/******************************************************************************* ################################################################################ # Copyright (c) [2017-2019] [Radisys] # # # # Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 # # # # 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. # ################################################################################ *******************************************************************************/ #ifndef __DU_CONFIG_H_ #define __DU_CONFIG_H__ #ifdef O1_ENABLE #include "CmInterface.h" #endif /* MACROS */ #define DU_INST 0 #define DU_ID 1 #ifndef O1_ENABLE #define DU_IP_V4_ADDR "192.168.130.81" #define CU_IP_V4_ADDR "192.168.130.82" #define RIC_IP_V4_ADDR "192.168.130.80" #define DU_PORT 38472 #define CU_PORT 38472 #define RIC_PORT 36421 #endif #define DU_EGTP_PORT 39001 #define CU_EGTP_PORT 39003 #define NR_PCI 1 #define NR_CELL_ID 1 #define DU_NAME "ORAN_OAM_DU" #define CELL_TYPE SMALL //TODO: while testing for TDD, Mu1 and 100 MHz, this flag must be enabled #ifdef NR_TDD #define DUPLEX_MODE DUP_MODE_TDD #define NR_NUMEROLOGY 1 #define NR_DL_ARFCN 623400 #define NR_UL_ARFCN 623400 #define NR_FREQ_BAND 78 #define NR_SCS SCS_30KHZ #define NR_BANDWIDTH BANDWIDTH_100MHZ #else #define DUPLEX_MODE DUP_MODE_FDD #define NR_NUMEROLOGY 0 #define NR_DL_ARFCN 428000 #define NR_UL_ARFCN 390000 #define NR_FREQ_BAND 1 #define NR_SCS SCS_15KHZ #define NR_BANDWIDTH BANDWIDTH_20MHZ #endif #define TRANS_ID 1 #define DU_TAC 1 #define PLMN_MCC0 3 #define PLMN_MCC1 1 #define PLMN_MCC2 1 #define PLMN_MNC0 4 #define PLMN_MNC1 8 #define PLMN_MNC2 0 #define PLMN_SIZE 3 /* Spec 38.104 Table 5.4.2.3-1:Applicable NR-ARFCN per operating band in FR1 */ #define SUL_ARFCN 100 #define SUL_BAND 2 #define TIME_CFG 0 #define CARRIER_IDX 1 #define NUM_TX_ANT 2 #define NUM_RX_ANT 2 #define FREQ_SHIFT_7P5KHZ FALSE #define SSB_PBCH_PWR 0 #define BCH_PAYLOAD PHY_GEN_TIMING_PBCH_BIT #define NORMAL_CYCLIC_PREFIX 0 #define OFFSET_TO_POINT_A 24 /* PRB Offset to Point A */ #define BETA_PSS BETA_PSS_0DB #define SSB_PERIODICITY_5MS 5 #define SSB_PERIODICITY_10MS 10 #define SSB_PERIODICITY_20MS 20 #define SSB_PERIODICITY_40MS 40 #define SSB_PERIODICITY_80MS 80 #define SSB_PERIODICITY_160MS 160 #define SSB_SUBCARRIER_OFFSET 0 #define SSB_MULT_CARRIER_BAND FALSE #define MULT_CELL_CARRIER FALSE #define FREQ_LOC_BW 28875 /* DL frequency location and bandwidth. Spec 38.508 Table 4.3.1.0B-1*/ #define UL_P_MAX 23 #define DMRS_TYPE_A_POS 2 #define NUM_SYMBOLS_PER_SLOT 14 /* Number of symbols within a slot */ #define CORESET0_END_PRB 48 #define CORESET1_NUM_PRB 24 /* MACRO defines for PRACH Configuration */ #define PRACH_CONFIG_IDX 88 #define PRACH_MAX_PRB 24 /* As per (spec 38.211-Table 6.3.3.2-1), max allocated PRBs can go upto 24 */ #define PRACH_FREQ_START (MAX_NUM_RB - PRACH_MAX_PRB) /* In order to allocate PRACH from end of the resource grid */ #define PRACH_SEQ_LEN SHORT_SEQUENCE #define PRACH_SUBCARRIER_SPACING NR_SCS #define PRACH_RESTRICTED_SET_CFG 0 #define NUM_PRACH_FDM 1 #define ROOT_SEQ_IDX 0 #define NUM_ROOT_SEQ 1 #define ZERO_CORRELATION_ZONE_CFG 4 #define NUM_UNUSED_ROOT_SEQ 0 #define UNUSED_ROOT_SEQ 1 #define SSB_PER_RACH 1 #define PRACH_MULT_CARRIER_BAND FALSE #define PRACH_PREAMBLE_RCVD_TGT_PWR -74 #define NUM_RA_PREAMBLE 63 #define RSRP_THRESHOLD_SSB 31 #ifdef NR_TDD #define TDD_PERIODICITY TX_PRDCTY_MS_5 #endif #define RSS_MEASUREMENT_UNIT DONT_REPORT_RSSI #define RA_CONT_RES_TIMER 64 #define RA_RSP_WINDOW 10 #define PRACH_RESTRICTED_SET 0 /* Unrestricted */ #define ROOT_SEQ_LEN 139 /* MACRCO Ddefine for PDCCH Configuration */ #define PDCCH_SEARCH_SPACE_ID 1 /* Common search space id */ #define PDCCH_CTRL_RSRC_SET_ID 0 /* Control resource set id */ #define PDCCH_SEARCH_SPACE_ID_SIB1 1 /* Search space id for sib1 */ #define PDCCH_SEARCH_SPACE_ID_PAGING 1 /* Search space id for paging */ #define PDCCH_SEARCH_SPACE_ID_RA 1 /* Search spaced id for random access */ #define PDCCH_SERACH_SPACE_DCI_FORMAT 0 #define PDCCH_CTRL_RSRC_SET_ONE_ID 1 #define PDCCH_CTRL_RSRC_SET_ONE_DURATION 2 /* Duration for control resource set id i */ #define PDCCH_CTRL_RSRC_SET_ONE_PRECOD_GRANULARITY 1 /* Precoded granularity */ #define PDCCH_SRCH_SPC_TWO_ID 2 #define PDCCH_SRCH_SPC_TWO_AGG_LVL1_CANDIDATE 7 /* Num of candidate at aggregation level 1 */ #define PDCCH_SRCH_SPC_TWO_AGG_LVL2_CANDIDATE 7 /* Num of candidate at aggregation level 2 */ #define PDCCH_SRCH_SPC_TWO_AGG_LVL4_CANDIDATE 4 /* Num of candidate at aggregation level 4 */ #define PDCCH_SRCH_SPC_TWO_AGG_LVL8_CANDIDATE 2 /* Num of candidate at aggregation level 8 */ #define PDCCH_SRCH_SPC_TWO_AGG_LVL16_CANDIDATE 1 /* Num of candidate at aggregation level 16 */ #define PDCCH_SRCH_SPC_TWO_UE_SPEC_DCI_FORMAT 0 /* format 0-0 and 1-0 */ #define PDCCH_SYMBOL_WITHIN_SLOT 128 /* Symbol within Slot Value */ #define SIB1_VALUE_TAG 10 /* MACRO Ddefine for PDSCH Configuration */ #define NUM_TIME_DOM_RSRC_ALLOC 2 #define PDSCH_K0_CFG1 0 #define PDSCH_K0_CFG2 1 #define PDSCH_START_SYMBOL 3 #define PDSCH_LENGTH_SYMBOL 11 #define PDSCH_RES_ALLOC_TYPE 1 /* Resource allocation type */ #define PDSCH_MAX_CODEWORD_SCH_BY_DCI 0 /* Max num of codewords scheduled by DCI */ #define PDSCH_RBG_SIZE 0 /* 0: config1 */ #define PDSCH_NUM_HARQ_PROC 5 /* MACRO Define for PUSCH Configuration */ #define MAX_UL_ALLOC 16 #define PUSCH_K2_CFG1 4 #define PUSCH_K2_CFG2 5 #define PUSCH_START_SYMBOL 3 #define PUSCH_LENGTH_SYMBOL 11 #define PUSCH_MSG3_DELTA_PREAMBLE 0 #define PUSCH_P0_NOMINAL_WITH_GRANT -70 #define PUSCH_TRANSFORM_PRECODER 1 /* 1: Disabled */ #define PUSCH_MAX_MIMO_LAYERS 1 #define PUSCH_PROCESS_TYPE2_ENABLED false /* Macro define for PUCCH Configuration */ #define PUCCH_RSRC_COMMON 0 #define PUCCH_GROUP_HOPPING 0 /* Neither sequence hopping nor group hopping */ #define PUCCH_P0_NOMINAL -74 /* MACRO defines for TDD DL-UL Configuration */ #define NUM_DL_SLOTS 7 #define NUM_DL_SYMBOLS 12 #define NUM_UL_SLOTS 2 #define NUM_UL_SYMBOLS 1 #define GUARD_SLOT_IDX 7 /* MACRO defines for SRC config */ #define SRS_RSRC_ID 1 #define SRS_RSET_ID 1 #define SRS_COMB_OFFSET_N2 0 #define SRS_CYCLIC_SHIFT_N2 0 #define SRS_FREQ_DOM_POS 0 #define SRS_FREQ_DOM_SHIFT 0 #define C_SRS 0 #define B_SRS 0 #define B_HOP 0 #define SRS_SEQ_ID 0 #define APERIODIC_SRS_RESRC_TRIGGER 1 #define DU_PROC 0 #define DU_INST 0 #define DU_POOL 1 #define MAX_DU_PORT 2 #define F1_INTERFACE 0 #define E2_INTERFACE 1 #define SCTP_INST 0 #define EGTP_INST 0 /* Events */ #define EVTCFG 0 /* Macro definitions for F1 procedures */ #define CU_DU_NAME_LEN_MAX 30 /* Max length of CU/DU name string */ #define MAX_F1_CONNECTIONS 65536 /* Max num of F1 connections */ #define MAX_PLMN 1 /* Max num of broadcast PLMN ids */ #define MAXNRARFCN 3279165 /* Maximum values of NRAFCN */ #define MAX_NRCELL_BANDS 2 /* Maximum number of frequency bands */ #define MAX_NUM_OF_SLICE_ITEMS 1024 /* Maximum number of signalled slice support items */ #define MAX_BPLMN_NRCELL_MINUS_1 1 /* Maximum number of PLMN Ids broadcast in an NR cell minus 1 */ #define MAXNUMOFSIBTYPES 32 /* Maximum number of SIB types */ #define MAX_TNL_ASSOC 32 /* Max num of TNL Assoc between CU and DU */ #define MAXCELLINENB 256 /* Max num of cells served by eNB */ #define MAX_NUM_OF_UE_ID 65536 /* Max num of UEs served by DU */ #define MAXNUMOFUACPLMN 12 /* Maximum number of PLMN ids*/ #define MAXNUMOFUACPERPLMN 64 /* Maximum number of signalled categories per PLMN */ #define NR_RANAC 150 /* RANAC */ #define DEFAULT_CELLS 1 /* Max num of broadcast PLMN ids */ #define IE_EXTENSION_LIST_COUNT 1 /* Macro definitions for MIB/SIB1 */ #define SYS_FRAME_NUM 0 #define SPARE 0 #define SSB_SC_OFFSET 0 #define DU_RANAC 1 #define CELL_IDENTITY 16 /* Macro definitions for DUtoCuRrcContainer */ #define CELL_GRP_ID 0 #define SCH_REQ_ID 0 #define SR_PROHIBIT_TMR 5 #define SR_TRANS_MAX 2 #define PERIODIC_BSR_TMR 2 #define RETX_BSR_TMR 5 #define SR_DELAY_TMR 6 #define TAG_ID 0 #define TIME_ALIGNMENT_TMR 7 #define PHR_PERIODIC_TMR 7 #define PHR_PROHIBHIT_TMR 0 #define PHR_PWR_FACTOR_CHANGE 3 #define PHR_MODE_OTHER_CG 0 #define SN_FIELD_LEN 1 #define T_POLL_RETRANSMIT 8 /* Enum for 45ms */ #define T_POLL_RETRANSMIT_VAL 45 /* Value in ms */ #define POLL_PDU 0 /* Enum for 4 pdus */ #define POLL_PDU_VAL 4 /* Value of poll pdu */ #define POLL_BYTE 43 /* Enum for infinite poll bytes */ #define POLL_BYTE_VAL -1 /* Value for infinite poll byte */ #define MAX_RETX_THRESHOLD 5 /* Enum for 8 retransmissions */ #define MAX_RETX_THRESHOLD_VAL 8 /* Value for 8 retransmissions */ #define T_REASSEMBLY 8 /* enum for RE_ASM_40MS */ #define T_REASSEMBLY_VAL 40 /* default re assembly timer */ #define T_STATUS_PROHIBHIT 7 /* enum for PROH_35MS */ #define T_STATUS_PROHIBHIT_VAL 35 /* default status prohibit timer */ #define MAC_LC_PRIORITY 1 #define PRIORTISIED_BIT_RATE 15 #define BUCKET_SIZE_DURATION 5 #define LC_GRP 0 #define P_NR_FR1 0 #define PDSCH_HARQ_ACK_CODEBOOK 1 #define SERV_CELL_IDX 0 #define RLM_SYNC_OUT_SYNC_THRESHOLD 0 #define ACTIVE_DL_BWP_ID 0 #define ACTIVE_UL_BWP_ID 0 #define SCRAMBLING_ID NR_PCI #define DMRS_ADDITIONAL_POS 0 /* DMRS Additional poistion */ #define RES_ALLOC_TYPE 1 /* Resource allocation type */ /* MACRO definitions for modulcation order */ #define MOD_ORDER_QPSK 2 #define MOD_ORDER_QAM16 4 #define MOD_ORDER_QAM64 6 #define MOD_ORDER_QAM256 8 #define PDSCH_MCS_INDEX 20 /* For 64QAM, valid mcs index: 17-28 in 38.214 - Table 5.1.3.1-1*/ #define PUSCH_MCS_INDEX 10 /* For 16QAM, valid mcs index: 10-16 in 38.214 - Table 5.1.3.1-1*/ /*VALID Tunnel ID*/ #define MIN_TEID 1 /*[Spec 29.281,Sec 5.1]: All Zero TEIDs are never assigned for setting up GTP-U Tunnel*/ #define MAX_TEID MAX_NUM_DRB * MAX_NUM_UE /*[Spec 29.281]: Max limit is not mentioned but as per GTP-U Header Format, TEID occupies 4 octets */ /* Slice Ratio */ #define MAX_RATIO 30 #define MIN_RATIO 20 #define DEDICATED_RATIO 10 #define NUM_OF_SUPPORTED_SLICE 2 typedef enum { GNBDU, GNBCU }F1Entity; typedef enum { SERV_CELL_TO_MODIFY, SERV_CELL_TO_DELETE }ServCellAction; typedef enum { UNSPECIFIED, RL_FAILURE_RLC, INVALID_CU_UE_F1AP_ID, INVALID_DU_UE_F1AP_ID, INTERACTION_WITH_OTHER_PROC, INVALID_QCI_VALUE, RADIO_RELATED_REASON, INSUFFICIENT_RADIO_RESOURCE, PROCEDURE_CANCELLED, NORMAL_RELEASE, UNAVAILABLE_CELL, RL_FAILURE_OTHERS, UE_ACCESS_REJECTED, SLICE_RESOURCE_UNAVAILABLE, AMF_ABNORMAL_RELEASE, INVALID_PLMN }RadioNwCause; typedef enum { TRANS_CAUSE_UNSPECIFIED, TRANSPORT_RESOURCE_UNAVAIL }TransLayerCause; typedef enum { TRANSFER_SYNTAX_ERR, ABSTRACT_SYNTAX_ERR_REJECT, ABSTRACT_SYNTAX_ERR_NOTIFY, INCOMPATIBLE_MESSAGE, SEMANTIC_ERROR, ABSTRACT_SYNTAX_ERR_MSG_CONSTRUCT, PROTOCOL_CAUSE_UNSPECIFIED }ProtocolCause; typedef enum { CONTROL_PROC_OVERLOAD, INSUFF_USER_PLANE_RESOURCE, HARDWARE_FAILURE, O_AND_M_INTERVENTION, MISC_CAUSE_UNSPECIFIED }MiscCause; typedef enum { ALL }F1ResetAll; typedef enum { IN_SERVICE, OUT_OF_SERVICE }SrvState; typedef enum { INITIATING_MSG, SUCCESSFUL_OUTCOME, UNSUCCESSFUL_OUTCOME }F1TriggMsgVal; typedef enum { CRIT_REJECT, CRIT_IGNORE, CRIT_NOTIFY }F1ProcCritVal; typedef enum { NOT_UNDERSTOOD, MISSING_IE }F1ErrorType; typedef enum { SCS_15, SCS_30, SCS_60, SCS_120 }F1NrScs; typedef enum { NRB_11, NRB_18, NRB_24, NRB_25, NRB_31, NRB_32, NRB_38, NRB_51, NRB_52, NRB_65, NRB_66, NRB_78, NRB_79, NRB_93, NRB_106, NRB_107, NRB_121, NRB_132, NRB_133, NRB_135, NRB_160, NRB_162, NRB_189, NRB_216, NRB_217, NRB_245, NRB_264, NRB_270, NRB_273 }F1Nrb; typedef enum { VERY_SMALL, SMALL, MEDIUM, LARGE }F1CellType; typedef enum { DL, UL, DL_UL }F1CellDir; typedef enum { UE_USAGE, NON_UE_USAGE, BOTH }F1AssocUsage; typedef enum { BARRED, NOT_BARRED }CellBarred; typedef enum { OFFER, EXECUTION }F1ReqType; typedef enum { IGNORE_YES, IGNORE_NO }F1IgnoreReq; typedef enum { OVERLOADED, NOT_OVERLOADED }F1GnbDuOvrloadInfo; typedef enum { REJECT_RRC_CONN_NON_EMERG_MODT, REJECT_RRC_CONN_SIGNALLING, PERMIT_EMERG_SESSION_AND_MOBILE_TERM_SERVICE, PERMIT_HIGH_PRIOR_SESSION_AND_MOBILE_TERM_SERVICE }F1UacStandardAction; typedef enum { PDSCH_MAPPING_TYPE_A, PDSCH_MAPPING_TYPE_B, }pdschMappingType; typedef enum { PUSCH_MAPPING_TYPE_A, PUSCH_MAPPING_TYPE_B, }puschMappingType; typedef struct f1RrcVersion { char rrcVer[30]; /* Latest RRC Version */ uint32_t extRrcVer; /* Latest RRC version extended */ }F1RrcVersion; typedef struct f1FailCause { union { RadioNwCause radioNwCause; /* Radio Network Layer Cause */ TransLayerCause transLayerCause; /* Transport Layer Cause */ ProtocolCause protCause; /* Protocol Cause */ MiscCause miscCause; /* Miscellaneous Cause */ }cause; }F1FailCause; typedef struct f1ProcCode { bool pres; uint8_t value; }F1ProcCode; typedef struct f1TriggMsg { bool pres; F1TriggMsgVal value; }F1TriggMsg; typedef struct f1ProcCrit { bool pres; F1ProcCritVal value; }F1ProcCrit; typedef struct f1CritDignosIE { F1ProcCritVal ieCritVal; uint16_t ieId; F1ErrorType type; }F1CritDignosIE; typedef struct f1CritDiagnostic { bool pres; F1ProcCode procCode; /* Procedure Code */ F1TriggMsg triggeringMsg; /* Triggering Message */ F1ProcCrit procCrit; /* Criticality of Triggering msg/proc */ uint32_t transId; F1CritDignosIE diagnosIE; }F1CritDiagnostic; typedef struct f1FailureIE { uint32_t transId; /* Uniquely identify transaction */ F1FailCause cause; /* Failure cause */ uint8_t timeToWait; /* Seconds to be waited before retry */ F1CritDiagnostic critDiagnostic; /* Critical diagnostics */ }F1FailureIE; typedef struct f1LogicalConnUeAssoc { uint32_t gnbCuUeF1apId; uint32_t gnbDuUeF1apId; }F1LogicalConnUeAssoc; typedef struct f1ResetType { union { F1ResetAll resetAll; /* Reset All */ F1LogicalConnUeAssoc ueAssocLogicalConn[MAX_F1_CONNECTIONS]; /* In case of Partial Reset : UE associated logical F1 conn list*/ }type; }F1ResetType; typedef struct nrEcgi { Plmn plmn; uint16_t cellId; }NrEcgi; typedef struct f1SibType { uint8_t sibType; uint8_t sibMsg; uint8_t value; }F1SibType; typedef struct f1TxBw { F1NrScs nrScs; /* NR subcarrier spacing */ F1Nrb nrb; /* Transmission bandwidth expressed in units of RBs */ }F1TxBw; typedef struct f1SulInfo { uint32_t sulArfcn; /* SUL ARFCN */ F1TxBw sulTxBw; /* SUL transmission bandwidth */ }F1SulInfo; typedef struct f1FreqBand { uint16_t nrFreqBand; uint16_t sulBand[MAX_NRCELL_BANDS]; }F1FreqBand; typedef struct f1NrFreqInfo { uint32_t nrArfcn; F1SulInfo sulInfo; F1FreqBand freqBand[MAX_NRCELL_BANDS]; }F1NrFreqInfo; typedef struct f1NrFddInfo { F1NrFreqInfo ulNrFreqInfo; /* UL NR Frequency Info */ F1NrFreqInfo dlNrFreqInfo; /* DL NR Frequency Info */ F1TxBw ulTxBw; /* UL Transmission bandwidth */ F1TxBw dlTxBw; /* DL Transmission bandwidth */ }F1NrFddInfo; typedef struct f1NrTddInfo { F1NrFreqInfo nrFreqInfo; /* NR Frequency Info */ F1TxBw nrTxBw; /* NR Transmission Bandwidth */ }F1NrTddInfo; typedef struct f1NrModeInfo { union { F1NrFddInfo fdd; F1NrTddInfo tdd; }mode; }NrModeInfo; typedef struct f1EutraFddInfo { uint16_t ulOffset; /* UL offset to Point A */ uint16_t dlOffset; /* DL offset to Point A */ }F1EutraFDDInfo; typedef struct f1EutraTddInfo { uint16_t tddOffset; /* Offset to Point A */ }F1EutraTDDInfo; typedef struct f1EutraModeInfo { union { F1EutraFDDInfo fdd; F1EutraTDDInfo tdd; }mode; }F1EutraModeInfo; typedef struct epIpAddr { char transportAddr[20]; /* Transport Layer Address */ }EpIpAddr; typedef struct epIpAddrPort { EpIpAddr epIpAddr; char port[2]; }EpIpAddrPort; typedef struct f1TaiSliceSuppLst { uint8_t numSupportedSlices; Snssai **snssai; }F1TaiSliceSuppLst; typedef struct f1SrvdPlmn { Plmn plmn; Plmn extPlmn; /* Extended available PLMN list */ F1TaiSliceSuppLst taiSliceSuppLst; }F1SrvdPlmn; typedef struct f1BrdcstPlmnInfo { Plmn plmn[MAX_PLMN]; /* PLMN id list */ Plmn extPlmn[MAX_PLMN]; /* Extended PLMN id list */ uint16_t tac; /* 5GS-TAC */ uint32_t nrCellId; /* NR Cell id */ uint8_t ranac; /* RAN Area code */ }F1BrdcstPlmnInfo; typedef struct f1CellInfo { NrEcgi nrCgi; /* Cell global Identity */ uint32_t nrPci; /* Physical Cell Identity */ F1SrvdPlmn srvdPlmn[MAX_PLMN]; }F1CellInfo; typedef struct f1DuCellInfo { F1CellInfo cellInfo; /* cell info */ uint16_t tac; /* tracking area code */ uint16_t epsTac; /* Configured EPS TAC */ NrModeInfo f1Mode; /* NR mode info : FDD/TDD */ uint8_t measTimeCfg; /* Measurement timing configuration */ F1CellDir cellDir; /* Cell Direction */ F1CellType cellType; /* Cell Type */ F1BrdcstPlmnInfo brdcstPlmnInfo[MAX_BPLMN_NRCELL_MINUS_1]; /* Broadcast PLMN Identity Info List */ }F1DuCellInfo; typedef struct f1DuSysInfo { uint8_t *mibMsg; /* MIB message */ uint16_t mibLen; uint8_t *sib1Msg; /* SIB1 message */ uint16_t sib1Len; }F1DuSysInfo; typedef struct f1CuSysInfo { F1SibType sibTypeToUpd[MAXNUMOFSIBTYPES]; /* SIB types to be updated */ }F1CuSysInfo; typedef struct f1DuSrvdCellInfo { F1DuCellInfo duCellInfo; /* gNB-DU served cell info */ F1DuSysInfo duSysInfo; /* gNB-DU System Information */ }F1DuSrvdCellInfo; typedef struct f1DuSrvdCellToDel { NrEcgi oldNrCgi; /* Old NR CGI */ F1DuSrvdCellInfo srvdCellInfo; /* Info of served cell to be deleted */ }F1DuSrvdCellToDel; typedef struct f1CuActCellInfo { F1CellInfo cuCellInfo; /* gNB-CU available cell info */ F1CuSysInfo cuSysInfo; /* gNB-CU System Information */ }F1CuActCellInfo; typedef struct f1ActCellFail { NrEcgi nrCgi; F1FailCause cause; }F1ActCellFail; typedef struct srvStatus { SrvState state; bool switchOffOngoing; }SrvStatus; typedef struct f1CellStatus { NrEcgi nrEcgi; SrvStatus status; /* Service status */ }F1CellStatus; typedef struct f1DedSIDelUE { uint32_t gnbCuUeF1apId; NrEcgi nrEcgi; }F1DedSIDelUE; typedef struct tnlAssocInfo { bool pres; EpIpAddr epIpAddr; /* Endpoint-IP Address */ EpIpAddrPort epIpAddrport; /* Endpoint-IP Address and Port */ }F1TnlAssocAddr; typedef struct f1TnlAssocUsage { bool pres; F1AssocUsage usage; }F1TnlAssocUsage; typedef struct f1TnlAssoc { F1TnlAssocAddr assocInfo; /* TNL Assoc Transport Layer Info */ F1TnlAssocUsage assocUsage; /* TNL Assoc usage */ }F1TnlAssoc; typedef struct f1TnlAssocToRmv { F1TnlAssocAddr assocInfoCu; /* TNL Assoc Transport Layer Info of CU */ F1TnlAssocAddr assocInfoDu; /* TNL Assoc Transport Layer Info of DU */ }F1TnlAssocToRmv; typedef struct f1TnlAssocSetupFail { F1TnlAssocAddr assocInfo; F1FailCause cause; }F1TnlAssocSetupFail; typedef struct f1CellBarred { NrEcgi nrcgi; CellBarred cellBarred; }F1CellBarred; typedef struct f1EutraCell { uint32_t eutraCellId; /* EUTRA cell id */ F1EutraModeInfo mode; /* EUTRA mode info : FDD/TDD */ uint8_t rsrcInd; /* Protected EUTRA resource Indication */ }F1EutraCell; typedef struct f1ProtectEUTRARsrc { uint32_t specShareGrpId; /* Spectrum sharing group id */ F1EutraCell eutraCellList[MAXCELLINENB]; /* EUTRA cells list */ }F1ProtectEUTRARsrc; typedef struct f1UacOperatorDefined { uint8_t accessCategory; uint8_t accessId; }F1UacOperatorDefined; typedef struct f1UacCategoryType { union { F1UacStandardAction action; /* UAC standardized action */ F1UacOperatorDefined operatorDef; /* UAC operator defined */ }type; }F1UacCategoryType; typedef struct f1UacType { uint8_t uacReducInd; /* Value 0 means no access rate reduction. Value 100 means full access rate reduction */ F1UacCategoryType uacCategoryType; /* UAC Category type */ }F1UacType; /* Unified Access Class Assistance Information */ typedef struct f1UacAssistInfo { Plmn plmn[MAXNUMOFUACPLMN]; /* UAC PLMN list */ F1UacType uacType[MAXNUMOFUACPERPLMN]; /* UAC Type list */ }F1UacAssistInfo; /* F1 setup related structures */ #if 0 typedef struct f1SetupReq { uint32_t transId; /* Uniquely identify transaction */ uint32_t duId; /* DU ID */ char duName[CU_DU_NAME_LEN_MAX]; /* DU name */ F1DuSrvdCellInfo srvdCellLst[MAX_NUM_CELL]; /* Serving cell list */ F1RrcVersion rrcVersion; /* RRC version */ }F1SetupReq; typedef struct f1setupRsp { uint32_t transId; /* Uniquely identify transaction */ char cuName[CU_DU_NAME_LEN_MAX]; /* CU Name */ F1CuActCellInfo actCellInfo; /* cells to be activated */ F1RrcVersion rrcVersion; /* RRC version */ }F1SetupRsp; typedef struct f1SetupFail { F1FailureIE setupFail; }F1SetupFail; /* At reception of the RESET message the gNB-DU shall release all allocated resources on F1 * and radio resources related to the UE association(s) indicated explicitly or implicitly in * the RESET message and remove the indicated UE contexts including F1AP ID. */ typedef struct f1Reset { uint32_t transId; /* Uniquely identify transaction */ F1FailCause cause; /* Failure cause */ F1ResetType resetType; /* type of reset */ }F1Reset; /* After the gNB-CU has released all assigned F1 resources and the UE F1AP IDs for all indicated * UE associations which can be used for new UE-associated logical F1-connections over the F1 interface, * the gNB-CU shall respond with the RESET ACKNOWLEDGE message. */ typedef struct f1ResetAck { uint32_t transId; /* Uniquely identify transaction */ F1LogicalConnUeAssoc ueAssocLogicalConn[MAX_F1_CONNECTIONS]; /* UE associated logical F1-connection list */ F1CritDiagnostic critDiagnostic; /* Critical diagnostics */ }F1ResetAck; typedef struct f1ErrorInd { uint32_t transId; /* Uniquely identify transaction */ F1Entity errorOrigin; /* Specifies if error is originated at DU or CU */ F1FailCause cause; /* Failure cause */ /* If failure is due to Ue related message. */ uint32_t gnbCuUeF1apId; /* gNB-CU UE F1AP Id */ uint32_t gnbDuUeF1apId; /* gNB-DU UE F1AP Id */ F1CritDiagnostic critDiagnostic; /* Critical diagnostics */ }F1ErrorInd; typedef struct f1GnbDuCfgUpd { uint32_t transId; /* Uniquely identify transaction */ F1DuSrvdCellInfo srvdCellLstAdd[MAX_NUM_CELL]; /* Served cell list to be added */ F1DuSrvdCellToDel srvdCellLstMod[MAX_NUM_CELL]; /* Served cell list to be modified */ NrEcgi srvdCellLstDel[MAX_NUM_CELL]; /* Served cell list to be deleted */ F1CellStatus cellStatus[MAX_NUM_CELL]; /* Cell status */ F1DedSIDelUE ueLst[MAX_NUM_UE]; /* Ue list that requires dedicated SI delivery */ uint32_t gnbDuId; F1TnlAssocToRmv gnbDuTnlAssocRmv[MAX_TNL_ASSOC]; /* TNL Assoc list to remove */ }F1GnbDuCfgUpd; typedef struct f1GnbDuCfgUpdAck { uint32_t transId; /* Uniquely identify transaction */ F1CuActCellInfo cellLstAct[MAX_NUM_CELL]; /* List of cells to be activated */ F1CritDiagnostic critDiagnostic; /* Critical diagnostics */ NrEcgi cellLstDeact[MAX_NUM_CELL]; /* List of cells to be deactivated */ }F1GnbDuCfgUpdAck; typedef struct f1GnbDuCfgUpdFail { F1FailureIE gnbDuCfgUpdFail; }F1GnbDuCfgUpdFail; /* Sent by the gNB-CU to transfer updated information associated to an F1-C interface instance */ typedef struct f1GnbCuCfgUpd { uint32_t transId; /* Uniquely identifies transaction */ F1CuActCellInfo cellLstAct[MAX_NUM_CELL]; /* List of cells to be activated */ NrEcgi cellLstDeact[MAX_NUM_CELL]; /* List of cells to be deactivated */ F1TnlAssoc assocLstAdd[MAX_TNL_ASSOC]; /* List of TNL assocs to be added */ F1TnlAssoc assocLstUpd[MAX_TNL_ASSOC]; /* List of TNL assocs to be updated */ F1TnlAssocToRmv assocLstRmv[MAX_TNL_ASSOC]; /* List of TNL assocs to be removed */ F1CellBarred cellToBarList[MAX_NUM_CELL]; /* List of Cells to be barred */ F1ProtectEUTRARsrc protectEutraRsrcList[MAXCELLINENB]; /* List of Protected EUTRA resources */ }F1GnbCuCfgUpd; /* Sent by a gNB-DU to a gNB-CU to acknowledge update of information * associated to an F1-C interface instance */ typedef struct f1GnbCuCfgUpdAck { uint32_t transId; /* Uniquely identify transaction */ F1ActCellFail actCellFailList[MAX_NUM_CELL]; /* Cells failed to be activated list */ F1CritDiagnostic critDiagnostic; /* Critical diagnostics */ F1TnlAssocAddr assocSetupList[MAX_TNL_ASSOC]; /* TNL Assoc Setup list */ F1TnlAssocSetupFail assocSetupFailList[MAX_TNL_ASSOC]; /* TNL Assoc Setup fail list */ F1DedSIDelUE dedSiDelUelist[MAX_NUM_OF_UE_ID]; /* Dedicated SI delivery needed UE list */ }F1GnbCuCfgUpdAck; typedef struct f1GnbCuCfgUpdFail { F1FailureIE gnbCuCfgUpdFail; }F1GnbCuCfgUpdFail; /* This procedure enables coordination of radio resource allocation between a gNB-CU and * a gNB-DU. Coordination request is sent by CU to DU */ typedef struct f1GnbDuRsrcCoordReq { uint32_t transId; /* Uniquely identifies transaction */ F1ReqType reqType; /* Request type */ uint8_t cellResCoordReqCont; /* Container for X2AP E-UTRA - NR cell resource coordination request */ F1IgnoreReq ignoreReq; /* Ignore coordination request */ }F1GnbDuRsrcCoordReq; /* This message is sent by a gNB-DU to a gNB-CU, to express the desired resource allocation * for data traffic, as a response to the GNB-DU RESOURCE COORDINATION REQUEST. */ typedef struct f1GnbDuRsrcCoordRsp { uint32_t transId; /* Uniquely identifies transaction */ uint8_t cellResCoordRspCont; /* Container for X2AP E-UTRA - NR cell resource coordination response */ }F1GnbDuRsrcCoordRsp; /* This message is sent by the gNB-DU to indicate to the gNB-CU its status of overload */ typedef struct f1GnbDuStatusInd { uint32_t transId; /* Uniquely identifies transaction */ F1GnbDuOvrloadInfo ovrloadInfo; /* gNB-DU overloaded information */ }F1GnbDuStatusInd; /* This message is sent by either the gNB-DU or the gNB-CU to intiate the removal * of the interface instance and the related resources */ typedef struct f1RmvReq { uint32_t transId; /* Uniquely identifies transaction */ }F1RmvReq; /* This message acknowledges the initiation of removal of the interface * instance and the related resources */ typedef struct f1RmvRsp { uint32_t transId; /* Uniquely identifies transaction */ F1CritDiagnostic critDiagnos; /* Crititcality diagnostics */ }F1RmvRsp; /* This message indicates that removing the interface instance and the related * resources cannot be accepted */ typedef struct f1RmvFail { uint32_t transId; /* Uniquely identifies transaction */ F1FailCause cause; /* Failure cause */ F1CritDiagnostic critDiagnostic; /* Criticality diagnostics */ }F1RmvFail; /* This message is sent by the gNB-CU to indicate to the gNB-DU a need to reduce * the rate at which UEs access the network. */ typedef struct f1NwkAccessRateRed { uint32_t transId; /* Uniquely identifies transaction */ F1UacAssistInfo uacAssistInfo; /* UAC Assistance Information */ }F1NwkAccessRateRed; #endif typedef struct f1Ipaddr { bool ipV4Pres; uint32_t ipV4Addr; }F1IpAddr; typedef struct sctpParams { F1IpAddr duIpAddr; uint16_t duPort[MAX_DU_PORT]; F1IpAddr cuIpAddr; uint16_t cuPort; F1IpAddr ricIpAddr; uint16_t ricPort; }SctpParams; typedef struct f1EgtpParams { F1IpAddr localIp; /* Ip address of local node */ uint16_t localPort; /* Sender Port at local node */ F1IpAddr destIp; /* Ip address of peer node */ uint16_t destPort; /* Sender port at peer node */ uint32_t minTunnelId; uint32_t maxTunnelId; }F1EgtpParams; typedef struct schedulerCfg { uint8_t numTxAntPorts; /*!< Number of Tx antenna ports */ uint8_t ulSchdType; /*!< Indicates which UL scheduler to use, range * is 0..(number of schedulers - 1) */ uint8_t dlSchdType; /*!< Indicates which DL scheduler to use, range * is 0..(number of schedulers - 1) */ uint8_t numCells; /*!< Max number of cells */ uint8_t maxUlUePerTti; /*!< Max number of UE in UL per TTI */ uint8_t maxDlUePerTti; /*!< Max number of UE in DL per TTI */ }SchedulerCfg; typedef struct mibParams { uint8_t sysFrmNum; long subCarrierSpacingCommon; long ssb_SubcarrierOffset; long dmrs_TypeA_Position; long controlResourceSetZero; long searchSpaceZero; long cellBarred; long intraFreqReselection; }MibParams; typedef struct siSchedInfo { long winLen; /* SI Window Length */ long broadcastSta; /* Broadcast status */ long preiodicity; /* si periodicity */ long sibType; long sibValTag; /* Value tag */ }SiSchedInfo; typedef struct pdcchCfgCommon { uint8_t present; long ctrlRsrcSetZero; /* Control resource set zero */ long searchSpcZero; /* Search space zero */ long searchSpcId; /* Search space id */ long ctrlRsrcSetId; /* Control resource set id */ uint8_t monitorSlotPrdAndOffPresent; long monitorSlotPrdAndOff; /* Monitoring slot periodicity and offset */ uint8_t monitorSymbolsInSlot[2]; /* Monitoring symbols within slot */ long numCandAggLvl1; /* Number of candiates at aggregation level 1 */ long numCandAggLvl2; /* Number of candiates at aggregation level 2 */ long numCandAggLvl4; /* Number of candiates at aggregation level 4 */ long numCandAggLvl8; /* Number of candiates at aggregation level 8 */ long numCandAggLvl16; /* Number of candiates at aggregation level 16 */ uint8_t searchSpcType; /* Search Space type */ uint8_t commSrchSpcDciFrmt; /* DCI format of common search space type */ long searchSpcSib1; /* Id of serch space for SIB1 */ long pagingSearchSpc; /* Id of search space for paging */ long raSearchSpc; /* Id of search space for Random Access proc */ }PdcchCfgCommon; typedef struct pdschTimeDomainRsrcAlloc { long k0; long mapType; /* Mapping Type */ uint16_t sliv; }PdschTimeDomainRsrcAlloc; typedef struct pdschCfgCommon { uint8_t present; uint8_t numTimeDomRsrcAlloc; PdschTimeDomainRsrcAlloc timeDomAlloc[MAX_NUM_DL_ALLOC]; }PdschCfgCommon; typedef struct bcchCfg { long modPrdCoeff; /* Modification period co-efficient */ }BcchCfg; typedef struct pcchCfg { uint16_t dfltPagingCycle; /* Default paging cycle */ uint8_t nAndPagingFrmOffsetType; /*Number of PagingFrames in PagingCycle defined in terms of T.*/ uint8_t pageFrameOffset; /* Paging Frame offset */ uint8_t ns; /* Number of paging occassions in paging frame */ uint8_t firstPDCCHMontioringType; /* First PDCCH Monitoring Paging Occasion Presence Type*/ uint16_t firstPDCCHMontioringInfo[MAX_PO_PER_PF];/*Indicates the first PDCCH monitoring occasion of each PO of the PF*/ }PcchCfg; typedef struct scsSpecCarrier { long scsOffset; /* Offset to point A considering subcarrier spacing */ long scs; /* subcarrier spacing */ long scsBw; /* Carrier bandwidth considering subcarrier spacing */ }ScsSpecCarrier; typedef struct dlCfgCommon { long freqBandInd; /* Downlink frequency band indicator */ long offsetToPointA; /* DL ofset to point A */ long locAndBw; /* Frequency location and bandwidth */ ScsSpecCarrier dlScsCarrier; /* SCS Specific carrier */ PdcchCfgCommon pdcchCfg; PdschCfgCommon pdschCfg; BcchCfg bcchCfg; PcchCfg pcchCfg; }DlCfgCommon; typedef struct rachCfgCommon { uint8_t present; long prachCfgIdx; /* PRACH configuration index */ long msg1Fdm; /* Num of PRACH transmission occassions */ long msg1FreqStart; /* Offset of lowest msg1 transmission occassion */ long zeroCorrZoneCfg; /* Zero correlation zone configuration */ long preambleRcvdTgtPwr; /* Traget power level */ long preambleTransMax; /* Max num of preamble transmission */ long pwrRampingStep; /* Power ramping steps for PRACH */ long raRspWindow; /* RA response window */ long numRaPreamble; /* Total num of preamble used in random access */ uint8_t ssbPerRachOccPresent; long numSsbPerRachOcc; /* Numer of SSBs per RACH Occassion */ long contResTimer; /* Contention resolution timer */ long rsrpThreshSsb; uint8_t rootSeqIdxPresent; long rootSeqIdx; /* PRACH root sequence index */ long msg1Scs; /* Msg1 subcarrier spacing */ long restrictedSetCfg; /* Restricted set configuration */ }RachCfgCommon; typedef struct puschCfgCmnTimeDomAlloc { long k2; long mapType; uint16_t sliv; }PuschCfgCmnTimeDomAlloc; typedef struct puschCfgCommon { uint8_t puschCfgPresent; uint8_t numTimeDomRsrcAlloc; PuschCfgCmnTimeDomAlloc timeDomAllocList[MAX_UL_ALLOC]; long msg3DeltaPreamble; long p0NominalWithGrant; }PuschCfgCommon; typedef struct pucchCfgCommon { uint8_t present; long rsrcComm; long grpHop; long p0Nominal; }PucchCfgCommon; typedef struct ulCfgCommon { long pMax; /* Max UL transmission power that UE applies */ long locAndBw; /* Frequency location and bandwidth */ ScsSpecCarrier ulScsCarrier; /* SCS Specific carrier */ RachCfgCommon rachCfg; PuschCfgCommon puschCfg; PucchCfgCommon pucchCfg; long timeAlignTimerComm; }UlCfgCommon; typedef struct tddUlDlCfgCommon { long refScs; /* Reference subcarrier spacing */ long txPrd; /* Transmission periodicity */ long numDlSlots; long numDlSymbols; long numUlSlots; long numUlSymbols; }TddUlDlCfgCommon; typedef struct srvCellCfgCommSib { DlCfgCommon dlCfg; UlCfgCommon ulCfg; uint8_t ssbPosInBurst; long ssbPrdServingCell; TddUlDlCfgCommon tddCfg; long ssPbchBlockPwr; }SrvCellCfgCommSib; typedef struct sib1Params { Plmn plmn; uint8_t tac; long ranac; uint8_t cellIdentity; long cellResvdForOpUse; long connEstFailCnt; long connEstFailOffValidity; SiSchedInfo siSchedInfo; SrvCellCfgCommSib srvCellCfgCommSib; }Sib1Params; typedef struct policyMemberList { Plmn plmn; Snssai snssai; }PolicyMemberList; typedef struct rrmPolicy { ResourceType rsrcType; uint8_t numMemberList; PolicyMemberList **memberList; uint8_t policyMaxRatio; uint8_t policyMinRatio; uint8_t policyDedicatedRatio; }RrmPolicy; typedef struct copyOfRecvdSliceCfg { RrmPolicy **rrmPolicy; uint8_t totalRrmPolicy; uint8_t totalSliceCount; }CopyOfRecvdSliceCfg; typedef struct duCfgParams { SctpParams sctpParams; /* SCTP Params */ F1EgtpParams egtpParams; /* EGTP Params */ uint32_t maxUe; uint32_t duId; uint8_t duName[CU_DU_NAME_LEN_MAX]; SchedulerCfg schedCfg; F1DuSrvdCellInfo srvdCellLst[MAX_NUM_CELL]; /* Serving cell list *///TODO: this must be removed eventually F1RrcVersion rrcVersion; /* RRC version */ MacCellCfg macCellCfg; /* MAC cell configuration */ MibParams mibParams; /* MIB Params */ Sib1Params sib1Params; /* SIB1 Params */ CopyOfRecvdSliceCfg tempSliceCfg; }DuCfgParams; typedef struct f1SetupMsg { uint8_t f1MsgReqBufSize; char *f1MsgReqBuf; uint8_t f1MsgRspBufSize; char *f1MsgRspBuf; }F1SetupMsg; #ifndef O1_ENABLE //RRM POLICY STRUCT typedef struct rRMPolicyMemberList { uint8_t mcc[3]; uint8_t mnc[3]; uint8_t sd[3]; uint8_t sst; }RRMPolicyMemberList; typedef enum { PRB, PRB_UL, PRB_DL, RRC, DRB }RrmResourceType; typedef struct rrmPolicyList { char id[1]; RrmResourceType resourceType; uint8_t rRMMemberNum; RRMPolicyMemberList rRMPolicyMemberList[2]; uint8_t rRMPolicyMaxRatio; uint8_t rRMPolicyMinRatio; uint8_t rRMPolicyDedicatedRatio; }RrmPolicyList; #endif DuCfgParams duCfgParam; /*function declarations */ void FillSlotConfig(); uint8_t readClCfg(); uint8_t readCfg(); uint8_t duReadCfg(); uint16_t calcSliv(uint8_t startSymbol, uint8_t lengthSymbol); uint8_t cpyRrmPolicyInDuCfgParams(RrmPolicyList rrmPolicy[], uint8_t policyNum, CopyOfRecvdSliceCfg *tempSliceCfg); #endif /* __DU_CONFIG_H__ */ /********************************************************************** End of file **********************************************************************/