/* * 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 */ /* enb_config.c ------------------- AUTHOR : Lionel GAUTHIER, navid nikaein, Laurent Winckel COMPANY : EURECOM EMAIL : Lionel.Gauthier@eurecom.fr, navid.nikaein@eurecom.fr */ #include #include #include #include "common/utils/LOG/log.h" #include "assertions.h" #include "enb_config.h" #include "UTIL/OTG/otg.h" #include "UTIL/OTG/otg_externs.h" #include "intertask_interface.h" #include "s1ap_eNB.h" #include "sctp_eNB_task.h" #include "common/ran_context.h" #include "sctp_default_values.h" #include "LTE_SystemInformationBlockType2.h" #include "uper_decoder.h" #include "LAYER2/MAC/mac_extern.h" #include "LAYER2/MAC/mac_proto.h" #include "PHY/phy_extern.h" #include "PHY/INIT/phy_init.h" #include "radio/ETHERNET/ethernet_lib.h" #include "nfapi_vnf.h" #include "nfapi_pnf.h" #include "executables/lte-softmodem.h" #include "L1_paramdef.h" #include "MACRLC_paramdef.h" #include "common/config/config_userapi.h" #include "RRC_config_tools.h" #include "enb_paramdef.h" #include "executables/thread-common.h" #include extern uint32_t to_earfcn_DL(int eutra_bandP, uint32_t dl_CarrierFreq, uint32_t bw); extern uint32_t to_earfcn_UL(int eutra_bandP, uint32_t ul_CarrierFreq, uint32_t bw); extern char *parallel_config; extern char *worker_config; RAN_CONTEXT_t RC; void RCconfig_L1(void) { int i,j; paramdef_t L1_Params[] = L1PARAMS_DESC; paramlist_def_t L1_ParamList = {CONFIG_STRING_L1_LIST,NULL,0}; if (RC.eNB == NULL) { RC.eNB = (PHY_VARS_eNB ** *)malloc((1+NUMBER_OF_eNB_MAX)*sizeof(PHY_VARS_eNB **)); LOG_I(PHY,"RC.eNB = %p\n",RC.eNB); memset(RC.eNB,0,(1+NUMBER_OF_eNB_MAX)*sizeof(PHY_VARS_eNB **)); RC.nb_L1_CC = malloc((1+RC.nb_L1_inst)*sizeof(int)); } config_getlist(config_get_if(), &L1_ParamList, L1_Params, sizeofArray(L1_Params), NULL); if (L1_ParamList.numelt > 0) { for (j = 0; j < RC.nb_L1_inst; j++) { RC.nb_L1_CC[j] = *(L1_ParamList.paramarray[j][L1_CC_IDX].uptr); if (RC.eNB[j] == NULL) { RC.eNB[j] = (PHY_VARS_eNB **)malloc((1+MAX_NUM_CCs)*sizeof(PHY_VARS_eNB *)); LOG_I(PHY,"RC.eNB[%d] = %p\n",j,RC.eNB[j]); memset(RC.eNB[j],0,(1+MAX_NUM_CCs)*sizeof(PHY_VARS_eNB *)); } for (i=0; iMod_id = j; RC.eNB[j][i]->CC_id = i; } } if (strcmp(*(L1_ParamList.paramarray[j][L1_TRANSPORT_N_PREFERENCE_IDX].strptr), "local_mac") == 0) { } else if (strcmp(*(L1_ParamList.paramarray[j][L1_TRANSPORT_N_PREFERENCE_IDX].strptr), "nfapi") == 0) { RC.eNB[j][0]->eth_params_n.local_if_name = strdup(*(L1_ParamList.paramarray[j][L1_LOCAL_N_IF_NAME_IDX].strptr)); RC.eNB[j][0]->eth_params_n.my_addr = strdup(*(L1_ParamList.paramarray[j][L1_LOCAL_N_ADDRESS_IDX].strptr)); RC.eNB[j][0]->eth_params_n.remote_addr = strdup(*(L1_ParamList.paramarray[j][L1_REMOTE_N_ADDRESS_IDX].strptr)); RC.eNB[j][0]->eth_params_n.my_portc = *(L1_ParamList.paramarray[j][L1_LOCAL_N_PORTC_IDX].iptr); RC.eNB[j][0]->eth_params_n.remote_portc = *(L1_ParamList.paramarray[j][L1_REMOTE_N_PORTC_IDX].iptr); RC.eNB[j][0]->eth_params_n.my_portd = *(L1_ParamList.paramarray[j][L1_LOCAL_N_PORTD_IDX].iptr); RC.eNB[j][0]->eth_params_n.remote_portd = *(L1_ParamList.paramarray[j][L1_REMOTE_N_PORTD_IDX].iptr); RC.eNB[j][0]->eth_params_n.transp_preference = ETH_UDP_MODE; RC.nb_macrlc_inst = 1; // This is used by mac_top_init_eNB() // This is used by init_eNB_afterRU() RC.nb_CC = (int *)malloc((1+RC.nb_inst)*sizeof(int)); RC.nb_CC[0]=1; RC.nb_inst =1; // feptx_prec uses num_eNB but phy_init_RU uses nb_inst LOG_I(PHY,"%s() NFAPI PNF mode - RC.nb_inst=1 this is because phy_init_RU() uses that to index and not RC.num_eNB - why the 2 similar variables?\n", __FUNCTION__); LOG_I(PHY,"%s() NFAPI PNF mode - RC.nb_CC[0]=%d for init_eNB_afterRU()\n", __FUNCTION__, RC.nb_CC[0]); LOG_I(PHY,"%s() NFAPI PNF mode - RC.nb_macrlc_inst:%d because used by mac_top_init_eNB()\n", __FUNCTION__, RC.nb_macrlc_inst); mac_top_init_eNB(); configure_nfapi_pnf(RC.eNB[j][0]->eth_params_n.remote_addr, RC.eNB[j][0]->eth_params_n.remote_portc, RC.eNB[j][0]->eth_params_n.my_addr, RC.eNB[j][0]->eth_params_n.my_portd, RC.eNB[j][0]->eth_params_n .remote_portd); } else { // other midhaul } // PRACH/PUCCH parameters RC.eNB[j][0]->prach_DTX_threshold = *(L1_ParamList.paramarray[j][L1_PRACH_DTX_THRESHOLD_IDX].iptr); RC.eNB[j][0]->pucch1_DTX_threshold = *(L1_ParamList.paramarray[j][L1_PUCCH1_DTX_THRESHOLD_IDX].iptr); RC.eNB[j][0]->pucch1ab_DTX_threshold = *(L1_ParamList.paramarray[j][L1_PUCCH1AB_DTX_THRESHOLD_IDX].iptr); for (int ce_level=0; ce_level<4; ce_level++) { RC.eNB[j][0]->prach_DTX_threshold_emtc[ce_level] = *(L1_ParamList.paramarray[j][L1_PRACH_DTX_EMTC0_THRESHOLD_IDX+ce_level].iptr); RC.eNB[j][0]->pucch1_DTX_threshold_emtc[ce_level] = *(L1_ParamList.paramarray[j][L1_PUCCH1_DTX_EMTC0_THRESHOLD_IDX+ce_level].iptr); RC.eNB[j][0]->pucch1ab_DTX_threshold_emtc[ce_level] = *(L1_ParamList.paramarray[j][L1_PUCCH1AB_DTX_EMTC0_THRESHOLD_IDX+ce_level].iptr); } RC.eNB[j][0]->pusch_signal_threshold = *(L1_ParamList.paramarray[j][L1_PUSCH_SIGNAL_THRESHOLD_IDX].iptr); LOG_I(ENB_APP,"PUSCH singal threshold = %d \n",RC.eNB[j][0]->pusch_signal_threshold); }// j=0..num_inst LOG_I(ENB_APP,"Initializing northbound interface for L1\n"); l1_north_init_eNB(); } else { LOG_I(PHY,"No " CONFIG_STRING_L1_LIST " configuration found"); // need to create some structures for VNF j = 0; RC.nb_L1_CC = malloc((1+RC.nb_L1_inst)*sizeof(int)); RC.nb_L1_CC[j]=1; if (RC.eNB[j] == NULL) { RC.eNB[j] = (PHY_VARS_eNB **)malloc((1+MAX_NUM_CCs)*sizeof(PHY_VARS_eNB **)); LOG_I(PHY,"RC.eNB[%d] = %p\n",j,RC.eNB[j]); memset(RC.eNB[j],0,(1+MAX_NUM_CCs)*sizeof(PHY_VARS_eNB***)); } for (i=0; iMod_id = j; RC.eNB[j][i]->CC_id = i; } } } } void RCconfig_macrlc(void) { int j; paramdef_t MacRLC_Params[] = MACRLCPARAMS_DESC; paramlist_def_t MacRLC_ParamList = {CONFIG_STRING_MACRLC_LIST,NULL,0}; config_getlist(config_get_if(), &MacRLC_ParamList, MacRLC_Params, sizeofArray(MacRLC_Params), NULL); config_getlist(config_get_if(), &MacRLC_ParamList, MacRLC_Params, sizeofArray(MacRLC_Params), NULL); if ( MacRLC_ParamList.numelt > 0) { RC.nb_macrlc_inst=MacRLC_ParamList.numelt; mac_top_init_eNB(); RC.nb_mac_CC = (int *)malloc(RC.nb_macrlc_inst*sizeof(int)); for (j = 0; j < RC.nb_macrlc_inst; j++) { RC.mac[j]->puSch10xSnr = *(MacRLC_ParamList.paramarray[j][MACRLC_PUSCH10xSNR_IDX ].iptr); RC.mac[j]->puCch10xSnr = *(MacRLC_ParamList.paramarray[j][MACRLC_PUCCH10xSNR_IDX ].iptr); RC.mac[j]->ue_multiple_max = *(MacRLC_ParamList.paramarray[j][MACRLC_UE_MULTIPLE_MAX_IDX ].iptr); RC.mac[j]->use_mcs_offset = *(MacRLC_ParamList.paramarray[j][MACRLC_USE_MCS_OFFSET_IDX ].iptr); RC.mac[j]->bler_lower = *(MacRLC_ParamList.paramarray[j][MACRLC_BLER_TARGET_LOWER_IDX ].dblptr); RC.mac[j]->bler_upper = *(MacRLC_ParamList.paramarray[j][MACRLC_BLER_TARGET_UPPER_IDX ].dblptr); RC.mac[j]->max_ul_rb_index = *(MacRLC_ParamList.paramarray[j][MACRLC_MAX_UL_RB_INDEX_IDX ].iptr); RC.nb_mac_CC[j] = *(MacRLC_ParamList.paramarray[j][MACRLC_CC_IDX].iptr); LOG_I(ENB_APP,"MAC instance %d parameters : pusch_snr %lf, pucch_snr %lf, ue_multiple_max %d, use_mcs_offset %d, bler_lower %lf, bler_upper %lf,max_ul_rb_index %d\n", j, RC.mac[j]->puSch10xSnr/10.0, RC.mac[j]->puCch10xSnr/10.0, RC.mac[j]->ue_multiple_max, RC.mac[j]->use_mcs_offset, RC.mac[j]->bler_lower, RC.mac[j]->bler_upper, RC.mac[j]->max_ul_rb_index); if (strcmp(*(MacRLC_ParamList.paramarray[j][MACRLC_TRANSPORT_N_PREFERENCE_IDX].strptr), "local_RRC") == 0) { // check number of instances is same as RRC/PDCP LOG_I(ENB_APP,"Configuring local RRC for MACRLC\n"); } else { // other midhaul AssertFatal(1==0,"MACRLC %d: %s unknown northbound midhaul\n",j, *(MacRLC_ParamList.paramarray[j][MACRLC_TRANSPORT_N_PREFERENCE_IDX].strptr)); } if (strcmp(*(MacRLC_ParamList.paramarray[j][MACRLC_TRANSPORT_S_PREFERENCE_IDX].strptr), "local_L1") == 0) { } else if (strcmp(*(MacRLC_ParamList.paramarray[j][MACRLC_TRANSPORT_S_PREFERENCE_IDX].strptr), "nfapi") == 0) { RC.mac[j]->eth_params_s.local_if_name = strdup(*(MacRLC_ParamList.paramarray[j][MACRLC_LOCAL_S_IF_NAME_IDX].strptr)); RC.mac[j]->eth_params_s.my_addr = strdup(*(MacRLC_ParamList.paramarray[j][MACRLC_LOCAL_S_ADDRESS_IDX].strptr)); RC.mac[j]->eth_params_s.remote_addr = strdup(*(MacRLC_ParamList.paramarray[j][MACRLC_REMOTE_S_ADDRESS_IDX].strptr)); RC.mac[j]->eth_params_s.my_portc = *(MacRLC_ParamList.paramarray[j][MACRLC_LOCAL_S_PORTC_IDX].iptr); RC.mac[j]->eth_params_s.remote_portc = *(MacRLC_ParamList.paramarray[j][MACRLC_REMOTE_S_PORTC_IDX].iptr); RC.mac[j]->eth_params_s.my_portd = *(MacRLC_ParamList.paramarray[j][MACRLC_LOCAL_S_PORTD_IDX].iptr); RC.mac[j]->eth_params_s.remote_portd = *(MacRLC_ParamList.paramarray[j][MACRLC_REMOTE_S_PORTD_IDX].iptr); RC.mac[j]->eth_params_s.transp_preference = ETH_UDP_MODE; LOG_I(ENB_APP,"**************** vnf_port:%d\n", RC.mac[j]->eth_params_s.my_portc); configure_nfapi_vnf(RC.mac[j]->eth_params_s.my_addr, RC.mac[j]->eth_params_s.my_portc,RC.mac[j]->eth_params_s.remote_addr,RC.mac[j]->eth_params_s.remote_portd,RC.mac[j]->eth_params_s.my_portd); LOG_I(ENB_APP,"**************** RETURNED FROM configure_nfapi_vnf() vnf_port:%d\n", RC.mac[j]->eth_params_s.my_portc); } else { // other midhaul AssertFatal(1==0,"MACRLC %d: %s unknown southbound midhaul\n",j,*(MacRLC_ParamList.paramarray[j][MACRLC_TRANSPORT_S_PREFERENCE_IDX].strptr)); } if (strcmp(*(MacRLC_ParamList.paramarray[j][MACRLC_SCHED_MODE_IDX].strptr), "default") == 0) { global_scheduler_mode=SCHED_MODE_DEFAULT; LOG_I(ENB_APP,"sched mode = default %d [%s]\n",global_scheduler_mode,*(MacRLC_ParamList.paramarray[j][MACRLC_SCHED_MODE_IDX].strptr)); } else if (strcmp(*(MacRLC_ParamList.paramarray[j][MACRLC_SCHED_MODE_IDX].strptr), "fairRR") == 0) { global_scheduler_mode=SCHED_MODE_FAIR_RR; printf("sched mode = fairRR %d [%s]\n",global_scheduler_mode,*(MacRLC_ParamList.paramarray[j][MACRLC_SCHED_MODE_IDX].strptr)); } else { global_scheduler_mode=SCHED_MODE_DEFAULT; printf("sched mode = default %d [%s]\n",global_scheduler_mode,*(MacRLC_ParamList.paramarray[j][MACRLC_SCHED_MODE_IDX].strptr)); } char *s = *MacRLC_ParamList.paramarray[j][MACRLC_DEFAULT_SCHED_DL_ALGO_IDX].strptr; void *d = dlsym(NULL, s); AssertFatal(d, "%s(): no default scheduler DL algo '%s' found\n", __func__, s); // release default, add new pp_impl_param_t *dl_pp = &RC.mac[j]->pre_processor_dl; dl_pp->dl_algo.unset(&dl_pp->dl_algo.data); dl_pp->dl_algo = *(default_sched_dl_algo_t *) d; dl_pp->dl_algo.data = dl_pp->dl_algo.setup(); LOG_I(ENB_APP, "using default scheduler DL algo '%s'\n", dl_pp->dl_algo.name); }// j=0..num_inst } /*else {// MacRLC_ParamList.numelt > 0 // ignore it AssertFatal (0, "No " CONFIG_STRING_MACRLC_LIST " configuration found"); }*/ } int RCconfig_RRC(uint32_t i, eNB_RRC_INST *rrc) { int num_enbs = 0; int j,k = 0; int32_t enb_id = 0; int32_t offsetMaxLimit = 0; int32_t cycleNb = 0; RrcConfigurationReq *RRCcfg = &rrc->configuration; ccparams_lte_t ccparams_lte; ccparams_sidelink_t SLconfig; ccparams_eMTC_t eMTCconfig; memset((void *)&ccparams_lte,0,sizeof(ccparams_lte_t)); memset((void *)&SLconfig,0,sizeof(ccparams_sidelink_t)); memset((void *)&eMTCconfig,0,sizeof(ccparams_eMTC_t)); paramdef_t ENBSParams[] = ENBSPARAMS_DESC; paramdef_t ENBParams[] = ENBPARAMS_DESC; paramlist_def_t ENBParamList = {ENB_CONFIG_STRING_ENB_LIST,NULL,0}; checkedparam_t config_check_CCparams[] = CCPARAMS_CHECK; paramdef_t CCsParams[] = CCPARAMS_DESC(ccparams_lte); paramlist_def_t CCsParamList = {ENB_CONFIG_STRING_COMPONENT_CARRIERS,NULL,0}; paramdef_t eMTCParams[] = EMTCPARAMS_DESC((&eMTCconfig)); checkedparam_t config_check_eMTCparams[] = EMTCPARAMS_CHECK; srb1_params_t srb1_params; memset((void *)&srb1_params,0,sizeof(srb1_params_t)); paramdef_t SRB1Params[] = SRB1PARAMS_DESC(srb1_params); paramdef_t SLParams[] = CCPARAMS_SIDELINK_DESC(SLconfig); /* map parameter checking array instances to parameter definition array instances */ for (int I = 0; I < sizeofArray(CCsParams); I++) { CCsParams[I].chkPptr = &(config_check_CCparams[I]); } for (int I = 0; I < sizeofArray(CCsParams); I++) { eMTCParams[I].chkPptr = &(config_check_eMTCparams[I]); } /* get global parameters, defined outside any section in the config file */ config_get(config_get_if(), ENBSParams, sizeofArray(ENBSParams), NULL); num_enbs = ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt; AssertFatal (i0) { // Output a list of all eNBs. config_getlist(config_get_if(), &ENBParamList, ENBParams, sizeofArray(ENBParams), NULL); if (ENBParamList.paramarray[i][ENB_ENB_ID_IDX].uptr == NULL) { // Calculate a default eNB ID if (EPC_MODE_ENABLED) { uint32_t hash; hash = s1ap_generate_eNB_id (); enb_id = i + (hash & 0xFFFF8); } else { enb_id = i; } } else { enb_id = *(ENBParamList.paramarray[i][ENB_ENB_ID_IDX].uptr); } LOG_I(RRC,"Instance %d: Southbound Transport %s\n",i,*(ENBParamList.paramarray[i][ENB_TRANSPORT_S_PREFERENCE_IDX].strptr)); rrc->nr_cellid = (uint64_t)*(ENBParamList.paramarray[i][ENB_NRCELLID_IDX].u64ptr); // search if in active list for (k=0; k rrc_inactivity_timer_thres = (*ENBParamList.paramarray[i][ENB_RRC_INACTIVITY_THRES_IDX].uptr) * 1000; RRCcfg->cell_identity = enb_id; RRCcfg->tac = *ENBParamList.paramarray[i][ENB_TRACKING_AREA_CODE_IDX].uptr; AssertFatal(!ENBParamList.paramarray[i][ENB_MOBILE_COUNTRY_CODE_IDX_OLD].strptr && !ENBParamList.paramarray[i][ENB_MOBILE_NETWORK_CODE_IDX_OLD].strptr, "It seems that you use an old configuration file. Please change the existing\n" " tracking_area_code = \"1\";\n" " mobile_country_code = \"208\";\n" " mobile_network_code = \"93\";\n" "to\n" " tracking_area_code = 1; // no string!!\n" " plmn_list = ( { mcc = 208; mnc = 93; mnc_length = 2; } )\n"); config_getlist(config_get_if(), &PLMNParamList, PLMNParams, sizeofArray(PLMNParams), enbpath); if (PLMNParamList.numelt < 1 || PLMNParamList.numelt > 6) AssertFatal(0, "The number of PLMN IDs must be in [1,6], but is %d\n", PLMNParamList.numelt); RRCcfg->num_plmn = PLMNParamList.numelt; for (int l = 0; l < PLMNParamList.numelt; ++l) { RRCcfg->mcc[l] = *PLMNParamList.paramarray[l][ENB_MOBILE_COUNTRY_CODE_IDX].uptr; RRCcfg->mnc[l] = *PLMNParamList.paramarray[l][ENB_MOBILE_NETWORK_CODE_IDX].uptr; RRCcfg->mnc_digit_length[l] = *PLMNParamList.paramarray[l][ENB_MNC_DIGIT_LENGTH].u8ptr; AssertFatal(RRCcfg->mnc_digit_length[l] == 3 || RRCcfg->mnc[l] < 100, "MNC %d cannot be encoded in two digits as requested (change mnc_digit_length to 3)\n", RRCcfg->mnc[l]); } /* measurement reports enabled? */ if (ENBParamList.paramarray[i][ENB_ENABLE_MEASUREMENT_REPORTS].strptr != NULL && *(ENBParamList.paramarray[i][ENB_ENABLE_MEASUREMENT_REPORTS].strptr) != NULL && !strcmp(*(ENBParamList.paramarray[i][ENB_ENABLE_MEASUREMENT_REPORTS].strptr), "yes")) RRCcfg->enable_measurement_reports = 1; else RRCcfg->enable_measurement_reports = 0; /* x2 enabled? */ if (ENBParamList.paramarray[i][ENB_ENABLE_X2].strptr != NULL && *(ENBParamList.paramarray[i][ENB_ENABLE_X2].strptr) != NULL && !strcmp(*(ENBParamList.paramarray[i][ENB_ENABLE_X2].strptr), "yes")) RRCcfg->enable_x2 = 1; else RRCcfg->enable_x2 = 0; /* m2 enabled */ if (ENBParamList.paramarray[i][ENB_ENABLE_ENB_M2].strptr != NULL && *(ENBParamList.paramarray[i][ENB_ENABLE_ENB_M2].strptr) != NULL && !strcmp(*(ENBParamList.paramarray[i][ENB_ENABLE_ENB_M2].strptr), "yes")) RRCcfg->eMBMS_M2_configured = 1; else RRCcfg->eMBMS_M2_configured = 0; // Parse optional physical parameters config_getlist(config_get_if(), &CCsParamList, NULL, 0, enbpath); LOG_I(RRC,"num component carriers %d \n",CCsParamList.numelt); if ( CCsParamList.numelt> 0) { char ccspath[MAX_OPTNAME_SIZE*2 + 16]; for (j = 0; j < CCsParamList.numelt ; j++) { sprintf(ccspath,"%s.%s.[%i]",enbpath,ENB_CONFIG_STRING_COMPONENT_CARRIERS,j); LOG_I(RRC, "enb_config::RCconfig_RRC() parameter number: %d, total number of parameters: %zd, ccspath: %s \n \n", j, sizeofArray(CCsParams), ccspath); config_get(config_get_if(), CCsParams, sizeofArray(CCsParams), ccspath); // printf("Component carrier %d\n",component_carrier); // Cell params, MIB/SIB1 RRCcfg->tdd_config[j] = ccparams_lte.tdd_config; AssertFatal (ccparams_lte.tdd_config <= LTE_TDD_Config__subframeAssignment_sa6, "Failed to parse eNB configuration file %s, enb %u illegal tdd_config %d (should be 0-%d)!", RC.config_file_name, i, ccparams_lte.tdd_config, LTE_TDD_Config__subframeAssignment_sa6); RRCcfg->tdd_config_s[j] = ccparams_lte.tdd_config_s; AssertFatal (ccparams_lte.tdd_config_s <= LTE_TDD_Config__specialSubframePatterns_ssp8, "Failed to parse eNB configuration file %s, enb %u illegal tdd_config_s %d (should be 0-%d)!", RC.config_file_name, i, ccparams_lte.tdd_config_s, LTE_TDD_Config__specialSubframePatterns_ssp8); if (!ccparams_lte.prefix_type) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u define %s: NORMAL,EXTENDED!\n", RC.config_file_name, i, ENB_CONFIG_STRING_PREFIX_TYPE); else if (strcmp(ccparams_lte.prefix_type, "NORMAL") == 0) { RRCcfg->prefix_type[j] = NORMAL; } else if (strcmp(ccparams_lte.prefix_type, "EXTENDED") == 0) { RRCcfg->prefix_type[j] = EXTENDED; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for prefix_type choice: NORMAL or EXTENDED !\n", RC.config_file_name, i, ccparams_lte.prefix_type); } if (!ccparams_lte.pbch_repetition) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u define %s: TRUE,FALSE!\n", RC.config_file_name, i, ENB_CONFIG_STRING_PBCH_REPETITION); else if (strcmp(ccparams_lte.pbch_repetition, "TRUE") == 0) { RRCcfg->pbch_repetition[j] = 1; } else if (strcmp(ccparams_lte.pbch_repetition, "FALSE") == 0) { RRCcfg->pbch_repetition[j] = 0; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pbch_repetition choice: TRUE or FALSE !\n", RC.config_file_name, i, ccparams_lte.pbch_repetition); } RRCcfg->eutra_band[j] = ccparams_lte.eutra_band; RRCcfg->downlink_frequency[j] = (uint32_t)ccparams_lte.downlink_frequency; RRCcfg->uplink_frequency_offset[j] = (unsigned int)ccparams_lte.uplink_frequency_offset; RRCcfg->Nid_cell[j] = ccparams_lte.Nid_cell; if (ccparams_lte.Nid_cell>503) { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for Nid_cell choice: 0...503 !\n", RC.config_file_name, i, ccparams_lte.Nid_cell); } RRCcfg->N_RB_DL[j] = ccparams_lte.N_RB_DL; if ((ccparams_lte.N_RB_DL!=6) && (ccparams_lte.N_RB_DL!=15) && (ccparams_lte.N_RB_DL!=25) && (ccparams_lte.N_RB_DL!=50) && (ccparams_lte.N_RB_DL!=75) && (ccparams_lte.N_RB_DL!=100)) { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for N_RB_DL choice: 6,15,25,50,75,100 !\n", RC.config_file_name, i, ccparams_lte.N_RB_DL); } if (strcmp(ccparams_lte.frame_type, "FDD") == 0) { RRCcfg->frame_type[j] = FDD; } else if (strcmp(ccparams_lte.frame_type, "TDD") == 0) { RRCcfg->frame_type[j] = TDD; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for frame_type choice: FDD or TDD !\n", RC.config_file_name, i, ccparams_lte.frame_type); } if (config_check_band_frequencies(j, RRCcfg->eutra_band[j], RRCcfg->downlink_frequency[j], RRCcfg->uplink_frequency_offset[j], RRCcfg->frame_type[j])) { AssertFatal(0, "error calling enb_check_band_frequencies\n"); } if ((ccparams_lte.nb_antenna_ports <1) || (ccparams_lte.nb_antenna_ports > 2)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for nb_antenna_ports choice: 1..2 !\n", RC.config_file_name, i, ccparams_lte.nb_antenna_ports); RRCcfg->nb_antenna_ports[j] = ccparams_lte.nb_antenna_ports; // Radio Resource Configuration (SIB2) RRCcfg->radioresourceconfig[j].prach_root = ccparams_lte.prach_root; if ((ccparams_lte.prach_root <0) || (ccparams_lte.prach_root > 1023)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for prach_root choice: 0..1023 !\n", RC.config_file_name, i, ccparams_lte.prach_root); RRCcfg->radioresourceconfig[j].prach_config_index = ccparams_lte.prach_config_index; if ((ccparams_lte.prach_config_index <0) || (ccparams_lte.prach_config_index > 63)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for prach_config_index choice: 0..1023 !\n", RC.config_file_name, i, ccparams_lte.prach_config_index); if (!ccparams_lte.prach_high_speed) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u define %s: ENABLE,DISABLE!\n", RC.config_file_name, i, ENB_CONFIG_STRING_PRACH_HIGH_SPEED); else if (strcmp(ccparams_lte.prach_high_speed, "ENABLE") == 0) { RRCcfg->radioresourceconfig[j].prach_high_speed = true; } else if (strcmp(ccparams_lte.prach_high_speed, "DISABLE") == 0) { RRCcfg->radioresourceconfig[j].prach_high_speed = false; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for prach_config choice: ENABLE,DISABLE !\n", RC.config_file_name, i, ccparams_lte.prach_high_speed); RRCcfg->radioresourceconfig[j].prach_zero_correlation = ccparams_lte.prach_zero_correlation; if ((ccparams_lte.prach_zero_correlation <0) || (ccparams_lte.prach_zero_correlation > 15)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for prach_zero_correlation choice: 0..15!\n", RC.config_file_name, i, ccparams_lte.prach_zero_correlation); RRCcfg->radioresourceconfig[j].prach_freq_offset = ccparams_lte.prach_freq_offset; if ((ccparams_lte.prach_freq_offset <0) || (ccparams_lte.prach_freq_offset > 94)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for prach_freq_offset choice: 0..94!\n", RC.config_file_name, i, ccparams_lte.prach_freq_offset); RRCcfg->radioresourceconfig[j].pucch_delta_shift = ccparams_lte.pucch_delta_shift - 1; if ((ccparams_lte.pucch_delta_shift <1) || (ccparams_lte.pucch_delta_shift > 3)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for pucch_delta_shift choice: 1..3!\n", RC.config_file_name, i, ccparams_lte.pucch_delta_shift); RRCcfg->radioresourceconfig[j].pucch_nRB_CQI = ccparams_lte.pucch_nRB_CQI; if ((ccparams_lte.pucch_nRB_CQI <0) || (ccparams_lte.pucch_nRB_CQI > 98)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for pucch_nRB_CQI choice: 0..98!\n", RC.config_file_name, i, ccparams_lte.pucch_nRB_CQI); RRCcfg->radioresourceconfig[j].pucch_nCS_AN = ccparams_lte.pucch_nCS_AN; if ((ccparams_lte.pucch_nCS_AN <0) || (ccparams_lte.pucch_nCS_AN > 7)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for pucch_nCS_AN choice: 0..7!\n", RC.config_file_name, i, ccparams_lte.pucch_nCS_AN); RRCcfg->radioresourceconfig[j].pucch_n1_AN = ccparams_lte.pucch_n1_AN; if ((ccparams_lte.pucch_n1_AN <0) || (ccparams_lte.pucch_n1_AN > 2047)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for pucch_n1_AN choice: 0..2047!\n", RC.config_file_name, i, ccparams_lte.pucch_n1_AN); RRCcfg->radioresourceconfig[j].pdsch_referenceSignalPower = ccparams_lte.pdsch_referenceSignalPower; if ((ccparams_lte.pdsch_referenceSignalPower <-60) || (ccparams_lte.pdsch_referenceSignalPower > 50)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for pdsch_referenceSignalPower choice:-60..50!\n", RC.config_file_name, i, ccparams_lte.pdsch_referenceSignalPower); RRCcfg->radioresourceconfig[j].pdsch_p_b = ccparams_lte.pdsch_p_b; if ((ccparams_lte.pdsch_p_b <0) || (ccparams_lte.pdsch_p_b > 3)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for pdsch_p_b choice: 0..3!\n", RC.config_file_name, i, ccparams_lte.pdsch_p_b); RRCcfg->radioresourceconfig[j].pusch_n_SB = ccparams_lte.pusch_n_SB; if ((ccparams_lte.pusch_n_SB <1) || (ccparams_lte.pusch_n_SB > 4)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for pusch_n_SB choice: 1..4!\n", RC.config_file_name, i, ccparams_lte.pusch_n_SB); if (!ccparams_lte.pusch_hoppingMode) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u define %s: interSubframe,intraAndInterSubframe!\n", RC.config_file_name, i, ENB_CONFIG_STRING_PUSCH_HOPPINGMODE); else if (strcmp(ccparams_lte.pusch_hoppingMode,"interSubFrame")==0) { RRCcfg->radioresourceconfig[j].pusch_hoppingMode = LTE_PUSCH_ConfigCommon__pusch_ConfigBasic__hoppingMode_interSubFrame; } else if (strcmp(ccparams_lte.pusch_hoppingMode,"intraAndInterSubFrame")==0) { RRCcfg->radioresourceconfig[j].pusch_hoppingMode = LTE_PUSCH_ConfigCommon__pusch_ConfigBasic__hoppingMode_intraAndInterSubFrame; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pusch_hoppingMode choice: interSubframe,intraAndInterSubframe!\n", RC.config_file_name, i, ccparams_lte.pusch_hoppingMode); RRCcfg->radioresourceconfig[j].pusch_hoppingOffset = ccparams_lte.pusch_hoppingOffset; if ((ccparams_lte.pusch_hoppingOffset<0) || (ccparams_lte.pusch_hoppingOffset>98)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pusch_hoppingOffset choice: 0..98!\n", RC.config_file_name, i, ccparams_lte.pusch_hoppingMode); if (!ccparams_lte.pusch_enable64QAM) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u define %s: ENABLE,DISABLE!\n", RC.config_file_name, i, ENB_CONFIG_STRING_PUSCH_ENABLE64QAM); else if (strcmp(ccparams_lte.pusch_enable64QAM, "ENABLE") == 0) { RRCcfg->radioresourceconfig[j].pusch_enable64QAM = true; } else if (strcmp(ccparams_lte.pusch_enable64QAM, "DISABLE") == 0) { RRCcfg->radioresourceconfig[j].pusch_enable64QAM = false; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pusch_enable64QAM choice: ENABLE,DISABLE!\n", RC.config_file_name, i, ccparams_lte.pusch_enable64QAM); if (!ccparams_lte.pusch_groupHoppingEnabled) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u define %s: ENABLE,DISABLE!\n", RC.config_file_name, i, ENB_CONFIG_STRING_PUSCH_GROUP_HOPPING_EN); else if (strcmp(ccparams_lte.pusch_groupHoppingEnabled, "ENABLE") == 0) { RRCcfg->radioresourceconfig[j].pusch_groupHoppingEnabled = true; } else if (strcmp(ccparams_lte.pusch_groupHoppingEnabled, "DISABLE") == 0) { RRCcfg->radioresourceconfig[j].pusch_groupHoppingEnabled = false; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pusch_groupHoppingEnabled choice: ENABLE,DISABLE!\n", RC.config_file_name, i, ccparams_lte.pusch_groupHoppingEnabled); RRCcfg->radioresourceconfig[j].pusch_groupAssignment = ccparams_lte.pusch_groupAssignment; if ((ccparams_lte.pusch_groupAssignment<0)|| (ccparams_lte.pusch_groupAssignment>29)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for pusch_groupAssignment choice: 0..29!\n", RC.config_file_name, i, ccparams_lte.pusch_groupAssignment); if (!ccparams_lte.pusch_sequenceHoppingEnabled) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u define %s: ENABLE,DISABLE!\n", RC.config_file_name, i, ENB_CONFIG_STRING_PUSCH_SEQUENCE_HOPPING_EN); else if (strcmp(ccparams_lte.pusch_sequenceHoppingEnabled, "ENABLE") == 0) { RRCcfg->radioresourceconfig[j].pusch_sequenceHoppingEnabled = true; } else if (strcmp(ccparams_lte.pusch_sequenceHoppingEnabled, "DISABLE") == 0) { RRCcfg->radioresourceconfig[j].pusch_sequenceHoppingEnabled = false; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pusch_sequenceHoppingEnabled choice: ENABLE,DISABLE!\n", RC.config_file_name, i, ccparams_lte.pusch_sequenceHoppingEnabled); RRCcfg->radioresourceconfig[j].pusch_nDMRS1 = ccparams_lte.pusch_nDMRS1; // cyclic_shift in RRC! if ((ccparams_lte.pusch_nDMRS1 <0) || (ccparams_lte.pusch_nDMRS1>7)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for pusch_nDMRS1 choice: 0..7!\n", RC.config_file_name, i, ccparams_lte.pusch_nDMRS1); if (strcmp(ccparams_lte.phich_duration,"NORMAL")==0) { RRCcfg->radioresourceconfig[j].phich_duration = LTE_PHICH_Config__phich_Duration_normal; } else if (strcmp(ccparams_lte.phich_duration,"EXTENDED")==0) { RRCcfg->radioresourceconfig[j].phich_duration = LTE_PHICH_Config__phich_Duration_extended; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for phich_duration choice: NORMAL,EXTENDED!\n", RC.config_file_name, i, ccparams_lte.phich_duration); if (strcmp(ccparams_lte.phich_resource,"ONESIXTH")==0) { RRCcfg->radioresourceconfig[j].phich_resource = LTE_PHICH_Config__phich_Resource_oneSixth; } else if (strcmp(ccparams_lte.phich_resource,"HALF")==0) { RRCcfg->radioresourceconfig[j].phich_resource = LTE_PHICH_Config__phich_Resource_half; } else if (strcmp(ccparams_lte.phich_resource,"ONE")==0) { RRCcfg->radioresourceconfig[j].phich_resource = LTE_PHICH_Config__phich_Resource_one; } else if (strcmp(ccparams_lte.phich_resource,"TWO")==0) { RRCcfg->radioresourceconfig[j].phich_resource = LTE_PHICH_Config__phich_Resource_two; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for phich_resource choice: ONESIXTH,HALF,ONE,TWO!\n", RC.config_file_name, i, ccparams_lte.phich_resource); printf("phich.resource %ld (%s), phich.duration %ld (%s)\n", RRCcfg->radioresourceconfig[j].phich_resource, ccparams_lte.phich_resource, RRCcfg->radioresourceconfig[j].phich_duration, ccparams_lte.phich_duration); if (strcmp(ccparams_lte.srs_enable, "ENABLE") == 0) { RRCcfg->radioresourceconfig[j].srs_enable = true; } else if (strcmp(ccparams_lte.srs_enable, "DISABLE") == 0) { RRCcfg->radioresourceconfig[j].srs_enable = false; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for srs_BandwidthConfig choice: ENABLE,DISABLE !\n", RC.config_file_name, i, ccparams_lte.srs_enable); if (RRCcfg->radioresourceconfig[j].srs_enable == true) { RRCcfg->radioresourceconfig[j].srs_BandwidthConfig = ccparams_lte.srs_BandwidthConfig; if ((ccparams_lte.srs_BandwidthConfig < 0) || (ccparams_lte.srs_BandwidthConfig >7)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value %d for srs_BandwidthConfig choice: 0...7\n", RC.config_file_name, i, ccparams_lte.srs_BandwidthConfig); RRCcfg->radioresourceconfig[j].srs_SubframeConfig = ccparams_lte.srs_SubframeConfig; if ((ccparams_lte.srs_SubframeConfig<0) || (ccparams_lte.srs_SubframeConfig>15)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for srs_SubframeConfig choice: 0..15 !\n", RC.config_file_name, i, ccparams_lte.srs_SubframeConfig); if (strcmp(ccparams_lte.srs_ackNackST, "ENABLE") == 0) { RRCcfg->radioresourceconfig[j].srs_ackNackST = true; } else if (strcmp(ccparams_lte.srs_ackNackST, "DISABLE") == 0) { RRCcfg->radioresourceconfig[j].srs_ackNackST = false; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for srs_BandwidthConfig choice: ENABLE,DISABLE !\n", RC.config_file_name, i, ccparams_lte.srs_ackNackST); if (strcmp(ccparams_lte.srs_MaxUpPts, "ENABLE") == 0) { RRCcfg->radioresourceconfig[j].srs_MaxUpPts = true; } else if (strcmp(ccparams_lte.srs_MaxUpPts, "DISABLE") == 0) { RRCcfg->radioresourceconfig[j].srs_MaxUpPts = false; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for srs_MaxUpPts choice: ENABLE,DISABLE !\n", RC.config_file_name, i, ccparams_lte.srs_MaxUpPts); } RRCcfg->radioresourceconfig[j].pusch_p0_Nominal = ccparams_lte.pusch_p0_Nominal; if ((ccparams_lte.pusch_p0_Nominal<-126) || (ccparams_lte.pusch_p0_Nominal>24)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for pusch_p0_Nominal choice: -126..24 !\n", RC.config_file_name, i, ccparams_lte.pusch_p0_Nominal); if (strcmp(ccparams_lte.pusch_alpha,"AL0")==0) { RRCcfg->radioresourceconfig[j].pusch_alpha = LTE_Alpha_r12_al0; } else if (strcmp(ccparams_lte.pusch_alpha,"AL04")==0) { RRCcfg->radioresourceconfig[j].pusch_alpha = LTE_Alpha_r12_al04; } else if (strcmp(ccparams_lte.pusch_alpha,"AL05")==0) { RRCcfg->radioresourceconfig[j].pusch_alpha = LTE_Alpha_r12_al05; } else if (strcmp(ccparams_lte.pusch_alpha,"AL06")==0) { RRCcfg->radioresourceconfig[j].pusch_alpha = LTE_Alpha_r12_al06; } else if (strcmp(ccparams_lte.pusch_alpha,"AL07")==0) { RRCcfg->radioresourceconfig[j].pusch_alpha = LTE_Alpha_r12_al07; } else if (strcmp(ccparams_lte.pusch_alpha,"AL08")==0) { RRCcfg->radioresourceconfig[j].pusch_alpha = LTE_Alpha_r12_al08; } else if (strcmp(ccparams_lte.pusch_alpha,"AL09")==0) { RRCcfg->radioresourceconfig[j].pusch_alpha = LTE_Alpha_r12_al09; } else if (strcmp(ccparams_lte.pusch_alpha,"AL1")==0) { RRCcfg->radioresourceconfig[j].pusch_alpha = LTE_Alpha_r12_al1; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pucch_Alpha choice: AL0,AL04,AL05,AL06,AL07,AL08,AL09,AL1!\n", RC.config_file_name, i, ccparams_lte.pusch_alpha); RRCcfg->radioresourceconfig[j].pucch_p0_Nominal = ccparams_lte.pucch_p0_Nominal; if ((ccparams_lte.pucch_p0_Nominal<-127) || (ccparams_lte.pucch_p0_Nominal>-96)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for pucch_p0_Nominal choice: -127..-96 !\n", RC.config_file_name, i, ccparams_lte.pucch_p0_Nominal); RRCcfg->radioresourceconfig[j].msg3_delta_Preamble = ccparams_lte.msg3_delta_Preamble; if ((ccparams_lte.msg3_delta_Preamble<-1) || (ccparams_lte.msg3_delta_Preamble>6)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for msg3_delta_Preamble choice: -1..6 !\n", RC.config_file_name, i, ccparams_lte.msg3_delta_Preamble); if (strcmp(ccparams_lte.pucch_deltaF_Format1,"deltaF_2")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format1 = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format1_deltaF_2; } else if (strcmp(ccparams_lte.pucch_deltaF_Format1,"deltaF0")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format1 = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format1_deltaF0; } else if (strcmp(ccparams_lte.pucch_deltaF_Format1,"deltaF2")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format1 = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format1_deltaF2; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pucch_deltaF_Format1 choice: deltaF_2,dltaF0,deltaF2!\n", RC.config_file_name, i, ccparams_lte.pucch_deltaF_Format1); if (strcmp(ccparams_lte.pucch_deltaF_Format1b,"deltaF1")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format1b = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format1b_deltaF1; } else if (strcmp(ccparams_lte.pucch_deltaF_Format1b,"deltaF3")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format1b = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format1b_deltaF3; } else if (strcmp(ccparams_lte.pucch_deltaF_Format1b,"deltaF5")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format1b = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format1b_deltaF5; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pucch_deltaF_Format1b choice: deltaF1,dltaF3,deltaF5!\n", RC.config_file_name, i, ccparams_lte.pucch_deltaF_Format1b); if (strcmp(ccparams_lte.pucch_deltaF_Format2,"deltaF_2")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format2 = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format2_deltaF_2; } else if (strcmp(ccparams_lte.pucch_deltaF_Format2,"deltaF0")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format2 = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format2_deltaF0; } else if (strcmp(ccparams_lte.pucch_deltaF_Format2,"deltaF1")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format2 = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format2_deltaF1; } else if (strcmp(ccparams_lte.pucch_deltaF_Format2,"deltaF2")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format2 = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format2_deltaF2; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pucch_deltaF_Format2 choice: deltaF_2,dltaF0,deltaF1,deltaF2!\n", RC.config_file_name, i, ccparams_lte.pucch_deltaF_Format2); if (strcmp(ccparams_lte.pucch_deltaF_Format2a,"deltaF_2")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format2a = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format2a_deltaF_2; } else if (strcmp(ccparams_lte.pucch_deltaF_Format2a,"deltaF0")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format2a = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format2a_deltaF0; } else if (strcmp(ccparams_lte.pucch_deltaF_Format2a,"deltaF2")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format2a = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format2a_deltaF2; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pucch_deltaF_Format2a choice: deltaF_2,dltaF0,deltaF2!\n", RC.config_file_name, i, ccparams_lte.pucch_deltaF_Format2a); if (strcmp(ccparams_lte.pucch_deltaF_Format2b,"deltaF_2")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format2b = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format2b_deltaF_2; } else if (strcmp(ccparams_lte.pucch_deltaF_Format2b,"deltaF0")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format2b = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format2b_deltaF0; } else if (strcmp(ccparams_lte.pucch_deltaF_Format2b,"deltaF2")==0) { RRCcfg->radioresourceconfig[j].pucch_deltaF_Format2b = LTE_DeltaFList_PUCCH__deltaF_PUCCH_Format2b_deltaF2; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pucch_deltaF_Format2b choice: deltaF_2,dltaF0,deltaF2!\n", RC.config_file_name, i, ccparams_lte.pucch_deltaF_Format2b); RRCcfg->radioresourceconfig[j].rach_numberOfRA_Preambles = (ccparams_lte.rach_numberOfRA_Preambles / 4) - 1; if ((ccparams_lte.rach_numberOfRA_Preambles <4) || (ccparams_lte.rach_numberOfRA_Preambles>64) || ((ccparams_lte.rach_numberOfRA_Preambles&3)!=0)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for rach_numberOfRA_Preambles choice: 4,8,12,...,64!\n", RC.config_file_name, i, ccparams_lte.rach_numberOfRA_Preambles); if (strcmp(ccparams_lte.rach_preamblesGroupAConfig, "ENABLE") == 0) { RRCcfg->radioresourceconfig[j].rach_preamblesGroupAConfig = true; RRCcfg->radioresourceconfig[j].rach_sizeOfRA_PreamblesGroupA = (ccparams_lte.rach_sizeOfRA_PreamblesGroupA / 4) - 1; if ((ccparams_lte.rach_numberOfRA_Preambles <4) || (ccparams_lte.rach_numberOfRA_Preambles>60) || ((ccparams_lte.rach_numberOfRA_Preambles&3)!=0)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for rach_sizeOfRA_PreamblesGroupA choice: 4,8,12,...,60!\n", RC.config_file_name, i, ccparams_lte.rach_sizeOfRA_PreamblesGroupA); switch (ccparams_lte.rach_messageSizeGroupA) { case 56: RRCcfg->radioresourceconfig[j].rach_messageSizeGroupA = LTE_RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messageSizeGroupA_b56; break; case 144: RRCcfg->radioresourceconfig[j].rach_messageSizeGroupA = LTE_RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messageSizeGroupA_b144; break; case 208: RRCcfg->radioresourceconfig[j].rach_messageSizeGroupA = LTE_RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messageSizeGroupA_b208; break; case 256: RRCcfg->radioresourceconfig[j].rach_messageSizeGroupA = LTE_RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messageSizeGroupA_b256; break; default: AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for rach_messageSizeGroupA choice: 56,144,208,256!\n", RC.config_file_name, i, ccparams_lte.rach_messageSizeGroupA); break; } if (strcmp(ccparams_lte.rach_messagePowerOffsetGroupB,"minusinfinity")==0) { RRCcfg->radioresourceconfig[j].rach_messagePowerOffsetGroupB = LTE_RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_minusinfinity; } else if (strcmp(ccparams_lte.rach_messagePowerOffsetGroupB,"dB0")==0) { RRCcfg->radioresourceconfig[j].rach_messagePowerOffsetGroupB = LTE_RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB0; } else if (strcmp(ccparams_lte.rach_messagePowerOffsetGroupB,"dB5")==0) { RRCcfg->radioresourceconfig[j].rach_messagePowerOffsetGroupB = LTE_RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB5; } else if (strcmp(ccparams_lte.rach_messagePowerOffsetGroupB,"dB8")==0) { RRCcfg->radioresourceconfig[j].rach_messagePowerOffsetGroupB = LTE_RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB8; } else if (strcmp(ccparams_lte.rach_messagePowerOffsetGroupB,"dB10")==0) { RRCcfg->radioresourceconfig[j].rach_messagePowerOffsetGroupB = LTE_RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB10; } else if (strcmp(ccparams_lte.rach_messagePowerOffsetGroupB,"dB12")==0) { RRCcfg->radioresourceconfig[j].rach_messagePowerOffsetGroupB = LTE_RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB12; } else if (strcmp(ccparams_lte.rach_messagePowerOffsetGroupB,"dB15")==0) { RRCcfg->radioresourceconfig[j].rach_messagePowerOffsetGroupB = LTE_RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB15; } else if (strcmp(ccparams_lte.rach_messagePowerOffsetGroupB,"dB18")==0) { RRCcfg->radioresourceconfig[j].rach_messagePowerOffsetGroupB = LTE_RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB18; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for rach_messagePowerOffsetGroupB choice: minusinfinity,dB0,dB5,dB8,dB10,dB12,dB15,dB18!\n", RC.config_file_name, i, ccparams_lte.rach_messagePowerOffsetGroupB); } else if (strcmp(ccparams_lte.rach_preamblesGroupAConfig, "DISABLE") == 0) { RRCcfg->radioresourceconfig[j].rach_preamblesGroupAConfig = false; } else AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for rach_preamblesGroupAConfig choice: ENABLE,DISABLE !\n", RC.config_file_name, i, ccparams_lte.rach_preamblesGroupAConfig); RRCcfg->radioresourceconfig[j].rach_preambleInitialReceivedTargetPower = (ccparams_lte.rach_preambleInitialReceivedTargetPower + 120) / 2; if ((ccparams_lte.rach_preambleInitialReceivedTargetPower<-120) || (ccparams_lte.rach_preambleInitialReceivedTargetPower>-90) || ((ccparams_lte.rach_preambleInitialReceivedTargetPower&1)!=0)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for rach_preambleInitialReceivedTargetPower choice: -120,-118,...,-90 !\n", RC.config_file_name, i, ccparams_lte.rach_preambleInitialReceivedTargetPower); RRCcfg->radioresourceconfig[j].rach_powerRampingStep = ccparams_lte.rach_powerRampingStep / 2; if ((ccparams_lte.rach_powerRampingStep<0) || (ccparams_lte.rach_powerRampingStep>6) || ((ccparams_lte.rach_powerRampingStep&1)!=0)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for rach_powerRampingStep choice: 0,2,4,6 !\n", RC.config_file_name, i, ccparams_lte.rach_powerRampingStep); switch (ccparams_lte.rach_preambleTransMax) { case 3: RRCcfg->radioresourceconfig[j].rach_preambleTransMax = LTE_PreambleTransMax_n3; break; case 4: RRCcfg->radioresourceconfig[j].rach_preambleTransMax = LTE_PreambleTransMax_n4; break; case 5: RRCcfg->radioresourceconfig[j].rach_preambleTransMax = LTE_PreambleTransMax_n5; break; case 6: RRCcfg->radioresourceconfig[j].rach_preambleTransMax = LTE_PreambleTransMax_n6; break; case 7: RRCcfg->radioresourceconfig[j].rach_preambleTransMax = LTE_PreambleTransMax_n7; break; case 8: RRCcfg->radioresourceconfig[j].rach_preambleTransMax = LTE_PreambleTransMax_n8; break; case 10: RRCcfg->radioresourceconfig[j].rach_preambleTransMax = LTE_PreambleTransMax_n10; break; case 20: RRCcfg->radioresourceconfig[j].rach_preambleTransMax = LTE_PreambleTransMax_n20; break; case 50: RRCcfg->radioresourceconfig[j].rach_preambleTransMax = LTE_PreambleTransMax_n50; break; case 100: RRCcfg->radioresourceconfig[j].rach_preambleTransMax = LTE_PreambleTransMax_n100; break; case 200: RRCcfg->radioresourceconfig[j].rach_preambleTransMax = LTE_PreambleTransMax_n200; break; default: AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for rach_preambleTransMax choice: 3,4,5,6,7,8,10,20,50,100,200!\n", RC.config_file_name, i, ccparams_lte.rach_preambleTransMax); break; } RRCcfg->radioresourceconfig[j].rach_raResponseWindowSize = (ccparams_lte.rach_raResponseWindowSize == 10) ? 7 : ccparams_lte.rach_raResponseWindowSize - 2; if ((ccparams_lte.rach_raResponseWindowSize<0)|| (ccparams_lte.rach_raResponseWindowSize==9)|| (ccparams_lte.rach_raResponseWindowSize>10)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for rach_raResponseWindowSize choice: 2,3,4,5,6,7,8,10!\n", RC.config_file_name, i, ccparams_lte.rach_preambleTransMax); RRCcfg->radioresourceconfig[j].rach_macContentionResolutionTimer = (ccparams_lte.rach_macContentionResolutionTimer / 8) - 1; if ((ccparams_lte.rach_macContentionResolutionTimer<8) || (ccparams_lte.rach_macContentionResolutionTimer>64) || ((ccparams_lte.rach_macContentionResolutionTimer&7)!=0)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for rach_macContentionResolutionTimer choice: 8,16,...,56,64!\n", RC.config_file_name, i, ccparams_lte.rach_preambleTransMax); RRCcfg->radioresourceconfig[j].rach_maxHARQ_Msg3Tx = ccparams_lte.rach_maxHARQ_Msg3Tx; if ((ccparams_lte.rach_maxHARQ_Msg3Tx<0) || (ccparams_lte.rach_maxHARQ_Msg3Tx>8)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for rach_maxHARQ_Msg3Tx choice: 1..8!\n", RC.config_file_name, i, ccparams_lte.rach_preambleTransMax); switch (ccparams_lte.pcch_defaultPagingCycle) { case 32: RRCcfg->radioresourceconfig[j].pcch_defaultPagingCycle = LTE_PCCH_Config__defaultPagingCycle_rf32; break; case 64: RRCcfg->radioresourceconfig[j].pcch_defaultPagingCycle = LTE_PCCH_Config__defaultPagingCycle_rf64; break; case 128: RRCcfg->radioresourceconfig[j].pcch_defaultPagingCycle = LTE_PCCH_Config__defaultPagingCycle_rf128; break; case 256: RRCcfg->radioresourceconfig[j].pcch_defaultPagingCycle = LTE_PCCH_Config__defaultPagingCycle_rf256; break; default: AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for pcch_defaultPagingCycle choice: 32,64,128,256!\n", RC.config_file_name, i, ccparams_lte.pcch_defaultPagingCycle); break; } if (strcmp(ccparams_lte.pcch_nB, "fourT") == 0) { RRCcfg->radioresourceconfig[j].pcch_nB = LTE_PCCH_Config__nB_fourT; } else if (strcmp(ccparams_lte.pcch_nB, "twoT") == 0) { RRCcfg->radioresourceconfig[j].pcch_nB = LTE_PCCH_Config__nB_twoT; } else if (strcmp(ccparams_lte.pcch_nB, "oneT") == 0) { RRCcfg->radioresourceconfig[j].pcch_nB = LTE_PCCH_Config__nB_oneT; } else if (strcmp(ccparams_lte.pcch_nB, "halfT") == 0) { RRCcfg->radioresourceconfig[j].pcch_nB = LTE_PCCH_Config__nB_halfT; } else if (strcmp(ccparams_lte.pcch_nB, "quarterT") == 0) { RRCcfg->radioresourceconfig[j].pcch_nB = LTE_PCCH_Config__nB_quarterT; } else if (strcmp(ccparams_lte.pcch_nB, "oneEighthT") == 0) { RRCcfg->radioresourceconfig[j].pcch_nB = LTE_PCCH_Config__nB_oneEighthT; } else if (strcmp(ccparams_lte.pcch_nB, "oneSixteenthT") == 0) { RRCcfg->radioresourceconfig[j].pcch_nB = LTE_PCCH_Config__nB_oneSixteenthT; } else if (strcmp(ccparams_lte.pcch_nB, "oneThirtySecondT") == 0) { RRCcfg->radioresourceconfig[j].pcch_nB = LTE_PCCH_Config__nB_oneThirtySecondT; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for pcch_nB choice: fourT,twoT,oneT,halfT,quarterT,oneighthT,oneSixteenthT,oneThirtySecondT !\n", RC.config_file_name, i, ccparams_lte.pcch_nB); } if (strcmp(ccparams_lte.drx_Config_present, "prNothing") == 0) { RRCcfg->radioresourceconfig[j].drx_Config_present = LTE_DRX_Config_PR_NOTHING; } else if (strcmp(ccparams_lte.drx_Config_present, "prRelease") == 0) { RRCcfg->radioresourceconfig[j].drx_Config_present = LTE_DRX_Config_PR_release; } else if (strcmp(ccparams_lte.drx_Config_present, "prSetup") == 0) { RRCcfg->radioresourceconfig[j].drx_Config_present = LTE_DRX_Config_PR_setup; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for drx_Config_present choice: prNothing, prRelease, prSetup!\n", RC.config_file_name, i, ccparams_lte.drx_Config_present); } if (strcmp(ccparams_lte.drx_onDurationTimer, "psf1") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf1; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf2") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf2; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf3") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf3; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf4") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf4; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf5") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf5; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf6") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf6; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf8") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf8; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf10") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf10; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf20") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf20; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf30") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf30; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf40") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf40; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf50") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf50; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf60") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf60; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf80") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf80; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf100") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf100; } else if (strcmp(ccparams_lte.drx_onDurationTimer, "psf200") == 0) { RRCcfg->radioresourceconfig[j].drx_onDurationTimer = (long)LTE_DRX_Config__setup__onDurationTimer_psf200; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for drx_onDurationTimer choice !\n", RC.config_file_name, i, ccparams_lte.drx_onDurationTimer); break; } if (strcmp(ccparams_lte.drx_InactivityTimer, "psf1") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf1; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf2") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf2; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf3") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf3; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf4") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf4; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf5") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf5; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf6") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf6; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf8") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf8; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf10") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf10; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf20") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf20; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf30") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf30; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf40") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf40; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf50") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf50; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf60") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf60; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf80") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf80; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf100") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf100; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf200") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf200; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf300") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf300; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf500") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf500; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf750") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf750; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf1280") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf1280; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf1920") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf1920; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf2560") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf2560; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "psf0-v1020") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_psf0_v1020; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "spare9") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_spare9; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "spare8") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_spare8; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "spare7") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_spare7; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "spare6") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_spare6; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "spare5") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_spare5; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "spare4") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_spare4; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "spare3") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_spare3; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "spare2") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_spare2; } else if (strcmp(ccparams_lte.drx_InactivityTimer, "spare1") == 0) { RRCcfg->radioresourceconfig[j].drx_InactivityTimer = (long)LTE_DRX_Config__setup__drx_InactivityTimer_spare1; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for drx_InactivityTimer choice !\n", RC.config_file_name, i, ccparams_lte.drx_InactivityTimer); break; } RRCcfg->radioresourceconfig[j].ue_multiple_max = ccparams_lte.ue_multiple_max; if (!ccparams_lte.mbms_dedicated_serving_cell) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u define %s: TRUE,FALSE!\n", RC.config_file_name, i, ENB_CONFIG_STRING_MBMS_DEDICATED_SERVING_CELL); else if (strcmp(ccparams_lte.mbms_dedicated_serving_cell, "ENABLE") == 0) { RRCcfg->radioresourceconfig[j].mbms_dedicated_serving_cell = true; } else if (strcmp(ccparams_lte.mbms_dedicated_serving_cell, "DISABLE") == 0) { RRCcfg->radioresourceconfig[j].mbms_dedicated_serving_cell = false; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for mbms_dedicated_serving_cell choice: TRUE or FALSE !\n", RC.config_file_name, i, ccparams_lte.mbms_dedicated_serving_cell); } switch (ccparams_lte.N_RB_DL) { case 25: if ((ccparams_lte.ue_multiple_max < 1) || (ccparams_lte.ue_multiple_max > 4)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for ue_multiple_max choice: 1..4!\n", RC.config_file_name, i, ccparams_lte.ue_multiple_max); break; case 50: if ((ccparams_lte.ue_multiple_max < 1) || (ccparams_lte.ue_multiple_max > 8)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for ue_multiple_max choice: 1..8!\n", RC.config_file_name, i, ccparams_lte.ue_multiple_max); break; case 100: if ((ccparams_lte.ue_multiple_max < 1) || (ccparams_lte.ue_multiple_max > 16)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for ue_multiple_max choice: 1..16!\n", RC.config_file_name, i, ccparams_lte.ue_multiple_max); break; default: AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for N_RB_DL choice: 25,50,100 !\n", RC.config_file_name, i, ccparams_lte.N_RB_DL); break; } if (strcmp(ccparams_lte.drx_RetransmissionTimer, "psf1") == 0) { RRCcfg->radioresourceconfig[j].drx_RetransmissionTimer = (long)LTE_DRX_Config__setup__drx_RetransmissionTimer_psf1; } else if (strcmp(ccparams_lte.drx_RetransmissionTimer, "psf2") == 0) { RRCcfg->radioresourceconfig[j].drx_RetransmissionTimer = (long)LTE_DRX_Config__setup__drx_RetransmissionTimer_psf2; } else if (strcmp(ccparams_lte.drx_RetransmissionTimer, "psf4") == 0) { RRCcfg->radioresourceconfig[j].drx_RetransmissionTimer = (long)LTE_DRX_Config__setup__drx_RetransmissionTimer_psf4; } else if (strcmp(ccparams_lte.drx_RetransmissionTimer, "psf6") == 0) { RRCcfg->radioresourceconfig[j].drx_RetransmissionTimer = (long)LTE_DRX_Config__setup__drx_RetransmissionTimer_psf6; } else if (strcmp(ccparams_lte.drx_RetransmissionTimer, "psf8") == 0) { RRCcfg->radioresourceconfig[j].drx_RetransmissionTimer = (long)LTE_DRX_Config__setup__drx_RetransmissionTimer_psf8; } else if (strcmp(ccparams_lte.drx_RetransmissionTimer, "psf16") == 0) { RRCcfg->radioresourceconfig[j].drx_RetransmissionTimer = (long)LTE_DRX_Config__setup__drx_RetransmissionTimer_psf16; } else if (strcmp(ccparams_lte.drx_RetransmissionTimer, "psf24") == 0) { RRCcfg->radioresourceconfig[j].drx_RetransmissionTimer = (long)LTE_DRX_Config__setup__drx_RetransmissionTimer_psf24; } else if (strcmp(ccparams_lte.drx_RetransmissionTimer, "psf33") == 0) { RRCcfg->radioresourceconfig[j].drx_RetransmissionTimer = (long)LTE_DRX_Config__setup__drx_RetransmissionTimer_psf33; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for drx_RetransmissionTimer choice !\n", RC.config_file_name, i, ccparams_lte.drx_RetransmissionTimer); break; } if (ccparams_lte.drx_longDrx_CycleStartOffset_present == NULL || strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prNothing") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_NOTHING; } else { if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf10") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf10; offsetMaxLimit = 10; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf20") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf20; offsetMaxLimit = 20; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf32") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf32; offsetMaxLimit = 32; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf40") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf40; offsetMaxLimit = 40; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf64") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf64; offsetMaxLimit = 64; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf80") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf80; offsetMaxLimit = 80; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf128") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf128; offsetMaxLimit = 128; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf160") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf160; offsetMaxLimit = 160; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf256") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf256; offsetMaxLimit = 256; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf320") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf320; offsetMaxLimit = 320; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf512") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf512; offsetMaxLimit = 512; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf640") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf640; offsetMaxLimit = 640; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf1024") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf1024; offsetMaxLimit = 1024; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf1280") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf1280; offsetMaxLimit = 1280; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf2048") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf2048; offsetMaxLimit = 2048; } else if (strcmp(ccparams_lte.drx_longDrx_CycleStartOffset_present, "prSf2560") == 0) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset_present = LTE_DRX_Config__setup__longDRX_CycleStartOffset_PR_sf2560; offsetMaxLimit = 2560; } else { AssertFatal (0, "Failed to parse eNB configuration file \"%s\", enb %u unknown string value \"%s\" for drx_longDrx_CycleStartOffset_present choice !\n", RC.config_file_name, i, ccparams_lte.drx_longDrx_CycleStartOffset_present); } if (ccparams_lte.drx_longDrx_CycleStartOffset >= 0 && ccparams_lte.drx_longDrx_CycleStartOffset < offsetMaxLimit) { RRCcfg->radioresourceconfig[j].drx_longDrx_CycleStartOffset = ccparams_lte.drx_longDrx_CycleStartOffset; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u incoherent value \"%d\" for drx_longDrx_CycleStartOffset !\n", RC.config_file_name, i, ccparams_lte.drx_longDrx_CycleStartOffset); } } if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "") == 0 || ccparams_lte.drx_shortDrx_ShortCycleTimer == 0) { if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "") != 0 || ccparams_lte.drx_shortDrx_ShortCycleTimer != 0) { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u incoherent values \"%s\" - \"%d\" for drx_shortDrx_Cycle or drx_shortDrx_ShortCycleTimer choice !\n", RC.config_file_name, i, ccparams_lte.drx_shortDrx_Cycle, ccparams_lte.drx_shortDrx_ShortCycleTimer); } else { RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = -1; RRCcfg->radioresourceconfig[j].drx_shortDrx_ShortCycleTimer = 0; } } else { if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf2") == 0) { cycleNb = 2; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf2; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf5") == 0) { cycleNb = 5; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf5; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf8") == 0) { cycleNb = 8; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf8; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf10") == 0) { cycleNb = 10; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf10; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf16") == 0) { cycleNb = 16; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf16; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf20") == 0) { cycleNb = 20; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf20; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf32") == 0) { cycleNb = 32; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf32; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf40") == 0) { cycleNb = 40; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf40; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf64") == 0) { cycleNb = 64; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf64; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf80") == 0) { cycleNb = 80; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf80; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf128") == 0) { cycleNb = 128; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf128; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf160") == 0) { cycleNb = 160; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf160; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf256") == 0) { cycleNb = 256; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf256; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf320") == 0) { cycleNb = 320; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf320; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf512") == 0) { cycleNb = 512; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf512; } else if (strcmp(ccparams_lte.drx_shortDrx_Cycle, "sf640") == 0) { cycleNb = 640; RRCcfg->radioresourceconfig[j].drx_shortDrx_Cycle = LTE_DRX_Config__setup__shortDRX__shortDRX_Cycle_sf640; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u incoherent value \"%s\" for drx_shortDrx_Cycle !\n", RC.config_file_name, i, ccparams_lte.drx_shortDrx_Cycle); } if (cycleNb > 0 && (offsetMaxLimit % cycleNb != 0 || cycleNb == offsetMaxLimit)) { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u incompatible (not multiple) values \"%d\" - \"%d\" for drx_shortDrx_Cycle and drx_longDrx_CycleStartOffset choice !\n", RC.config_file_name, i, cycleNb, offsetMaxLimit); } if (ccparams_lte.drx_shortDrx_ShortCycleTimer >= 1 && ccparams_lte.drx_shortDrx_ShortCycleTimer <= 16 ) { RRCcfg->radioresourceconfig[j].drx_shortDrx_ShortCycleTimer = ccparams_lte.drx_shortDrx_ShortCycleTimer; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for drx_shortDrx_ShortCycleTimer choice !\n", RC.config_file_name, i, ccparams_lte.drx_shortDrx_ShortCycleTimer ); } } switch (ccparams_lte.bcch_modificationPeriodCoeff) { case 2: RRCcfg->radioresourceconfig[j].bcch_modificationPeriodCoeff = LTE_BCCH_Config__modificationPeriodCoeff_n2; break; case 4: RRCcfg->radioresourceconfig[j].bcch_modificationPeriodCoeff = LTE_BCCH_Config__modificationPeriodCoeff_n4; break; case 8: RRCcfg->radioresourceconfig[j].bcch_modificationPeriodCoeff = LTE_BCCH_Config__modificationPeriodCoeff_n8; break; case 16: RRCcfg->radioresourceconfig[j].bcch_modificationPeriodCoeff = LTE_BCCH_Config__modificationPeriodCoeff_n16; break; default: AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for bcch_modificationPeriodCoeff choice: 2,4,8,16", RC.config_file_name, i, ccparams_lte.bcch_modificationPeriodCoeff); break; } RRCcfg->radioresourceconfig[j].ue_TimersAndConstants_t300 = ccparams_lte.ue_TimersAndConstants_t300; RRCcfg->radioresourceconfig[j].ue_TimersAndConstants_t301 = ccparams_lte.ue_TimersAndConstants_t301; RRCcfg->radioresourceconfig[j].ue_TimersAndConstants_t310 = ccparams_lte.ue_TimersAndConstants_t310; RRCcfg->radioresourceconfig[j].ue_TimersAndConstants_t311 = ccparams_lte.ue_TimersAndConstants_t311; RRCcfg->radioresourceconfig[j].ue_TimersAndConstants_n310 = ccparams_lte.ue_TimersAndConstants_n310; RRCcfg->radioresourceconfig[j].ue_TimersAndConstants_n311 = ccparams_lte.ue_TimersAndConstants_n311; switch (ccparams_lte.ue_TransmissionMode) { case 1: RRCcfg->radioresourceconfig[j].ue_TransmissionMode = LTE_AntennaInfoDedicated__transmissionMode_tm1; break; case 2: RRCcfg->radioresourceconfig[j].ue_TransmissionMode = LTE_AntennaInfoDedicated__transmissionMode_tm2; break; case 3: RRCcfg->radioresourceconfig[j].ue_TransmissionMode = LTE_AntennaInfoDedicated__transmissionMode_tm3; break; case 4: RRCcfg->radioresourceconfig[j].ue_TransmissionMode = LTE_AntennaInfoDedicated__transmissionMode_tm4; break; case 5: RRCcfg->radioresourceconfig[j].ue_TransmissionMode = LTE_AntennaInfoDedicated__transmissionMode_tm5; break; case 6: RRCcfg->radioresourceconfig[j].ue_TransmissionMode = LTE_AntennaInfoDedicated__transmissionMode_tm6; break; case 7: RRCcfg->radioresourceconfig[j].ue_TransmissionMode = LTE_AntennaInfoDedicated__transmissionMode_tm7; break; default: AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for ue_TransmissionMode choice: 1,2,3,4,5,6,7", RC.config_file_name, i, ccparams_lte.ue_TransmissionMode); break; } RRCcfg->radioresourceconfig[j].ue_multiple_max = ccparams_lte.ue_multiple_max; switch (ccparams_lte.N_RB_DL) { case 25: if ((ccparams_lte.ue_multiple_max < 1) || (ccparams_lte.ue_multiple_max > 4)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for ue_multiple_max choice: 1..4!\n", RC.config_file_name, i, ccparams_lte.ue_multiple_max); break; case 50: if ((ccparams_lte.ue_multiple_max < 1) || (ccparams_lte.ue_multiple_max > 8)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for ue_multiple_max choice: 1..8!\n", RC.config_file_name, i, ccparams_lte.ue_multiple_max); break; case 100: if ((ccparams_lte.ue_multiple_max < 1) || (ccparams_lte.ue_multiple_max > 16)) AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for ue_multiple_max choice: 1..16!\n", RC.config_file_name, i, ccparams_lte.ue_multiple_max); break; default: AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%d\" for N_RB_DL choice: 25,50,100 !\n", RC.config_file_name, i, ccparams_lte.N_RB_DL); break; } // eMBMS configuration RRCcfg->eMBMS_configured = 0; printf("No eMBMS configuration, skipping it\n"); // eMTC configuration char brparamspath[MAX_OPTNAME_SIZE*2 + 160]; sprintf(brparamspath,"%s.%s", ccspath, ENB_CONFIG_STRING_EMTC_PARAMETERS); config_get(config_get_if(), eMTCParams, sizeofArray(eMTCParams), brparamspath); RRCcfg->eMTC_configured = eMTCconfig.eMTC_configured & 1; if (eMTCconfig.eMTC_configured > 0) fill_eMTC_configuration(RRCcfg, &eMTCconfig, i, j, RC.config_file_name, brparamspath); else printf("No eMTC configuration, skipping it\n"); // Sidelink configuration char SLparamspath[MAX_OPTNAME_SIZE*2 + 160]; sprintf(SLparamspath,"%s.%s", ccspath, ENB_CONFIG_STRING_SL_PARAMETERS); config_get(config_get_if(), SLParams, sizeofArray(SLParams), SLparamspath); // Sidelink Resource pool information RRCcfg->SL_configured = SLconfig.sidelink_configured & 1; if (SLconfig.sidelink_configured == 1) fill_SL_configuration(RRCcfg, &SLconfig, i, j, RC.config_file_name); else printf("No SL configuration skipping it\n"); } RRCcfg->nr_scg_ssb_freq = ccparams_lte.nr_scg_ssb_freq; char srb1path[MAX_OPTNAME_SIZE*2 + 8]; sprintf(srb1path,"%s.%s",enbpath,ENB_CONFIG_STRING_SRB1); config_get(config_get_if(), SRB1Params, sizeofArray(SRB1Params), srb1path); switch (srb1_params.srb1_max_retx_threshold) { case 1: rrc->srb1_max_retx_threshold = LTE_UL_AM_RLC__maxRetxThreshold_t1; break; case 2: rrc->srb1_max_retx_threshold = LTE_UL_AM_RLC__maxRetxThreshold_t2; break; case 3: rrc->srb1_max_retx_threshold = LTE_UL_AM_RLC__maxRetxThreshold_t3; break; case 4: rrc->srb1_max_retx_threshold = LTE_UL_AM_RLC__maxRetxThreshold_t4; break; case 6: rrc->srb1_max_retx_threshold = LTE_UL_AM_RLC__maxRetxThreshold_t6; break; case 8: rrc->srb1_max_retx_threshold = LTE_UL_AM_RLC__maxRetxThreshold_t8; break; case 16: rrc->srb1_max_retx_threshold = LTE_UL_AM_RLC__maxRetxThreshold_t16; break; case 32: rrc->srb1_max_retx_threshold = LTE_UL_AM_RLC__maxRetxThreshold_t32; break; default: AssertFatal (0, "Bad config value when parsing eNB configuration file %s, enb %u srb1_max_retx_threshold %d!\n", RC.config_file_name, i, srb1_params.srb1_max_retx_threshold); } switch (srb1_params.srb1_poll_pdu) { case 4: rrc->srb1_poll_pdu = LTE_PollPDU_p4; break; case 8: rrc->srb1_poll_pdu = LTE_PollPDU_p8; break; case 16: rrc->srb1_poll_pdu = LTE_PollPDU_p16; break; case 32: rrc->srb1_poll_pdu = LTE_PollPDU_p32; break; case 64: rrc->srb1_poll_pdu = LTE_PollPDU_p64; break; case 128: rrc->srb1_poll_pdu = LTE_PollPDU_p128; break; case 256: rrc->srb1_poll_pdu = LTE_PollPDU_p256; break; default: if (srb1_params.srb1_poll_pdu >= 10000) rrc->srb1_poll_pdu = LTE_PollPDU_pInfinity; else AssertFatal (0, "Bad config value when parsing eNB configuration file %s, enb %u srb1_poll_pdu %d!\n", RC.config_file_name, i, srb1_params.srb1_poll_pdu); } rrc->srb1_poll_byte = srb1_params.srb1_poll_byte; switch (srb1_params.srb1_poll_byte) { case 25: rrc->srb1_poll_byte = LTE_PollByte_kB25; break; case 50: rrc->srb1_poll_byte = LTE_PollByte_kB50; break; case 75: rrc->srb1_poll_byte = LTE_PollByte_kB75; break; case 100: rrc->srb1_poll_byte = LTE_PollByte_kB100; break; case 125: rrc->srb1_poll_byte = LTE_PollByte_kB125; break; case 250: rrc->srb1_poll_byte = LTE_PollByte_kB250; break; case 375: rrc->srb1_poll_byte = LTE_PollByte_kB375; break; case 500: rrc->srb1_poll_byte = LTE_PollByte_kB500; break; case 750: rrc->srb1_poll_byte = LTE_PollByte_kB750; break; case 1000: rrc->srb1_poll_byte = LTE_PollByte_kB1000; break; case 1250: rrc->srb1_poll_byte = LTE_PollByte_kB1250; break; case 1500: rrc->srb1_poll_byte = LTE_PollByte_kB1500; break; case 2000: rrc->srb1_poll_byte = LTE_PollByte_kB2000; break; case 3000: rrc->srb1_poll_byte = LTE_PollByte_kB3000; break; default: if (srb1_params.srb1_poll_byte >= 10000) rrc->srb1_poll_byte = LTE_PollByte_kBinfinity; else AssertFatal (0, "Bad config value when parsing eNB configuration file %s, enb %u srb1_poll_byte %d!\n", RC.config_file_name, i, srb1_params.srb1_poll_byte); } if (srb1_params.srb1_timer_poll_retransmit <= 250) { rrc->srb1_timer_poll_retransmit = (srb1_params.srb1_timer_poll_retransmit - 5)/5; } else if (srb1_params.srb1_timer_poll_retransmit <= 500) { rrc->srb1_timer_poll_retransmit = (srb1_params.srb1_timer_poll_retransmit - 300)/50 + 50; } else { AssertFatal (0, "Bad config value when parsing eNB configuration file %s, enb %u srb1_timer_poll_retransmit %d!\n", RC.config_file_name, i, srb1_params.srb1_timer_poll_retransmit); } if (srb1_params.srb1_timer_status_prohibit <= 250) { rrc->srb1_timer_status_prohibit = srb1_params.srb1_timer_status_prohibit/5; } else if ((srb1_params.srb1_timer_poll_retransmit >= 300) && (srb1_params.srb1_timer_poll_retransmit <= 500)) { rrc->srb1_timer_status_prohibit = (srb1_params.srb1_timer_status_prohibit - 300)/50 + 51; } else { AssertFatal (0, "Bad config value when parsing eNB configuration file %s, enb %u srb1_timer_status_prohibit %d!\n", RC.config_file_name, i, srb1_params.srb1_timer_status_prohibit); } switch (srb1_params.srb1_timer_reordering) { case 0: rrc->srb1_timer_reordering = LTE_T_Reordering_ms0; break; case 5: rrc->srb1_timer_reordering = LTE_T_Reordering_ms5; break; case 10: rrc->srb1_timer_reordering = LTE_T_Reordering_ms10; break; case 15: rrc->srb1_timer_reordering = LTE_T_Reordering_ms15; break; case 20: rrc->srb1_timer_reordering = LTE_T_Reordering_ms20; break; case 25: rrc->srb1_timer_reordering = LTE_T_Reordering_ms25; break; case 30: rrc->srb1_timer_reordering = LTE_T_Reordering_ms30; break; case 35: rrc->srb1_timer_reordering = LTE_T_Reordering_ms35; break; case 40: rrc->srb1_timer_reordering = LTE_T_Reordering_ms40; break; case 45: rrc->srb1_timer_reordering = LTE_T_Reordering_ms45; break; case 50: rrc->srb1_timer_reordering = LTE_T_Reordering_ms50; break; case 55: rrc->srb1_timer_reordering = LTE_T_Reordering_ms55; break; case 60: rrc->srb1_timer_reordering = LTE_T_Reordering_ms60; break; case 65: rrc->srb1_timer_reordering = LTE_T_Reordering_ms65; break; case 70: rrc->srb1_timer_reordering = LTE_T_Reordering_ms70; break; case 75: rrc->srb1_timer_reordering = LTE_T_Reordering_ms75; break; case 80: rrc->srb1_timer_reordering = LTE_T_Reordering_ms80; break; case 85: rrc->srb1_timer_reordering = LTE_T_Reordering_ms85; break; case 90: rrc->srb1_timer_reordering = LTE_T_Reordering_ms90; break; case 95: rrc->srb1_timer_reordering = LTE_T_Reordering_ms95; break; case 100: rrc->srb1_timer_reordering = LTE_T_Reordering_ms100; break; case 110: rrc->srb1_timer_reordering = LTE_T_Reordering_ms110; break; case 120: rrc->srb1_timer_reordering = LTE_T_Reordering_ms120; break; case 130: rrc->srb1_timer_reordering = LTE_T_Reordering_ms130; break; case 140: rrc->srb1_timer_reordering = LTE_T_Reordering_ms140; break; case 150: rrc->srb1_timer_reordering = LTE_T_Reordering_ms150; break; case 160: rrc->srb1_timer_reordering = LTE_T_Reordering_ms160; break; case 170: rrc->srb1_timer_reordering = LTE_T_Reordering_ms170; break; case 180: rrc->srb1_timer_reordering = LTE_T_Reordering_ms180; break; case 190: rrc->srb1_timer_reordering = LTE_T_Reordering_ms190; break; case 200: rrc->srb1_timer_reordering = LTE_T_Reordering_ms200; break; default: AssertFatal (0, "Bad config value when parsing eNB configuration file %s, enb %u srb1_timer_reordering %d!\n", RC.config_file_name, i, srb1_params.srb1_timer_reordering); } } } } } return 0; } int RCconfig_gtpu(void ) { int num_enbs = 0; char *enb_interface_name_for_S1U = NULL; char *enb_ipv4_address_for_S1U = NULL; uint16_t enb_port_for_S1U = 0; char *address = NULL; char *cidr = NULL; char gtpupath[MAX_OPTNAME_SIZE*2 + 8]; paramdef_t ENBSParams[] = ENBSPARAMS_DESC; paramdef_t GTPUParams[] = GTPUPARAMS_DESC; LOG_I(GTPU,"Configuring GTPu\n"); /* get number of active eNodeBs */ config_get(config_get_if(), ENBSParams, sizeofArray(ENBSParams), NULL); num_enbs = ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt; AssertFatal (num_enbs >0, "Failed to parse config file no active eNodeBs in %s \n", ENB_CONFIG_STRING_ACTIVE_ENBS); sprintf(gtpupath,"%s.[%i].%s",ENB_CONFIG_STRING_ENB_LIST,0,ENB_CONFIG_STRING_NETWORK_INTERFACES_CONFIG); config_get(config_get_if(), GTPUParams, sizeofArray(GTPUParams), gtpupath); cidr = enb_ipv4_address_for_S1U; address = strtok(cidr, "/"); if (address) { MessageDef *message; AssertFatal((message = itti_alloc_new_message(TASK_ENB_APP, 0, GTPV1U_REQ))!=NULL,""); IPV4_STR_ADDR_TO_INT_NWBO ( address, GTPV1U_REQ(message).localAddr, "BAD IP ADDRESS FORMAT FOR eNB S1_U !\n" ); LOG_I(GTPU,"Configuring GTPu address : %s -> %x\n",address,GTPV1U_REQ(message).localAddr); GTPV1U_REQ(message).localPort = enb_port_for_S1U; strcpy(GTPV1U_REQ(message).localAddrStr,address); sprintf(GTPV1U_REQ(message).localPortStr,"%d", enb_port_for_S1U); itti_send_msg_to_task (TASK_GTPV1_U, 0, message); // data model is wrong: gtpu doesn't have enb_id (or module_id) } else LOG_E(GTPU,"invalid address for S1U\n"); return 0; } int RCconfig_M2(MessageDef *msg_p, uint32_t i) { int I, J, j, k, l; int enb_id; char *address = NULL; char *cidr = NULL; ccparams_lte_t ccparams_lte; memset((void *)&ccparams_lte,0,sizeof(ccparams_lte_t)); paramdef_t ENBSParams[] = ENBSPARAMS_DESC; paramdef_t ENBParams[] = ENBPARAMS_DESC; paramlist_def_t ENBParamList = {ENB_CONFIG_STRING_ENB_LIST,NULL,0}; /* get global parameters, defined outside any section in the config file */ config_get(config_get_if(), ENBSParams, sizeofArray(ENBSParams), NULL); checkedparam_t config_check_CCparams[] = CCPARAMS_CHECK; paramdef_t CCsParams[] = CCPARAMS_DESC(ccparams_lte); paramlist_def_t CCsParamList = {ENB_CONFIG_STRING_COMPONENT_CARRIERS, NULL, 0}; // ccparams_MCE_t MCEconfig; // memset((void *)&MCEconfig,0,sizeof(ccparams_MCE_t)); // paramdef_t MCEParams[] = MCEPARAMS_DESC((&MCEconfig)); // checkedparam_t config_check_MCEparams[] = MCEPARAMS_CHECK; /* map parameter checking array instances to parameter definition array instances */ for (I = 0; I < sizeofArray(CCsParams); I++) { CCsParams[I].chkPptr = &(config_check_CCparams[I]); } AssertFatal(i < ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt, "Failed to parse config file %s, %uth attribute %s \n", RC.config_file_name, i, ENB_CONFIG_STRING_ACTIVE_ENBS); if (ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt > 0) { // Output a list of all eNBs. config_getlist(config_get_if(), &ENBParamList, ENBParams, sizeofArray(ENBParams), NULL); if (ENBParamList.numelt > 0) { for (k = 0; k < ENBParamList.numelt; k++) { if (ENBParamList.paramarray[k][ENB_ENB_ID_IDX].uptr == NULL) { // Calculate a default eNB ID if (EPC_MODE_ENABLED) { uint32_t hash; hash = s1ap_generate_eNB_id (); enb_id = k + (hash & 0xFFFF8); } else { enb_id = k; } } else { enb_id = *(ENBParamList.paramarray[k][ENB_ENB_ID_IDX].uptr); } // search if in active list for (j = 0; j < ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt; j++) { if (strcmp(ENBSParams[ENB_ACTIVE_ENBS_IDX].strlistptr[j], *(ENBParamList.paramarray[k][ENB_ENB_NAME_IDX].strptr)) == 0) { paramdef_t PLMNParams[] = PLMNPARAMS_DESC; paramlist_def_t PLMNParamList = {ENB_CONFIG_STRING_PLMN_LIST, NULL, 0}; /* map parameter checking array instances to parameter definition array instances */ checkedparam_t config_check_PLMNParams [] = PLMNPARAMS_CHECK; for (int I = 0; I < sizeofArray(PLMNParams); ++I) PLMNParams[I].chkPptr = &(config_check_PLMNParams[I]); paramdef_t M2Params[] = M2PARAMS_DESC; paramlist_def_t M2ParamList = {ENB_CONFIG_STRING_TARGET_MCE_M2_IP_ADDRESS,NULL,0}; paramdef_t SCTPParams[] = SCTPPARAMS_DESC; paramdef_t NETParams[] = NETPARAMS_DESC; paramdef_t MBMSConfigParams[] = MBMS_CONFIG_PARAMS_DESC; paramdef_t MBMSParams[] = MBMSPARAMS_DESC; paramlist_def_t MBMSConfigParamList = {ENB_CONFIG_STRING_MBMS_CONFIGURATION_DATA_LIST,NULL,0}; paramlist_def_t MBMSParamList = {ENB_CONFIG_STRING_MBMS_SERVICE_AREA_LIST,NULL,0}; /* TODO: fix the size - if set lower we have a crash (MAX_OPTNAME_SIZE was 64 when this code was written) */ /* this is most probably a problem with the config module */ char aprefix[MAX_OPTNAME_SIZE*80 + 8]; sprintf(aprefix,"%s.[%i]",ENB_CONFIG_STRING_ENB_LIST,k); /* Some default/random parameters */ M2AP_REGISTER_ENB_REQ (msg_p).eNB_id = enb_id; if (strcmp(*(ENBParamList.paramarray[k][ENB_CELL_TYPE_IDX].strptr), "CELL_MACRO_ENB") == 0) { M2AP_REGISTER_ENB_REQ (msg_p).cell_type = CELL_MACRO_ENB; } else if (strcmp(*(ENBParamList.paramarray[k][ENB_CELL_TYPE_IDX].strptr), "CELL_HOME_ENB") == 0) { M2AP_REGISTER_ENB_REQ (msg_p).cell_type = CELL_HOME_ENB; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for cell_type choice: CELL_MACRO_ENB or CELL_HOME_ENB !\n", RC.config_file_name, i, *(ENBParamList.paramarray[k][ENB_CELL_TYPE_IDX].strptr)); } M2AP_REGISTER_ENB_REQ (msg_p).eNB_name = strdup(*(ENBParamList.paramarray[k][ENB_ENB_NAME_IDX].strptr)); M2AP_REGISTER_ENB_REQ (msg_p).tac = *ENBParamList.paramarray[k][ENB_TRACKING_AREA_CODE_IDX].uptr; config_getlist(config_get_if(), &PLMNParamList, PLMNParams, sizeofArray(PLMNParams), aprefix); // char aprefix2[MAX_OPTNAME_SIZE*80 + 8]; // sprintf(aprefix2,"%s.[%i].%s.[0]",ENB_CONFIG_STRING_ENB_LIST,k,ENB_CONFIG_STRING_MBMS_CONFIGURATION_DATA_LIST); // config_getlist(config_get_if(),&MBMSParamList, MBMSParams, sizeofArray(MBMSParams), // aprefix2); // if (MBMSParamList.numelt < 1 || MBMSParamList.numelt > 8) // AssertFatal(0, "The number of MBMS Areas must be in [1,8], but is %d\n", // MBMSParamList.numelt); // M2AP_REGISTER_ENB_REQ (msg_p).num_mbms_service_area_list = MBMSParamList.numelt; // for(J=0; J 8) AssertFatal(0, "The number of MBMS Config Data must be in [1,8], but is %d\n", MBMSConfigParamList.numelt); M2AP_REGISTER_ENB_REQ (msg_p).num_mbms_configuration_data_list = MBMSConfigParamList.numelt; for(int I=0; I < MBMSConfigParamList.numelt; I++){ sprintf(aprefix2,"%s.[%i].%s.[%i]",ENB_CONFIG_STRING_ENB_LIST,k,ENB_CONFIG_STRING_MBMS_CONFIGURATION_DATA_LIST,I); config_getlist(config_get_if(), &MBMSParamList, MBMSParams, sizeofArray(MBMSParams), aprefix2); if (MBMSParamList.numelt < 1 || MBMSParamList.numelt > 8) AssertFatal(0, "The number of MBMS Areas must be in [1,8], but is %d\n", MBMSParamList.numelt); M2AP_REGISTER_ENB_REQ (msg_p).mbms_configuration_data_list[I].num_mbms_service_area_list = MBMSParamList.numelt; for(J=0; J 6) AssertFatal(0, "The number of PLMN IDs must be in [1,6], but is %d\n", PLMNParamList.numelt); if (PLMNParamList.numelt > 1) LOG_W(M2AP, "M2AP currently handles only one PLMN, ignoring the others!\n"); M2AP_REGISTER_ENB_REQ (msg_p).mcc = *PLMNParamList.paramarray[0][ENB_MOBILE_COUNTRY_CODE_IDX].uptr; M2AP_REGISTER_ENB_REQ (msg_p).mnc = *PLMNParamList.paramarray[0][ENB_MOBILE_NETWORK_CODE_IDX].uptr; M2AP_REGISTER_ENB_REQ (msg_p).mnc_digit_length = *PLMNParamList.paramarray[0][ENB_MNC_DIGIT_LENGTH].u8ptr; AssertFatal(M2AP_REGISTER_ENB_REQ(msg_p).mnc_digit_length == 3 || M2AP_REGISTER_ENB_REQ(msg_p).mnc < 100, "MNC %d cannot be encoded in two digits as requested (change mnc_digit_length to 3)\n", M2AP_REGISTER_ENB_REQ(msg_p).mnc); /* CC params */ config_getlist(config_get_if(), &CCsParamList, NULL, 0, aprefix); M2AP_REGISTER_ENB_REQ (msg_p).num_cc = CCsParamList.numelt; if (CCsParamList.numelt > 0) { //char ccspath[MAX_OPTNAME_SIZE*2 + 16]; for (J = 0; J < CCsParamList.numelt ; J++) { sprintf(aprefix, "%s.[%i].%s.[%i]", ENB_CONFIG_STRING_ENB_LIST, k, ENB_CONFIG_STRING_COMPONENT_CARRIERS, J); config_get(config_get_if(), CCsParams, sizeofArray(CCsParams), aprefix); M2AP_REGISTER_ENB_REQ (msg_p).eutra_band[J] = ccparams_lte.eutra_band; M2AP_REGISTER_ENB_REQ (msg_p).downlink_frequency[J] = (uint32_t) ccparams_lte.downlink_frequency; M2AP_REGISTER_ENB_REQ (msg_p).uplink_frequency_offset[J] = (unsigned int) ccparams_lte.uplink_frequency_offset; M2AP_REGISTER_ENB_REQ (msg_p).Nid_cell[J]= ccparams_lte.Nid_cell; if (ccparams_lte.Nid_cell>503) { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for Nid_cell choice: 0...503 !\n", RC.config_file_name, k, ccparams_lte.Nid_cell); } M2AP_REGISTER_ENB_REQ (msg_p).N_RB_DL[J]= ccparams_lte.N_RB_DL; if ((ccparams_lte.N_RB_DL!=6) && (ccparams_lte.N_RB_DL!=15) && (ccparams_lte.N_RB_DL!=25) && (ccparams_lte.N_RB_DL!=50) && (ccparams_lte.N_RB_DL!=75) && (ccparams_lte.N_RB_DL!=100)) { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for N_RB_DL choice: 6,15,25,50,75,100 !\n", RC.config_file_name, k, ccparams_lte.N_RB_DL); } if (strcmp(ccparams_lte.frame_type, "FDD") == 0) { M2AP_REGISTER_ENB_REQ (msg_p).frame_type[J] = FDD; } else if (strcmp(ccparams_lte.frame_type, "TDD") == 0) { M2AP_REGISTER_ENB_REQ (msg_p).frame_type[J] = TDD; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for frame_type choice: FDD or TDD !\n", RC.config_file_name, k, ccparams_lte.frame_type); } M2AP_REGISTER_ENB_REQ (msg_p).fdd_earfcn_DL[J] = to_earfcn_DL(ccparams_lte.eutra_band, ccparams_lte.downlink_frequency, ccparams_lte.N_RB_DL); M2AP_REGISTER_ENB_REQ (msg_p).fdd_earfcn_UL[J] = to_earfcn_UL(ccparams_lte.eutra_band, ccparams_lte.downlink_frequency + ccparams_lte.uplink_frequency_offset, ccparams_lte.N_RB_DL); } } sprintf(aprefix,"%s.[%i]",ENB_CONFIG_STRING_ENB_LIST,k); config_getlist(config_get_if(), &M2ParamList, M2Params, sizeofArray(M2Params), aprefix); AssertFatal(M2ParamList.numelt <= M2AP_MAX_NB_ENB_IP_ADDRESS, "value of M2ParamList.numelt %d must be lower than M2AP_MAX_NB_ENB_IP_ADDRESS %d value: reconsider to increase M2AP_MAX_NB_ENB_IP_ADDRESS\n", M2ParamList.numelt,M2AP_MAX_NB_ENB_IP_ADDRESS); M2AP_REGISTER_ENB_REQ (msg_p).nb_m2 = 0; for (l = 0; l < M2ParamList.numelt; l++) { M2AP_REGISTER_ENB_REQ (msg_p).nb_m2 += 1; strcpy(M2AP_REGISTER_ENB_REQ (msg_p).target_mce_m2_ip_address[l].ipv4_address,*(M2ParamList.paramarray[l][ENB_M2_IPV4_ADDRESS_IDX].strptr)); strcpy(M2AP_REGISTER_ENB_REQ (msg_p).target_mce_m2_ip_address[l].ipv6_address,*(M2ParamList.paramarray[l][ENB_M2_IPV6_ADDRESS_IDX].strptr)); if (strcmp(*(M2ParamList.paramarray[l][ENB_M2_IP_ADDRESS_PREFERENCE_IDX].strptr), "ipv4") == 0) { M2AP_REGISTER_ENB_REQ (msg_p).target_mce_m2_ip_address[l].ipv4 = 1; M2AP_REGISTER_ENB_REQ (msg_p).target_mce_m2_ip_address[l].ipv6 = 0; } else if (strcmp(*(M2ParamList.paramarray[l][ENB_M2_IP_ADDRESS_PREFERENCE_IDX].strptr), "ipv6") == 0) { M2AP_REGISTER_ENB_REQ (msg_p).target_mce_m2_ip_address[l].ipv4 = 0; M2AP_REGISTER_ENB_REQ (msg_p).target_mce_m2_ip_address[l].ipv6 = 1; } else if (strcmp(*(M2ParamList.paramarray[l][ENB_M2_IP_ADDRESS_PREFERENCE_IDX].strptr), "no") == 0) { M2AP_REGISTER_ENB_REQ (msg_p).target_mce_m2_ip_address[l].ipv4 = 1; M2AP_REGISTER_ENB_REQ (msg_p).target_mce_m2_ip_address[l].ipv6 = 1; } } // timers //{ // int t_reloc_prep = 0; // int tx2_reloc_overall = 0; // paramdef_t p[] = { // { "t_reloc_prep", "t_reloc_prep", 0, iptr:&t_reloc_prep, defintval:0, TYPE_INT, 0 }, // { "tx2_reloc_overall", "tx2_reloc_overall", 0, iptr:&tx2_reloc_overall, defintval:0, TYPE_INT, 0 } // }; // config_get(p, sizeofArray(p), aprefix); // if (t_reloc_prep <= 0 || t_reloc_prep > 10000 || // tx2_reloc_overall <= 0 || tx2_reloc_overall > 20000) { // LOG_E(M2AP, "timers in configuration file have wrong values. We must have [0 < t_reloc_prep <= 10000] and [0 < tx2_reloc_overall <= 20000]\n"); // exit(1); // } // M2AP_REGISTER_ENB_REQ (msg_p).t_reloc_prep = t_reloc_prep; // M2AP_REGISTER_ENB_REQ (msg_p).tx2_reloc_overall = tx2_reloc_overall; //} // SCTP SETTING M2AP_REGISTER_ENB_REQ (msg_p).sctp_out_streams = SCTP_OUT_STREAMS; M2AP_REGISTER_ENB_REQ (msg_p).sctp_in_streams = SCTP_IN_STREAMS; if (EPC_MODE_ENABLED) { sprintf(aprefix,"%s.[%i].%s",ENB_CONFIG_STRING_ENB_LIST,k,ENB_CONFIG_STRING_SCTP_CONFIG); config_get(config_get_if(), SCTPParams, sizeofArray(SCTPParams), aprefix); M2AP_REGISTER_ENB_REQ (msg_p).sctp_in_streams = (uint16_t)*(SCTPParams[ENB_SCTP_INSTREAMS_IDX].uptr); M2AP_REGISTER_ENB_REQ (msg_p).sctp_out_streams = (uint16_t)*(SCTPParams[ENB_SCTP_OUTSTREAMS_IDX].uptr); } sprintf(aprefix,"%s.[%i].%s",ENB_CONFIG_STRING_ENB_LIST,k,ENB_CONFIG_STRING_NETWORK_INTERFACES_CONFIG); // NETWORK_INTERFACES config_get(config_get_if(), NETParams, sizeofArray(NETParams), aprefix); M2AP_REGISTER_ENB_REQ (msg_p).enb_port_for_M2C = (uint32_t)*(NETParams[ENB_PORT_FOR_M2C_IDX].uptr); if ((NETParams[ENB_IPV4_ADDR_FOR_M2C_IDX].strptr == NULL) || (M2AP_REGISTER_ENB_REQ (msg_p).enb_port_for_M2C == 0)) { LOG_E(RRC,"Add eNB IPv4 address and/or port for M2C in the CONF file!\n"); exit(1); } cidr = *(NETParams[ENB_IPV4_ADDR_FOR_M2C_IDX].strptr); address = strtok(cidr, "/"); M2AP_REGISTER_ENB_REQ (msg_p).enb_m2_ip_address.ipv6 = 0; M2AP_REGISTER_ENB_REQ (msg_p).enb_m2_ip_address.ipv4 = 1; strcpy(M2AP_REGISTER_ENB_REQ (msg_p).enb_m2_ip_address.ipv4_address, address); } } } } } return 0; } //----------------------------------------------------------------------------- /* * Configure the s1ap_register_enb_req in itti message for future * communications between eNB(s) and MME. */ int RCconfig_S1( MessageDef *msg_p, uint32_t i) //----------------------------------------------------------------------------- { int enb_id = 0; int32_t my_int = 0; const char *active_enb[MAX_ENB]; char *address = NULL; char *cidr = NULL; ccparams_lte_t ccparams_lte; memset((void *)&ccparams_lte,0,sizeof(ccparams_lte_t)); // for no gcc warnings (void)my_int; memset((char *)active_enb, 0, MAX_ENB * sizeof(char *)); paramdef_t ENBSParams[] = ENBSPARAMS_DESC; paramdef_t ENBParams[] = ENBPARAMS_DESC; paramlist_def_t ENBParamList = {ENB_CONFIG_STRING_ENB_LIST, NULL, 0}; /* get global parameters, defined outside any section in the config file */ config_get(config_get_if(), ENBSParams, sizeofArray(ENBSParams), NULL); AssertFatal (i < ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt, "Failed to parse config file %s, %uth attribute %s \n", RC.config_file_name, i, ENB_CONFIG_STRING_ACTIVE_ENBS); if (ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt > 0) { // Output a list of all eNBs. config_getlist(config_get_if(), &ENBParamList, ENBParams, sizeofArray(ENBParams), NULL); if (ENBParamList.numelt > 0) { for (int k = 0; k < ENBParamList.numelt; k++) { if (ENBParamList.paramarray[k][ENB_ENB_ID_IDX].uptr == NULL) { // Calculate a default eNB ID if (EPC_MODE_ENABLED) { uint32_t hash = 0; hash = s1ap_generate_eNB_id(); enb_id = k + (hash & 0xFFFF8); } else { enb_id = k; } } else { enb_id = *(ENBParamList.paramarray[k][ENB_ENB_ID_IDX].uptr); } // search if in active list for (int j = 0; j < ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt; j++) { if (strcmp(ENBSParams[ENB_ACTIVE_ENBS_IDX].strlistptr[j], *(ENBParamList.paramarray[k][ENB_ENB_NAME_IDX].strptr)) == 0) { paramdef_t PLMNParams[] = PLMNPARAMS_DESC; paramlist_def_t PLMNParamList = {ENB_CONFIG_STRING_PLMN_LIST, NULL, 0}; paramdef_t CCsParams[] = CCPARAMS_DESC(ccparams_lte); /* map parameter checking array instances to parameter definition array instances */ checkedparam_t config_check_CCparams[] = CCPARAMS_CHECK; for (int I = 0; I < sizeofArray(CCsParams); I++) { CCsParams[I].chkPptr = &(config_check_CCparams[I]); } /* map parameter checking array instances to parameter definition array instances */ checkedparam_t config_check_PLMNParams [] = PLMNPARAMS_CHECK; for (int I = 0; I < sizeofArray(PLMNParams); ++I) { PLMNParams[I].chkPptr = &(config_check_PLMNParams[I]); } paramdef_t S1Params[] = S1PARAMS_DESC; paramlist_def_t S1ParamList = {ENB_CONFIG_STRING_MME_IP_ADDRESS, NULL, 0}; paramdef_t SCTPParams[] = SCTPPARAMS_DESC; paramdef_t NETParams[] = NETPARAMS_DESC; char aprefix[MAX_OPTNAME_SIZE*2 + 8]; sprintf(aprefix, "%s.[%i]", ENB_CONFIG_STRING_ENB_LIST, k); S1AP_REGISTER_ENB_REQ (msg_p).eNB_id = enb_id; if (strcmp(*(ENBParamList.paramarray[k][ENB_CELL_TYPE_IDX].strptr), "CELL_MACRO_ENB") == 0) { S1AP_REGISTER_ENB_REQ (msg_p).cell_type = CELL_MACRO_ENB; } else if (strcmp(*(ENBParamList.paramarray[k][ENB_CELL_TYPE_IDX].strptr), "CELL_HOME_ENB") == 0) { S1AP_REGISTER_ENB_REQ (msg_p).cell_type = CELL_HOME_ENB; // Temporary option to be able to parse an eNB configuration file which is treated as gNB from // the X2AP layer and test the setup of an ENDC X2AP connection. To be removed when we are ready to // parse an actual gNB configuration file wrt. the X2AP parameters instead. } else if (strcmp(*(ENBParamList.paramarray[k][ENB_CELL_TYPE_IDX].strptr), "CELL_MACRO_GNB") == 0) { S1AP_REGISTER_ENB_REQ (msg_p).cell_type = CELL_MACRO_GNB; } else { AssertFatal(0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for cell_type choice: CELL_MACRO_ENB or CELL_HOME_ENB !\n", RC.config_file_name, i, *(ENBParamList.paramarray[k][ENB_CELL_TYPE_IDX].strptr)); } S1AP_REGISTER_ENB_REQ (msg_p).eNB_name = strdup(*(ENBParamList.paramarray[k][ENB_ENB_NAME_IDX].strptr)); S1AP_REGISTER_ENB_REQ(msg_p).tac = *ENBParamList.paramarray[k][ENB_TRACKING_AREA_CODE_IDX].uptr; AssertFatal(!ENBParamList.paramarray[k][ENB_MOBILE_COUNTRY_CODE_IDX_OLD].strptr && !ENBParamList.paramarray[k][ENB_MOBILE_NETWORK_CODE_IDX_OLD].strptr, "It seems that you use an old configuration file. Please change the existing\n" " tracking_area_code = \"1\";\n" " mobile_country_code = \"208\";\n" " mobile_network_code = \"93\";\n" "to\n" " tracking_area_code = 1; // no string!!\n" " plmn_list = ( { mcc = 208; mnc = 93; mnc_length = 2; } )\n"); if(*ENBParamList.paramarray[k][ENB_S1SETUP_RSP_TIMER_IDX].uptr <= 0xffff) { S1AP_REGISTER_ENB_REQ(msg_p).s1_setuprsp_wait_timer = *ENBParamList.paramarray[k][ENB_S1SETUP_RSP_TIMER_IDX].uptr; } else { LOG_E(S1AP, "s1setup_rsp_timer value in conf file is invalid (%d). Default value is set.\n", *ENBParamList.paramarray[k][ENB_S1SETUP_RSP_TIMER_IDX].uptr); S1AP_REGISTER_ENB_REQ(msg_p).s1_setuprsp_wait_timer = 5; } if(*ENBParamList.paramarray[k][ENB_S1SETUP_REQ_TIMER_IDX].uptr <= 0xffff) { S1AP_REGISTER_ENB_REQ(msg_p).s1_setupreq_wait_timer = *ENBParamList.paramarray[k][ENB_S1SETUP_REQ_TIMER_IDX].uptr; } else { LOG_E(S1AP, "s1setup_req_timer value in conf file is invalid (%d). Default value is set.\n", *ENBParamList.paramarray[k][ENB_S1SETUP_REQ_TIMER_IDX].uptr); S1AP_REGISTER_ENB_REQ(msg_p).s1_setupreq_wait_timer = 5; } if(*ENBParamList.paramarray[k][ENB_S1SETUP_REQ_COUNT_IDX].uptr <= 0xffff) { S1AP_REGISTER_ENB_REQ(msg_p).s1_setupreq_count = *ENBParamList.paramarray[k][ENB_S1SETUP_REQ_COUNT_IDX].uptr; } else { LOG_E(S1AP, "s1setup_req_count value in conf file is invalid (%d). Default value is set.\n", *ENBParamList.paramarray[k][ENB_S1SETUP_REQ_COUNT_IDX].uptr); S1AP_REGISTER_ENB_REQ(msg_p).s1_setupreq_count = 0xffff; } if(*ENBParamList.paramarray[k][ENB_SCTP_REQ_TIMER_IDX].uptr <= 0xffff) { S1AP_REGISTER_ENB_REQ(msg_p).sctp_req_timer = *ENBParamList.paramarray[k][ENB_SCTP_REQ_TIMER_IDX].uptr; } else { LOG_E(S1AP, "sctp_req_timer value in conf file is invalid (%d). Default value is set.\n", *ENBParamList.paramarray[k][ENB_SCTP_REQ_TIMER_IDX].uptr); S1AP_REGISTER_ENB_REQ(msg_p).sctp_req_timer = 180; } if(*ENBParamList.paramarray[k][ENB_SCTP_REQ_COUNT_IDX].uptr <= 0xffff) { S1AP_REGISTER_ENB_REQ(msg_p).sctp_req_count = *ENBParamList.paramarray[k][ENB_SCTP_REQ_COUNT_IDX].uptr; } else { LOG_E(S1AP, "sctp_req_count value in conf file is invalid (%d). Default value is set.\n", *ENBParamList.paramarray[k][ENB_SCTP_REQ_COUNT_IDX].uptr); S1AP_REGISTER_ENB_REQ(msg_p).sctp_req_count = 0xffff; } config_getlist(config_get_if(), &PLMNParamList, PLMNParams, sizeofArray(PLMNParams), aprefix); if (PLMNParamList.numelt < 1 || PLMNParamList.numelt > 6) { AssertFatal(0, "The number of PLMN IDs must be in [1,6], but is %d\n", PLMNParamList.numelt); } S1AP_REGISTER_ENB_REQ(msg_p).num_plmn = PLMNParamList.numelt; for (int l = 0; l < PLMNParamList.numelt; ++l) { S1AP_REGISTER_ENB_REQ(msg_p).mcc[l] = *PLMNParamList.paramarray[l][ENB_MOBILE_COUNTRY_CODE_IDX].uptr; S1AP_REGISTER_ENB_REQ(msg_p).mnc[l] = *PLMNParamList.paramarray[l][ENB_MOBILE_NETWORK_CODE_IDX].uptr; S1AP_REGISTER_ENB_REQ(msg_p).mnc_digit_length[l] = *PLMNParamList.paramarray[l][ENB_MNC_DIGIT_LENGTH].u8ptr; AssertFatal(S1AP_REGISTER_ENB_REQ(msg_p).mnc_digit_length[l] == 3 || S1AP_REGISTER_ENB_REQ(msg_p).mnc[l] < 100, "MNC %d cannot be encoded in two digits as requested (change mnc_digit_length to 3)\n", S1AP_REGISTER_ENB_REQ(msg_p).mnc[l]); } /* Default DRX param */ /* * Here we get the config of the first CC, since the s1ap_register_enb_req_t doesn't support multiple CC. * There is a unique value of defaultPagingCycle per eNB (same for multiple cells). * Hence, it should be stated somewhere that the value should be the same for every CC, or put the value outside the CC * in the conf file. */ sprintf(aprefix, "%s.[%i].%s.[%i]", ENB_CONFIG_STRING_ENB_LIST, k, ENB_CONFIG_STRING_COMPONENT_CARRIERS, 0); config_get(config_get_if(), CCsParams, sizeofArray(CCsParams), aprefix); switch (ccparams_lte.pcch_defaultPagingCycle) { case 32: { S1AP_REGISTER_ENB_REQ(msg_p).default_drx = 0; break; } case 64: { S1AP_REGISTER_ENB_REQ(msg_p).default_drx = 1; break; } case 128: { S1AP_REGISTER_ENB_REQ(msg_p).default_drx = 2; break; } case 256: { S1AP_REGISTER_ENB_REQ(msg_p).default_drx = 3; break; } default: { LOG_E(S1AP, "Default I-DRX value in conf file is invalid (%i). Should be 32, 64, 128 or 256. \ Default DRX set to 32 in MME configuration\n", ccparams_lte.pcch_defaultPagingCycle); S1AP_REGISTER_ENB_REQ(msg_p).default_drx = 0; } } /* MME connection params */ sprintf(aprefix, "%s.[%i]", ENB_CONFIG_STRING_ENB_LIST, k); config_getlist(config_get_if(), &S1ParamList, S1Params, sizeofArray(S1Params), aprefix); S1AP_REGISTER_ENB_REQ (msg_p).nb_mme = 0; for (int l = 0; l < S1ParamList.numelt; l++) { S1AP_REGISTER_ENB_REQ (msg_p).nb_mme += 1; strcpy(S1AP_REGISTER_ENB_REQ (msg_p).mme_ip_address[l].ipv4_address,*(S1ParamList.paramarray[l][ENB_MME_IPV4_ADDRESS_IDX].strptr)); strcpy(S1AP_REGISTER_ENB_REQ (msg_p).mme_ip_address[l].ipv6_address,*(S1ParamList.paramarray[l][ENB_MME_IPV6_ADDRESS_IDX].strptr)); if (strcmp(*(S1ParamList.paramarray[l][ENB_MME_IP_ADDRESS_PREFERENCE_IDX].strptr), "ipv4") == 0) { S1AP_REGISTER_ENB_REQ (msg_p).mme_ip_address[l].ipv4 = 1; S1AP_REGISTER_ENB_REQ (msg_p).mme_ip_address[l].ipv6 = 0; } else if (strcmp(*(S1ParamList.paramarray[l][ENB_MME_IP_ADDRESS_PREFERENCE_IDX].strptr), "ipv6") == 0) { S1AP_REGISTER_ENB_REQ (msg_p).mme_ip_address[l].ipv4 = 0; S1AP_REGISTER_ENB_REQ (msg_p).mme_ip_address[l].ipv6 = 1; } else if (strcmp(*(S1ParamList.paramarray[l][ENB_MME_IP_ADDRESS_PREFERENCE_IDX].strptr), "no") == 0) { S1AP_REGISTER_ENB_REQ (msg_p).mme_ip_address[l].ipv4 = 1; S1AP_REGISTER_ENB_REQ (msg_p).mme_ip_address[l].ipv6 = 1; } if (S1ParamList.paramarray[l][ENB_MME_BROADCAST_PLMN_INDEX].iptr) { S1AP_REGISTER_ENB_REQ(msg_p).broadcast_plmn_num[l] = S1ParamList.paramarray[l][ENB_MME_BROADCAST_PLMN_INDEX].numelt; } else { S1AP_REGISTER_ENB_REQ(msg_p).broadcast_plmn_num[l] = 0; } /* set S1-mme port (sctp) */ S1AP_REGISTER_ENB_REQ(msg_p).mme_port[l] = *S1ParamList.paramarray[l][ENB_MME_PORT_IDX].u16ptr; AssertFatal(S1AP_REGISTER_ENB_REQ(msg_p).broadcast_plmn_num[l] <= S1AP_REGISTER_ENB_REQ(msg_p).num_plmn, "List of broadcast PLMN to be sent to MME can not be longer than actual " "PLMN list (max %d, but is %d)\n", S1AP_REGISTER_ENB_REQ(msg_p).num_plmn, S1AP_REGISTER_ENB_REQ(msg_p).broadcast_plmn_num[l]); for (int el = 0; el < S1AP_REGISTER_ENB_REQ(msg_p).broadcast_plmn_num[l]; ++el) { /* UINTARRAY gets mapped to int, see config_libconfig.c:223 */ S1AP_REGISTER_ENB_REQ(msg_p).broadcast_plmn_index[l][el] = S1ParamList.paramarray[l][ENB_MME_BROADCAST_PLMN_INDEX].iptr[el]; AssertFatal(S1AP_REGISTER_ENB_REQ(msg_p).broadcast_plmn_index[l][el] >= 0 && S1AP_REGISTER_ENB_REQ(msg_p).broadcast_plmn_index[l][el] < S1AP_REGISTER_ENB_REQ(msg_p).num_plmn, "index for MME's MCC/MNC (%d) is an invalid index for the registered PLMN IDs (%d)\n", S1AP_REGISTER_ENB_REQ(msg_p).broadcast_plmn_index[l][el], S1AP_REGISTER_ENB_REQ(msg_p).num_plmn); } /* if no broadcasst_plmn array is defined, fill default values */ if (S1AP_REGISTER_ENB_REQ(msg_p).broadcast_plmn_num[l] == 0) { S1AP_REGISTER_ENB_REQ(msg_p).broadcast_plmn_num[l] = S1AP_REGISTER_ENB_REQ(msg_p).num_plmn; for (int el = 0; el < S1AP_REGISTER_ENB_REQ(msg_p).num_plmn; ++el) { S1AP_REGISTER_ENB_REQ(msg_p).broadcast_plmn_index[l][el] = el; } } } // SCTP SETTING S1AP_REGISTER_ENB_REQ (msg_p).sctp_out_streams = SCTP_OUT_STREAMS; S1AP_REGISTER_ENB_REQ (msg_p).sctp_in_streams = SCTP_IN_STREAMS; if (EPC_MODE_ENABLED) { sprintf(aprefix,"%s.[%i].%s",ENB_CONFIG_STRING_ENB_LIST,k,ENB_CONFIG_STRING_SCTP_CONFIG); config_get(config_get_if(), SCTPParams, sizeofArray(SCTPParams), aprefix); S1AP_REGISTER_ENB_REQ (msg_p).sctp_in_streams = (uint16_t)*(SCTPParams[ENB_SCTP_INSTREAMS_IDX].uptr); S1AP_REGISTER_ENB_REQ (msg_p).sctp_out_streams = (uint16_t)*(SCTPParams[ENB_SCTP_OUTSTREAMS_IDX].uptr); } sprintf(aprefix,"%s.[%i].%s",ENB_CONFIG_STRING_ENB_LIST,k,ENB_CONFIG_STRING_NETWORK_INTERFACES_CONFIG); // NETWORK_INTERFACES config_get(config_get_if(), NETParams, sizeofArray(NETParams), aprefix); cidr = *(NETParams[ENB_IPV4_ADDRESS_FOR_S1_MME_IDX].strptr); address = strtok(cidr, "/"); S1AP_REGISTER_ENB_REQ (msg_p).enb_ip_address.ipv6 = 0; S1AP_REGISTER_ENB_REQ (msg_p).enb_ip_address.ipv4 = 1; strcpy(S1AP_REGISTER_ENB_REQ (msg_p).enb_ip_address.ipv4_address, address); break; } } } } } return 0; } int RCconfig_X2(MessageDef *msg_p, uint32_t i) { int I, J, j, k, l; int enb_id; char *address = NULL; char *cidr = NULL; ccparams_lte_t ccparams_lte; memset((void *)&ccparams_lte,0,sizeof(ccparams_lte_t)); paramdef_t ENBSParams[] = ENBSPARAMS_DESC; paramdef_t ENBParams[] = ENBPARAMS_DESC; paramlist_def_t ENBParamList = {ENB_CONFIG_STRING_ENB_LIST,NULL,0}; /* get global parameters, defined outside any section in the config file */ config_get(config_get_if(), ENBSParams, sizeofArray(ENBSParams), NULL); checkedparam_t config_check_CCparams[] = CCPARAMS_CHECK; paramdef_t CCsParams[] = CCPARAMS_DESC(ccparams_lte); paramlist_def_t CCsParamList = {ENB_CONFIG_STRING_COMPONENT_CARRIERS, NULL, 0}; /* map parameter checking array instances to parameter definition array instances */ for (I = 0; I < sizeofArray(CCsParams); I++) { CCsParams[I].chkPptr = &(config_check_CCparams[I]); } AssertFatal(i < ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt, "Failed to parse config file %s, %uth attribute %s \n", RC.config_file_name, i, ENB_CONFIG_STRING_ACTIVE_ENBS); if (ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt > 0) { // Output a list of all eNBs. config_getlist(config_get_if(), &ENBParamList, ENBParams, sizeofArray(ENBParams), NULL); if (ENBParamList.numelt > 0) { for (k = 0; k < ENBParamList.numelt; k++) { if (ENBParamList.paramarray[k][ENB_ENB_ID_IDX].uptr == NULL) { // Calculate a default eNB ID if (EPC_MODE_ENABLED) { uint32_t hash; hash = s1ap_generate_eNB_id (); enb_id = k + (hash & 0xFFFF8); } else { enb_id = k; } } else { enb_id = *(ENBParamList.paramarray[k][ENB_ENB_ID_IDX].uptr); } // search if in active list for (j = 0; j < ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt; j++) { if (strcmp(ENBSParams[ENB_ACTIVE_ENBS_IDX].strlistptr[j], *(ENBParamList.paramarray[k][ENB_ENB_NAME_IDX].strptr)) == 0) { paramdef_t PLMNParams[] = PLMNPARAMS_DESC; paramlist_def_t PLMNParamList = {ENB_CONFIG_STRING_PLMN_LIST, NULL, 0}; /* map parameter checking array instances to parameter definition array instances */ checkedparam_t config_check_PLMNParams [] = PLMNPARAMS_CHECK; for (int I = 0; I < sizeofArray(PLMNParams); ++I) PLMNParams[I].chkPptr = &(config_check_PLMNParams[I]); paramdef_t X2Params[] = X2PARAMS_DESC; paramlist_def_t X2ParamList = {ENB_CONFIG_STRING_TARGET_ENB_X2_IP_ADDRESS,NULL,0}; paramdef_t SCTPParams[] = SCTPPARAMS_DESC; paramdef_t NETParams[] = NETPARAMS_DESC; /* TODO: fix the size - if set lower we have a crash (MAX_OPTNAME_SIZE was 64 when this code was written) */ /* this is most probably a problem with the config module */ char aprefix[MAX_OPTNAME_SIZE*80 + 8]; sprintf(aprefix,"%s.[%i]",ENB_CONFIG_STRING_ENB_LIST,k); /* Some default/random parameters */ X2AP_REGISTER_ENB_REQ (msg_p).eNB_id = enb_id; if (strcmp(*(ENBParamList.paramarray[k][ENB_CELL_TYPE_IDX].strptr), "CELL_MACRO_ENB") == 0) { X2AP_REGISTER_ENB_REQ (msg_p).cell_type = CELL_MACRO_ENB; } else if (strcmp(*(ENBParamList.paramarray[k][ENB_CELL_TYPE_IDX].strptr), "CELL_HOME_ENB") == 0) { X2AP_REGISTER_ENB_REQ (msg_p).cell_type = CELL_HOME_ENB; }else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %u unknown value \"%s\" for cell_type choice: CELL_MACRO_ENB or CELL_HOME_ENB !\n", RC.config_file_name, i, *(ENBParamList.paramarray[k][ENB_CELL_TYPE_IDX].strptr)); } X2AP_REGISTER_ENB_REQ (msg_p).eNB_name = strdup(*(ENBParamList.paramarray[k][ENB_ENB_NAME_IDX].strptr)); X2AP_REGISTER_ENB_REQ (msg_p).tac = *ENBParamList.paramarray[k][ENB_TRACKING_AREA_CODE_IDX].uptr; config_getlist(config_get_if(), &PLMNParamList, PLMNParams, sizeofArray(PLMNParams), aprefix); if (PLMNParamList.numelt < 1 || PLMNParamList.numelt > 6) AssertFatal(0, "The number of PLMN IDs must be in [1,6], but is %d\n", PLMNParamList.numelt); if (PLMNParamList.numelt > 1) LOG_W(X2AP, "X2AP currently handles only one PLMN, ignoring the others!\n"); X2AP_REGISTER_ENB_REQ (msg_p).mcc = *PLMNParamList.paramarray[0][ENB_MOBILE_COUNTRY_CODE_IDX].uptr; X2AP_REGISTER_ENB_REQ (msg_p).mnc = *PLMNParamList.paramarray[0][ENB_MOBILE_NETWORK_CODE_IDX].uptr; X2AP_REGISTER_ENB_REQ (msg_p).mnc_digit_length = *PLMNParamList.paramarray[0][ENB_MNC_DIGIT_LENGTH].u8ptr; AssertFatal(X2AP_REGISTER_ENB_REQ(msg_p).mnc_digit_length == 3 || X2AP_REGISTER_ENB_REQ(msg_p).mnc < 100, "MNC %d cannot be encoded in two digits as requested (change mnc_digit_length to 3)\n", X2AP_REGISTER_ENB_REQ(msg_p).mnc); /* CC params */ config_getlist(config_get_if(), &CCsParamList, NULL, 0, aprefix); X2AP_REGISTER_ENB_REQ (msg_p).num_cc = CCsParamList.numelt; if (CCsParamList.numelt > 0) { //char ccspath[MAX_OPTNAME_SIZE*2 + 16]; for (J = 0; J < CCsParamList.numelt ; J++) { sprintf(aprefix, "%s.[%i].%s.[%i]", ENB_CONFIG_STRING_ENB_LIST, k, ENB_CONFIG_STRING_COMPONENT_CARRIERS, J); config_get(config_get_if(), CCsParams, sizeofArray(CCsParams), aprefix); X2AP_REGISTER_ENB_REQ (msg_p).eutra_band[J] = ccparams_lte.eutra_band; X2AP_REGISTER_ENB_REQ (msg_p).downlink_frequency[J] = (uint32_t) ccparams_lte.downlink_frequency; X2AP_REGISTER_ENB_REQ (msg_p).uplink_frequency_offset[J] = (unsigned int) ccparams_lte.uplink_frequency_offset; X2AP_REGISTER_ENB_REQ (msg_p).Nid_cell[J]= ccparams_lte.Nid_cell; if (ccparams_lte.Nid_cell>503) { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for Nid_cell choice: 0...503 !\n", RC.config_file_name, k, ccparams_lte.Nid_cell); } X2AP_REGISTER_ENB_REQ (msg_p).N_RB_DL[J]= ccparams_lte.N_RB_DL; if ((ccparams_lte.N_RB_DL!=6) && (ccparams_lte.N_RB_DL!=15) && (ccparams_lte.N_RB_DL!=25) && (ccparams_lte.N_RB_DL!=50) && (ccparams_lte.N_RB_DL!=75) && (ccparams_lte.N_RB_DL!=100)) { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for N_RB_DL choice: 6,15,25,50,75,100 !\n", RC.config_file_name, k, ccparams_lte.N_RB_DL); } if (strcmp(ccparams_lte.frame_type, "FDD") == 0) { X2AP_REGISTER_ENB_REQ (msg_p).frame_type[J] = FDD; } else if (strcmp(ccparams_lte.frame_type, "TDD") == 0) { X2AP_REGISTER_ENB_REQ (msg_p).frame_type[J] = TDD; X2AP_REGISTER_ENB_REQ (msg_p).subframeAssignment[J] = ccparams_lte.tdd_config; X2AP_REGISTER_ENB_REQ (msg_p).specialSubframe[J] = ccparams_lte.tdd_config_s; } else { AssertFatal (0, "Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for frame_type choice: FDD or TDD !\n", RC.config_file_name, k, ccparams_lte.frame_type); } X2AP_REGISTER_ENB_REQ (msg_p).fdd_earfcn_DL[J] = to_earfcn_DL(ccparams_lte.eutra_band, ccparams_lte.downlink_frequency, ccparams_lte.N_RB_DL); X2AP_REGISTER_ENB_REQ (msg_p).fdd_earfcn_UL[J] = to_earfcn_UL(ccparams_lte.eutra_band, ccparams_lte.downlink_frequency + ccparams_lte.uplink_frequency_offset, ccparams_lte.N_RB_DL); } } sprintf(aprefix,"%s.[%i]",ENB_CONFIG_STRING_ENB_LIST,k); config_getlist(config_get_if(), &X2ParamList, X2Params, sizeofArray(X2Params), aprefix); AssertFatal(X2ParamList.numelt <= X2AP_MAX_NB_ENB_IP_ADDRESS, "value of X2ParamList.numelt %d must be lower than X2AP_MAX_NB_ENB_IP_ADDRESS %d value: reconsider to increase X2AP_MAX_NB_ENB_IP_ADDRESS\n", X2ParamList.numelt,X2AP_MAX_NB_ENB_IP_ADDRESS); X2AP_REGISTER_ENB_REQ (msg_p).nb_x2 = 0; LOG_I(X2AP,"X2ParamList.numelt %d\n",X2ParamList.numelt); for (l = 0; l < X2ParamList.numelt; l++) { X2AP_REGISTER_ENB_REQ (msg_p).nb_x2 += 1; strcpy(X2AP_REGISTER_ENB_REQ (msg_p).target_enb_x2_ip_address[l].ipv4_address,*(X2ParamList.paramarray[l][ENB_X2_IPV4_ADDRESS_IDX].strptr)); strcpy(X2AP_REGISTER_ENB_REQ (msg_p).target_enb_x2_ip_address[l].ipv6_address,*(X2ParamList.paramarray[l][ENB_X2_IPV6_ADDRESS_IDX].strptr)); LOG_I(X2AP,"registering with ip : %s\n",*(X2ParamList.paramarray[l][ENB_X2_IPV4_ADDRESS_IDX].strptr)); if (strcmp(*(X2ParamList.paramarray[l][ENB_X2_IP_ADDRESS_PREFERENCE_IDX].strptr), "ipv4") == 0) { X2AP_REGISTER_ENB_REQ (msg_p).target_enb_x2_ip_address[l].ipv4 = 1; X2AP_REGISTER_ENB_REQ (msg_p).target_enb_x2_ip_address[l].ipv6 = 0; } else if (strcmp(*(X2ParamList.paramarray[l][ENB_X2_IP_ADDRESS_PREFERENCE_IDX].strptr), "ipv6") == 0) { X2AP_REGISTER_ENB_REQ (msg_p).target_enb_x2_ip_address[l].ipv4 = 0; X2AP_REGISTER_ENB_REQ (msg_p).target_enb_x2_ip_address[l].ipv6 = 1; } else if (strcmp(*(X2ParamList.paramarray[l][ENB_X2_IP_ADDRESS_PREFERENCE_IDX].strptr), "no") == 0) { X2AP_REGISTER_ENB_REQ (msg_p).target_enb_x2_ip_address[l].ipv4 = 1; X2AP_REGISTER_ENB_REQ (msg_p).target_enb_x2_ip_address[l].ipv6 = 1; } } // timers { int t_reloc_prep = 0; int tx2_reloc_overall = 0; int t_dc_prep = 0; int t_dc_overall = 0; paramdef_t p[] = { { "t_reloc_prep", "t_reloc_prep", 0, .iptr=&t_reloc_prep, .defintval=0, TYPE_INT, 0 }, { "tx2_reloc_overall", "tx2_reloc_overall", 0, .iptr=&tx2_reloc_overall, .defintval=0, TYPE_INT, 0 }, { "t_dc_prep", "t_dc_prep", 0, .iptr=&t_dc_prep, .defintval=0, TYPE_INT, 0 }, { "t_dc_overall", "t_dc_overall", 0, .iptr=&t_dc_overall, .defintval=0, TYPE_INT, 0 } }; config_get(config_get_if(), p, sizeofArray(p), aprefix); if (t_reloc_prep <= 0 || t_reloc_prep > 10000 || tx2_reloc_overall <= 0 || tx2_reloc_overall > 20000 || t_dc_prep <= 0 || t_dc_prep > 10000 || t_dc_overall <= 0 || t_dc_overall > 20000) { LOG_E(X2AP, "timers in configuration file have wrong values. We must have [0 < t_reloc_prep <= 10000] and [0 < tx2_reloc_overall <= 20000] and [0 < t_dc_prep <= 10000] and [0 < t_dc_overall <= 20000]\n"); exit(1); } X2AP_REGISTER_ENB_REQ (msg_p).t_reloc_prep = t_reloc_prep; X2AP_REGISTER_ENB_REQ (msg_p).tx2_reloc_overall = tx2_reloc_overall; X2AP_REGISTER_ENB_REQ (msg_p).t_dc_prep = t_dc_prep; X2AP_REGISTER_ENB_REQ (msg_p).t_dc_overall = t_dc_overall; } // SCTP SETTING X2AP_REGISTER_ENB_REQ (msg_p).sctp_out_streams = SCTP_OUT_STREAMS; X2AP_REGISTER_ENB_REQ (msg_p).sctp_in_streams = SCTP_IN_STREAMS; if (EPC_MODE_ENABLED) { sprintf(aprefix,"%s.[%i].%s",ENB_CONFIG_STRING_ENB_LIST,k,ENB_CONFIG_STRING_SCTP_CONFIG); config_get(config_get_if(), SCTPParams, sizeofArray(SCTPParams), aprefix); X2AP_REGISTER_ENB_REQ (msg_p).sctp_in_streams = (uint16_t)*(SCTPParams[ENB_SCTP_INSTREAMS_IDX].uptr); X2AP_REGISTER_ENB_REQ (msg_p).sctp_out_streams = (uint16_t)*(SCTPParams[ENB_SCTP_OUTSTREAMS_IDX].uptr); } sprintf(aprefix,"%s.[%i].%s",ENB_CONFIG_STRING_ENB_LIST,k,ENB_CONFIG_STRING_NETWORK_INTERFACES_CONFIG); // NETWORK_INTERFACES config_get(config_get_if(), NETParams, sizeofArray(NETParams), aprefix); X2AP_REGISTER_ENB_REQ (msg_p).enb_port_for_X2C = (uint32_t)*(NETParams[ENB_PORT_FOR_X2C_IDX].uptr); if ((NETParams[ENB_IPV4_ADDR_FOR_X2C_IDX].strptr == NULL) || (X2AP_REGISTER_ENB_REQ (msg_p).enb_port_for_X2C == 0)) { LOG_E(RRC,"Add eNB IPv4 address and/or port for X2C in the CONF file!\n"); exit(1); } cidr = *(NETParams[ENB_IPV4_ADDR_FOR_X2C_IDX].strptr); address = strtok(cidr, "/"); X2AP_REGISTER_ENB_REQ (msg_p).enb_x2_ip_address.ipv6 = 0; X2AP_REGISTER_ENB_REQ (msg_p).enb_x2_ip_address.ipv4 = 1; strcpy(X2AP_REGISTER_ENB_REQ (msg_p).enb_x2_ip_address.ipv4_address, address); } } } } } return 0; } int RCconfig_parallel(void) { char *parallel_conf = NULL; char *worker_conf = NULL; paramdef_t ThreadParams[] = THREAD_CONF_DESC; paramlist_def_t THREADParamList = {THREAD_CONFIG_STRING_THREAD_STRUCT,NULL,0}; config_getlist(config_get_if(), &THREADParamList, NULL, 0, NULL); if(parallel_config == NULL) { if(THREADParamList.numelt>0) { config_getlist(config_get_if(), &THREADParamList, ThreadParams, sizeofArray(ThreadParams), NULL); parallel_conf = strdup(*(THREADParamList.paramarray[0][THREAD_PARALLEL_IDX].strptr)); } else { parallel_conf = strdup("PARALLEL_RU_L1_TRX_SPLIT"); } set_parallel_conf(parallel_conf); } if(worker_config == NULL) { if(THREADParamList.numelt>0) { config_getlist(config_get_if(), &THREADParamList, ThreadParams, sizeofArray(ThreadParams), NULL); worker_conf = strdup(*(THREADParamList.paramarray[0][THREAD_WORKER_IDX].strptr)); } else { worker_conf = strdup("WORKER_ENABLE"); } set_worker_conf(worker_conf); } free(worker_conf); free(parallel_conf); return 0; } void RCConfig(void) { paramlist_def_t MACRLCParamList = {CONFIG_STRING_MACRLC_LIST,NULL,0}; paramlist_def_t L1ParamList = {CONFIG_STRING_L1_LIST,NULL,0}; paramlist_def_t RUParamList = {CONFIG_STRING_RU_LIST,NULL,0}; paramdef_t ENBSParams[] = ENBSPARAMS_DESC; paramlist_def_t CCsParamList = {ENB_CONFIG_STRING_COMPONENT_CARRIERS,NULL,0}; char aprefix[MAX_OPTNAME_SIZE*2 + 8]; /* get global parameters, defined outside any section in the config file */ printf("Getting ENBSParams\n"); config_get(config_get_if(), ENBSParams, sizeofArray(ENBSParams), NULL); //EPC_MODE_ENABLED = ((*ENBSParams[ENB_NOS1_IDX].uptr) == 0); RC.nb_inst = ENBSParams[ENB_ACTIVE_ENBS_IDX].numelt; if (RC.nb_inst > 0) { RC.nb_CC = (int *)malloc((1+RC.nb_inst)*sizeof(int)); for (int i=0; isib1->cellAccessRelatedInfo.plmn_IdentityList.list.count > 0, "plmn info isn't there\n"); AssertFatal(mnc_digit_length ==2 || mnc_digit_length == 3, "impossible mnc_digit_length %d\n",mnc_digit_length); LTE_PLMN_IdentityInfo_t *plmn_Identity_info = carrier->sib1->cellAccessRelatedInfo.plmn_IdentityList.list.array[0]; // check if mcc is different and return failure if so if (mcc != (*plmn_Identity_info->plmn_Identity.mcc->list.array[0]*100)+ (*plmn_Identity_info->plmn_Identity.mcc->list.array[1]*10) + (*plmn_Identity_info->plmn_Identity.mcc->list.array[2])) return(0); // check that mnc digit length is different and return failure if so if (mnc_digit_length != plmn_Identity_info->plmn_Identity.mnc.list.count) return 0; // check that 2 digit mnc is different and return failure if so if (mnc_digit_length == 2 && (mnc != (*plmn_Identity_info->plmn_Identity.mnc.list.array[0]*10) + (*plmn_Identity_info->plmn_Identity.mnc.list.array[1]))) return(0); else if (mnc_digit_length == 3 && (mnc != (*plmn_Identity_info->plmn_Identity.mnc.list.array[0]*100) + (*plmn_Identity_info->plmn_Identity.mnc.list.array[1]*10) + (*plmn_Identity_info->plmn_Identity.mnc.list.array[2]))) return(0); // if we're here, the mcc/mnc match so return success return(1); } void extract_and_decode_SI(int inst,int si_ind,uint8_t *si_container,int si_container_length) { eNB_RRC_INST *rrc = RC.rrc[inst]; rrc_eNB_carrier_data_t *carrier = &rrc->carrier[0]; LTE_BCCH_DL_SCH_Message_t *bcch_message ; AssertFatal(si_ind==2,"Can only handle a single SI block for now\n"); LOG_I(ENB_APP, "rrc inst %d: Trying to decode SI block %d @ %p, length %d\n",inst,si_ind,si_container,si_container_length); // point to first SI block bcch_message = &carrier->systemInformation; asn_dec_rval_t dec_rval = uper_decode_complete( NULL, &asn_DEF_LTE_BCCH_DL_SCH_Message, (void **)&bcch_message, (const void *)si_container, si_container_length); if ((dec_rval.code != RC_OK) && (dec_rval.consumed == 0)) { AssertFatal(1==0, "[ENB_APP][RRC inst %"PRIu8"] Failed to decode BCCH_DLSCH_MESSAGE (%zu bits)\n", inst, dec_rval.consumed ); } if (bcch_message->message.present == LTE_BCCH_DL_SCH_MessageType_PR_c1) { switch (bcch_message->message.choice.c1.present) { case LTE_BCCH_DL_SCH_MessageType__c1_PR_systemInformationBlockType1: AssertFatal(1==0,"Should have received SIB1 from CU\n"); break; case LTE_BCCH_DL_SCH_MessageType__c1_PR_systemInformation: { LTE_SystemInformation_t *si = &bcch_message->message.choice.c1.choice.systemInformation; for (int i=0; icriticalExtensions.choice.systemInformation_r8.sib_TypeAndInfo.list.count; i++) { LOG_I(ENB_APP,"Extracting SI %d/%d\n",i,si->criticalExtensions.choice.systemInformation_r8.sib_TypeAndInfo.list.count); struct LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member *typeandinfo; typeandinfo = si->criticalExtensions.choice.systemInformation_r8.sib_TypeAndInfo.list.array[i]; switch(typeandinfo->present) { case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib2: carrier->sib2 = &typeandinfo->choice.sib2; carrier->SIB23 = (uint8_t *)malloc(64); memcpy((void *)carrier->SIB23,(void *)si_container,si_container_length); carrier->sizeof_SIB23 = si_container_length; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB2\n", inst); break; case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib3: carrier->sib3 = &typeandinfo->choice.sib3; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB3\n", inst); break; case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib4: //carrier->sib4 = &typeandinfo->choice.sib4; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB4\n", inst); break; case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib5: //carrier->sib5 = &typeandinfo->choice.sib5; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB5\n", inst); break; case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib6: //carrier->sib6 = &typeandinfo->choice.sib6; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB6\n", inst); break; case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib7: //carrier->sib7 = &typeandinfo->choice.sib7; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB7\n", inst); break; case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib8: //carrier->sib8 = &typeandinfo->choice.sib8; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB8\n", inst); break; case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib9: //carrier->sib9 = &typeandinfo->choice.sib9; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB9\n", inst); break; case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib10: //carrier->sib10 = &typeandinfo->choice.sib10; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB10\n", inst); break; case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib11: //carrier->sib11 = &typeandinfo->choice.sib11; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB11\n", inst); break; case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib12_v920: //carrier->sib12 = &typeandinfo->choice.sib12; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB12\n", inst); break; case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib13_v920: carrier->sib13 = &typeandinfo->choice.sib13_v920; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB13\n", inst); break; //SIB18 case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib18_v1250: carrier->sib18 = &typeandinfo->choice.sib18_v1250; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB18\n", inst); break; //SIB19 case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib19_v1250: carrier->sib19 = &typeandinfo->choice.sib19_v1250; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB19\n", inst); break; //SIB21 case LTE_SystemInformation_r8_IEs__sib_TypeAndInfo__Member_PR_sib21_v1430: carrier->sib21 = &typeandinfo->choice.sib21_v1430; LOG_I( ENB_APP, "[RRC %"PRIu8"] Found SIB21\n", inst); break; default: AssertFatal(1==0,"Shouldn't have received this SI %d\n",typeandinfo->present); break; } } break; } case LTE_BCCH_DL_SCH_MessageType__c1_PR_NOTHING: AssertFatal(0, "Should have received SIB1 from CU\n"); break; } } else AssertFatal(1==0,"No SI messages\n"); } void configure_du_mac(int inst) { eNB_RRC_INST *rrc = RC.rrc[inst]; rrc_eNB_carrier_data_t *carrier = &rrc->carrier[0]; LOG_I(ENB_APP,"Configuring MAC/L1 %d, carrier->sib2 %p\n",inst,&carrier->sib2->radioResourceConfigCommon); rrc_mac_config_req_eNB_t tmp = {0}; tmp.physCellId = carrier->physCellId; tmp.p_eNB = carrier->p_eNB; tmp.Ncp = carrier->Ncp; tmp.eutra_band = carrier->sib1->freqBandIndicator; tmp.dl_CarrierFreq = carrier->dl_CarrierFreq; tmp.pbch_repetition = carrier->pbch_repetition; tmp.mib = &carrier->mib; tmp.radioResourceConfigCommon = &carrier->sib2->radioResourceConfigCommon; tmp.LTE_radioResourceConfigCommon_BR = &carrier->sib2_BR->radioResourceConfigCommon; tmp.tdd_Config = carrier->sib1->tdd_Config; tmp.schedulingInfoList = &carrier->sib1->schedulingInfoList; tmp.ul_CarrierFreq = carrier->ul_CarrierFreq; tmp.ul_Bandwidth = carrier->sib2->freqInfo.ul_Bandwidth; tmp.additionalSpectrumEmission = &carrier->sib2->freqInfo.additionalSpectrumEmission; tmp.mbsfn_SubframeConfigList = carrier->sib2->mbsfn_SubframeConfigList; tmp.MBMS_Flag = carrier->MBMS_flag; tmp.mbsfn_AreaInfoList = &carrier->sib13->mbsfn_AreaInfoList_r9; rrc_mac_config_req_eNB(inst, &tmp); } void read_config_and_init(void) { if (RC.nb_macrlc_inst > 0) AssertFatal(RC.nb_macrlc_inst == RC.nb_inst, "Number of MACRLC instances %d != number of RRC instances %d\n", RC.nb_macrlc_inst, RC.nb_inst); RCconfig_L1(); LOG_I(PHY, "%s() RC.nb_L1_inst: %d\n", __FUNCTION__, RC.nb_L1_inst); RCconfig_macrlc(); LOG_I(MAC, "%s() RC.nb_macrlc_inst: %d\n", __FUNCTION__, RC.nb_macrlc_inst); if (RC.nb_L1_inst > 0) AssertFatal(l1_north_init_eNB() == 0, "could not initialize L1 north interface\n"); RC.rrc = malloc(RC.nb_inst * sizeof(eNB_RRC_INST *)); AssertFatal(RC.rrc, "could not allocate memory for RC.rrc\n"); for (uint32_t enb_id = 0; enb_id < RC.nb_inst; enb_id++) { RC.rrc[enb_id] = malloc(sizeof(eNB_RRC_INST)); AssertFatal(RC.rrc[enb_id], "RRC context for eNB %u not allocated\n", enb_id); memset((void *)RC.rrc[enb_id], 0, sizeof(eNB_RRC_INST)); RCconfig_RRC(enb_id, RC.rrc[enb_id]); } } #ifdef E2_AGENT e2_agent_args_t RCconfig_E2agent(void) { paramdef_t e2agent_params[] = E2AGENT_PARAMS_DESC; int ret = config_get(config_get_if(), e2agent_params, sizeofArray(e2agent_params), CONFIG_STRING_E2AGENT); if (ret < 0) { LOG_W(GNB_APP, "configuration file does not contain a \"%s\" section, applying default parameters\n", CONFIG_STRING_E2AGENT); return (e2_agent_args_t) {0}; } bool enabled = config_isparamset(e2agent_params, E2AGENT_CONFIG_SMDIR_IDX) && config_isparamset(e2agent_params, E2AGENT_CONFIG_IP_IDX); if (!enabled) { LOG_W(GNB_APP, "E2 agent is DISABLED (for activation, define .%s.{%s,%s} parameters)\n", CONFIG_STRING_E2AGENT, E2AGENT_CONFIG_IP, E2AGENT_CONFIG_SMDIR); return (e2_agent_args_t) { .enabled = false, }; } return (e2_agent_args_t) { .enabled = true, .ip = *e2agent_params[E2AGENT_CONFIG_IP_IDX].strptr, .sm_dir = *e2agent_params[E2AGENT_CONFIG_SMDIR_IDX].strptr, }; } #endif