idP, current_rnti, enb_mod_idP, frameP, ENB_FLAG_YES, MBMS_FLAG_NO, rx_lcids[i], (char *) payload_ptr, rx_lengths[i], 1, NULL);	//(unsigned int*)crc_status);

	    UE_list->eNB_UE_stats[CC_idP][UE_id].num_pdu_rx[rx_lcids[i]] += 1;
	    UE_list->eNB_UE_stats[CC_idP][UE_id].num_bytes_rx[rx_lcids[i]] += rx_lengths[i];
	    //clear uplane_inactivity_timer
	    UE_list->UE_sched_ctrl[UE_id].uplane_inactivity_timer = 0;
	  } else {	/* rx_length[i] */
	    UE_list->eNB_UE_stats[CC_idP][UE_id].num_errors_rx += 1;
	    LOG_E(MAC,
		  "[eNB %d] CC_id %d Frame %d : Max size of transport block reached LCID %d from UE %d ",
		  enb_mod_idP, CC_idP, frameP, rx_lcids[i],
		  UE_id);
	  }
	} else {	/*(UE_id != -1 */
	  LOG_E(MAC,
		"[eNB %d] CC_id %d Frame %d : received unsupported or unknown LCID %d from UE %d ",
		enb_mod_idP, CC_idP, frameP, rx_lcids[i], UE_id);
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	}
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      }
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      break;
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    }
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    payload_ptr += rx_lengths[i];
  }

  // Program ACK for PHICH
  LOG_D(MAC,
	"Programming PHICH ACK for rnti %x harq_pid %d (first_rb %d)\n",
	current_rnti, harq_pid, first_rb);
  nfapi_hi_dci0_request_t *hi_dci0_req = &mac->HI_DCI0_req[CC_idP];
  nfapi_hi_dci0_request_body_t *hi_dci0_req_body = &hi_dci0_req->hi_dci0_request_body;
  nfapi_hi_dci0_request_pdu_t *hi_dci0_pdu =
    &hi_dci0_req_body->hi_dci0_pdu_list[hi_dci0_req_body->number_of_dci + hi_dci0_req_body->number_of_hi];
  memset((void *) hi_dci0_pdu, 0, sizeof(nfapi_hi_dci0_request_pdu_t));
  hi_dci0_pdu->pdu_type = NFAPI_HI_DCI0_HI_PDU_TYPE;
  hi_dci0_pdu->pdu_size = 2 + sizeof(nfapi_hi_dci0_hi_pdu);
  hi_dci0_pdu->hi_pdu.hi_pdu_rel8.tl.tag = NFAPI_HI_DCI0_REQUEST_HI_PDU_REL8_TAG;
  hi_dci0_pdu->hi_pdu.hi_pdu_rel8.resource_block_start = first_rb;
  hi_dci0_pdu->hi_pdu.hi_pdu_rel8.cyclic_shift_2_for_drms = 0;
  hi_dci0_pdu->hi_pdu.hi_pdu_rel8.hi_value = 1;
  hi_dci0_req_body->number_of_hi++;
  hi_dci0_req_body->sfnsf = sfnsf_add_subframe(frameP,subframeP, 0);
  hi_dci0_req_body->tl.tag = NFAPI_HI_DCI0_REQUEST_BODY_TAG;
  hi_dci0_req->sfn_sf = sfnsf_add_subframe(frameP,subframeP, 4);
  hi_dci0_req->header.message_id = NFAPI_HI_DCI0_REQUEST;

  /* NN--> FK: we could either check the payload, or use a phy helper to detect a false msg3 */
  if ((num_sdu == 0) && (num_ce == 0)) {
    if (UE_id != -1)
      UE_list->eNB_UE_stats[CC_idP][UE_id].total_num_errors_rx += 1;
    /*
      if (msg3_flagP != NULL) {
      if( *msg3_flagP == 1 ) {
      LOG_N(MAC,"[eNB %d] CC_id %d frame %d : false msg3 detection: signal phy to canceling RA and remove the UE\n", enb_mod_idP, CC_idP, frameP);
      *msg3_flagP=0;
      }
      } */
  } else {
    if (UE_id != -1) {
      UE_list->eNB_UE_stats[CC_idP][UE_id].pdu_bytes_rx        = sdu_lenP;
      UE_list->eNB_UE_stats[CC_idP][UE_id].total_pdu_bytes_rx += sdu_lenP;
      UE_list->eNB_UE_stats[CC_idP][UE_id].total_num_pdus_rx  += 1;
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    }
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  }
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  VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_RX_SDU, 0);
  stop_meas(&mac->rx_ulsch_sdu);
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}

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uint32_t bytes_to_bsr_index(int32_t nbytes)
{
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  uint32_t i = 0;
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  if (nbytes < 0) {
    return (0);
  }
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  while ((i < BSR_TABLE_SIZE) && (BSR_TABLE[i] <= nbytes)) {
    i++;
  }
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  return (i - 1);
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}

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void
add_ue_ulsch_info(module_id_t module_idP, int CC_id, int UE_id,
		  sub_frame_t subframeP, UE_ULSCH_STATUS status)
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{
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  eNB_ulsch_info[module_idP][CC_id][UE_id].rnti     = UE_RNTI(module_idP, UE_id);
  eNB_ulsch_info[module_idP][CC_id][UE_id].subframe = subframeP;
  eNB_ulsch_info[module_idP][CC_id][UE_id].status   = status;
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  eNB_ulsch_info[module_idP][CC_id][UE_id].serving_num++;
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}

unsigned char *parse_ulsch_header(unsigned char *mac_header,
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				  unsigned char *num_ce,
				  unsigned char *num_sdu,
				  unsigned char *rx_ces,
				  unsigned char *rx_lcids,
				  unsigned short *rx_lengths,
				  unsigned short tb_length)
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{
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  unsigned char not_done = 1, num_ces = 0, num_sdus =
    0, lcid, num_sdu_cnt;
  unsigned char *mac_header_ptr = mac_header;
  unsigned short length, ce_len = 0;
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  while (not_done == 1) {
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    if (((SCH_SUBHEADER_FIXED *) mac_header_ptr)->E == 0) {
      not_done = 0;
    }
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    lcid = ((SCH_SUBHEADER_FIXED *) mac_header_ptr)->LCID;
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    if (lcid < EXTENDED_POWER_HEADROOM) {
      if (not_done == 0) {	// last MAC SDU, length is implicit
	mac_header_ptr++;
	length = tb_length - (mac_header_ptr - mac_header) - ce_len;
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	for (num_sdu_cnt = 0; num_sdu_cnt < num_sdus;
	     num_sdu_cnt++) {
	  length -= rx_lengths[num_sdu_cnt];
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	}
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      } else {
	if (((SCH_SUBHEADER_SHORT *) mac_header_ptr)->F == 0) {
	  length = ((SCH_SUBHEADER_SHORT *) mac_header_ptr)->L;
	  mac_header_ptr += 2;	//sizeof(SCH_SUBHEADER_SHORT);
	} else {	// F = 1
	  length =
	    ((((SCH_SUBHEADER_LONG *) mac_header_ptr)->L_MSB &
	      0x7f) << 8) | (((SCH_SUBHEADER_LONG *)
			      mac_header_ptr)->L_LSB & 0xff);
	  mac_header_ptr += 3;	//sizeof(SCH_SUBHEADER_LONG);
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	}
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      }

      LOG_D(MAC,
	    "[eNB] sdu %d lcid %d tb_length %d length %d (offset now %ld)\n",
	    num_sdus, lcid, tb_length, length,
	    mac_header_ptr - mac_header);
      rx_lcids[num_sdus] = lcid;
      rx_lengths[num_sdus] = length;
      num_sdus++;
    } else {		// This is a control element subheader POWER_HEADROOM, BSR and CRNTI
      if (lcid == SHORT_PADDING) {
	mac_header_ptr++;
      } else {
	rx_ces[num_ces] = lcid;
	num_ces++;
	mac_header_ptr++;

	if (lcid == LONG_BSR) {
	  ce_len += 3;
	} else if (lcid == CRNTI) {
	  ce_len += 2;
	} else if ((lcid == POWER_HEADROOM)
		   || (lcid == TRUNCATED_BSR)
		   || (lcid == SHORT_BSR)) {
	  ce_len++;
	} else {
	  LOG_E(MAC, "unknown CE %d \n", lcid);
	  AssertFatal(1 == 0, "unknown CE");
	}
      }
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    }
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  }
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  *num_ce = num_ces;
  *num_sdu = num_sdus;
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  return (mac_header_ptr);
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}

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/* This function is called by PHY layer when it schedules some
 * uplink for a random access message 3.
 * The MAC scheduler has to skip the RBs used by this message 3
 * (done below in schedule_ulsch).
 */
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void
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set_msg3_subframe(module_id_t mod_id,
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		  int CC_id,
		  int frame,
		  int subframe, int rnti, int Msg3_frame,
		  int Msg3_subframe)
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{
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  eNB_MAC_INST *mac = RC.mac[mod_id];
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  int i;
  for (i = 0; i < NB_RA_PROC_MAX; i++) {
    if (mac->common_channels[CC_id].ra[i].state != IDLE &&
	mac->common_channels[CC_id].ra[i].rnti == rnti) {
      mac->common_channels[CC_id].ra[i].Msg3_subframe =
	Msg3_subframe;
      break;
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    }
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  }
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}
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void
schedule_ulsch(module_id_t module_idP, frame_t frameP,
	       sub_frame_t subframeP)
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{
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  uint16_t first_rb[MAX_NUM_CCs], i;
  int CC_id;
  eNB_MAC_INST *mac = RC.mac[module_idP];
  COMMON_channels_t *cc;

  start_meas(&mac->schedule_ulsch);

  int sched_subframe = (subframeP + 4) % 10;

  cc = &mac->common_channels[0];
  int tdd_sfa;
  // for TDD: check subframes where we have to act and return if nothing should be done now
  if (cc->tdd_Config) {
    tdd_sfa = cc->tdd_Config->subframeAssignment;
    switch (subframeP) {
    case 0:
      if ((tdd_sfa == 0) || (tdd_sfa == 3) || (tdd_sfa == 6))
	sched_subframe = 4;
      else
	return;
      break;
    case 1:
      if ((tdd_sfa == 0) || (tdd_sfa == 1))
	sched_subframe = 7;
      else if (tdd_sfa == 6)
	sched_subframe = 8;
      break;
    default:
      return;

    case 2:		// Don't schedule UL in subframe 2 for TDD
      return;
    case 3:
      if (tdd_sfa == 2)
	sched_subframe = 7;
      else
	return;
      break;
    case 4:
      if (tdd_sfa == 1)
	sched_subframe = 8;
      else
	return;
      break;
    case 5:
      if (tdd_sfa == 0)
	sched_subframe = 9;
      else if (tdd_sfa == 6)
	sched_subframe = 3;
      else
	return;
      break;
    case 6:
      if (tdd_sfa == 1)
	sched_subframe = 2;
      else if (tdd_sfa == 6)
	sched_subframe = 3;
      else
	return;
      break;
    case 7:
      return;
    case 8:
      if ((tdd_sfa >= 2) || (tdd_sfa <= 5))
	sched_subframe = 2;
      else
	return;
      break;
    case 9:
      if ((tdd_sfa == 1) || (tdd_sfa == 3) || (tdd_sfa == 4))
	sched_subframe = 3;
      else if (tdd_sfa == 6)
	sched_subframe = 4;
      else
	return;
      break;
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    }
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  }
  for (CC_id = 0; CC_id < MAX_NUM_CCs; CC_id++) {
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    //leave out first RB for PUCCH
    first_rb[CC_id] = 1;
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    // UE data info;
    // check which UE has data to transmit
    // function to decide the scheduling
    // e.g. scheduling_rslt = Greedy(granted_UEs, nb_RB)
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    // default function for default scheduling
    //
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    // output of scheduling, the UE numbers in RBs, where it is in the code???
    // check if RA (Msg3) is active in this subframeP, if so skip the PRBs used for Msg3
    // Msg3 is using 1 PRB so we need to increase first_rb accordingly
    // not sure about the break (can there be more than 1 active RA procedure?)
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    for (i = 0; i < NB_RA_PROC_MAX; i++) {
      if ((cc->ra[i].state == WAITMSG3) &&
	  (cc->ra[i].Msg3_subframe == sched_subframe)) {
	first_rb[CC_id]++;
	//    cc->ray[i].Msg3_subframe = -1;
	break;
      }
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    }
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  }
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  // perform slice-specifc operations
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