mac.h

 /*
 * 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
 * the OAI Public License, Version 1.1  (the "License"); you may not use this file
 * 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
 */

/*! \file LAYER2/MAC/defs.h
* \brief MAC data structures, constant, and function prototype
* \author Navid Nikaein and Raymond Knopp
* \date 2011
* \version 0.5
* \email navid.nikaein@eurecom.fr

*/
/** @defgroup _oai2  openair2 Reference Implementation
 * @ingroup _ref_implementation_
 * @{
 */

/*@}*/

#ifndef __LAYER2_MAC_DEFS_H__
#define __LAYER2_MAC_DEFS_H__



#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#include "COMMON/platform_constants.h"
#include "LTE_BCCH-BCH-Message.h"
#include "LTE_RadioResourceConfigCommon.h"
#include "LTE_RadioResourceConfigCommonSIB.h"
#include "LTE_RadioResourceConfigDedicated.h"
#include "LTE_MeasGapConfig.h"
#include "LTE_SchedulingInfoList.h"
#include "LTE_TDD-Config.h"
#include "LTE_RACH-ConfigCommon.h"
#include "LTE_MeasObjectToAddModList.h"
#include "LTE_MobilityControlInfo.h"
#if (LTE_RRC_VERSION >= MAKE_VERSION(9, 0, 0))
#include "LTE_MBSFN-AreaInfoList-r9.h"
#include "LTE_MBSFN-SubframeConfigList.h"
#include "LTE_PMCH-InfoList-r9.h"
#endif
#if (LTE_RRC_VERSION >= MAKE_VERSION(10, 0, 0))
#include "LTE_SCellToAddMod-r10.h"
#endif
#if (LTE_RRC_VERSION >= MAKE_VERSION(13, 0, 0))
#include "LTE_SystemInformationBlockType1-v1310-IEs.h"
#include "LTE_SystemInformationBlockType18-r12.h"
#endif
#if (LTE_RRC_VERSION >= MAKE_VERSION(14, 0, 0))
#include "LTE_BCCH-BCH-Message-MBMS.h"
#include "LTE_BCCH-DL-SCH-Message-MBMS.h"
#include "LTE_SystemInformationBlockType1-MBMS-r14.h"
#include "LTE_NonMBSFN-SubframeConfig-r14.h"
#endif
#include "LTE_RadioResourceConfigCommonSIB.h"
#include "nfapi_interface.h"
#include "PHY_INTERFACE/IF_Module.h"

#include "PHY/TOOLS/time_meas.h"

#include "PHY/defs_common.h" // for PRACH_RESOURCES_t
#include "PHY/LTE_TRANSPORT/transport_common.h"

#include "targets/ARCH/COMMON/common_lib.h"

/** @defgroup _mac  MAC
 * @ingroup _oai2
 * @{
 */

#define MAX_MAC_INST 16
#define BCCH_PAYLOAD_SIZE_MAX 128
#define CCCH_PAYLOAD_SIZE_MAX 128
#define PCCH_PAYLOAD_SIZE_MAX 128
#define RAR_PAYLOAD_SIZE_MAX 128

#define SCH_PAYLOAD_SIZE_MAX 8192
#define DCH_PAYLOAD_SIZE_MAX 4096
/// Logical channel ids from 36-311 (Note BCCH is not specified in 36-311, uses the same as first DRB)

#if (LTE_RRC_VERSION >= MAKE_VERSION(14, 0, 0))

// Mask for identifying subframe for MBMS
#define MBSFN_TDD_SF3 0x80	// for TDD
#define MBSFN_TDD_SF4 0x40
#define MBSFN_TDD_SF7 0x20
#define MBSFN_TDD_SF8 0x10
#define MBSFN_TDD_SF9 0x08
#define MBSFN_FDD_SF1 0x80	// for FDD
#define MBSFN_FDD_SF2 0x40
#define MBSFN_FDD_SF3 0x20
#define MBSFN_FDD_SF6 0x10
#define MBSFN_FDD_SF7 0x08
#define MBSFN_FDD_SF8 0x04

#define MAX_MBSFN_AREA 8
#define MAX_PMCH_perMBSFN 15
/*!\brief MAX MCCH payload size  */
#define MCCH_PAYLOAD_SIZE_MAX 128
//#define MCH_PAYLOAD_SIZE_MAX 16384// this value is using in case mcs and TBS index are high
#endif

#define printk printf

/*!\brief Maximum number of logical channl group IDs */
#define MAX_NUM_LCGID 4
/*!\brief logical channl group ID 0 */
#define LCGID0 0
/*!\brief logical channl group ID 1 */
#define LCGID1 1
/*!\brief logical channl group ID 2 */
#define LCGID2 2
/*!\brief logical channl group ID 3 */
#define LCGID3 3
/*!\brief Maximum number of logical chanels */
#define MAX_NUM_LCID 11
/*!\brief Maximum number od control elemenets */
#define MAX_NUM_CE 5
/*!\brief Maximum number of random access process */
#define NB_RA_PROC_MAX 4
/*!\brief size of buffer status report table */
#define BSR_TABLE_SIZE 64
/*!\brief The power headroom reporting range is from -23 ...+40 dB and beyond, with step 1 */
#define PHR_MAPPING_OFFSET 23	// if ( x>= -23 ) val = floor (x + 23)
/*!\brief maximum number of resource block groups */
#define N_RBG_MAX 25		// for 20MHz channel BW
/*!\brief minimum value for channel quality indicator */
#define MIN_CQI_VALUE  0
/*!\brief maximum value for channel quality indicator */
#define MAX_CQI_VALUE  15
/*!\briefmaximum number of supported bandwidth (1.4, 5, 10, 20 MHz) */
#define MAX_SUPPORTED_BW  4
/*!\brief CQI values range from 1 to 15 (4 bits) */
#define CQI_VALUE_RANGE 16

/*!\brief value for indicating BSR Timer is not running */
#define MAC_UE_BSR_TIMER_NOT_RUNNING   (0xFFFF)

#define LCID_EMPTY 0
#define LCID_NOT_EMPTY 1

/*!\brief minimum RLC PDU size to be transmitted = min RLC Status PDU or RLC UM PDU SN 5 bits */
#define MIN_RLC_PDU_SIZE    (2)

/*!\brief minimum MAC data needed for transmitting 1 min RLC PDU size + 1 byte MAC subHeader */
#define MIN_MAC_HDR_RLC_SIZE    (1 + MIN_RLC_PDU_SIZE)

/*!\brief maximum number of slices / groups */
#define MAX_NUM_SLICES 10


#define U_PLANE_INACTIVITY_VALUE 0   /* defined 10ms order (zero means infinity) */

/*
 * eNB part
 */


/*
 * UE/ENB common part
 */
/*!\brief MAC header of Random Access Response for Random access preamble identifier (RAPID) */
typedef struct {
    uint8_t RAPID:6;
    uint8_t T:1;
    uint8_t E:1;
} __attribute__ ((__packed__)) RA_HEADER_RAPID;

/*!\brief  MAC header of Random Access Response for backoff indicator (BI)*/
typedef struct {
    uint8_t BI:4;
    uint8_t R:2;
    uint8_t T:1;
    uint8_t E:1;
} __attribute__ ((__packed__)) RA_HEADER_BI;
/*
typedef struct {
  uint64_t padding:16;
  uint64_t t_crnti:16;
  uint64_t hopping_flag:1;
  uint64_t rb_alloc:10;
  uint64_t mcs:4;
  uint64_t TPC:3;
  uint64_t UL_delay:1;
  uint64_t cqi_req:1;
  uint64_t Timing_Advance_Command:11;  // first/2nd octet LSB
  uint64_t R:1;                        // octet MSB
  } __attribute__((__packed__))RAR_PDU;

typedef struct {
  uint64_t padding:16;
  uint64_t R:1;                        // octet MSB
  uint64_t Timing_Advance_Command:11;  // first/2nd octet LSB
  uint64_t cqi_req:1;
  uint64_t UL_delay:1;
  uint64_t TPC:3;
  uint64_t mcs:4;
  uint64_t rb_alloc:10;
  uint64_t hopping_flag:1;
  uint64_t t_crnti:16;
  } __attribute__((__packed__))RAR_PDU;

#define sizeof_RAR_PDU 6
*/
/*!\brief  MAC subheader short with 7bit Length field */
typedef struct {
    uint8_t LCID:5;		// octet 1 LSB
    uint8_t E:1;
    uint8_t R:2;		// octet 1 MSB
    uint8_t L:7;		// octet 2 LSB
    uint8_t F:1;		// octet 2 MSB
} __attribute__ ((__packed__)) SCH_SUBHEADER_SHORT;
/*!\brief  MAC subheader long  with 15bit Length field */
typedef struct {
    uint8_t LCID:5;		// octet 1 LSB
    uint8_t E:1;
    uint8_t R:2;		// octet 1 MSB
    uint8_t L_MSB:7;
    uint8_t F:1;		// octet 2 MSB
    uint8_t L_LSB:8;
    uint8_t padding;
} __attribute__ ((__packed__)) SCH_SUBHEADER_LONG;
/*!\brief MAC subheader short without length field */
typedef struct {
    uint8_t LCID:5;
    uint8_t E:1;
    uint8_t R:2;
} __attribute__ ((__packed__)) SCH_SUBHEADER_FIXED;



/*!\brief  MAC subheader long  with 24bit DST field */
typedef struct {
  uint8_t   R0:4;
  uint8_t   V:4;//Version number: Possible values "0001", "0010", "0011" based on TS36.321 section 6.2.3.
  uint8_t  SRC07; //Prose UE source ID. Size 24 bits.
  uint8_t  SRC815; //Prose UE source ID. Size 24 bits.
  uint8_t  SRC1623; //Prose UE source ID. Size 24 bits.
  uint8_t  DST07; //Prose UE destination ID. Size 24 bits.
  uint8_t  DST815; //Prose UE destination ID. Size 24 bits.
  uint8_t  DST1623; //Prose UE destination ID. Size 24 bits.
  uint8_t  LCID:5;
  uint8_t  E:1;
  uint8_t  R1:2;
  uint8_t  L:7;	// Length field indicating the size of the corresponding SDU in bytes.
  uint8_t  F:1;
}__attribute__((__packed__))SLSCH_SUBHEADER_24_Bit_DST_SHORT;

/*!\brief  MAC subheader long  with 24bit DST field */
typedef struct {
  uint8_t   R0:4;
  uint8_t   V:4;//Version number: Possible values "0001", "0010", "0011" based on TS36.321 section 6.2.3.
  uint8_t  SRC07; //Prose UE source ID. Size 24 bits.
  uint8_t  SRC815; //Prose UE source ID. Size 24 bits.
  uint8_t  SRC1623; //Prose UE source ID. Size 24 bits.
  uint8_t  DST07; //Prose UE destination ID. Size 24 bits.
  uint8_t  DST815; //Prose UE destination ID. Size 24 bits.
  uint8_t  DST1623; //Prose UE destination ID. Size 24 bits.
  uint8_t  LCID:5;
  uint8_t  E:1;
  uint8_t  R1:2;
  uint8_t  L_MSB:7;	// Length field indicating the size of the corresponding SDU in bytes.
  uint8_t  F:1;
  uint8_t  L_LSB:8;
}__attribute__((__packed__))SLSCH_SUBHEADER_24_Bit_DST_LONG;

/*!\brief  MAC subheader long  with 24bit DST field */
typedef struct {
  uint8_t   R0:4;
  uint8_t   V:4;//Version number: Possible values "0001", "0010", "0011" based on TS36.321 section 6.2.3.
  uint8_t  SRC07; //Prose UE source ID. Size 24 bits.
  uint8_t  SRC815; //Prose UE source ID. Size 24 bits.
  uint8_t  DST07; //Prose UE destination ID. Size 16 bits.
  uint8_t  DST815; //Prose UE destination ID. Size 16 bits.
  uint8_t  LCID:5;
  uint8_t  E:1;
  uint8_t  R1:2;
  uint8_t  L:7;	// Length field indicating the size of the corresponding SDU in bytes.
  uint8_t  F:1;
}__attribute__((__packed__))SLSCH_SUBHEADER_16_Bit_DST_SHORT;

/*!\brief  MAC subheader long  with 24bit DST field */
typedef struct {
  uint8_t   R0:4;
  uint8_t   V:4;//Version number: Possible values "0001", "0010", "0011" based on TS36.321 section 6.2.3.
  uint8_t  SRC07; //Prose UE source ID. Size 24 bits.
  uint8_t  SRC815; //Prose UE source ID. Size 24 bits.
  uint8_t  SRC1623; //Prose UE source ID. Size 24 bits.
  uint8_t  DST07; //Prose UE destination ID. Size 16 bits.
  uint8_t  DST815; //Prose UE destination ID. Size 16 bits.
  uint8_t  LCID:5;
  uint8_t  E:1;
  uint8_t  R1:2;
  uint8_t  L_MSB:7;	// Length field indicating the size of the corresponding SDU in bytes.
  uint8_t  F:1;
  uint8_t  L_LSB:8;
}__attribute__((__packed__))SLSCH_SUBHEADER_16_Bit_DST_LONG;

/*!\brief  mac control element: short buffer status report for a specific logical channel group ID*/
typedef struct {
    uint8_t Buffer_size:6;	// octet 1 LSB
    uint8_t LCGID:2;		// octet 1 MSB
} __attribute__ ((__packed__)) BSR_SHORT;

typedef BSR_SHORT BSR_TRUNCATED;
/*!\brief  mac control element: long buffer status report for all logical channel group ID*/
typedef struct {
    uint8_t Buffer_size3:6;
    uint8_t Buffer_size2:6;
    uint8_t Buffer_size1:6;
    uint8_t Buffer_size0:6;
} __attribute__ ((__packed__)) BSR_LONG;

/*!\brief  mac control element: sidelink buffer status report */
typedef struct {
	uint8_t DST_1:4;
	uint8_t LCGID_1: 2;
	uint8_t Buffer_size_1:6;
	uint8_t DST_2:4;
	uint8_t LCGID_2: 2;
	uint8_t Buffer_size_2:6;
}__attribute__((__packed__))SL_BSR;

/*!\brief  mac control element: truncated sidelink buffer status report */
typedef struct {
	uint8_t DST:4;
	uint8_t LCGID: 2;
	uint8_t Buffer_size:6;
	uint8_t R1:1;
	uint8_t R2:1;
	uint8_t R3:1;
	uint8_t R4:1;
}__attribute__((__packed__))SL_BSR_Truncated;



#define BSR_LONG_SIZE  (sizeof(BSR_LONG))
/*!\brief  mac control element: timing advance  */
typedef struct {
    uint8_t TA:6;
    uint8_t R:2;
} __attribute__ ((__packed__)) TIMING_ADVANCE_CMD;
/*!\brief  mac control element: power headroom report  */
typedef struct {
    uint8_t PH:6;
    uint8_t R:2;
} __attribute__ ((__packed__)) POWER_HEADROOM_CMD;

/*! \brief MIB payload */
typedef struct {
    uint8_t payload[3];
} __attribute__ ((__packed__)) MIB_PDU;
/*! \brief CCCH payload */
typedef struct {
    uint8_t payload[CCCH_PAYLOAD_SIZE_MAX];
} __attribute__ ((__packed__)) CCCH_PDU;
/*! \brief BCCH payload */
typedef struct {
    uint8_t payload[BCCH_PAYLOAD_SIZE_MAX];
} __attribute__ ((__packed__)) BCCH_PDU;
/*! \brief RAR payload */
typedef struct {
    uint8_t payload[RAR_PAYLOAD_SIZE_MAX];
} __attribute__ ((__packed__)) RAR_PDU;
/*! \brief BCCH payload */
typedef struct {
    uint8_t payload[PCCH_PAYLOAD_SIZE_MAX];
} __attribute__ ((__packed__)) PCCH_PDU;

#if (LTE_RRC_VERSION >= MAKE_VERSION(10, 0, 0))
/*! \brief MCCH payload */
typedef struct {
    uint8_t payload[MCCH_PAYLOAD_SIZE_MAX];
} __attribute__ ((__packed__)) MCCH_PDU;
/*!< \brief MAC control element for activation and deactivation of component carriers */
typedef struct {
    uint8_t C7:1;		/*!< \brief Component carrier 7 */
    uint8_t C6:1;		/*!< \brief Component carrier 6 */
    uint8_t C5:1;		/*!< \brief Component carrier 5 */
    uint8_t C4:1;		/*!< \brief Component carrier 4 */
    uint8_t C3:1;		/*!< \brief Component carrier 3 */
    uint8_t C2:1;		/*!< \brief Component carrier 2 */
    uint8_t C1:1;		/*!< \brief Component carrier 1 */
    uint8_t R:1;		/*!< \brief Reserved  */
} __attribute__ ((__packed__)) CC_ELEMENT;
/*! \brief MAC control element: MCH Scheduling Information */
typedef struct {
    uint8_t stop_sf_MSB:3;	// octet 1 LSB
    uint8_t lcid:5;		// octet 2 MSB
    uint8_t stop_sf_LSB:8;
} __attribute__ ((__packed__)) MSI_ELEMENT;
#endif
/*! \brief Values of CCCH LCID for DLSCH */
#define CCCH_LCHANID 0
/*!\brief Values of BCCH logical channel (fake)*/
#define BCCH 3			// SI
/*!\brief Values of PCCH logical channel (fake)*/
#define PCCH 4			// Paging
/*!\brief Values of PCCH logical channel (fake) */
#define MIBCH 5			// MIB
/*!\brief Values of BCCH SIB1_BR logical channel (fake) */
#define BCCH_SIB1_BR 6		// SIB1_BR
/*!\brief Values of BCCH SIB_BR logical channel (fake) */
#define BCCH_SI_BR 7		// SI-BR
#if (LTE_RRC_VERSION >= MAKE_VERSION(14, 0, 0))
/*!\brief Values of BCCH SIB1_BR logical channel (fake) */
#define BCCH_SIB1_MBMS 12              // SIB1_MBMS //TODO better armonize index
#define BCCH_SI_MBMS 13                // SIB_MBMS //TODO better armonize index
#endif
/*!\brief Value of CCCH / SRB0 logical channel */
#define CCCH 0			// srb0
/*!\brief DCCH / SRB1 logical channel */
#define DCCH 1			// srb1
/*!\brief DCCH1 / SRB2  logical channel */
#define DCCH1 2			// srb2
/*!\brief DTCH DRB1  logical channel */
#define DTCH 3			// LCID
/*!\brief MCCH logical channel */
//#define MCCH 4
//#define MCCH 62
#define MCCH 11
/*!\brief MTCH logical channel */
#define MTCH 1
// DLSCH LCHAN ID
/*!\brief LCID of UE contention resolution identity for DLSCH*/
#define UE_CONT_RES 28
/*!\brief LCID of timing advance for DLSCH */
#define TIMING_ADV_CMD 29
/*!\brief LCID of discontinous reception mode for DLSCH */
#define DRX_CMD 30
/*!\brief LCID of padding LCID for DLSCH */
#define SHORT_PADDING 31

#if (LTE_RRC_VERSION >= MAKE_VERSION(10, 0, 0))
// MCH LCHAN IDs (table6.2.1-4 TS36.321)
/*!\brief LCID of MCCH for DL */
#define MCCH_LCHANID 0
/*!\brief LCID of MCH scheduling info for DL */
#define MCH_SCHDL_INFO 30
/*!\brief LCID of Carrier component activation/deactivation */
#define CC_ACT_DEACT 27
//TTN (for D2D)
#define SL_DISCOVERY 8 //LCID (fake)
#define MAX_NUM_DEST 10
#endif

// ULSCH LCHAN IDs
/*!\brief LCID of extended power headroom for ULSCH */
#define EXTENDED_POWER_HEADROOM 25
/*!\brief LCID of power headroom for ULSCH */
#define POWER_HEADROOM 26
/*!\brief LCID of CRNTI for ULSCH */
#define CRNTI 27
/*!\brief LCID of truncated BSR for ULSCH */
#define TRUNCATED_BSR 28
/*!\brief LCID of short BSR for ULSCH */
#define SHORT_BSR 29
/*!\brief LCID of long BSR for ULSCH */
#define LONG_BSR 30
/*!\bitmaps for BSR Triggers */
#define	BSR_TRIGGER_NONE		(0)	/* No BSR Trigger */
#define	BSR_TRIGGER_REGULAR		(1)	/* For Regular and ReTxBSR Expiry Triggers */
#define	BSR_TRIGGER_PERIODIC	(2)	/* For BSR Periodic Timer Expiry Trigger */
#define	BSR_TRIGGER_PADDING		(4)	/* For Padding BSR Trigger */


/*! \brief Downlink SCH PDU Structure */
typedef struct {
    uint8_t payload[8][SCH_PAYLOAD_SIZE_MAX];
    uint16_t Pdu_size[8];
} __attribute__ ((__packed__)) DLSCH_PDU;


/*! \brief MCH PDU Structure */
typedef struct {
    int8_t payload[SCH_PAYLOAD_SIZE_MAX];
    uint16_t Pdu_size;
    uint8_t mcs;
    uint8_t sync_area;
    uint8_t msi_active;
    uint8_t mcch_active;
    uint8_t mtch_active;
} __attribute__ ((__packed__)) MCH_PDU;

/*! \brief Uplink SCH PDU Structure */
typedef struct {
    int8_t payload[SCH_PAYLOAD_SIZE_MAX];	/*!< \brief SACH payload */
    uint16_t Pdu_size;
} __attribute__ ((__packed__)) ULSCH_PDU;

/*! \brief Uplink SCH PDU Structure */
typedef struct {
  int8_t payload[DCH_PAYLOAD_SIZE_MAX];         /*!< \brief SACH payload */
  uint16_t Pdu_size;
} __attribute__ ((__packed__)) ULDCH_PDU;

/*!\brief RA process state*/
typedef enum {
    IDLE = 0,
    MSG2,
    WAITMSG3,
    MSG4,
    WAITMSG4ACK,
    MSGCRNTI,
    MSGCRNTI_ACK
} RA_state;

/*!\brief  UE ULSCH scheduling states*/
typedef enum {
    S_UL_NONE = 0,
    S_UL_WAITING,
    S_UL_SCHEDULED,
    S_UL_BUFFERED,
    S_UL_NUM_STATUS
} UE_ULSCH_STATUS;

/*!\brief  UE DLSCH scheduling states*/
typedef enum {
    S_DL_NONE = 0,
    S_DL_WAITING,
    S_DL_SCHEDULED,
    S_DL_BUFFERED,
    S_DL_NUM_STATUS
} UE_DLSCH_STATUS;

/*!\brief  scheduling policy for the contention-based access */
typedef enum {
    CBA_ES = 0,			/// equal share of RB among groups w
    CBA_ES_S,			/// equal share of RB among groups with small allocation
    CBA_PF,			/// proportional fair (kind of)
    CBA_PF_S,			/// proportional fair (kind of) with small RB allocation
    CBA_RS			/// random allocation
} CBA_POLICY;

/*!\brief  scheduler mode */
typedef enum {
    SCHED_MODE_DEFAULT = 0,			/// default cheduler
    SCHED_MODE_FAIR_RR			/// fair raund robin
} SCHEDULER_MODES;


/*! \brief temporary struct for ULSCH sched */
typedef struct {
    rnti_t rnti;
    uint16_t subframe;
    uint16_t serving_num;
    UE_ULSCH_STATUS status;
} eNB_ULSCH_INFO;

/*! \brief temp struct for DLSCH sched */
typedef struct {
    rnti_t rnti;
    uint16_t weight;
    uint16_t subframe;
    uint16_t serving_num;
    UE_DLSCH_STATUS status;
} eNB_DLSCH_INFO;

/*! \brief eNB overall statistics */
typedef struct {
    /// num BCCH PDU per CC
    uint32_t total_num_bcch_pdu;
    /// BCCH buffer size
    uint32_t bcch_buffer;
    /// total BCCH buffer size
    uint32_t total_bcch_buffer;
    /// BCCH MCS
    uint32_t bcch_mcs;

    /// num CCCH PDU per CC
    uint32_t total_num_ccch_pdu;
    /// BCCH buffer size
    uint32_t ccch_buffer;
    /// total BCCH buffer size
    uint32_t total_ccch_buffer;
    /// BCCH MCS
    uint32_t ccch_mcs;

  /// num PCCH PDU per CC
  uint32_t total_num_pcch_pdu;
  /// PCCH buffer size
  uint32_t pcch_buffer;
  /// total PCCH buffer size
  uint32_t total_pcch_buffer;
  /// BCCH MCS
  uint32_t pcch_mcs;

/// num active users
    uint16_t num_dlactive_UEs;
    ///  available number of PRBs for a give SF
    uint16_t available_prbs;
    /// total number of PRB available for the user plane
    uint32_t total_available_prbs;
    /// aggregation
    /// total avilable nccc : num control channel element
    uint16_t available_ncces;
    // only for a new transmission, should be extended for retransmission
    // current dlsch  bit rate for all transport channels
    uint32_t dlsch_bitrate;
    //
    uint32_t dlsch_bytes_tx;
    //
    uint32_t dlsch_pdus_tx;
    //
    uint32_t total_dlsch_bitrate;
    //
    uint32_t total_dlsch_bytes_tx;
    //
    uint32_t total_dlsch_pdus_tx;

    // here for RX
    //
    uint32_t ulsch_bitrate;
    //
    uint32_t ulsch_bytes_rx;
    //
    uint64_t ulsch_pdus_rx;

    uint32_t total_ulsch_bitrate;
    //
    uint32_t total_ulsch_bytes_rx;
    //
    uint32_t total_ulsch_pdus_rx;


    /// MAC agent-related stats
    /// total number of scheduling decisions
    int sched_decisions;
    /// missed deadlines
    int missed_deadlines;

} eNB_STATS;

/*! \brief eNB statistics for the connected UEs*/
typedef struct {
    /// CRNTI of UE
    rnti_t crnti;		///user id (rnti) of connected UEs
    // rrc status
    uint8_t rrc_status;
    /// harq pid
    uint8_t harq_pid;
    /// harq rounf
    uint8_t harq_round;
    /// total available number of PRBs for a new transmission
    uint16_t rbs_used;
    /// total available number of PRBs for a retransmission
    uint16_t rbs_used_retx;
    /// total nccc used for a new transmission: num control channel element
    uint16_t ncce_used;
    /// total avilable nccc for a retransmission: num control channel element
    uint16_t ncce_used_retx;

    // mcs1 before the rate adaptaion
    uint8_t dlsch_mcs1;
    /// Target mcs2 after rate-adaptation
    uint8_t dlsch_mcs2;
    //  current TBS with mcs2
    uint32_t TBS;
    //  total TBS with mcs2
    //  uint32_t total_TBS;
    //  total rb used for a new transmission
    uint32_t total_rbs_used;
    //  total rb used for retransmission
    uint32_t total_rbs_used_retx;

    /// TX
    /// Num pkt
    uint32_t num_pdu_tx[NB_RB_MAX];
    /// num bytes
    uint32_t num_bytes_tx[NB_RB_MAX];
    /// num retransmission / harq
    uint32_t num_retransmission;
    /// instantaneous tx throughput for each TTI
    //  uint32_t tti_throughput[NB_RB_MAX];
    // Number of received MAC SDU
    uint32_t num_mac_sdu_tx;
    // LCID related to SDU
    unsigned char lcid_sdu[NB_RB_MAX];
    // Length of SDU Got from LC DL
    uint32_t sdu_length_tx[NB_RB_MAX];


    /// overall
    //
    uint32_t dlsch_bitrate;
    //total
    uint32_t total_dlsch_bitrate;
    /// headers+ CE +  padding bytes for a MAC PDU
    uint64_t overhead_bytes;
    /// headers+ CE +  padding bytes for a MAC PDU
    uint64_t total_overhead_bytes;
    /// headers+ CE +  padding bytes for a MAC PDU
    uint64_t avg_overhead_bytes;
    // MAC multiplexed payload
    uint64_t total_sdu_bytes;
    // total MAC pdu bytes
    uint64_t total_pdu_bytes;

    // total num pdu
    uint32_t total_num_pdus;
    //
    //  uint32_t avg_pdu_size;

    /// RX

    /// PUCCH1a/b power (dBm)
    int32_t Po_PUCCH_dBm;
    /// Indicator that Po_PUCCH has been updated by PHY
    int32_t Po_PUCCH_update;
    /// Uplink measured RSSI
    int32_t UL_rssi;
    /// preassigned mcs after rate adaptation
    uint8_t ulsch_mcs1;
    /// adjusted mcs
    uint8_t ulsch_mcs2;

    /// estimated average pdu inter-departure time
    uint32_t avg_pdu_idt;
    /// estimated average pdu size
    uint32_t avg_pdu_ps;
    ///
    uint32_t aggregated_pdu_size;
    uint32_t aggregated_pdu_arrival;

    ///  uplink transport block size
    uint32_t ulsch_TBS;

    uint32_t total_ulsch_TBS;

    ///  total rb used for a new uplink transmission
    uint32_t num_retransmission_rx;
    ///  total rb used for a new uplink transmission
    uint32_t rbs_used_rx;
    ///  total rb used for a new uplink retransmission
    uint32_t rbs_used_retx_rx;
    ///  total rb used for a new uplink transmission
    uint32_t total_rbs_used_rx;
    /// snr
    int32_t snr;
    /// target snr
    int32_t target_snr;

    /// num rx pdu
    uint32_t num_pdu_rx[NB_RB_MAX];
    /// num bytes rx
    uint32_t num_bytes_rx[NB_RB_MAX];
    /// instantaneous rx throughput for each TTI
    //  uint32_t tti_goodput[NB_RB_MAX];
    /// errors
    uint32_t num_errors_rx;

    uint64_t overhead_bytes_rx;
    /// headers+ CE +  padding bytes for a MAC PDU
    uint64_t total_overhead_bytes_rx;
    /// headers+ CE +  padding bytes for a MAC PDU
    uint64_t avg_overhead_bytes_rx;
    //
    uint32_t ulsch_bitrate;
    //total
    uint32_t total_ulsch_bitrate;
    /// overall
    ///  MAC pdu bytes
    uint64_t pdu_bytes_rx;
    /// total MAC pdu bytes
    uint64_t total_pdu_bytes_rx;
    /// total num pdu
    uint32_t total_num_pdus_rx;
    /// num of error pdus
    uint32_t total_num_errors_rx;
    // Number of error PDUS
    uint32_t num_mac_sdu_rx;
    // Length of SDU Got from LC UL - Size array can be refined
    uint32_t      sdu_length_rx[NB_RB_MAX];

} eNB_UE_STATS;
/*! \brief eNB template for UE context information  */

typedef struct {
    /// C-RNTI of UE
    rnti_t rnti;
    /// NDI from last scheduling
    uint8_t oldNDI[8];
    /// mcs1 from last scheduling
    uint8_t oldmcs1[8];
    /// mcs2 from last scheduling
    uint8_t oldmcs2[8];
    /// NDI from last UL scheduling
    uint8_t oldNDI_UL[8];
    /// mcs from last UL scheduling
    uint8_t mcs_UL[8];
    /// TBS from last UL scheduling
    int TBS_UL[8];
    /// Flag to indicate UL has been scheduled at least once
    boolean_t ul_active;
    /// Flag to indicate UE has been configured (ACK from RRCConnectionSetup received)
    boolean_t configured;

    /// MCS from last scheduling
    uint8_t mcs[8];

    /// TPC from last scheduling
    uint8_t oldTPC[8];

    // PHY interface info

    /// Number of Allocated RBs for DL after scheduling (prior to frequency allocation)
    uint16_t nb_rb[8];		// num_max_harq

    /// Number of Allocated RBs for UL after scheduling
    uint16_t nb_rb_ul[8];	// num_max_harq

    /// Number of Allocated RBs for UL after scheduling
    uint16_t first_rb_ul[8];	// num_max_harq

    /// Is CQI requested for UL after scheduling 1st transmission
    uint8_t cqi_req[8];         // num_max_harq

    /// Cyclic shift for DMRS after scheduling
    uint16_t cshift[8];		// num_max_harq

    /// Number of Allocated RBs by the ulsch preprocessor
    uint8_t pre_allocated_nb_rb_ul[MAX_NUM_SLICES];

    /// index of Allocated RBs by the ulsch preprocessor
    int8_t pre_allocated_rb_table_index_ul;

    /// total allocated RBs
    int8_t total_allocated_rbs;

    /// pre-assigned MCS by the ulsch preprocessor
    uint8_t pre_assigned_mcs_ul;

    /// assigned MCS by the ulsch scheduler
    uint8_t assigned_mcs_ul;

    /// DL DAI
    uint8_t DAI;

    /// UL DAI
    uint8_t DAI_ul[10];

    /// UL Scheduling Request Received
    uint8_t ul_SR;

    ///Resource Block indication for each sub-band in MU-MIMO
    uint8_t rballoc_subband[8][50];

    // Logical channel info for link with RLC

    /// LCGID mapping
    long lcgidmap[11];

	///UE logical channel priority
    long lcgidpriority[11];

    /// phr information
    int8_t phr_info;

    /// phr information
    int8_t phr_info_configured;

    ///dl buffer info
    uint32_t dl_buffer_info[MAX_NUM_LCID];
    /// total downlink buffer info
    uint32_t dl_buffer_total;
    /// total downlink pdus
    uint32_t dl_pdus_total;
    /// downlink pdus for each LCID
    uint32_t dl_pdus_in_buffer[MAX_NUM_LCID];
    /// creation time of the downlink buffer head for each LCID
    uint32_t dl_buffer_head_sdu_creation_time[MAX_NUM_LCID];
    /// maximum creation time of the downlink buffer head across all LCID
    uint32_t dl_buffer_head_sdu_creation_time_max;
    /// a flag indicating that the downlink head SDU is segmented
    uint8_t dl_buffer_head_sdu_is_segmented[MAX_NUM_LCID];
    /// size of remaining size to send for the downlink head SDU
    uint32_t dl_buffer_head_sdu_remaining_size_to_send[MAX_NUM_LCID];

    /// uplink buffer creation time for each LCID
    uint32_t ul_buffer_creation_time[MAX_NUM_LCGID];
    /// maximum uplink buffer creation time across all the LCIDs
    uint32_t ul_buffer_creation_time_max;
    /// uplink buffer size per LCID
    uint32_t ul_buffer_info[MAX_NUM_LCGID];

    /// uplink bytes that are currently scheduled
    int scheduled_ul_bytes;
    /// estimation of the UL buffer size
    int estimated_ul_buffer;

    /// UE tx power
    int32_t ue_tx_power;

    /// stores the frame where the last TPC was transmitted
    uint32_t pusch_tpc_tx_frame;
    uint32_t pusch_tpc_tx_subframe;
    uint32_t pucch_tpc_tx_frame;
    uint32_t pucch_tpc_tx_subframe;


#if (LTE_RRC_VERSION >= MAKE_VERSION(14, 0, 0))
    uint8_t rach_resource_type;
    uint16_t mpdcch_repetition_cnt;
    frame_t Msg2_frame;
    /// Repetition column in pusch_repetition Table 8.2.b in TS36.213
    uint8_t pusch_repetition_levels;
#endif
    sub_frame_t Msg2_subframe;

    LTE_PhysicalConfigDedicated_t *physicalConfigDedicated;

} UE_TEMPLATE;

/*! \brief scheduling control information set through an API (not used)*/
typedef struct {
    ///UL transmission bandwidth in RBs
    uint8_t ul_bandwidth[MAX_NUM_LCID];
    ///DL transmission bandwidth in RBs
    uint8_t dl_bandwidth[MAX_NUM_LCID];

    //To do GBR bearer
    uint8_t min_ul_bandwidth[MAX_NUM_LCID];

    uint8_t min_dl_bandwidth[MAX_NUM_LCID];

    ///aggregated bit rate of non-gbr bearer per UE
    uint64_t ue_AggregatedMaximumBitrateDL;
    ///aggregated bit rate of non-gbr bearer per UE
    uint64_t ue_AggregatedMaximumBitrateUL;
    ///CQI scheduling interval in subframes.
    uint16_t cqiSchedInterval;
    ///Contention resolution timer used during random access
    uint8_t mac_ContentionResolutionTimer;

    uint16_t max_rbs_allowed_slice[NFAPI_CC_MAX][MAX_NUM_SLICES];
    uint16_t max_rbs_allowed_slice_uplink[NFAPI_CC_MAX][MAX_NUM_SLICES];

    uint8_t max_mcs[MAX_NUM_LCID];

    uint16_t priority[MAX_NUM_LCID];

    // resource scheduling information

    /// Current DL harq round per harq_pid on each CC
    uint8_t round[NFAPI_CC_MAX][10];
    /// Current Active TBs per harq_pid on each CC
    uint8_t tbcnt[NFAPI_CC_MAX][10];
    /// Current UL harq round per harq_pid on each CC
    uint8_t round_UL[NFAPI_CC_MAX][8];
    uint8_t dl_pow_off[NFAPI_CC_MAX];
    uint16_t pre_nb_available_rbs[NFAPI_CC_MAX];
    unsigned char rballoc_sub_UE[NFAPI_CC_MAX][N_RBG_MAX];
    uint16_t ta_timer;
    int16_t ta_update;
    uint16_t ul_consecutive_errors;
    int32_t context_active_timer;
    /// timer for regular CQI request on PUSCH
    int32_t cqi_req_timer;
    /// indicator that CQI was received on PUSCH when requested
    int32_t cqi_received;
    int32_t ul_inactivity_timer;
    int32_t ul_failure_timer;
    uint32_t ue_reestablishment_reject_timer;
    uint32_t ue_reestablishment_reject_timer_thres;
    int32_t ul_scheduled;
    int32_t ra_pdcch_order_sent;
    int32_t ul_out_of_sync;
    int32_t phr_received;
    uint8_t periodic_ri_received[NFAPI_CC_MAX];
    uint8_t aperiodic_ri_received[NFAPI_CC_MAX];
    uint8_t pucch1_cqi_update[NFAPI_CC_MAX];
    uint8_t pucch1_snr[NFAPI_CC_MAX];
    uint8_t pucch2_cqi_update[NFAPI_CC_MAX];
    uint8_t pucch2_snr[NFAPI_CC_MAX];
    uint8_t pucch3_cqi_update[NFAPI_CC_MAX];
    uint8_t pucch3_snr[NFAPI_CC_MAX];
    uint8_t pusch_snr[NFAPI_CC_MAX];
    uint16_t feedback_cnt[NFAPI_CC_MAX];
    uint16_t timing_advance;
    uint16_t timing_advance_r9;
    uint8_t tpc_accumulated[NFAPI_CC_MAX];
    uint8_t periodic_wideband_cqi[NFAPI_CC_MAX];
    uint8_t periodic_wideband_spatial_diffcqi[NFAPI_CC_MAX];
    uint8_t periodic_wideband_pmi[NFAPI_CC_MAX];
    uint8_t periodic_subband_cqi[NFAPI_CC_MAX][16];
    uint8_t periodic_subband_spatial_diffcqi[NFAPI_CC_MAX][16];
    uint8_t aperiodic_subband_cqi0[NFAPI_CC_MAX][25];
    uint8_t aperiodic_subband_pmi[NFAPI_CC_MAX][25];
    uint8_t aperiodic_subband_diffcqi0[NFAPI_CC_MAX][25];
    uint8_t aperiodic_subband_cqi1[NFAPI_CC_MAX][25];
    uint8_t aperiodic_subband_diffcqi1[NFAPI_CC_MAX][25];
    uint8_t aperiodic_wideband_cqi0[NFAPI_CC_MAX];
    uint8_t aperiodic_wideband_pmi[NFAPI_CC_MAX];
    uint8_t aperiodic_wideband_cqi1[NFAPI_CC_MAX];
    uint8_t aperiodic_wideband_pmi1[NFAPI_CC_MAX];
    uint8_t dl_cqi[NFAPI_CC_MAX];
    int32_t uplane_inactivity_timer;
    uint8_t crnti_reconfigurationcomplete_flag;
    uint8_t cqi_req_flag;

    /* HARQ RRT Timers */
    /// (UL) HARQ RTT timers, especially used for CDRX operations, one timer per cell per harq process (and per user)
    uint8_t harq_rtt_timer[NFAPI_CC_MAX][8];
    uint8_t ul_harq_rtt_timer[NFAPI_CC_MAX][8]; // Note: UL HARQ RTT timers are only for asynchronous HARQ processes
    uint8_t ul_synchronous_harq_timer[NFAPI_CC_MAX][8];  // These timers are used for UL synchronous HARQ processes

    /* C-DRX related timers */
    /* Note: only valid for FDD and LTE UE when this comment is written (11-01-19)*/
    /// is TRUE if the cqi mask feature is activated by RRC configuration
    boolean_t cqi_mask_boolean;
    /// is TRUE if the following drx parameters are configured for UE
    boolean_t cdrx_configured;
    /* 
     * if TRUE, the eNB has configured the CDRX locally, but is waiting for the UE to acknowledge 
     * the activation. This is needed, during the RRC configuration process, when the context is
     * configured on the eNB side, but not yet on the UE side...
     */
    boolean_t cdrx_waiting_ack;
    /*
     * Is set when a ULSCH scheduling is done and run until the first corresponding transmission is done (4 subframes). 
     * When set, SR cannot be set for the UE. This allows OAI to avoid concidering a SR as uncompleted if the UE sends
     * a SR just after a periodic DCI0 ULSCH scheduling. Without CDRX there is no problem, but with CDRX this case would
     * create a lost in timers synchronization.
     */ 
    uint8_t dci0_ongoing_timer;
    /// is TRUE if the UE is in "Active Time", hence listening to PDCCH
    boolean_t in_active_time;
    /// OnDurationTimer
    uint16_t  on_duration_timer;
    uint16_t  on_duration_timer_thres;
    /// drx-InactivityTimer
    uint16_t  drx_inactivity_timer;
    uint16_t  drx_inactivity_timer_thres;
    /// is TRUE if UE is currently in short DRX cycle
    boolean_t in_short_drx_cycle;
    /// drxShortCycleTimer int (1..16) (number of short DRX cycles duration before long DRX cycles)
    uint8_t  drx_shortCycle_timer_value;
    /// shortDRX-Cycle (duration of one short DRX cycle)
    uint16_t   short_drx_cycle_duration;
    /// DRX short cycle timer before switching to long DRX cycle = drx_shortCycle_timer_value * short_drx_cycle_duration
    uint16_t  drx_shortCycle_timer;
    uint16_t  drx_shortCycle_timer_thres;
    /// is TRUE if UE is currently in long DRX cycle
    boolean_t in_long_drx_cycle;
    /// longDRX-CycleStartOffset (long DRX cycle timer)
    uint16_t  drx_longCycle_timer;
    uint16_t  drx_longCycle_timer_thres;
    /// longDRX-CycleStartOffset (offset value)
    uint16_t  drx_start_offset;
    /// DRX retransmission timer, one per DL HARQ process
    uint8_t   drx_retransmission_timer[8];
    uint8_t   drx_retransmission_timer_thres[8];
    /// DRX UL retransmission timer, one per UL HARQ process
    /* Not implemented yet */
    /* End of C-DRX related timers */
} UE_sched_ctrl_t;

/*! \brief eNB template for the Random access information */
typedef struct {
  /// Flag to indicate this process is active
  RA_state state;
  /// Subframe where preamble was received
  uint8_t preamble_subframe;
  /// Subframe where Msg2 is to be sent
  uint8_t Msg2_subframe;
  /// Frame where Msg2 is to be sent
  frame_t Msg2_frame;
  /// Subframe where Msg3 is to be sent
  sub_frame_t Msg3_subframe;
  /// Frame where Msg3 is to be sent
  frame_t Msg3_frame;
  /// Delay cnt for Msg4 transmission (waiting for RRC message piggyback)
  int Msg4_delay_cnt;
  /// Subframe where Msg4 is to be sent
  sub_frame_t Msg4_subframe;
  /// Frame where Msg4 is to be sent
  frame_t Msg4_frame;
  /// harq_pid used for Msg4 transmission
  uint8_t harq_pid;
  /// UE RNTI allocated during RAR
  rnti_t rnti;
  /// RA RNTI allocated from received PRACH
  uint16_t RA_rnti;
  /// Received preamble_index
  uint8_t preamble_index;
  /// Received UE Contention Resolution Identifier
  uint8_t cont_res_id[6];
  /// Timing offset indicated by PHY
  int16_t timing_offset;
  /// Timeout for RRC connection
  int16_t RRC_timer;
  /// Msg3 first RB
  uint8_t msg3_first_rb;
  /// Msg3 number of RB
  uint8_t msg3_nb_rb;
  /// Msg3 MCS
  uint8_t msg3_mcs;
  /// Msg3 TPC command
  uint8_t msg3_TPC;
  /// Msg3 ULdelay command
  uint8_t msg3_ULdelay;
  /// Msg3 cqireq command
  uint8_t msg3_cqireq;
  /// Round of Msg3 HARQ
  uint8_t msg3_round;
  /// TBS used for Msg4
  int msg4_TBsize;
  /// MCS used for Msg4
  int msg4_mcs;
#if (LTE_RRC_VERSION >= MAKE_VERSION(14, 0, 0))
  uint8_t rach_resource_type;
  uint8_t msg2_mpdcch_repetition_cnt;
  int     msg2_mpdcch_done;
  uint8_t msg4_mpdcch_repetition_cnt;
  int     msg4_mpdcch_done;
  uint8_t msg2_narrowband;
  uint8_t msg34_narrowband;
  int     msg4_rrc_sdu_length;
  /// Repetition column in pusch_repetition Table 8.2.b in TS36.213
  uint8_t pusch_repetition_levels;
#endif
  int32_t  crnti_rrc_mui;
  int8_t   crnti_harq_pid;
} RA_t;


/*! \brief subband bitmap confguration (for ALU icic algo purpose), in test phase */
typedef struct {
    uint8_t sbmap[13];	//13 = number of SB MAX for 100 PRB
    uint8_t periodicity;
    uint8_t first_subframe;
    uint8_t sb_size;
    uint8_t nb_active_sb;
} SBMAP_CONF;
/*! \brief UE list used by eNB to order UEs/CC for scheduling*/
typedef struct {

  DLSCH_PDU DLSCH_pdu[NFAPI_CC_MAX][2][MAX_MOBILES_PER_ENB];
  /// DCI template and MAC connection parameters for UEs
  UE_TEMPLATE UE_template[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB];
  /// DCI template and MAC connection for RA processes
  int pCC_id[MAX_MOBILES_PER_ENB];
  /// sorted downlink component carrier for the scheduler
  int ordered_CCids[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB];
  /// number of downlink active component carrier
  int numactiveCCs[MAX_MOBILES_PER_ENB];
  /// sorted uplink component carrier for the scheduler
  int ordered_ULCCids[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB];
  /// number of uplink active component carrier
  int numactiveULCCs[MAX_MOBILES_PER_ENB];
  /// number of downlink active component carrier
  uint8_t dl_CC_bitmap[MAX_MOBILES_PER_ENB];
  /// eNB to UE statistics
  eNB_UE_STATS eNB_UE_stats[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB];
  /// scheduling control info
  UE_sched_ctrl_t UE_sched_ctrl[MAX_MOBILES_PER_ENB];
  int next[MAX_MOBILES_PER_ENB];
  int head;
  int next_ul[MAX_MOBILES_PER_ENB];
  int head_ul;
  int avail;
  int num_UEs;
  boolean_t active[MAX_MOBILES_PER_ENB];

  /// Sorting criteria for the UE list in the MAC preprocessor
  uint16_t sorting_criteria[MAX_NUM_SLICES][CR_NUM];
  uint16_t first_rb_offset[NFAPI_CC_MAX][MAX_NUM_SLICES];

  int assoc_dl_slice_idx[MAX_MOBILES_PER_ENB];
  int assoc_ul_slice_idx[MAX_MOBILES_PER_ENB];
} UE_list_t;

/*! \brief deleting control information*/
typedef struct {
    ///rnti of UE
    rnti_t rnti;
    ///remove UE context flag
    boolean_t removeContextFlg;
} UE_free_ctrl_t;
/*! \brief REMOVE UE list used by eNB to order UEs/CC for deleting*/
typedef struct {
    /// deleting control info
    UE_free_ctrl_t UE_free_ctrl[NUMBER_OF_UE_MAX+1];
    int num_UEs;
    int head_freelist; ///the head position of the delete list
    int tail_freelist; ///the tail position of the delete list
} UE_free_list_t;

/// Structure for saving the output of each pre_processor instance
typedef struct {
    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  slice_allocation_mask[NFAPI_CC_MAX][N_RBG_MAX];
    uint8_t  MIMO_mode_indicator[NFAPI_CC_MAX][N_RBG_MAX];

    uint32_t bytes_lcid[MAX_MOBILES_PER_ENB][MAX_NUM_LCID];
    uint32_t wb_pmi[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB];
    uint8_t  mcs[NFAPI_CC_MAX][MAX_MOBILES_PER_ENB];

} pre_processor_results_t;

/**
 * slice specific scheduler for the DL
 */
typedef void (*slice_scheduler_dl)(module_id_t mod_id,
                                   int         slice_idx,
                                   frame_t     frame,
                                   sub_frame_t subframe,
                                   int        *mbsfn_flag);

typedef struct {
    slice_id_t id;

    /// RB share for each slice
    float     pct;

    /// whether this slice is isolated from the others
    int       isol;

    int       prio;

    /// Frequency ranges for slice positioning
    int       pos_low;
    int       pos_high;

    // max mcs for each slice
    int       maxmcs;

    /// criteria for sorting policies of the slices
    uint32_t  sorting;

    /// Accounting policy (just greedy(1) or fair(0) setting for now)
    int       accounting;

    /// name of available scheduler
    char     *sched_name;

    /// pointer to the slice specific scheduler in DL
    slice_scheduler_dl sched_cb;

} slice_sched_conf_dl_t;

typedef void (*slice_scheduler_ul)(module_id_t   mod_id,
                                   int           slice_idx,
                                   frame_t       frame,
                                   sub_frame_t   subframe,
                                   unsigned char sched_subframe,
                                   uint16_t     *first_rb);

typedef struct {
    slice_id_t id;

    /// RB share for each slice
    float     pct;

    // MAX MCS for each slice
    int       maxmcs;

    /// criteria for sorting policies of the slices
    uint32_t  sorting;

    /// starting RB (RB offset) of UL scheduling
    int       first_rb;

    /// name of available scheduler
    char     *sched_name;

    /// pointer to the slice specific scheduler in UL
    slice_scheduler_ul sched_cb;

} slice_sched_conf_ul_t;


typedef struct {
    /// counter used to indicate when all slices have pre-allocated UEs
    //int      slice_counter;

    /// indicates whether remaining RBs after first intra-slice allocation will
    /// be allocated to UEs of the same slice
    int       intraslice_share_active;
    /// indicates whether remaining RBs after slice allocation will be
    /// allocated to UEs of another slice. Isolated slices will be ignored
    int       interslice_share_active;

    /// number of active DL slices
    int      n_dl;
    slice_sched_conf_dl_t dl[MAX_NUM_SLICES];

    /// number of active UL slices
    int      n_ul;
    slice_sched_conf_ul_t ul[MAX_NUM_SLICES];

    pre_processor_results_t pre_processor_results[MAX_NUM_SLICES];

    /// common rb allocation list between slices
    uint8_t rballoc_sub[NFAPI_CC_MAX][N_RBG_MAX];
} slice_info_t;

/*! \brief eNB common channels */
typedef struct {
    int physCellId;
    int p_eNB;
    int Ncp;
    int eutra_band;
    uint32_t dl_CarrierFreq;
    LTE_BCCH_BCH_Message_t *mib;
    LTE_RadioResourceConfigCommonSIB_t *radioResourceConfigCommon;
#if (LTE_RRC_VERSION >= MAKE_VERSION(14, 0, 0))
    LTE_RadioResourceConfigCommonSIB_t *radioResourceConfigCommon_BR;
    LTE_SchedulingInfoList_MBMS_r14_t *schedulingInfoList_MBMS;
#endif
    LTE_TDD_Config_t *tdd_Config;
    LTE_SchedulingInfoList_t *schedulingInfoList;
    LTE_ARFCN_ValueEUTRA_t ul_CarrierFreq;
    long ul_Bandwidth;
    /// Outgoing MIB PDU for PHY
    MIB_PDU MIB_pdu;
    /// Outgoing BCCH pdu for PHY
    BCCH_PDU BCCH_pdu;
    /// Outgoing BCCH DCI allocation
    uint32_t BCCH_alloc_pdu;
    /// Outgoing CCCH pdu for PHY
    CCCH_PDU CCCH_pdu;
    /// Outgoing PCCH DCI allocation
    uint32_t PCCH_alloc_pdu;
    /// Outgoing PCCH pdu for PHY
    PCCH_PDU PCCH_pdu;
    /// Outgoing RAR pdu for PHY
    RAR_PDU RAR_pdu;
    /// Template for RA computations
    RA_t ra[NB_RA_PROC_MAX];
    /// VRB map for common channels
    uint8_t vrb_map[100];
    /// VRB map for common channels and retransmissions by PHICH
    uint8_t vrb_map_UL[100];
    /// MBSFN SubframeConfig
    struct LTE_MBSFN_SubframeConfig *mbsfn_SubframeConfig[8];
#if (LTE_RRC_VERSION >= MAKE_VERSION(14, 0, 0))
    struct LTE_NonMBSFN_SubframeConfig_r14 *non_mbsfn_SubframeConfig;
#endif
    /// number of subframe allocation pattern available for MBSFN sync area
    uint8_t num_sf_allocation_pattern;
#if (LTE_RRC_VERSION >= MAKE_VERSION(10, 0, 0))
    /// MBMS Flag
    uint8_t MBMS_flag;
    /// Outgoing MCCH pdu for PHY
    MCCH_PDU MCCH_pdu;
    /// MCCH active flag
    uint8_t msi_active;
    /// MCCH active flag
    uint8_t mcch_active;
    /// MTCH active flag
    uint8_t mtch_active;
    /// number of active MBSFN area
    uint8_t num_active_mbsfn_area;
    /// MBSFN Area Info
    struct LTE_MBSFN_AreaInfo_r9 *mbsfn_AreaInfo[MAX_MBSFN_AREA];
    /// PMCH Config
    struct LTE_PMCH_Config_r9 *pmch_Config[MAX_PMCH_perMBSFN];
    /// MBMS session info list
    struct LTE_MBMS_SessionInfoList_r9 *mbms_SessionList[MAX_PMCH_perMBSFN];
    /// Outgoing MCH pdu for PHY
    MCH_PDU MCH_pdu;
#endif
#if (LTE_RRC_VERSION >= MAKE_VERSION(13, 0, 0))
    /// Rel13 parameters from SIB1
    LTE_SystemInformationBlockType1_v1310_IEs_t *sib1_v13ext;
    /// Counter for SIB1-BR scheduling
    int SIB1_BR_cnt;
    /// Outgoing BCCH-BR pdu for PHY
    BCCH_PDU BCCH_BR_pdu[20];
#endif
#if (LTE_RRC_VERSION >= MAKE_VERSION(14, 0, 0))
    BCCH_PDU BCCH_MBMS_pdu;
    uint8_t FeMBMS_flag;
#endif

} COMMON_channels_t;
/*! \brief top level eNB MAC structure */
typedef struct eNB_MAC_INST_s {
    /// Ethernet parameters for northbound midhaul interface
  eth_params_t eth_params_n;
  /// Ethernet parameters for fronthaul interface
  eth_params_t eth_params_s;
  ///
  module_id_t Mod_id;
  /// frame counter
  frame_t frame;
  /// subframe counter
  sub_frame_t subframe;
  /// Pointer to IF module instance for PHY
  IF_Module_t *if_inst;
  /// Common cell resources
  COMMON_channels_t common_channels[NFAPI_CC_MAX];
  /// current PDU index (BCH,MCH,DLSCH)
  int16_t pdu_index[NFAPI_CC_MAX];
  
  /// NFAPI Config Request Structure
  nfapi_config_request_t config[NFAPI_CC_MAX];
  /// Preallocated DL pdu list
  nfapi_dl_config_request_pdu_t
  dl_config_pdu_list[NFAPI_CC_MAX][MAX_NUM_DL_PDU];
  /// NFAPI DL Config Request Structure
  nfapi_dl_config_request_t DL_req[NFAPI_CC_MAX];
  /// Preallocated UL pdu list
  nfapi_ul_config_request_pdu_t
  ul_config_pdu_list[NFAPI_CC_MAX][MAX_NUM_UL_PDU];
  /// Preallocated UL pdu list for ULSCH (n+k delay)
  nfapi_ul_config_request_pdu_t
  ul_config_pdu_list_tmp[NFAPI_CC_MAX][10][MAX_NUM_UL_PDU];
  /// NFAPI UL Config Request Structure, send to L1 4 subframes before processing takes place
  nfapi_ul_config_request_t UL_req[NFAPI_CC_MAX];
  /// NFAPI "Temporary" UL Config Request Structure, holds future UL_config requests
  nfapi_ul_config_request_t UL_req_tmp[NFAPI_CC_MAX][10];
  /// Preallocated HI_DCI0 pdu list
  nfapi_hi_dci0_request_pdu_t
  hi_dci0_pdu_list[NFAPI_CC_MAX][10][MAX_NUM_HI_DCI0_PDU];
  /// NFAPI HI/DCI0 Config Request Structure
  nfapi_hi_dci0_request_t HI_DCI0_req[NFAPI_CC_MAX][10];
  /// Prealocated TX pdu list
  nfapi_tx_request_pdu_t
  tx_request_pdu[NFAPI_CC_MAX][MAX_NUM_TX_REQUEST_PDU];
  /// NFAPI DL PDU structure
  nfapi_tx_request_t TX_req[NFAPI_CC_MAX];
  /// NFAPI UE_release_req structure
  nfapi_ue_release_request_t UE_release_req;
  /// UL handle
  uint32_t ul_handle;
  UE_list_t UE_list;

  /// slice-related configuration
  slice_info_t slice_info;

  ///subband bitmap configuration
  SBMAP_CONF sbmap_conf;
  /// CCE table used to build DCI scheduling information
  int CCE_table[NFAPI_CC_MAX][800];
  ///  active flag for Other lcid
  uint8_t lcid_active[NB_RB_MAX];
  /// eNB stats
  eNB_STATS eNB_stats[NFAPI_CC_MAX];
  // MAC function execution peformance profiler
  /// processing time of eNB scheduler
  time_stats_t eNB_scheduler;
  /// processing time of eNB scheduler for SI
  time_stats_t schedule_si;
#if (LTE_RRC_VERSION >= MAKE_VERSION(10, 0, 0))
  time_stats_t schedule_si_mbms;
#endif
  /// processing time of eNB scheduler for Random access
  time_stats_t schedule_ra;
  /// processing time of eNB ULSCH scheduler
  time_stats_t schedule_ulsch;
  /// processing time of eNB DCI generation
  time_stats_t fill_DLSCH_dci;
  /// processing time of eNB MAC preprocessor
  time_stats_t schedule_dlsch_preprocessor;
  /// processing time of eNB DLSCH scheduler
  time_stats_t schedule_dlsch;	// include rlc_data_req + MAC header + preprocessor
  /// processing time of eNB MCH scheduler
  time_stats_t schedule_mch;
  /// processing time of eNB ULSCH reception
  time_stats_t rx_ulsch_sdu;	// include rlc_data_ind
  /// processing time of eNB PCH scheduler
  time_stats_t schedule_pch;

  UE_free_list_t UE_free_list;
  /// for scheduling selection
  SCHEDULER_MODES scheduler_mode;

  int32_t puSch10xSnr;
  int32_t puCch10xSnr;
} eNB_MAC_INST;

/*
 * UE part
 */

typedef enum {
    TYPE0,
    TYPE1,
    TYPE1A,
    TYPE2,
    TYPE2A,
    TYPEUESPEC
} MPDCCH_TYPES_t;

/*!\brief UE layer 2 status */
typedef enum {
    CONNECTION_OK = 0,
    CONNECTION_LOST,
    PHY_RESYNCH,
    PHY_HO_PRACH
} UE_L2_STATE_t;

/*!\brief UE scheduling info */
typedef struct {
    /// buffer status for each lcgid
    uint8_t BSR[MAX_NUM_LCGID];	// should be more for mesh topology
    /// keep the number of bytes in rlc buffer for each lcgid
    int32_t BSR_bytes[MAX_NUM_LCGID];
    /// after multiplexing buffer remain for each lcid
    int32_t LCID_buffer_remain[MAX_NUM_LCID];
    /// sum of all lcid buffer size
    uint16_t All_lcid_buffer_size_lastTTI;
    /// buffer status for each lcid
    uint8_t LCID_status[MAX_NUM_LCID];
    /// SR pending as defined in 36.321
    uint8_t SR_pending;
    /// SR_COUNTER as defined in 36.321
    uint16_t SR_COUNTER;
    /// logical channel group ide for each LCID
    uint8_t LCGID[MAX_NUM_LCID];
    /// retxBSR-Timer, default value is sf2560
    uint16_t retxBSR_Timer;
    /// retxBSR_SF, number of subframe before triggering a regular BSR
    uint16_t retxBSR_SF;
    /// periodicBSR-Timer, default to infinity
    uint16_t periodicBSR_Timer;
    /// periodicBSR_SF, number of subframe before triggering a periodic BSR
    uint16_t periodicBSR_SF;
    /// default value is 0: not configured
    uint16_t sr_ProhibitTimer;
    /// sr ProhibitTime running
    uint8_t sr_ProhibitTimer_Running;
    ///  default value to n5
    uint16_t maxHARQ_Tx;
    /// default value is false
    uint16_t ttiBundling;
    /// default value is release
    struct LTE_DRX_Config *drx_config;
    /// default value is release
    struct LTE_MAC_MainConfig__phr_Config *phr_config;
    ///timer before triggering a periodic PHR
    uint16_t periodicPHR_Timer;
    ///timer before triggering a prohibit PHR
    uint16_t prohibitPHR_Timer;
    ///DL Pathloss change value
    uint16_t PathlossChange;
    ///number of subframe before triggering a periodic PHR
    int16_t periodicPHR_SF;
    ///number of subframe before triggering a prohibit PHR
    int16_t prohibitPHR_SF;
    ///DL Pathloss Change in db
    uint16_t PathlossChange_db;

    /// default value is false
    uint16_t extendedBSR_Sizes_r10;
    /// default value is false
    uint16_t extendedPHR_r10;

    //Bj bucket usage per  lcid
    int16_t Bj[MAX_NUM_LCID];
    // Bucket size per lcid
    int16_t bucket_size[MAX_NUM_LCID];
} UE_SCHEDULING_INFO;
/*!\brief Top level UE MAC structure */

typedef struct {
    uint16_t Node_id;
    /// RX frame counter
    frame_t rxFrame;
    /// RX subframe counter
    sub_frame_t rxSubframe;
    /// TX frame counter
    frame_t txFrame;
    /// TX subframe counter
    sub_frame_t txSubframe;
    /// C-RNTI of UE
    uint16_t crnti;
    /// C-RNTI of UE before HO
    rnti_t crnti_before_ho;	///user id (rnti) of connected UEs
    /// uplink active flag
    uint8_t ul_active;
    /// pointer to RRC PHY configuration
    LTE_RadioResourceConfigCommonSIB_t *radioResourceConfigCommon;
    /// pointer to RACH_ConfigDedicated (NULL when not active, i.e. upon HO completion or T304 expiry)
    struct LTE_RACH_ConfigDedicated *rach_ConfigDedicated;
    /// pointer to RRC PHY configuration
    struct LTE_PhysicalConfigDedicated *physicalConfigDedicated;
#if (LTE_RRC_VERSION >= MAKE_VERSION(10, 0, 0))
  /// pointer to RRC PHY configuration SCEll
  struct LTE_PhysicalConfigDedicatedSCell_r10 *physicalConfigDedicatedSCell_r10;
  /// Preconfiguration for Sidelink
  struct LTE_SL_Preconfiguration_r12 *SL_Preconfiguration;
  /// RX Pool for Sidelink from SIB18
  LTE_SL_CommRxPoolList_r12_t	 commRxPool_r12;
  /// TX Pool Normal for Sidelink from SIB18
  struct LTE_SL_CommTxPoolList_r12	*commTxPoolNormalCommon_r12;
  /// TX Pool Exceptional for Sidelink from SIB18
  struct LTE_SL_CommTxPoolList_r12	*commTxPoolExceptional_r12;
  /// Common Sync Config for Sidelink from SIB18
  struct LTE_SL_SyncConfigList_r12	*commSyncConfig_r12;
  /// Dedicated Sync TX control for Sidelink
  struct LTE_SL_SyncTxControl_r12 *sl_SyncTxControl_r12;
  /// Dedicated Discovery TX control for Sidelink
  struct LTE_SL_DiscConfig_r12	*sl_DiscConfig_r12;
  /// Dedicated TX config for Sidelink
  struct LTE_SL_CommConfig_r12	*sl_CommConfig_r12;
  //SL sourceL2ID
  uint32_t sourceL2Id;
  //SL groupL2Id
  uint32_t groupL2Id;
  //SL destinationL2Id
  uint32_t destinationL2Id;
  //List of destinations
  uint32_t destinationList[MAX_NUM_DEST];
  uint8_t numCommFlows;
  uint32_t  SL_LCID[MAX_NUM_LCID];

#endif
    /// pointer to TDD Configuration (NULL for FDD)
    LTE_TDD_Config_t *tdd_Config;
    /// Number of adjacent cells to measure
    uint8_t n_adj_cells;
    /// Array of adjacent physical cell ids
    uint32_t adj_cell_id[6];
    /// Pointer to RRC MAC configuration
    LTE_MAC_MainConfig_t *macConfig;
    /// Pointer to RRC Measurement gap configuration
    LTE_MeasGapConfig_t *measGapConfig;
    /// Pointers to LogicalChannelConfig indexed by LogicalChannelIdentity. Note NULL means LCHAN is inactive.
    LTE_LogicalChannelConfig_t *logicalChannelConfig[MAX_NUM_LCID];
    /// Scheduling Information
    UE_SCHEDULING_INFO scheduling_info;
    /// Outgoing CCCH pdu for PHY
    CCCH_PDU CCCH_pdu;
    /// Outgoing RAR pdu for PHY
    RAR_PDU RAR_pdu;
    /// Incoming DLSCH pdu for PHY
    DLSCH_PDU DLSCH_pdu[MAX_MOBILES_PER_ENB][2];
#if (LTE_RRC_VERSION >= MAKE_VERSION(14, 0, 0))
    int sltx_active;
    SLSCH_t slsch;
    SLDCH_t sldch;
    ULSCH_PDU slsch_pdu;
    int slsch_lcid;
#endif
    /// number of attempt for rach
    uint8_t RA_attempt_number;
    /// Random-access procedure flag
    uint8_t RA_active;
    /// Random-access window counter
    int8_t RA_window_cnt;
    /// Random-access Msg3 size in bytes
    uint8_t RA_Msg3_size;
    /// Random-access prachMaskIndex
    uint8_t RA_prachMaskIndex;
    /// Flag indicating Preamble set (A,B) used for first Msg3 transmission
    uint8_t RA_usedGroupA;
    /// Random-access Resources
    PRACH_RESOURCES_t RA_prach_resources;
    /// Random-access PREAMBLE_TRANSMISSION_COUNTER
    uint8_t RA_PREAMBLE_TRANSMISSION_COUNTER;
    /// Random-access backoff counter
    int16_t RA_backoff_cnt;
    /// Random-access variable for window calculation (frame of last change in window counter)
    uint32_t RA_tx_frame;
    /// Random-access variable for window calculation (subframe of last change in window counter)
    uint8_t RA_tx_subframe;
    /// Random-access Group B maximum path-loss
    /// Random-access variable for backoff (frame of last change in backoff counter)
    uint32_t RA_backoff_frame;
    /// Random-access variable for backoff (subframe of last change in backoff counter)
    uint8_t RA_backoff_subframe;
    /// Random-access Group B maximum path-loss
    uint16_t RA_maxPL;
    /// Random-access Contention Resolution Timer active flag
    uint8_t RA_contention_resolution_timer_active;
    /// Random-access Contention Resolution Timer count value
    uint8_t RA_contention_resolution_cnt;
    /// power headroom reporitng reconfigured
    uint8_t PHR_reconfigured;
    /// power headroom state as configured by the higher layers
    uint8_t PHR_state;
    /// power backoff due to power management (as allowed by P-MPRc) for this cell
    uint8_t PHR_reporting_active;
    /// power backoff due to power management (as allowed by P-MPRc) for this cell
    uint8_t power_backoff_db[MAX_eNB];
    /// BSR report falg management
    uint8_t BSR_reporting_active;
    /// retxBSR-Timer expires flag
    uint8_t retxBSRTimer_expires_flag;
    /// periodBSR-Timer expires flag
    uint8_t periodBSRTimer_expires_flag;

    /// MBSFN_Subframe Configuration
    struct LTE_MBSFN_SubframeConfig *mbsfn_SubframeConfig[8];	// FIXME replace 8 by MAX_MBSFN_AREA?
#if (LTE_RRC_VERSION >= MAKE_VERSION(14, 0, 0))
    struct LTE_NonMBSFN_SubframeConfig_r14 *non_mbsfn_SubframeConfig;
#endif
    /// number of subframe allocation pattern available for MBSFN sync area
    uint8_t num_sf_allocation_pattern;
#if (LTE_RRC_VERSION >= MAKE_VERSION(9, 0, 0))
    /// number of active MBSFN area
    uint8_t num_active_mbsfn_area;
    /// MBSFN Area Info
    struct LTE_MBSFN_AreaInfo_r9 *mbsfn_AreaInfo[MAX_MBSFN_AREA];
    /// PMCH Config
    struct LTE_PMCH_Config_r9 *pmch_Config[MAX_PMCH_perMBSFN];
    /// MCCH status
    uint8_t mcch_status;
    /// MSI status
    uint8_t msi_status_v[28];
    uint8_t msi_current_alloc;
    uint8_t msi_pmch;

    struct LTE_MBSFN_SubframeConfig *commonSF_Alloc_r9_mbsfn_SubframeConfig[8]; // FIXME replace 8 by MAX_MBSFN_AREA?
    uint8_t commonSF_AllocPeriod_r9;
    int common_num_sf_alloc;

    uint8_t pmch_lcids[28];
    uint16_t pmch_stop_mtch[28];
#endif
  //#ifdef CBA
  /// CBA RNTI for each group
  uint16_t cba_rnti[NUM_MAX_CBA_GROUP];
  /// last SFN for CBA channel access
  uint8_t cba_last_access[NUM_MAX_CBA_GROUP];
  //#endif
  /// total UE scheduler processing time
  time_stats_t ue_scheduler; // total
  /// UE ULSCH tx  processing time inlcuding RLC interface (rlc_data_req) and mac header generation
  time_stats_t tx_ulsch_sdu;
  /// UE DLSCH rx  processing time inlcuding RLC interface (mac_rrc_data_ind or mac_rlc_status_ind+mac_rlc_data_ind) and mac header parser
  time_stats_t rx_dlsch_sdu ;
  /// UE query for MCH subframe processing time
  time_stats_t ue_query_mch;
  /// UE MCH rx processing time
  time_stats_t rx_mch_sdu;
  /// UE BCCH rx processing time including RLC interface (mac_rrc_data_ind)
  time_stats_t rx_si;
  /// UE PCCH rx processing time including RLC interface (mac_rrc_data_ind)
  time_stats_t rx_p;
  /// Mutex for nfapi UL_INFO
  pthread_mutex_t      UL_INFO_mutex;
  /// UE_Mode variable should be used in the case of Phy_stub operation since we won't have access to PHY_VARS_UE
  /// where the UE_mode originally is for the full stack operation mode. The transitions between the states of the UE_Mode
  /// will be triggered within phy_stub_ue.c in this case
  UE_MODE_t        UE_mode[NUMBER_OF_CONNECTED_eNB_MAX];
  /// Phy_stub mode: Boolean variable to distinguish whether a Msg3 or a regular ULSCH data pdu should be generated
  /// after the reception of NFAPI_UL_CONFIG_ULSCH_PDU_TYPE.
  uint8_t first_ULSCH_Tx;
  uint8_t SI_Decoded;
  int ra_frame; 	// This variable keeps the frame in which the RA started for the specific UE. It is used in order
                    // to make sure that different UEs RA starts within a number of frames difference.

  eth_params_t         eth_params_n;

} UE_MAC_INST;
/*! \brief ID of the neighboring cells used for HO*/
typedef struct {
    uint16_t cell_ids[6];
    uint8_t n_adj_cells;
} neigh_cell_id_t;

typedef struct {
  volatile uint8_t flag;
  rnti_t rnti;
  mui_t  rrc_eNB_mui;
}RRC_release_ctrl_t;
 
typedef struct {
    uint16_t num_UEs;
    RRC_release_ctrl_t RRC_release_ctrl[NUMBER_OF_UE_MAX];
} RRC_release_list_t;

typedef  struct {
  uint8_t                      rrc_mui_num;
  mui_t                        rrc_mui[128];
}mac_rlc_am_muilist_t;

#include "mac_proto.h"

/*@}*/
#endif /*__LAYER2_MAC_DEFS_H__ */