/*******************************************************************************
OpenAirInterface
Copyright(c) 1999 - 2014 Eurecom
OpenAirInterface is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
OpenAirInterface is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with OpenAirInterface.The full GNU General Public License is
included in this distribution in the file called "COPYING". If not,
see <http://www.gnu.org/licenses/>.
Contact Information
OpenAirInterface Admin: openair_admin@eurecom.fr
OpenAirInterface Tech : openair_tech@eurecom.fr
OpenAirInterface Dev : openair4g-devel@lists.eurecom.fr
Address : Eurecom, Campus SophiaTech, 450 Route des Chappes, CS 50193 - 06904 Biot Sophia Antipolis cedex, FRANCE
*******************************************************************************/
/*
enb_config.c
-------------------
AUTHOR : Lionel GAUTHIER, navid nikaein, Laurent Winckel
COMPANY : EURECOM
EMAIL : Lionel.Gauthier@eurecom.fr, navid.nikaein@eurecom.fr
*/
#include <string.h>
#include <libconfig.h>
#include <inttypes.h>
#include "log.h"
#include "log_extern.h"
#include "assertions.h"
#include "enb_config.h"
#include "UTIL/OTG/otg.h"
#include "UTIL/OTG/otg_externs.h"
#if defined(OAI_EMU)
# include "OCG.h"
# include "OCG_extern.h"
#endif
#if defined(ENABLE_ITTI)
# include "intertask_interface.h"
# if defined(ENABLE_USE_MME)
# include "s1ap_eNB.h"
# include "sctp_eNB_task.h"
# endif
#endif
#include "sctp_default_values.h"
#include "SystemInformationBlockType2.h"
#include "LAYER2/MAC/extern.h"
#define ENB_CONFIG_STRING_ACTIVE_ENBS "Active_eNBs"
#define ENB_CONFIG_STRING_ENB_LIST "eNBs"
#define ENB_CONFIG_STRING_ENB_ID "eNB_ID"
#define ENB_CONFIG_STRING_CELL_TYPE "cell_type"
#define ENB_CONFIG_STRING_ENB_NAME "eNB_name"
#define ENB_CONFIG_STRING_TRACKING_AREA_CODE "tracking_area_code"
#define ENB_CONFIG_STRING_MOBILE_COUNTRY_CODE "mobile_country_code"
#define ENB_CONFIG_STRING_MOBILE_NETWORK_CODE "mobile_network_code"
#define ENB_CONFIG_STRING_COMPONENT_CARRIERS "component_carriers"
#define ENB_CONFIG_STRING_FRAME_TYPE "frame_type"
#define ENB_CONFIG_STRING_TDD_CONFIG "tdd_config"
#define ENB_CONFIG_STRING_TDD_CONFIG_S "tdd_config_s"
#define ENB_CONFIG_STRING_PREFIX_TYPE "prefix_type"
#define ENB_CONFIG_STRING_EUTRA_BAND "eutra_band"
#define ENB_CONFIG_STRING_DOWNLINK_FREQUENCY "downlink_frequency"
#define ENB_CONFIG_STRING_UPLINK_FREQUENCY_OFFSET "uplink_frequency_offset"
#define ENB_CONFIG_STRING_NID_CELL "Nid_cell"
#define ENB_CONFIG_STRING_N_RB_DL "N_RB_DL"
#define ENB_CONFIG_STRING_CELL_MBSFN "Nid_cell_mbsfn"
#define ENB_CONFIG_STRING_NB_ANT_TX "nb_antennas_tx"
#define ENB_CONFIG_STRING_NB_ANT_RX "nb_antennas_rx"
#define ENB_CONFIG_STRING_TX_GAIN "tx_gain"
#define ENB_CONFIG_STRING_RX_GAIN "rx_gain"
#define ENB_CONFIG_STRING_PRACH_ROOT "prach_root"
#define ENB_CONFIG_STRING_PRACH_CONFIG_INDEX "prach_config_index"
#define ENB_CONFIG_STRING_PRACH_HIGH_SPEED "prach_high_speed"
#define ENB_CONFIG_STRING_PRACH_ZERO_CORRELATION "prach_zero_correlation"
#define ENB_CONFIG_STRING_PRACH_FREQ_OFFSET "prach_freq_offset"
#define ENB_CONFIG_STRING_PUCCH_DELTA_SHIFT "pucch_delta_shift"
#define ENB_CONFIG_STRING_PUCCH_NRB_CQI "pucch_nRB_CQI"
#define ENB_CONFIG_STRING_PUCCH_NCS_AN "pucch_nCS_AN"
#ifndef Rel10
#define ENB_CONFIG_STRING_PUCCH_N1_AN "pucch_n1_AN"
#endif
#define ENB_CONFIG_STRING_PDSCH_RS_EPRE "pdsch_referenceSignalPower"
#define ENB_CONFIG_STRING_PDSCH_PB "pdsch_p_b"
#define ENB_CONFIG_STRING_PUSCH_N_SB "pusch_n_SB"
#define ENB_CONFIG_STRING_PUSCH_HOPPINGMODE "pusch_hoppingMode"
#define ENB_CONFIG_STRING_PUSCH_HOPPINGOFFSET "pusch_hoppingOffset"
#define ENB_CONFIG_STRING_PUSCH_ENABLE64QAM "pusch_enable64QAM"
#define ENB_CONFIG_STRING_PUSCH_GROUP_HOPPING_EN "pusch_groupHoppingEnabled"
#define ENB_CONFIG_STRING_PUSCH_GROUP_ASSIGNMENT "pusch_groupAssignment"
#define ENB_CONFIG_STRING_PUSCH_SEQUENCE_HOPPING_EN "pusch_sequenceHoppingEnabled"
#define ENB_CONFIG_STRING_PUSCH_NDMRS1 "pusch_nDMRS1"
#define ENB_CONFIG_STRING_PHICH_DURATION "phich_duration"
#define ENB_CONFIG_STRING_PHICH_RESOURCE "phich_resource"
#define ENB_CONFIG_STRING_SRS_ENABLE "srs_enable"
#define ENB_CONFIG_STRING_SRS_BANDWIDTH_CONFIG "srs_BandwidthConfig"
#define ENB_CONFIG_STRING_SRS_SUBFRAME_CONFIG "srs_SubframeConfig"
#define ENB_CONFIG_STRING_SRS_ACKNACKST_CONFIG "srs_ackNackST"
#define ENB_CONFIG_STRING_SRS_MAXUPPTS "srs_MaxUpPts"
#define ENB_CONFIG_STRING_PUSCH_PO_NOMINAL "pusch_p0_Nominal"
#define ENB_CONFIG_STRING_PUSCH_ALPHA "pusch_alpha"
#define ENB_CONFIG_STRING_PUCCH_PO_NOMINAL "pucch_p0_Nominal"
#define ENB_CONFIG_STRING_MSG3_DELTA_PREAMBLE "msg3_delta_Preamble"
#define ENB_CONFIG_STRING_PUCCH_DELTAF_FORMAT1 "pucch_deltaF_Format1"
#define ENB_CONFIG_STRING_PUCCH_DELTAF_FORMAT1b "pucch_deltaF_Format1b"
#define ENB_CONFIG_STRING_PUCCH_DELTAF_FORMAT2 "pucch_deltaF_Format2"
#define ENB_CONFIG_STRING_PUCCH_DELTAF_FORMAT2A "pucch_deltaF_Format2a"
#define ENB_CONFIG_STRING_PUCCH_DELTAF_FORMAT2B "pucch_deltaF_Format2b"
#define ENB_CONFIG_STRING_RACH_NUM_RA_PREAMBLES "rach_numberOfRA_Preambles"
#define ENB_CONFIG_STRING_RACH_PREAMBLESGROUPACONFIG "rach_preamblesGroupAConfig"
#define ENB_CONFIG_STRING_RACH_SIZEOFRA_PREAMBLESGROUPA "rach_sizeOfRA_PreamblesGroupA"
#define ENB_CONFIG_STRING_RACH_MESSAGESIZEGROUPA "rach_messageSizeGroupA"
#define ENB_CONFIG_STRING_RACH_MESSAGEPOWEROFFSETGROUPB "rach_messagePowerOffsetGroupB"
#define ENB_CONFIG_STRING_RACH_POWERRAMPINGSTEP "rach_powerRampingStep"
#define ENB_CONFIG_STRING_RACH_PREAMBLEINITIALRECEIVEDTARGETPOWER "rach_preambleInitialReceivedTargetPower"
#define ENB_CONFIG_STRING_RACH_PREAMBLETRANSMAX "rach_preambleTransMax"
#define ENB_CONFIG_STRING_RACH_RARESPONSEWINDOWSIZE "rach_raResponseWindowSize"
#define ENB_CONFIG_STRING_RACH_MACCONTENTIONRESOLUTIONTIMER "rach_macContentionResolutionTimer"
#define ENB_CONFIG_STRING_RACH_MAXHARQMSG3TX "rach_maxHARQ_Msg3Tx"
#define ENB_CONFIG_STRING_PCCH_DEFAULT_PAGING_CYCLE "pcch_default_PagingCycle"
#define ENB_CONFIG_STRING_PCCH_NB "pcch_nB"
#define ENB_CONFIG_STRING_BCCH_MODIFICATIONPERIODCOEFF "bcch_modificationPeriodCoeff"
#define ENB_CONFIG_STRING_UETIMERS_T300 "ue_TimersAndConstants_t300"
#define ENB_CONFIG_STRING_UETIMERS_T301 "ue_TimersAndConstants_t301"
#define ENB_CONFIG_STRING_UETIMERS_T310 "ue_TimersAndConstants_t310"
#define ENB_CONFIG_STRING_UETIMERS_T311 "ue_TimersAndConstants_t311"
#define ENB_CONFIG_STRING_UETIMERS_N310 "ue_TimersAndConstants_n310"
#define ENB_CONFIG_STRING_UETIMERS_N311 "ue_TimersAndConstants_n311"
#define ENB_CONFIG_STRING_SRB1 "srb1_parameters"
#define ENB_CONFIG_STRING_SRB1_TIMER_POLL_RETRANSMIT "timer_poll_retransmit"
#define ENB_CONFIG_STRING_SRB1_TIMER_REORDERING "timer_reordering"
#define ENB_CONFIG_STRING_SRB1_TIMER_STATUS_PROHIBIT "timer_status_prohibit"
#define ENB_CONFIG_STRING_SRB1_POLL_PDU "poll_pdu"
#define ENB_CONFIG_STRING_SRB1_POLL_BYTE "poll_byte"
#define ENB_CONFIG_STRING_SRB1_MAX_RETX_THRESHOLD "max_retx_threshold"
#define ENB_CONFIG_STRING_MME_IP_ADDRESS "mme_ip_address"
#define ENB_CONFIG_STRING_MME_IPV4_ADDRESS "ipv4"
#define ENB_CONFIG_STRING_MME_IPV6_ADDRESS "ipv6"
#define ENB_CONFIG_STRING_MME_IP_ADDRESS_ACTIVE "active"
#define ENB_CONFIG_STRING_MME_IP_ADDRESS_PREFERENCE "preference"
#define ENB_CONFIG_STRING_SCTP_CONFIG "SCTP"
#define ENB_CONFIG_STRING_SCTP_INSTREAMS "SCTP_INSTREAMS"
#define ENB_CONFIG_STRING_SCTP_OUTSTREAMS "SCTP_OUTSTREAMS"
#define ENB_CONFIG_STRING_NETWORK_INTERFACES_CONFIG "NETWORK_INTERFACES"
#define ENB_CONFIG_STRING_ENB_INTERFACE_NAME_FOR_S1_MME "ENB_INTERFACE_NAME_FOR_S1_MME"
#define ENB_CONFIG_STRING_ENB_IPV4_ADDRESS_FOR_S1_MME "ENB_IPV4_ADDRESS_FOR_S1_MME"
#define ENB_CONFIG_STRING_ENB_INTERFACE_NAME_FOR_S1U "ENB_INTERFACE_NAME_FOR_S1U"
#define ENB_CONFIG_STRING_ENB_IPV4_ADDR_FOR_S1U "ENB_IPV4_ADDRESS_FOR_S1U"
#define ENB_CONFIG_STRING_ENB_PORT_FOR_S1U "ENB_PORT_FOR_S1U"
#define ENB_CONFIG_STRING_RRH_GW_CONFIG "rrh_gw_config"
#define ENB_CONFIG_STRING_RRH_GW_LOCAL_IF_NAME "local_if_name"
#define ENB_CONFIG_STRING_RRH_GW_LOCAL_ADDRESS "local_address"
#define ENB_CONFIG_STRING_RRH_GW_REMOTE_ADDRESS "remote_address"
#define ENB_CONFIG_STRING_RRH_GW_LOCAL_PORT "local_port"
#define ENB_CONFIG_STRING_RRH_GW_REMOTE_PORT "remote_port"
#define ENB_CONFIG_STRING_RRH_GW_ACTIVE "rrh_gw_active"
#define ENB_CONFIG_STRING_RRH_GW_TRANSPORT_PREFERENCE "tr_preference"
#define ENB_CONFIG_STRING_RRH_GW_RF_TARGET_PREFERENCE "rf_preference"
#define ENB_CONFIG_STRING_RRH_GW_IQ_TXSHIFT "iq_txshift"
#define ENB_CONFIG_STRING_RRH_GW_TX_SAMPLE_ADVANCE "tx_sample_advance"
#define ENB_CONFIG_STRING_RRH_GW_TX_SCHEDULING_ADVANCE "tx_scheduling_advance"
#define ENB_CONFIG_STRING_ASN1_VERBOSITY "Asn1_verbosity"
#define ENB_CONFIG_STRING_ASN1_VERBOSITY_NONE "none"
#define ENB_CONFIG_STRING_ASN1_VERBOSITY_ANNOYING "annoying"
#define ENB_CONFIG_STRING_ASN1_VERBOSITY_INFO "info"
// OTG config per ENB-UE DL
#define ENB_CONF_STRING_OTG_CONFIG "otg_config"
#define ENB_CONF_STRING_OTG_UE_ID "ue_id"
#define ENB_CONF_STRING_OTG_APP_TYPE "app_type"
#define ENB_CONF_STRING_OTG_BG_TRAFFIC "bg_traffic"
// per eNB configuration
#define ENB_CONFIG_STRING_LOG_CONFIG "log_config"
#define ENB_CONFIG_STRING_GLOBAL_LOG_LEVEL "global_log_level"
#define ENB_CONFIG_STRING_GLOBAL_LOG_VERBOSITY "global_log_verbosity"
#define ENB_CONFIG_STRING_HW_LOG_LEVEL "hw_log_level"
#define ENB_CONFIG_STRING_HW_LOG_VERBOSITY "hw_log_verbosity"
#define ENB_CONFIG_STRING_PHY_LOG_LEVEL "phy_log_level"
#define ENB_CONFIG_STRING_PHY_LOG_VERBOSITY "phy_log_verbosity"
#define ENB_CONFIG_STRING_MAC_LOG_LEVEL "mac_log_level"
#define ENB_CONFIG_STRING_MAC_LOG_VERBOSITY "mac_log_verbosity"
#define ENB_CONFIG_STRING_RLC_LOG_LEVEL "rlc_log_level"
#define ENB_CONFIG_STRING_RLC_LOG_VERBOSITY "rlc_log_verbosity"
#define ENB_CONFIG_STRING_PDCP_LOG_LEVEL "pdcp_log_level"
#define ENB_CONFIG_STRING_PDCP_LOG_VERBOSITY "pdcp_log_verbosity"
#define ENB_CONFIG_STRING_RRC_LOG_LEVEL "rrc_log_level"
#define ENB_CONFIG_STRING_RRC_LOG_VERBOSITY "rrc_log_verbosity"
#define ENB_CONFIG_STRING_GTPU_LOG_LEVEL "gtpu_log_level"
#define ENB_CONFIG_STRING_GTPU_LOG_VERBOSITY "gtpu_log_verbosity"
#define ENB_CONFIG_STRING_UDP_LOG_LEVEL "udp_log_level"
#define ENB_CONFIG_STRING_UDP_LOG_VERBOSITY "udp_log_verbosity"
#define ENB_CONFIG_STRING_OSA_LOG_LEVEL "osa_log_level"
#define ENB_CONFIG_STRING_OSA_LOG_VERBOSITY "osa_log_verbosity"
#define KHz (1000UL)
#define MHz (1000 * KHz)
typedef struct eutra_band_s {
int16_t band;
uint32_t ul_min;
uint32_t ul_max;
uint32_t dl_min;
uint32_t dl_max;
lte_frame_type_t frame_type;
} eutra_band_t;
static const eutra_band_t eutra_bands[] = {
{ 1, 1920 * MHz, 1980 * MHz, 2110 * MHz, 2170 * MHz, FDD},
{ 2, 1850 * MHz, 1910 * MHz, 1930 * MHz, 1990 * MHz, FDD},
{ 3, 1710 * MHz, 1785 * MHz, 1805 * MHz, 1880 * MHz, FDD},
{ 4, 1710 * MHz, 1755 * MHz, 2110 * MHz, 2155 * MHz, FDD},
{ 5, 824 * MHz, 849 * MHz, 869 * MHz, 894 * MHz, FDD},
{ 6, 830 * MHz, 840 * MHz, 875 * MHz, 885 * MHz, FDD},
{ 7, 2500 * MHz, 2570 * MHz, 2620 * MHz, 2690 * MHz, FDD},
{ 8, 880 * MHz, 915 * MHz, 925 * MHz, 960 * MHz, FDD},
{ 9, 1749900 * KHz, 1784900 * KHz, 1844900 * KHz, 1879900 * KHz, FDD},
{10, 1710 * MHz, 1770 * MHz, 2110 * MHz, 2170 * MHz, FDD},
{11, 1427900 * KHz, 1452900 * KHz, 1475900 * KHz, 1500900 * KHz, FDD},
{12, 698 * MHz, 716 * MHz, 728 * MHz, 746 * MHz, FDD},
{13, 777 * MHz, 787 * MHz, 746 * MHz, 756 * MHz, FDD},
{14, 788 * MHz, 798 * MHz, 758 * MHz, 768 * MHz, FDD},
{17, 704 * MHz, 716 * MHz, 734 * MHz, 746 * MHz, FDD},
{20, 832 * MHz, 862 * MHz, 791 * MHz, 821 * MHz, FDD},
{33, 1900 * MHz, 1920 * MHz, 1900 * MHz, 1920 * MHz, TDD},
{33, 1900 * MHz, 1920 * MHz, 1900 * MHz, 1920 * MHz, TDD},
{34, 2010 * MHz, 2025 * MHz, 2010 * MHz, 2025 * MHz, TDD},
{35, 1850 * MHz, 1910 * MHz, 1850 * MHz, 1910 * MHz, TDD},
{36, 1930 * MHz, 1990 * MHz, 1930 * MHz, 1990 * MHz, TDD},
{37, 1910 * MHz, 1930 * MHz, 1910 * MHz, 1930 * MHz, TDD},
{38, 2570 * MHz, 2620 * MHz, 2570 * MHz, 2630 * MHz, TDD},
{39, 1880 * MHz, 1920 * MHz, 1880 * MHz, 1920 * MHz, TDD},
{40, 2300 * MHz, 2400 * MHz, 2300 * MHz, 2400 * MHz, TDD},
{41, 2496 * MHz, 2690 * MHz, 2496 * MHz, 2690 * MHz, TDD},
{42, 3400 * MHz, 3600 * MHz, 3400 * MHz, 3600 * MHz, TDD},
{43, 3600 * MHz, 3800 * MHz, 3600 * MHz, 3800 * MHz, TDD},
{44, 703 * MHz, 803 * MHz, 703 * MHz, 803 * MHz, TDD},
};
Enb_properties_array_t enb_properties;
static void enb_config_display(void)
{
int i,j;
printf( "\n----------------------------------------------------------------------\n");
printf( " ENB CONFIG FILE CONTENT LOADED (TBC):\n");
printf( "----------------------------------------------------------------------\n");
for (i = 0; i < enb_properties.number; i++) {
printf( "ENB CONFIG for instance %u:\n\n", i);
printf( "\teNB name: \t%s:\n",enb_properties.properties[i]->eNB_name);
printf( "\teNB ID: \t%"PRIu32":\n",enb_properties.properties[i]->eNB_id);
printf( "\tCell type: \t%s:\n",enb_properties.properties[i]->cell_type == CELL_MACRO_ENB ? "CELL_MACRO_ENB":"CELL_HOME_ENB");
printf( "\tTAC: \t%"PRIu16":\n",enb_properties.properties[i]->tac);
printf( "\tMCC: \t%"PRIu16":\n",enb_properties.properties[i]->mcc);
if (enb_properties.properties[i]->mnc_digit_length == 3) {
printf( "\tMNC: \t%03"PRIu16":\n",enb_properties.properties[i]->mnc);
} else {
printf( "\tMNC: \t%02"PRIu16":\n",enb_properties.properties[i]->mnc);
}
for (j=0; j< enb_properties.properties[i]->nb_rrh_gw; j++) {
if (enb_properties.properties[i]->rrh_gw_config[j].active == 1 ){
printf( "\n\tRRH GW %d config for eNB %u:\n\n", j, i);
printf( "\tinterface name : \t%s:\n",enb_properties.properties[i]->rrh_gw_if_name);
printf( "\tlocal address : \t%s:\n",enb_properties.properties[i]->rrh_gw_config[j].local_address);
printf( "\tlocal port : \t%d:\n",enb_properties.properties[i]->rrh_gw_config[j].local_port);
printf( "\tremote address : \t%s:\n",enb_properties.properties[i]->rrh_gw_config[j].remote_address);
printf( "\tremote port : \t%d:\n",enb_properties.properties[i]->rrh_gw_config[j].remote_port);
printf( "\ttx_scheduling_advance :\t%d:\n",enb_properties.properties[i]->rrh_gw_config[j].tx_scheduling_advance);
printf( "\ttx_sample_advance : \t%d:\n",enb_properties.properties[i]->rrh_gw_config[j].tx_sample_advance);
printf( "\tiq_txshift : \t%d:\n",enb_properties.properties[i]->rrh_gw_config[j].iq_txshift);
printf( "\ttransport : \t%s Ethernet:\n",(enb_properties.properties[i]->rrh_gw_config[j].raw == 1)? "RAW" : "UDP");
if (enb_properties.properties[i]->rrh_gw_config[j].exmimo == 1) {
printf( "\tRF target : \tEXMIMO:\n\n");
} else if (enb_properties.properties[i]->rrh_gw_config[j].usrp_b200 == 1) {
printf( "\tRF target : \tUSRP_B200:\n\n");
} else if (enb_properties.properties[i]->rrh_gw_config[j].usrp_x300 == 1) {
printf( "\tRF target : \tUSRP_X300:\n\n");
} else if (enb_properties.properties[i]->rrh_gw_config[j].bladerf == 1) {
printf( "\tRF target : \tBLADERF:\n\n");
} else if (enb_properties.properties[i]->rrh_gw_config[j].lmssdr == 1) {
printf( "\tRF target : \tLMSSDR:\n\n");
} else {
printf( "\tRF target : \tNONE:\n\n");
}
}
}
for (j=0; j< enb_properties.properties[i]->nb_cc; j++) {
printf( "\teutra band for CC %d: \t%"PRId16":\n",j,enb_properties.properties[i]->eutra_band[j]);
printf( "\tdownlink freq for CC %d: \t%"PRIu64":\n",j,enb_properties.properties[i]->downlink_frequency[j]);
printf( "\tuplink freq offset for CC %d: \t%"PRId32":\n",j,enb_properties.properties[i]->uplink_frequency_offset[j]);
printf( "\n\tCell ID for CC %d:\t%"PRId16":\n",j,enb_properties.properties[i]->Nid_cell[j]);
printf( "\tN_RB_DL for CC %d:\t%"PRId16":\n",j,enb_properties.properties[i]->N_RB_DL[j]);
printf( "\tnb_antennas_tx for CC %d:\t%d:\n",j,enb_properties.properties[i]->nb_antennas_tx[j]);
printf( "\tnb_antennas_rx for CC %d:\t%d:\n",j,enb_properties.properties[i]->nb_antennas_rx[j]);
// RACH-Config
printf( "\trach_numberOfRA_Preambles for CC %d:\t%ld:\n",j,enb_properties.properties[i]->rach_numberOfRA_Preambles[j]);
printf( "\trach_preamblesGroupAConfig for CC %d:\t%d:\n",j,enb_properties.properties[i]->rach_preamblesGroupAConfig[j]);
if (enb_properties.properties[i]->rach_preamblesGroupAConfig[j]) {
printf( "\trach_sizeOfRA_PreamblesGroupA for CC %d:\t%ld:\n",j,enb_properties.properties[i]->rach_sizeOfRA_PreamblesGroupA[j]);
printf( "\trach_messageSizeGroupA for CC %d:\t%ld:\n",j,enb_properties.properties[i]->rach_messageSizeGroupA[j]);
printf( "\trach_messagePowerOffsetGroupB for CC %d:\t%d:\n",j,enb_properties.properties[i]->rach_messagePowerOffsetGroupB[j]);
}
printf( "\trach_powerRampingStep for CC %d:\t%ld:\n",j,enb_properties.properties[i]->rach_powerRampingStep[j]);
printf( "\trach_preambleInitialReceivedTargetPower for CC %d:\t%ld:\n",j,enb_properties.properties[i]->rach_preambleInitialReceivedTargetPower[j]);
printf( "\trach_preambleTransMax for CC %d:\t%ld:\n",j,enb_properties.properties[i]->rach_preambleTransMax[j]);
printf( "\trach_raResponseWindowSize for CC %d:\t%ld:\n",j,enb_properties.properties[i]->rach_raResponseWindowSize[j]);
printf( "\trach_macContentionResolutionTimer for CC %d:\t%ld:\n",j,enb_properties.properties[i]->rach_macContentionResolutionTimer[j]);
printf( "\trach_maxHARQ_Msg3Tx for CC %d:\t%ld:\n",j,enb_properties.properties[i]->rach_maxHARQ_Msg3Tx[j]);
// BCCH-Config
printf( "\tbcch_modificationPeriodCoeff for CC %d:\t%ld:\n",j,enb_properties.properties[i]->bcch_modificationPeriodCoeff[j]);
// PCCH-Config
printf( "\tpcch_defaultPagingCycle for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pcch_defaultPagingCycle[j]);
printf( "\tpcch_nB for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pcch_nB[j]);
// PRACH-Config
printf( "\tprach_root for CC %d:\t%ld:\n",j,enb_properties.properties[i]->prach_root[j]);
printf( "\tprach_config_index for CC %d:\t%ld:\n",j,enb_properties.properties[i]->prach_config_index[j]);
printf( "\tprach_high_speed for CC %d:\t%d:\n",j,enb_properties.properties[i]->prach_high_speed[j]);
printf( "\tprach_zero_correlation for CC %d:\t%ld:\n",j,enb_properties.properties[i]->prach_zero_correlation[j]);
printf( "\tprach_freq_offset for CC %d:\t%ld:\n",j,enb_properties.properties[i]->prach_freq_offset[j]);
// PDSCH-Config
printf( "\tpdsch_referenceSignalPower for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pdsch_referenceSignalPower[j]);
printf( "\tpdsch_p_b for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pdsch_p_b[j]);
// PUSCH-Config
printf( "\tpusch_n_SB for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pusch_n_SB[j]);
printf( "\tpusch_hoppingMode for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pusch_hoppingMode[j]);
printf( "\tpusch_hoppingOffset for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pusch_hoppingOffset[j]);
printf( "\tpusch_enable64QAM for CC %d:\t%d:\n",j,enb_properties.properties[i]->pusch_enable64QAM[j]);
printf( "\tpusch_groupHoppingEnabled for CC %d:\t%d:\n",j,enb_properties.properties[i]->pusch_groupHoppingEnabled[j]);
printf( "\tpusch_groupAssignment for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pusch_groupAssignment[j]);
printf( "\tpusch_sequenceHoppingEnabled for CC %d:\t%d:\n",j,enb_properties.properties[i]->pusch_sequenceHoppingEnabled[j]);
printf( "\tpusch_nDMRS1 for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pusch_nDMRS1[j]);
// PUCCH-Config
printf( "\tpucch_delta_shift for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pucch_delta_shift[j]);
printf( "\tpucch_nRB_CQI for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pucch_nRB_CQI[j]);
printf( "\tpucch_nCS_AN for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pucch_nCS_AN[j]);
#ifndef Rel10
printf( "\tpucch_n1_AN for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pucch_n1_AN[j]);
#endif
// SRS Config
printf( "\tsrs_enable for CC %d:\t%d:\n",j,enb_properties.properties[i]->srs_enable[j]);
if (enb_properties.properties[i]->srs_enable[j]) {
printf( "\tsrs_BandwidthConfig for CC %d:\t%ld:\n",j,enb_properties.properties[i]->srs_BandwidthConfig[j]);
printf( "\tsrs_BandwidthConfig for CC %d:\t%ld:\n",j,enb_properties.properties[i]->srs_SubframeConfig[j]);
printf( "\tsrs_ackNackST for CC %d:\t%d:\n",j,enb_properties.properties[i]->srs_ackNackST[j]);
printf( "\tsrs_MaxUpPts for CC %d:\t%d:\n",j,enb_properties.properties[i]->srs_MaxUpPts[j]);
}
// uplinkPowerControlCommon
printf( "\tpusch_p0_Nominal for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pusch_p0_Nominal[j]);
printf( "\tpucch_p0_Nominal for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pucch_p0_Nominal[j]);
printf( "\tpusch_alpha for CC %d:\t%ld:\n",j,enb_properties.properties[i]->pusch_alpha[j]);
printf( "\tpucch_deltaF_Format1 for CC %d:\t%d:\n",j,enb_properties.properties[i]->pucch_deltaF_Format1[j]);
printf( "\tpucch_deltaF_Format1b for CC %d:\t%d:\n",j,enb_properties.properties[i]->pucch_deltaF_Format1b[j]);
printf( "\tpucch_deltaF_Format2 for CC %d:\t%d:\n",j,enb_properties.properties[i]->pucch_deltaF_Format2[j]);
printf( "\tpucch_deltaF_Format2a for CC %d:\t%d:\n",j,enb_properties.properties[i]->pucch_deltaF_Format2a[j]);
printf( "\tpucch_deltaF_Format2b for CC %d:\t%d:\n",j,enb_properties.properties[i]->pucch_deltaF_Format2b[j]);
printf( "\tmsg3_delta_Preamble for CC %d:\t%ld:\n",j,enb_properties.properties[i]->msg3_delta_Preamble[j]);
printf( "\tul_CyclicPrefixLength for CC %d:\t%ld:\n",j,enb_properties.properties[i]->ul_CyclicPrefixLength[j]);
// UE Timers and Constants
printf( "\tue_TimersAndConstants_t300 for CC %d:\t%ld:\n",j,enb_properties.properties[i]->ue_TimersAndConstants_t300[j]);
printf( "\tue_TimersAndConstants_t301 for CC %d:\t%ld:\n",j,enb_properties.properties[i]->ue_TimersAndConstants_t301[j]);
printf( "\tue_TimersAndConstants_t310 for CC %d:\t%ld:\n",j,enb_properties.properties[i]->ue_TimersAndConstants_t310[j]);
printf( "\tue_TimersAndConstants_n310 for CC %d:\t%ld:\n",j,enb_properties.properties[i]->ue_TimersAndConstants_n310[j]);
printf( "\tue_TimersAndConstants_t311 for CC %d:\t%ld:\n",j,enb_properties.properties[i]->ue_TimersAndConstants_t311[j]);
printf( "\tue_TimersAndConstants_n311 for CC %d:\t%ld:\n",j,enb_properties.properties[i]->ue_TimersAndConstants_n311[j]);
}
for (j=0; j < enb_properties.properties[i]->num_otg_elements; j++) {
printf( "\n\tOTG Destination UE ID: \t%"PRIu16, enb_properties.properties[i]->otg_ue_id[j]);
printf( "\n\tOTG App Type: \t%"PRIu8, enb_properties.properties[i]->otg_app_type[j]);
printf( "\n\tOTG Background Traffic: \t%s\n", (enb_properties.properties[i]->otg_bg_traffic[j]==1) ? "Enabled" : "Disabled");
}
printf( "\n\tGlobal log level: \t%s\n", map_int_to_str(log_level_names,enb_properties.properties[i]->glog_level));
printf( "\tHW log level: \t%s\n", map_int_to_str(log_level_names,enb_properties.properties[i]->hw_log_level));
printf( "\tPHY log level: \t%s\n", map_int_to_str(log_level_names,enb_properties.properties[i]->phy_log_level));
printf( "\tMAC log level: \t%s\n", map_int_to_str(log_level_names,enb_properties.properties[i]->mac_log_level));
printf( "\tRLC log level: \t%s\n", map_int_to_str(log_level_names,enb_properties.properties[i]->rlc_log_level));
printf( "\tPDCP log level: \t%s\n", map_int_to_str(log_level_names,enb_properties.properties[i]->pdcp_log_level));
printf( "\tRRC log level: \t%s\n", map_int_to_str(log_level_names,enb_properties.properties[i]->rrc_log_level));
printf( "\tUDP log level: \t%s\n", map_int_to_str(log_level_names,enb_properties.properties[i]->udp_log_level));
printf( "\tGTP log level: \t%s\n", map_int_to_str(log_level_names,enb_properties.properties[i]->gtpu_log_level));
printf( "\tOSA log level: \t%s\n", map_int_to_str(log_level_names,enb_properties.properties[i]->osa_log_level));
printf( "\n--------------------------------------------------------\n");
}
}
static int enb_check_band_frequencies(char* lib_config_file_name_pP,
int enb_properties_index,
int16_t band,
uint32_t downlink_frequency,
int32_t uplink_frequency_offset,
lte_frame_type_t frame_type)
{
int errors = 0;
if (band > 0) {
int band_index;
for (band_index = 0; band_index < sizeof (eutra_bands) / sizeof (eutra_bands[0]); band_index++) {
if (band == eutra_bands[band_index].band) {
uint32_t uplink_frequency = downlink_frequency + uplink_frequency_offset;
AssertError (eutra_bands[band_index].dl_min < downlink_frequency, errors ++,
"Failed to parse eNB configuration file %s, enb %d downlink frequency %u too low (%u) for band %d!",
lib_config_file_name_pP, enb_properties_index, downlink_frequency, eutra_bands[band_index].dl_min, band);
AssertError (downlink_frequency < eutra_bands[band_index].dl_max, errors ++,
"Failed to parse eNB configuration file %s, enb %d downlink frequency %u too high (%u) for band %d!",
lib_config_file_name_pP, enb_properties_index, downlink_frequency, eutra_bands[band_index].dl_max, band);
AssertError (eutra_bands[band_index].ul_min < uplink_frequency, errors ++,
"Failed to parse eNB configuration file %s, enb %d uplink frequency %u too low (%u) for band %d!",
lib_config_file_name_pP, enb_properties_index, uplink_frequency, eutra_bands[band_index].ul_min, band);
AssertError (uplink_frequency < eutra_bands[band_index].ul_max, errors ++,
"Failed to parse eNB configuration file %s, enb %d uplink frequency %u too high (%u) for band %d!",
lib_config_file_name_pP, enb_properties_index, uplink_frequency, eutra_bands[band_index].ul_max, band);
AssertError (eutra_bands[band_index].frame_type == frame_type, errors ++,
"Failed to parse eNB configuration file %s, enb %d invalid frame type (%d/%d) for band %d!",
lib_config_file_name_pP, enb_properties_index, eutra_bands[band_index].frame_type, frame_type, band);
}
}
}
return errors;
}
#if defined(ENABLE_ITTI) && defined(ENABLE_USE_MME)
extern int asn_debug;
extern int asn1_xer_print;
#endif
#ifdef LIBCONFIG_LONG
#define libconfig_int long
#else
#define libconfig_int int
#endif
const Enb_properties_array_t *enb_config_init(char* lib_config_file_name_pP)
{
config_t cfg;
config_setting_t *setting = NULL;
config_setting_t *subsetting = NULL;
config_setting_t *setting_component_carriers = NULL;
config_setting_t *component_carrier = NULL;
config_setting_t *setting_srb1 = NULL;
config_setting_t *setting_mme_addresses = NULL;
config_setting_t *setting_mme_address = NULL;
config_setting_t *setting_rrh_gws = NULL;
config_setting_t *setting_rrh_gw = NULL;
config_setting_t *setting_enb = NULL;
config_setting_t *setting_otg = NULL;
config_setting_t *subsetting_otg = NULL;
int num_enb_properties = 0;
int enb_properties_index = 0;
int num_enbs = 0;
int num_mme_address = 0;
int num_rrh_gw = 0;
int num_otg_elements = 0;
int num_component_carriers = 0;
int i = 0;
int j = 0;
int parse_errors = 0;
libconfig_int enb_id = 0;
const char* cell_type = NULL;
const char* tac = 0;
const char* enb_name = NULL;
const char* mcc = 0;
const char* mnc = 0;
const char* frame_type = NULL;
libconfig_int tdd_config = 0;
libconfig_int tdd_config_s = 0;
const char* prefix_type = NULL;
libconfig_int eutra_band = 0;
long long int downlink_frequency = 0;
libconfig_int uplink_frequency_offset = 0;
libconfig_int Nid_cell = 0;
libconfig_int Nid_cell_mbsfn = 0;
libconfig_int N_RB_DL = 0;
libconfig_int nb_antennas_tx = 0;
libconfig_int nb_antennas_rx = 0;
libconfig_int tx_gain = 0;
libconfig_int rx_gain = 0;
libconfig_int prach_root = 0;
libconfig_int prach_config_index = 0;
const char* prach_high_speed = NULL;
libconfig_int prach_zero_correlation = 0;
libconfig_int prach_freq_offset = 0;
libconfig_int pucch_delta_shift = 0;
libconfig_int pucch_nRB_CQI = 0;
libconfig_int pucch_nCS_AN = 0;
#ifndef Rel10
libconfig_int pucch_n1_AN = 0;
#endif
libconfig_int pdsch_referenceSignalPower = 0;
libconfig_int pdsch_p_b = 0;
libconfig_int pusch_n_SB = 0;
const char * pusch_hoppingMode = NULL;
libconfig_int pusch_hoppingOffset = 0;
const char* pusch_enable64QAM = NULL;
const char* pusch_groupHoppingEnabled = NULL;
libconfig_int pusch_groupAssignment = 0;
const char* pusch_sequenceHoppingEnabled = NULL;
libconfig_int pusch_nDMRS1 = 0;
const char* phich_duration = NULL;
const char* phich_resource = NULL;
const char* srs_enable = NULL;
libconfig_int srs_BandwidthConfig = 0;
libconfig_int srs_SubframeConfig = 0;
const char* srs_ackNackST = NULL;
const char* srs_MaxUpPts = NULL;
libconfig_int pusch_p0_Nominal = 0;
const char* pusch_alpha = NULL;
libconfig_int pucch_p0_Nominal = 0;
libconfig_int msg3_delta_Preamble = 0;
libconfig_int ul_CyclicPrefixLength = 0;
const char* pucch_deltaF_Format1 = NULL;
const char* pucch_deltaF_Format1a = NULL;
const char* pucch_deltaF_Format1b = NULL;
const char* pucch_deltaF_Format2 = NULL;
const char* pucch_deltaF_Format2a = NULL;
const char* pucch_deltaF_Format2b = NULL;
libconfig_int rach_numberOfRA_Preambles = 0;
const char* rach_preamblesGroupAConfig = NULL;
libconfig_int rach_sizeOfRA_PreamblesGroupA = 0;
libconfig_int rach_messageSizeGroupA = 0;
const char* rach_messagePowerOffsetGroupB = NULL;
libconfig_int rach_powerRampingStep = 0;
libconfig_int rach_preambleInitialReceivedTargetPower = 0;
libconfig_int rach_preambleTransMax = 0;
libconfig_int rach_raResponseWindowSize = 0;
libconfig_int rach_macContentionResolutionTimer = 0;
libconfig_int rach_maxHARQ_Msg3Tx = 0;
libconfig_int pcch_defaultPagingCycle = 0;
const char* pcch_nB = NULL;
libconfig_int bcch_modificationPeriodCoeff = 0;
libconfig_int ue_TimersAndConstants_t300 = 0;
libconfig_int ue_TimersAndConstants_t301 = 0;
libconfig_int ue_TimersAndConstants_t310 = 0;
libconfig_int ue_TimersAndConstants_t311 = 0;
libconfig_int ue_TimersAndConstants_n310 = 0;
libconfig_int ue_TimersAndConstants_n311 = 0;
libconfig_int srb1_timer_poll_retransmit = 0;
libconfig_int srb1_timer_reordering = 0;
libconfig_int srb1_timer_status_prohibit = 0;
libconfig_int srb1_poll_pdu = 0;
libconfig_int srb1_poll_byte = 0;
libconfig_int srb1_max_retx_threshold = 0;
libconfig_int my_int;
char* if_name = NULL;
char* ipv4 = NULL;
char* ipv4_remote = NULL;
char* ipv6 = NULL;
char* active = NULL;
char* preference = NULL;
char* tr_preference = NULL;
char* rf_preference = NULL;
libconfig_int tx_scheduling_advance = 0;
libconfig_int tx_sample_advance = 0;
libconfig_int iq_txshift = 0;
libconfig_int local_port = 0;
libconfig_int remote_port = 0;
const char* active_enb[MAX_ENB];
char* enb_interface_name_for_S1U = NULL;
char* enb_ipv4_address_for_S1U = NULL;
libconfig_int enb_port_for_S1U = 0;
char* enb_interface_name_for_S1_MME = NULL;
char* enb_ipv4_address_for_S1_MME = NULL;
char *address = NULL;
char *cidr = NULL;
char *astring = NULL;
libconfig_int otg_ue_id = 0;
char* otg_app_type = NULL;
char* otg_bg_traffic = NULL;
char* glog_level = NULL;
char* glog_verbosity = NULL;
char* hw_log_level = NULL;
char* hw_log_verbosity = NULL;
char* phy_log_level = NULL;
char* phy_log_verbosity = NULL;
char* mac_log_level = NULL;
char* mac_log_verbosity = NULL;
char* rlc_log_level = NULL;
char* rlc_log_verbosity = NULL;
char* pdcp_log_level = NULL;
char* pdcp_log_verbosity = NULL;
char* rrc_log_level = NULL;
char* rrc_log_verbosity = NULL;
char* gtpu_log_level = NULL;
char* gtpu_log_verbosity = NULL;
char* udp_log_level = NULL;
char* udp_log_verbosity = NULL;
char* osa_log_level = NULL;
char* osa_log_verbosity = NULL;
memset((char*) (enb_properties.properties), 0 , MAX_ENB * sizeof(Enb_properties_t *));
memset((char*)active_enb, 0 , MAX_ENB * sizeof(char*));
config_init(&cfg);
if (lib_config_file_name_pP != NULL) {
/* Read the file. If there is an error, report it and exit. */
if (! config_read_file(&cfg, lib_config_file_name_pP)) {
config_destroy(&cfg);
AssertFatal (0, "Failed to parse eNB configuration file %s!\n", lib_config_file_name_pP);
}
} else {
config_destroy(&cfg);
AssertFatal (0, "No eNB configuration file provided!\n");
}
#if defined(ENABLE_ITTI) && defined(ENABLE_USE_MME)
if ( (config_lookup_string( &cfg, ENB_CONFIG_STRING_ASN1_VERBOSITY, (const char **)&astring) )) {
if (strcasecmp(astring , ENB_CONFIG_STRING_ASN1_VERBOSITY_NONE) == 0) {
asn_debug = 0;
asn1_xer_print = 0;
} else if (strcasecmp(astring , ENB_CONFIG_STRING_ASN1_VERBOSITY_INFO) == 0) {
asn_debug = 1;
asn1_xer_print = 1;
} else if (strcasecmp(astring , ENB_CONFIG_STRING_ASN1_VERBOSITY_ANNOYING) == 0) {
asn_debug = 1;
asn1_xer_print = 2;
} else {
asn_debug = 0;
asn1_xer_print = 0;
}
}
#endif
// Get list of active eNBs, (only these will be configured)
setting = config_lookup(&cfg, ENB_CONFIG_STRING_ACTIVE_ENBS);
if (setting != NULL) {
num_enbs = config_setting_length(setting);
for (i = 0; i < num_enbs; i++) {
setting_enb = config_setting_get_elem(setting, i);
active_enb[i] = config_setting_get_string (setting_enb);
AssertFatal (active_enb[i] != NULL,
"Failed to parse config file %s, %uth attribute %s \n",
lib_config_file_name_pP, i, ENB_CONFIG_STRING_ACTIVE_ENBS);
active_enb[i] = strdup(active_enb[i]);
num_enb_properties += 1;
}
}
/* Output a list of all eNBs. */
setting = config_lookup(&cfg, ENB_CONFIG_STRING_ENB_LIST);
if (setting != NULL) {
enb_properties_index = 0;
parse_errors = 0;
num_enbs = config_setting_length(setting);
for (i = 0; i < num_enbs; i++) {
setting_enb = config_setting_get_elem(setting, i);
if (! config_setting_lookup_int(setting_enb, ENB_CONFIG_STRING_ENB_ID, &enb_id)) {
/* Calculate a default eNB ID */
# if defined(ENABLE_USE_MME)
uint32_t hash;
hash = s1ap_generate_eNB_id ();
enb_id = i + (hash & 0xFFFF8);
# else
enb_id = i;
# endif
}
if ( !( config_setting_lookup_string(setting_enb, ENB_CONFIG_STRING_CELL_TYPE, &cell_type)
&& config_setting_lookup_string(setting_enb, ENB_CONFIG_STRING_ENB_NAME, &enb_name)
&& config_setting_lookup_string(setting_enb, ENB_CONFIG_STRING_TRACKING_AREA_CODE, &tac)
&& config_setting_lookup_string(setting_enb, ENB_CONFIG_STRING_MOBILE_COUNTRY_CODE, &mcc)
&& config_setting_lookup_string(setting_enb, ENB_CONFIG_STRING_MOBILE_NETWORK_CODE, &mnc)
)
) {
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, %u th enb\n",
lib_config_file_name_pP, i);
continue; // FIXME this prevents segfaults below, not sure what happens after function exit
}
// search if in active list
for (j=0; j < num_enb_properties; j++) {
if (strcmp(active_enb[j], enb_name) == 0) {
enb_properties.properties[enb_properties_index] = calloc(1, sizeof(Enb_properties_t));
enb_properties.properties[enb_properties_index]->eNB_id = enb_id;
if (strcmp(cell_type, "CELL_MACRO_ENB") == 0) {
enb_properties.properties[enb_properties_index]->cell_type = CELL_MACRO_ENB;
} else if (strcmp(cell_type, "CELL_HOME_ENB") == 0) {
enb_properties.properties[enb_properties_index]->cell_type = CELL_HOME_ENB;
} else {
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for cell_type choice: CELL_MACRO_ENB or CELL_HOME_ENB !\n",
lib_config_file_name_pP, i, cell_type);
}
enb_properties.properties[enb_properties_index]->eNB_name = strdup(enb_name);
enb_properties.properties[enb_properties_index]->tac = (uint16_t)atoi(tac);
enb_properties.properties[enb_properties_index]->mcc = (uint16_t)atoi(mcc);
enb_properties.properties[enb_properties_index]->mnc = (uint16_t)atoi(mnc);
enb_properties.properties[enb_properties_index]->mnc_digit_length = strlen(mnc);
AssertFatal((enb_properties.properties[enb_properties_index]->mnc_digit_length == 2) ||
(enb_properties.properties[enb_properties_index]->mnc_digit_length == 3),
"BAD MNC DIGIT LENGTH %d",
enb_properties.properties[i]->mnc_digit_length);
// Parse optional physical parameters
setting_component_carriers = config_setting_get_member (setting_enb, ENB_CONFIG_STRING_COMPONENT_CARRIERS);
enb_properties.properties[enb_properties_index]->nb_cc = 0;
if (setting_component_carriers != NULL) {
num_component_carriers = config_setting_length(setting_component_carriers);
printf("num component carrier %d \n", num_component_carriers);
//enb_properties.properties[enb_properties_index]->nb_cc = num_component_carriers;
for (j = 0; j < num_component_carriers /*&& j < MAX_NUM_CCs*/; j++) {
component_carrier = config_setting_get_elem(setting_component_carriers, j);
//printf("Component carrier %d\n",component_carrier);
if (!(config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_FRAME_TYPE, &frame_type)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_TDD_CONFIG, &tdd_config)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_TDD_CONFIG_S, &tdd_config_s)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PREFIX_TYPE, &prefix_type)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_EUTRA_BAND, &eutra_band)
&& config_setting_lookup_int64(component_carrier, ENB_CONFIG_STRING_DOWNLINK_FREQUENCY, &downlink_frequency)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_UPLINK_FREQUENCY_OFFSET, &uplink_frequency_offset)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_NID_CELL, &Nid_cell)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_N_RB_DL, &N_RB_DL)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_CELL_MBSFN, &Nid_cell_mbsfn)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_NB_ANT_TX, &nb_antennas_tx)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_NB_ANT_RX, &nb_antennas_rx)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_TX_GAIN, &tx_gain)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_RX_GAIN, &rx_gain)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PRACH_ROOT, &prach_root)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PRACH_CONFIG_INDEX, &prach_config_index)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PRACH_HIGH_SPEED, &prach_high_speed)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PRACH_ZERO_CORRELATION, &prach_zero_correlation)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PRACH_FREQ_OFFSET, &prach_freq_offset)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PUCCH_DELTA_SHIFT, &pucch_delta_shift)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PUCCH_NRB_CQI, &pucch_nRB_CQI)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PUCCH_NCS_AN, &pucch_nCS_AN)
#ifndef Rel10
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PUCCH_N1_AN, &pucch_n1_AN)
#endif
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PDSCH_RS_EPRE, &pdsch_referenceSignalPower)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PDSCH_PB, &pdsch_p_b)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PUSCH_N_SB, &pusch_n_SB)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PUSCH_HOPPINGMODE, &pusch_hoppingMode)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PUSCH_HOPPINGOFFSET, &pusch_hoppingOffset)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PUSCH_ENABLE64QAM, &pusch_enable64QAM)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PUSCH_GROUP_HOPPING_EN, &pusch_groupHoppingEnabled)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PUSCH_GROUP_ASSIGNMENT, &pusch_groupAssignment)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PUSCH_SEQUENCE_HOPPING_EN, &pusch_sequenceHoppingEnabled)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PUSCH_NDMRS1, &pusch_nDMRS1)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PHICH_DURATION, &phich_duration)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PHICH_RESOURCE, &phich_resource)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_SRS_ENABLE, &srs_enable)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PUSCH_PO_NOMINAL, &pusch_p0_Nominal)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PUSCH_ALPHA, &pusch_alpha)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PUCCH_PO_NOMINAL, &pucch_p0_Nominal)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_MSG3_DELTA_PREAMBLE, &msg3_delta_Preamble)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PUCCH_DELTAF_FORMAT1, &pucch_deltaF_Format1)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PUCCH_DELTAF_FORMAT1b, &pucch_deltaF_Format1b)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PUCCH_DELTAF_FORMAT2, &pucch_deltaF_Format2)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PUCCH_DELTAF_FORMAT2A, &pucch_deltaF_Format2a)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PUCCH_DELTAF_FORMAT2B, &pucch_deltaF_Format2b)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_RACH_NUM_RA_PREAMBLES, &rach_numberOfRA_Preambles)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_RACH_PREAMBLESGROUPACONFIG, &rach_preamblesGroupAConfig)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_RACH_POWERRAMPINGSTEP, &rach_powerRampingStep)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_RACH_PREAMBLEINITIALRECEIVEDTARGETPOWER, &rach_preambleInitialReceivedTargetPower)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_RACH_PREAMBLETRANSMAX, &rach_preambleTransMax)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_RACH_RARESPONSEWINDOWSIZE, &rach_raResponseWindowSize)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_RACH_MACCONTENTIONRESOLUTIONTIMER, &rach_macContentionResolutionTimer)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_RACH_MAXHARQMSG3TX, &rach_maxHARQ_Msg3Tx)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_RACH_MAXHARQMSG3TX, &bcch_modificationPeriodCoeff)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_PCCH_DEFAULT_PAGING_CYCLE, &pcch_defaultPagingCycle)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_PCCH_NB, &pcch_nB)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_BCCH_MODIFICATIONPERIODCOEFF, &bcch_modificationPeriodCoeff)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_UETIMERS_T300, &ue_TimersAndConstants_t300)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_UETIMERS_T301, &ue_TimersAndConstants_t301)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_UETIMERS_T310, &ue_TimersAndConstants_t310)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_UETIMERS_T311, &ue_TimersAndConstants_t311)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_UETIMERS_N310, &ue_TimersAndConstants_n310)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_UETIMERS_N311, &ue_TimersAndConstants_n311)
#ifdef Rel10
#endif
)) {
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, Component Carrier %d!\n",
lib_config_file_name_pP, enb_properties.properties[enb_properties_index]->nb_cc++);
continue; // FIXME this prevents segfaults below, not sure what happens after function exit
}
enb_properties.properties[enb_properties_index]->nb_cc++;
enb_properties.properties[enb_properties_index]->tdd_config[j] = tdd_config;
AssertError (tdd_config <= TDD_Config__subframeAssignment_sa6, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d illegal tdd_config %d (should be 0-%d)!",
lib_config_file_name_pP, i, tdd_config, TDD_Config__subframeAssignment_sa6);
enb_properties.properties[enb_properties_index]->tdd_config_s[j] = tdd_config_s;
AssertError (tdd_config_s <= TDD_Config__specialSubframePatterns_ssp8, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d illegal tdd_config_s %d (should be 0-%d)!",
lib_config_file_name_pP, i, tdd_config_s, TDD_Config__specialSubframePatterns_ssp8);
if (!prefix_type)
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d define %s: NORMAL,EXTENDED!\n",
lib_config_file_name_pP, i, ENB_CONFIG_STRING_PREFIX_TYPE);
else if (strcmp(prefix_type, "NORMAL") == 0) {
enb_properties.properties[enb_properties_index]->prefix_type[j] = NORMAL;
} else if (strcmp(prefix_type, "EXTENDED") == 0) {
enb_properties.properties[enb_properties_index]->prefix_type[j] = EXTENDED;
} else {
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for prefix_type choice: NORMAL or EXTENDED !\n",
lib_config_file_name_pP, i, prefix_type);
}
enb_properties.properties[enb_properties_index]->eutra_band[j] = eutra_band;
enb_properties.properties[enb_properties_index]->downlink_frequency[j] = (uint32_t) downlink_frequency;
enb_properties.properties[enb_properties_index]->uplink_frequency_offset[j] = (unsigned int) uplink_frequency_offset;
enb_properties.properties[enb_properties_index]->Nid_cell[j]= Nid_cell;
if (Nid_cell>503) {
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for Nid_cell choice: 0...503 !\n",
lib_config_file_name_pP, i, Nid_cell);
}
enb_properties.properties[enb_properties_index]->N_RB_DL[j]= N_RB_DL;
if ((N_RB_DL!=6) && (N_RB_DL!=15) && (N_RB_DL!=25) && (N_RB_DL!=50) && (N_RB_DL!=75) && (N_RB_DL!=100)) {
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for N_RB_DL choice: 6,15,25,50,75,100 !\n",
lib_config_file_name_pP, i, N_RB_DL);
}
if (strcmp(frame_type, "FDD") == 0) {
enb_properties.properties[enb_properties_index]->frame_type[j] = FDD;
} else if (strcmp(frame_type, "TDD") == 0) {
enb_properties.properties[enb_properties_index]->frame_type[j] = TDD;
} else {
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for frame_type choice: FDD or TDD !\n",
lib_config_file_name_pP, i, frame_type);
}
enb_properties.properties[enb_properties_index]->tdd_config[j] = tdd_config;
AssertError (tdd_config <= TDD_Config__subframeAssignment_sa6, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d illegal tdd_config %d (should be 0-%d)!",
lib_config_file_name_pP, i, tdd_config, TDD_Config__subframeAssignment_sa6);
enb_properties.properties[enb_properties_index]->tdd_config_s[j] = tdd_config_s;
AssertError (tdd_config_s <= TDD_Config__specialSubframePatterns_ssp8, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d illegal tdd_config_s %d (should be 0-%d)!",
lib_config_file_name_pP, i, tdd_config_s, TDD_Config__specialSubframePatterns_ssp8);
if (!prefix_type)
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d define %s: NORMAL,EXTENDED!\n",
lib_config_file_name_pP, i, ENB_CONFIG_STRING_PREFIX_TYPE);
else if (strcmp(prefix_type, "NORMAL") == 0) {
enb_properties.properties[enb_properties_index]->prefix_type[j] = NORMAL;
} else if (strcmp(prefix_type, "EXTENDED") == 0) {
enb_properties.properties[enb_properties_index]->prefix_type[j] = EXTENDED;
} else {
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for prefix_type choice: NORMAL or EXTENDED !\n",
lib_config_file_name_pP, i, prefix_type);
}
enb_properties.properties[enb_properties_index]->eutra_band[j] = eutra_band;
// printf( "\teutra band:\t%d\n",enb_properties.properties[enb_properties_index]->eutra_band);
enb_properties.properties[enb_properties_index]->downlink_frequency[j] = (uint32_t) downlink_frequency;
//printf( "\tdownlink freq:\t%u\n",enb_properties.properties[enb_properties_index]->downlink_frequency);
enb_properties.properties[enb_properties_index]->uplink_frequency_offset[j] = (unsigned int) uplink_frequency_offset;
parse_errors += enb_check_band_frequencies(lib_config_file_name_pP,
enb_properties_index,
enb_properties.properties[enb_properties_index]->eutra_band[j],
enb_properties.properties[enb_properties_index]->downlink_frequency[j],
enb_properties.properties[enb_properties_index]->uplink_frequency_offset[j],
enb_properties.properties[enb_properties_index]->frame_type[j]);
enb_properties.properties[enb_properties_index]->nb_antennas_tx[j] = nb_antennas_tx;
if ((nb_antennas_tx <1) || (nb_antennas_tx > 4))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for nb_antennas_tx choice: 1..4 !\n",
lib_config_file_name_pP, i, nb_antennas_tx);
enb_properties.properties[enb_properties_index]->nb_antennas_rx[j] = nb_antennas_rx;
if ((nb_antennas_rx <1) || (nb_antennas_rx > 4))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for nb_antennas_rx choice: 1..4 !\n",
lib_config_file_name_pP, i, nb_antennas_rx);
enb_properties.properties[enb_properties_index]->tx_gain[j] = tx_gain;
if ((tx_gain <0) || (tx_gain > 127))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for tx_gain choice: 0..127 !\n",
lib_config_file_name_pP, i, tx_gain);
enb_properties.properties[enb_properties_index]->rx_gain[j] = rx_gain;
if ((rx_gain <0) || (rx_gain > 160))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for rx_gain choice: 0..160 !\n",
lib_config_file_name_pP, i, rx_gain);
enb_properties.properties[enb_properties_index]->prach_root[j] = prach_root;
if ((prach_root <0) || (prach_root > 1023))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for prach_root choice: 0..1023 !\n",
lib_config_file_name_pP, i, prach_root);
enb_properties.properties[enb_properties_index]->prach_config_index[j] = prach_config_index;
if ((prach_config_index <0) || (prach_config_index > 63))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for prach_config_index choice: 0..1023 !\n",
lib_config_file_name_pP, i, prach_config_index);
if (!prach_high_speed)
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d define %s: ENABLE,DISABLE!\n",
lib_config_file_name_pP, i, ENB_CONFIG_STRING_PRACH_HIGH_SPEED);
else if (strcmp(prach_high_speed, "ENABLE") == 0) {
enb_properties.properties[enb_properties_index]->prach_high_speed[j] = TRUE;
} else if (strcmp(prach_high_speed, "DISABLE") == 0) {
enb_properties.properties[enb_properties_index]->prach_high_speed[j] = FALSE;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for prach_config choice: ENABLE,DISABLE !\n",
lib_config_file_name_pP, i, prach_high_speed);
enb_properties.properties[enb_properties_index]->prach_zero_correlation[j] =prach_zero_correlation;
if ((prach_zero_correlation <0) || (prach_zero_correlation > 15))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for prach_zero_correlation choice: 0..15!\n",
lib_config_file_name_pP, i, prach_zero_correlation);
enb_properties.properties[enb_properties_index]->prach_freq_offset[j] = prach_freq_offset;
if ((prach_freq_offset <0) || (prach_freq_offset > 94))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for prach_freq_offset choice: 0..94!\n",
lib_config_file_name_pP, i, prach_freq_offset);
enb_properties.properties[enb_properties_index]->pucch_delta_shift[j] = pucch_delta_shift-1;
if ((pucch_delta_shift <1) || (pucch_delta_shift > 3))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pucch_delta_shift choice: 1..3!\n",
lib_config_file_name_pP, i, pucch_delta_shift);
enb_properties.properties[enb_properties_index]->pucch_nRB_CQI[j] = pucch_nRB_CQI;
if ((pucch_nRB_CQI <0) || (pucch_nRB_CQI > 98))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pucch_nRB_CQI choice: 0..98!\n",
lib_config_file_name_pP, i, pucch_nRB_CQI);
enb_properties.properties[enb_properties_index]->pucch_nCS_AN[j] = pucch_nCS_AN;
if ((pucch_nCS_AN <0) || (pucch_nCS_AN > 7))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pucch_nCS_AN choice: 0..7!\n",
lib_config_file_name_pP, i, pucch_nCS_AN);
#ifndef Rel10
enb_properties.properties[enb_properties_index]->pucch_n1_AN[j] = pucch_n1_AN;
if ((pucch_n1_AN <0) || (pucch_n1_AN > 2047))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pucch_n1_AN choice: 0..2047!\n",
lib_config_file_name_pP, i, pucch_n1_AN);
#endif
enb_properties.properties[enb_properties_index]->pdsch_referenceSignalPower[j] = pdsch_referenceSignalPower;
if ((pdsch_referenceSignalPower <-60) || (pdsch_referenceSignalPower > 50))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pdsch_referenceSignalPower choice:-60..50!\n",
lib_config_file_name_pP, i, pdsch_referenceSignalPower);
enb_properties.properties[enb_properties_index]->pdsch_p_b[j] = pdsch_p_b;
if ((pdsch_p_b <0) || (pdsch_p_b > 3))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pdsch_p_b choice: 0..3!\n",
lib_config_file_name_pP, i, pdsch_p_b);
enb_properties.properties[enb_properties_index]->pusch_n_SB[j] = pusch_n_SB;
if ((pusch_n_SB <1) || (pusch_n_SB > 4))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pusch_n_SB choice: 1..4!\n",
lib_config_file_name_pP, i, pusch_n_SB);
if (!pusch_hoppingMode)
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d define %s: interSubframe,intraAndInterSubframe!\n",
lib_config_file_name_pP, i, ENB_CONFIG_STRING_PUSCH_HOPPINGMODE);
else if (strcmp(pusch_hoppingMode,"interSubFrame")==0) {
enb_properties.properties[enb_properties_index]->pusch_hoppingMode[j] = PUSCH_ConfigCommon__pusch_ConfigBasic__hoppingMode_interSubFrame;
} else if (strcmp(pusch_hoppingMode,"intraAndInterSubFrame")==0) {
enb_properties.properties[enb_properties_index]->pusch_hoppingMode[j] = PUSCH_ConfigCommon__pusch_ConfigBasic__hoppingMode_intraAndInterSubFrame;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for pusch_hoppingMode choice: interSubframe,intraAndInterSubframe!\n",
lib_config_file_name_pP, i, pusch_hoppingMode);
enb_properties.properties[enb_properties_index]->pusch_hoppingOffset[j] = pusch_hoppingOffset;
if ((pusch_hoppingOffset<0) || (pusch_hoppingOffset>98))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for pusch_hoppingOffset choice: 0..98!\n",
lib_config_file_name_pP, i, pusch_hoppingMode);
if (!pusch_enable64QAM)
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d define %s: ENABLE,DISABLE!\n",
lib_config_file_name_pP, i, ENB_CONFIG_STRING_PUSCH_ENABLE64QAM);
else if (strcmp(pusch_enable64QAM, "ENABLE") == 0) {
enb_properties.properties[enb_properties_index]->pusch_enable64QAM[j] = TRUE;
} else if (strcmp(pusch_enable64QAM, "DISABLE") == 0) {
enb_properties.properties[enb_properties_index]->pusch_enable64QAM[j] = FALSE;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for pusch_enable64QAM choice: ENABLE,DISABLE!\n",
lib_config_file_name_pP, i, pusch_enable64QAM);
if (!pusch_groupHoppingEnabled)
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d define %s: ENABLE,DISABLE!\n",
lib_config_file_name_pP, i, ENB_CONFIG_STRING_PUSCH_GROUP_HOPPING_EN);
else if (strcmp(pusch_groupHoppingEnabled, "ENABLE") == 0) {
enb_properties.properties[enb_properties_index]->pusch_groupHoppingEnabled[j] = TRUE;
} else if (strcmp(pusch_groupHoppingEnabled, "DISABLE") == 0) {
enb_properties.properties[enb_properties_index]->pusch_groupHoppingEnabled[j] = FALSE;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for pusch_groupHoppingEnabled choice: ENABLE,DISABLE!\n",
lib_config_file_name_pP, i, pusch_groupHoppingEnabled);
enb_properties.properties[enb_properties_index]->pusch_groupAssignment[j] = pusch_groupAssignment;
if ((pusch_groupAssignment<0)||(pusch_groupAssignment>29))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pusch_groupAssignment choice: 0..29!\n",
lib_config_file_name_pP, i, pusch_groupAssignment);
if (!pusch_sequenceHoppingEnabled)
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d define %s: ENABLE,DISABLE!\n",
lib_config_file_name_pP, i, ENB_CONFIG_STRING_PUSCH_SEQUENCE_HOPPING_EN);
else if (strcmp(pusch_sequenceHoppingEnabled, "ENABLE") == 0) {
enb_properties.properties[enb_properties_index]->pusch_sequenceHoppingEnabled[j] = TRUE;
} else if (strcmp(pusch_sequenceHoppingEnabled, "DISABLE") == 0) {
enb_properties.properties[enb_properties_index]->pusch_sequenceHoppingEnabled[j] = FALSE;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for pusch_sequenceHoppingEnabled choice: ENABLE,DISABLE!\n",
lib_config_file_name_pP, i, pusch_sequenceHoppingEnabled);
enb_properties.properties[enb_properties_index]->pusch_nDMRS1[j] = pusch_nDMRS1; //cyclic_shift in RRC!
if ((pusch_nDMRS1 <0) || (pusch_nDMRS1>7))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pusch_nDMRS1 choice: 0..7!\n",
lib_config_file_name_pP, i, pusch_nDMRS1);
if (strcmp(phich_duration,"NORMAL")==0) {
enb_properties.properties[enb_properties_index]->phich_duration[j] = normal;
} else if (strcmp(phich_duration,"EXTENDED")==0) {
enb_properties.properties[enb_properties_index]->phich_duration[j] = extended;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for phich_duration choice: NORMAL,EXTENDED!\n",
lib_config_file_name_pP, i, phich_duration);
if (strcmp(phich_resource,"ONESIXTH")==0) {
enb_properties.properties[enb_properties_index]->phich_resource[j] = oneSixth;
} else if (strcmp(phich_resource,"HALF")==0) {
enb_properties.properties[enb_properties_index]->phich_resource[j] = half;
} else if (strcmp(phich_resource,"ONE")==0) {
enb_properties.properties[enb_properties_index]->phich_resource[j] = one;
} else if (strcmp(phich_resource,"TWO")==0) {
enb_properties.properties[enb_properties_index]->phich_resource[j] = two;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for phich_resource choice: ONESIXTH,HALF,ONE,TWO!\n",
lib_config_file_name_pP, i, phich_resource);
if (strcmp(srs_enable, "ENABLE") == 0) {
enb_properties.properties[enb_properties_index]->srs_enable[j] = TRUE;
} else if (strcmp(srs_enable, "DISABLE") == 0) {
enb_properties.properties[enb_properties_index]->srs_enable[j] = FALSE;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for srs_BandwidthConfig choice: ENABLE,DISABLE !\n",
lib_config_file_name_pP, i, srs_enable);
if (enb_properties.properties[enb_properties_index]->srs_enable[j] == TRUE) {
if (!(config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_SRS_BANDWIDTH_CONFIG, &srs_BandwidthConfig)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_SRS_SUBFRAME_CONFIG, &srs_SubframeConfig)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_SRS_ACKNACKST_CONFIG, &srs_ackNackST)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_SRS_MAXUPPTS, &srs_MaxUpPts)
))
AssertError(0,
parse_errors++,
"Failed to parse eNB configuration file %s, enb %d unknown values for srs_BandwidthConfig, srs_SubframeConfig, srs_ackNackST, srs_MaxUpPts\n",
lib_config_file_name_pP, i);
enb_properties.properties[enb_properties_index]->srs_BandwidthConfig[j] = srs_BandwidthConfig;
if ((srs_BandwidthConfig < 0) || (srs_BandwidthConfig >7))
AssertError (0, parse_errors ++, "Failed to parse eNB configuration file %s, enb %d unknown value %d for srs_BandwidthConfig choice: 0...7\n",
lib_config_file_name_pP, i, srs_BandwidthConfig);
enb_properties.properties[enb_properties_index]->srs_SubframeConfig[j] = srs_SubframeConfig;
if ((srs_SubframeConfig<0) || (srs_SubframeConfig>15))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for srs_SubframeConfig choice: 0..15 !\n",
lib_config_file_name_pP, i, srs_SubframeConfig);
if (strcmp(srs_ackNackST, "ENABLE") == 0) {
enb_properties.properties[enb_properties_index]->srs_ackNackST[j] = TRUE;
} else if (strcmp(srs_ackNackST, "DISABLE") == 0) {
enb_properties.properties[enb_properties_index]->srs_ackNackST[j] = FALSE;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for srs_BandwidthConfig choice: ENABLE,DISABLE !\n",
lib_config_file_name_pP, i, srs_ackNackST);
if (strcmp(srs_MaxUpPts, "ENABLE") == 0) {
enb_properties.properties[enb_properties_index]->srs_MaxUpPts[j] = TRUE;
} else if (strcmp(srs_MaxUpPts, "DISABLE") == 0) {
enb_properties.properties[enb_properties_index]->srs_MaxUpPts[j] = FALSE;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for srs_MaxUpPts choice: ENABLE,DISABLE !\n",
lib_config_file_name_pP, i, srs_MaxUpPts);
}
enb_properties.properties[enb_properties_index]->pusch_p0_Nominal[j] = pusch_p0_Nominal;
if ((pusch_p0_Nominal<-126) || (pusch_p0_Nominal>24))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pusch_p0_Nominal choice: -126..24 !\n",
lib_config_file_name_pP, i, pusch_p0_Nominal);
if (strcmp(pusch_alpha,"AL0")==0) {
enb_properties.properties[enb_properties_index]->pusch_alpha[j] = UplinkPowerControlCommon__alpha_al0;
} else if (strcmp(pusch_alpha,"AL04")==0) {
enb_properties.properties[enb_properties_index]->pusch_alpha[j] = UplinkPowerControlCommon__alpha_al04;
} else if (strcmp(pusch_alpha,"AL05")==0) {
enb_properties.properties[enb_properties_index]->pusch_alpha[j] = UplinkPowerControlCommon__alpha_al05;
} else if (strcmp(pusch_alpha,"AL06")==0) {
enb_properties.properties[enb_properties_index]->pusch_alpha[j] = UplinkPowerControlCommon__alpha_al06;
} else if (strcmp(pusch_alpha,"AL07")==0) {
enb_properties.properties[enb_properties_index]->pusch_alpha[j] = UplinkPowerControlCommon__alpha_al07;
} else if (strcmp(pusch_alpha,"AL08")==0) {
enb_properties.properties[enb_properties_index]->pusch_alpha[j] = UplinkPowerControlCommon__alpha_al08;
} else if (strcmp(pusch_alpha,"AL09")==0) {
enb_properties.properties[enb_properties_index]->pusch_alpha[j] = UplinkPowerControlCommon__alpha_al09;
} else if (strcmp(pusch_alpha,"AL1")==0) {
enb_properties.properties[enb_properties_index]->pusch_alpha[j] = UplinkPowerControlCommon__alpha_al1;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for pucch_Alpha choice: AL0,AL04,AL05,AL06,AL07,AL08,AL09,AL1!\n",
lib_config_file_name_pP, i, pusch_alpha);
enb_properties.properties[enb_properties_index]->pucch_p0_Nominal[j] = pucch_p0_Nominal;
if ((pucch_p0_Nominal<-127) || (pucch_p0_Nominal>-96))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pucch_p0_Nominal choice: -127..-96 !\n",
lib_config_file_name_pP, i, pucch_p0_Nominal);
enb_properties.properties[enb_properties_index]->msg3_delta_Preamble[j] = msg3_delta_Preamble;
if ((msg3_delta_Preamble<-1) || (msg3_delta_Preamble>6))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for msg3_delta_Preamble choice: -1..6 !\n",
lib_config_file_name_pP, i, msg3_delta_Preamble);
if (strcmp(pucch_deltaF_Format1,"deltaF_2")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format1[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format1_deltaF_2;
} else if (strcmp(pucch_deltaF_Format1,"deltaF0")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format1[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format1_deltaF0;
} else if (strcmp(pucch_deltaF_Format1,"deltaF2")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format1[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format1_deltaF2;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for pucch_deltaF_Format1 choice: deltaF_2,dltaF0,deltaF2!\n",
lib_config_file_name_pP, i, pucch_deltaF_Format1);
if (strcmp(pucch_deltaF_Format1b,"deltaF1")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format1b[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format1b_deltaF1;
} else if (strcmp(pucch_deltaF_Format1b,"deltaF3")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format1b[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format1b_deltaF3;
} else if (strcmp(pucch_deltaF_Format1b,"deltaF5")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format1b[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format1b_deltaF5;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for pucch_deltaF_Format1b choice: deltaF1,dltaF3,deltaF5!\n",
lib_config_file_name_pP, i, pucch_deltaF_Format1b);
if (strcmp(pucch_deltaF_Format2,"deltaF_2")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format2[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format2_deltaF_2;
} else if (strcmp(pucch_deltaF_Format2,"deltaF0")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format2[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format2_deltaF0;
} else if (strcmp(pucch_deltaF_Format2,"deltaF1")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format2[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format2_deltaF1;
} else if (strcmp(pucch_deltaF_Format2,"deltaF2")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format2[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format2_deltaF2;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for pucch_deltaF_Format2 choice: deltaF_2,dltaF0,deltaF1,deltaF2!\n",
lib_config_file_name_pP, i, pucch_deltaF_Format2);
if (strcmp(pucch_deltaF_Format2a,"deltaF_2")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format2a[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format2a_deltaF_2;
} else if (strcmp(pucch_deltaF_Format2a,"deltaF0")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format2a[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format2a_deltaF0;
} else if (strcmp(pucch_deltaF_Format2a,"deltaF2")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format2a[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format2a_deltaF2;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for pucch_deltaF_Format2a choice: deltaF_2,dltaF0,deltaF2!\n",
lib_config_file_name_pP, i, pucch_deltaF_Format2a);
if (strcmp(pucch_deltaF_Format2b,"deltaF_2")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format2b[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format2b_deltaF_2;
} else if (strcmp(pucch_deltaF_Format2b,"deltaF0")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format2b[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format2b_deltaF0;
} else if (strcmp(pucch_deltaF_Format2b,"deltaF2")==0) {
enb_properties.properties[enb_properties_index]->pucch_deltaF_Format2b[j] = DeltaFList_PUCCH__deltaF_PUCCH_Format2b_deltaF2;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for pucch_deltaF_Format2b choice: deltaF_2,dltaF0,deltaF2!\n",
lib_config_file_name_pP, i, pucch_deltaF_Format2b);
enb_properties.properties[enb_properties_index]->rach_numberOfRA_Preambles[j] = (rach_numberOfRA_Preambles/4)-1;
if ((rach_numberOfRA_Preambles <4) || (rach_numberOfRA_Preambles>64) || ((rach_numberOfRA_Preambles&3)!=0))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for rach_numberOfRA_Preambles choice: 4,8,12,...,64!\n",
lib_config_file_name_pP, i, rach_numberOfRA_Preambles);
if (strcmp(rach_preamblesGroupAConfig, "ENABLE") == 0) {
enb_properties.properties[enb_properties_index]->rach_preamblesGroupAConfig[j] = TRUE;
if (!(config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_RACH_SIZEOFRA_PREAMBLESGROUPA, &rach_sizeOfRA_PreamblesGroupA)
&& config_setting_lookup_int(component_carrier, ENB_CONFIG_STRING_RACH_MESSAGESIZEGROUPA, &rach_messageSizeGroupA)
&& config_setting_lookup_string(component_carrier, ENB_CONFIG_STRING_RACH_MESSAGEPOWEROFFSETGROUPB, &rach_messagePowerOffsetGroupB)))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d rach_sizeOfRA_PreamblesGroupA, messageSizeGroupA,messagePowerOffsetGroupB!\n",
lib_config_file_name_pP, i);
enb_properties.properties[enb_properties_index]->rach_sizeOfRA_PreamblesGroupA[j] = (rach_sizeOfRA_PreamblesGroupA/4)-1;
if ((rach_numberOfRA_Preambles <4) || (rach_numberOfRA_Preambles>60) || ((rach_numberOfRA_Preambles&3)!=0))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for rach_sizeOfRA_PreamblesGroupA choice: 4,8,12,...,60!\n",
lib_config_file_name_pP, i, rach_sizeOfRA_PreamblesGroupA);
switch (rach_messageSizeGroupA) {
case 56:
enb_properties.properties[enb_properties_index]->rach_messageSizeGroupA[j] = RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messageSizeGroupA_b56;
break;
case 144:
enb_properties.properties[enb_properties_index]->rach_messageSizeGroupA[j] = RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messageSizeGroupA_b144;
break;
case 208:
enb_properties.properties[enb_properties_index]->rach_messageSizeGroupA[j] = RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messageSizeGroupA_b208;
break;
case 256:
enb_properties.properties[enb_properties_index]->rach_messageSizeGroupA[j] = RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messageSizeGroupA_b256;
break;
default:
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for rach_messageSizeGroupA choice: 56,144,208,256!\n",
lib_config_file_name_pP, i, rach_messageSizeGroupA);
break;
}
if (strcmp(rach_messagePowerOffsetGroupB,"minusinfinity")==0) {
enb_properties.properties[enb_properties_index]->rach_messagePowerOffsetGroupB[j] = RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_minusinfinity;
}
else if (strcmp(rach_messagePowerOffsetGroupB,"dB0")==0) {
enb_properties.properties[enb_properties_index]->rach_messagePowerOffsetGroupB[j] = RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB0;
}
else if (strcmp(rach_messagePowerOffsetGroupB,"dB5")==0) {
enb_properties.properties[enb_properties_index]->rach_messagePowerOffsetGroupB[j] = RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB5;
}
else if (strcmp(rach_messagePowerOffsetGroupB,"dB8")==0) {
enb_properties.properties[enb_properties_index]->rach_messagePowerOffsetGroupB[j] = RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB8;
}
else if (strcmp(rach_messagePowerOffsetGroupB,"dB10")==0) {
enb_properties.properties[enb_properties_index]->rach_messagePowerOffsetGroupB[j] = RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB10;
}
else if (strcmp(rach_messagePowerOffsetGroupB,"dB12")==0) {
enb_properties.properties[enb_properties_index]->rach_messagePowerOffsetGroupB[j] = RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB12;
}
else if (strcmp(rach_messagePowerOffsetGroupB,"dB15")==0) {
enb_properties.properties[enb_properties_index]->rach_messagePowerOffsetGroupB[j] = RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB15;
}
else if (strcmp(rach_messagePowerOffsetGroupB,"dB18")==0) {
enb_properties.properties[enb_properties_index]->rach_messagePowerOffsetGroupB[j] = RACH_ConfigCommon__preambleInfo__preamblesGroupAConfig__messagePowerOffsetGroupB_dB18;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for rach_messagePowerOffsetGroupB choice: minusinfinity,dB0,dB5,dB8,dB10,dB12,dB15,dB18!\n",
lib_config_file_name_pP, i, rach_messagePowerOffsetGroupB);
} else if (strcmp(rach_preamblesGroupAConfig, "DISABLE") == 0) {
enb_properties.properties[enb_properties_index]->rach_preamblesGroupAConfig[j] = FALSE;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%s\" for rach_preamblesGroupAConfig choice: ENABLE,DISABLE !\n",
lib_config_file_name_pP, i, rach_preamblesGroupAConfig);
enb_properties.properties[enb_properties_index]->rach_preambleInitialReceivedTargetPower[j] = (rach_preambleInitialReceivedTargetPower+120)/2;
if ((rach_preambleInitialReceivedTargetPower<-120) || (rach_preambleInitialReceivedTargetPower>-90) || ((rach_preambleInitialReceivedTargetPower&1)!=0))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for rach_preambleInitialReceivedTargetPower choice: -120,-118,...,-90 !\n",
lib_config_file_name_pP, i, rach_preambleInitialReceivedTargetPower);
enb_properties.properties[enb_properties_index]->rach_powerRampingStep[j] = rach_powerRampingStep/2;
if ((rach_powerRampingStep<0) || (rach_powerRampingStep>6) || ((rach_powerRampingStep&1)!=0))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for rach_powerRampingStep choice: 0,2,4,6 !\n",
lib_config_file_name_pP, i, rach_powerRampingStep);
switch (rach_preambleTransMax) {
case 3:
enb_properties.properties[enb_properties_index]->rach_preambleTransMax[j] = RACH_ConfigCommon__ra_SupervisionInfo__preambleTransMax_n3;
break;
case 4:
enb_properties.properties[enb_properties_index]->rach_preambleTransMax[j] = RACH_ConfigCommon__ra_SupervisionInfo__preambleTransMax_n4;
break;
case 5:
enb_properties.properties[enb_properties_index]->rach_preambleTransMax[j] = RACH_ConfigCommon__ra_SupervisionInfo__preambleTransMax_n5;
break;
case 6:
enb_properties.properties[enb_properties_index]->rach_preambleTransMax[j] = RACH_ConfigCommon__ra_SupervisionInfo__preambleTransMax_n6;
break;
case 7:
enb_properties.properties[enb_properties_index]->rach_preambleTransMax[j] = RACH_ConfigCommon__ra_SupervisionInfo__preambleTransMax_n7;
break;
case 8:
enb_properties.properties[enb_properties_index]->rach_preambleTransMax[j] = RACH_ConfigCommon__ra_SupervisionInfo__preambleTransMax_n8;
break;
case 10:
enb_properties.properties[enb_properties_index]->rach_preambleTransMax[j] = RACH_ConfigCommon__ra_SupervisionInfo__preambleTransMax_n10;
break;
case 20:
enb_properties.properties[enb_properties_index]->rach_preambleTransMax[j] = RACH_ConfigCommon__ra_SupervisionInfo__preambleTransMax_n20;
break;
case 50:
enb_properties.properties[enb_properties_index]->rach_preambleTransMax[j] = RACH_ConfigCommon__ra_SupervisionInfo__preambleTransMax_n50;
break;
case 100:
enb_properties.properties[enb_properties_index]->rach_preambleTransMax[j] = RACH_ConfigCommon__ra_SupervisionInfo__preambleTransMax_n100;
break;
case 200:
enb_properties.properties[enb_properties_index]->rach_preambleTransMax[j] = RACH_ConfigCommon__ra_SupervisionInfo__preambleTransMax_n200;
break;
default:
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for rach_preambleTransMax choice: 3,4,5,6,7,8,10,20,50,100,200!\n",
lib_config_file_name_pP, i, rach_preambleTransMax);
break;
}
enb_properties.properties[enb_properties_index]->rach_raResponseWindowSize[j] = (rach_raResponseWindowSize==10)?7:rach_raResponseWindowSize-2;
if ((rach_raResponseWindowSize<0)||(rach_raResponseWindowSize==9)||(rach_raResponseWindowSize>10))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for rach_raResponseWindowSize choice: 2,3,4,5,6,7,8,10!\n",
lib_config_file_name_pP, i, rach_preambleTransMax);
enb_properties.properties[enb_properties_index]->rach_macContentionResolutionTimer[j] = (rach_macContentionResolutionTimer/8)-1;
if ((rach_macContentionResolutionTimer<8) || (rach_macContentionResolutionTimer>64) || ((rach_macContentionResolutionTimer&7)!=0))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for rach_macContentionResolutionTimer choice: 8,16,...,56,64!\n",
lib_config_file_name_pP, i, rach_preambleTransMax);
enb_properties.properties[enb_properties_index]->rach_maxHARQ_Msg3Tx[j] = rach_maxHARQ_Msg3Tx;
if ((rach_maxHARQ_Msg3Tx<0) || (rach_maxHARQ_Msg3Tx>8))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for rach_maxHARQ_Msg3Tx choice: 1..8!\n",
lib_config_file_name_pP, i, rach_preambleTransMax);
switch (pcch_defaultPagingCycle) {
case 32:
enb_properties.properties[enb_properties_index]->pcch_defaultPagingCycle[j] = PCCH_Config__defaultPagingCycle_rf32;
break;
case 64:
enb_properties.properties[enb_properties_index]->pcch_defaultPagingCycle[j] = PCCH_Config__defaultPagingCycle_rf64;
break;
case 128:
enb_properties.properties[enb_properties_index]->pcch_defaultPagingCycle[j] = PCCH_Config__defaultPagingCycle_rf128;
break;
case 256:
enb_properties.properties[enb_properties_index]->pcch_defaultPagingCycle[j] = PCCH_Config__defaultPagingCycle_rf256;
break;
default:
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pcch_defaultPagingCycle choice: 32,64,128,256!\n",
lib_config_file_name_pP, i, pcch_defaultPagingCycle);
break;
}
if (strcmp(pcch_nB, "fourT") == 0) {
enb_properties.properties[enb_properties_index]->pcch_nB[j] = PCCH_Config__nB_fourT;
} else if (strcmp(pcch_nB, "twoT") == 0) {
enb_properties.properties[enb_properties_index]->pcch_nB[j] = PCCH_Config__nB_twoT;
} else if (strcmp(pcch_nB, "oneT") == 0) {
enb_properties.properties[enb_properties_index]->pcch_nB[j] = PCCH_Config__nB_oneT;
} else if (strcmp(pcch_nB, "halfT") == 0) {
enb_properties.properties[enb_properties_index]->pcch_nB[j] = PCCH_Config__nB_halfT;
} else if (strcmp(pcch_nB, "quarterT") == 0) {
enb_properties.properties[enb_properties_index]->pcch_nB[j] = PCCH_Config__nB_quarterT;
} else if (strcmp(pcch_nB, "oneEighthT") == 0) {
enb_properties.properties[enb_properties_index]->pcch_nB[j] = PCCH_Config__nB_oneEighthT;
} else if (strcmp(pcch_nB, "oneSixteenthT") == 0) {
enb_properties.properties[enb_properties_index]->pcch_nB[j] = PCCH_Config__nB_oneSixteenthT;
} else if (strcmp(pcch_nB, "oneThirtySecondT") == 0) {
enb_properties.properties[enb_properties_index]->pcch_nB[j] = PCCH_Config__nB_oneThirtySecondT;
} else
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for pcch_nB choice: fourT,twoT,oneT,halfT,quarterT,oneighthT,oneSixteenthT,oneThirtySecondT !\n",
lib_config_file_name_pP, i, pcch_defaultPagingCycle);
switch (bcch_modificationPeriodCoeff) {
case 2:
enb_properties.properties[enb_properties_index]->bcch_modificationPeriodCoeff[j] = BCCH_Config__modificationPeriodCoeff_n2;
break;
case 4:
enb_properties.properties[enb_properties_index]->bcch_modificationPeriodCoeff[j] = BCCH_Config__modificationPeriodCoeff_n4;
break;
case 8:
enb_properties.properties[enb_properties_index]->bcch_modificationPeriodCoeff[j] = BCCH_Config__modificationPeriodCoeff_n8;
break;
case 16:
enb_properties.properties[enb_properties_index]->bcch_modificationPeriodCoeff[j] = BCCH_Config__modificationPeriodCoeff_n16;
break;
default:
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for bcch_modificationPeriodCoeff choice: 2,4,8,16",
lib_config_file_name_pP, i, bcch_modificationPeriodCoeff);
break;
}
switch (ue_TimersAndConstants_t300) {
case 100:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t300[j] = UE_TimersAndConstants__t300_ms100;
break;
case 200:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t300[j] = UE_TimersAndConstants__t300_ms200;
break;
case 300:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t300[j] = UE_TimersAndConstants__t300_ms300;
break;
case 400:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t300[j] = UE_TimersAndConstants__t300_ms400;
break;
case 600:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t300[j] = UE_TimersAndConstants__t300_ms600;
break;
case 1000:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t300[j] = UE_TimersAndConstants__t300_ms1000;
break;
case 1500:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t300[j] = UE_TimersAndConstants__t300_ms1500;
break;
case 2000:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t300[j] = UE_TimersAndConstants__t300_ms2000;
break;
default:
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for ue_TimersAndConstants_t300 choice: 100,200,300,400,600,1000,1500,2000 ",
lib_config_file_name_pP, i, ue_TimersAndConstants_t300);
break;
}
switch (ue_TimersAndConstants_t301) {
case 100:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t301[j] = UE_TimersAndConstants__t301_ms100;
break;
case 200:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t301[j] = UE_TimersAndConstants__t301_ms200;
break;
case 300:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t301[j] = UE_TimersAndConstants__t301_ms300;
break;
case 400:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t301[j] = UE_TimersAndConstants__t301_ms400;
break;
case 600:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t301[j] = UE_TimersAndConstants__t301_ms600;
break;
case 1000:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t301[j] = UE_TimersAndConstants__t301_ms1000;
break;
case 1500:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t301[j] = UE_TimersAndConstants__t301_ms1500;
break;
case 2000:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t301[j] = UE_TimersAndConstants__t301_ms2000;
break;
default:
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for ue_TimersAndConstants_t301 choice: 100,200,300,400,600,1000,1500,2000 ",
lib_config_file_name_pP, i, ue_TimersAndConstants_t301);
break;
}
switch (ue_TimersAndConstants_t310) {
case 0:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t310[j] = UE_TimersAndConstants__t310_ms0;
break;
case 50:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t310[j] = UE_TimersAndConstants__t310_ms50;
break;
case 100:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t310[j] = UE_TimersAndConstants__t310_ms100;
break;
case 200:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t310[j] = UE_TimersAndConstants__t310_ms200;
break;
case 500:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t310[j] = UE_TimersAndConstants__t310_ms500;
break;
case 1000:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t310[j] = UE_TimersAndConstants__t310_ms1000;
break;
case 2000:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t310[j] = UE_TimersAndConstants__t310_ms2000;
break;
default:
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for ue_TimersAndConstants_t310 choice: 0,50,100,200,500,1000,1500,2000 ",
lib_config_file_name_pP, i, ue_TimersAndConstants_t310);
break;
}
switch (ue_TimersAndConstants_t311) {
case 1000:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t311[j] = UE_TimersAndConstants__t311_ms1000;
break;
case 3110:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t311[j] = UE_TimersAndConstants__t311_ms3000;
break;
case 5000:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t311[j] = UE_TimersAndConstants__t311_ms5000;
break;
case 10000:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t311[j] = UE_TimersAndConstants__t311_ms10000;
break;
case 15000:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t311[j] = UE_TimersAndConstants__t311_ms15000;
break;
case 20000:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t311[j] = UE_TimersAndConstants__t311_ms20000;
break;
case 31100:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_t311[j] = UE_TimersAndConstants__t311_ms30000;
break;
default:
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for ue_TimersAndConstants_t311 choice: 1000,3000,5000,10000,150000,20000,30000",
lib_config_file_name_pP, i, ue_TimersAndConstants_t311);
break;
}
switch (ue_TimersAndConstants_n310) {
case 1:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n310[j] = UE_TimersAndConstants__n310_n1;
break;
case 2:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n310[j] = UE_TimersAndConstants__n310_n2;
break;
case 3:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n310[j] = UE_TimersAndConstants__n310_n3;
break;
case 4:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n310[j] = UE_TimersAndConstants__n310_n4;
break;
case 6:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n310[j] = UE_TimersAndConstants__n310_n6;
break;
case 8:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n310[j] = UE_TimersAndConstants__n310_n8;
break;
case 10:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n310[j] = UE_TimersAndConstants__n310_n10;
break;
case 20:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n310[j] = UE_TimersAndConstants__n310_n20;
break;
default:
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for ue_TimersAndConstants_n310 choice: 1,2,3,4,6,6,8,10,20",
lib_config_file_name_pP, i, ue_TimersAndConstants_n311);
break;
}
switch (ue_TimersAndConstants_n311) {
case 1:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n311[j] = UE_TimersAndConstants__n311_n1;
break;
case 2:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n311[j] = UE_TimersAndConstants__n311_n2;
break;
case 3:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n311[j] = UE_TimersAndConstants__n311_n3;
break;
case 4:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n311[j] = UE_TimersAndConstants__n311_n4;
break;
case 5:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n311[j] = UE_TimersAndConstants__n311_n5;
break;
case 6:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n311[j] = UE_TimersAndConstants__n311_n6;
break;
case 8:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n311[j] = UE_TimersAndConstants__n311_n8;
break;
case 10:
enb_properties.properties[enb_properties_index]->ue_TimersAndConstants_n311[j] = UE_TimersAndConstants__n311_n10;
break;
default:
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d unknown value \"%d\" for ue_TimersAndConstants_t311 choice: 1,2,3,4,5,6,8,10",
lib_config_file_name_pP, i, ue_TimersAndConstants_t311);
break;
}
}
}
setting_srb1 = config_setting_get_member (setting_enb, ENB_CONFIG_STRING_SRB1);
if (setting_srb1 != NULL) {
if (!(config_setting_lookup_int(setting_srb1, ENB_CONFIG_STRING_SRB1_TIMER_POLL_RETRANSMIT, &srb1_timer_poll_retransmit)
&& config_setting_lookup_int(setting_srb1, ENB_CONFIG_STRING_SRB1_TIMER_REORDERING, &srb1_timer_reordering)
&& config_setting_lookup_int(setting_srb1, ENB_CONFIG_STRING_SRB1_TIMER_STATUS_PROHIBIT, &srb1_timer_status_prohibit)
&& config_setting_lookup_int(setting_srb1, ENB_CONFIG_STRING_SRB1_MAX_RETX_THRESHOLD, &srb1_max_retx_threshold)
&& config_setting_lookup_int(setting_srb1, ENB_CONFIG_STRING_SRB1_POLL_PDU, &srb1_poll_pdu)
&& config_setting_lookup_int(setting_srb1, ENB_CONFIG_STRING_SRB1_POLL_BYTE, &srb1_poll_byte)))
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, enb %d timer_poll_retransmit, timer_reordering, "
"timer_status_prohibit, poll_pdu, poll_byte, max_retx_threshold !\n",
lib_config_file_name_pP, i);
switch (srb1_max_retx_threshold) {
case 1:
enb_properties.properties[enb_properties_index]->srb1_max_retx_threshold = UL_AM_RLC__maxRetxThreshold_t1;
break;
case 2:
enb_properties.properties[enb_properties_index]->srb1_max_retx_threshold = UL_AM_RLC__maxRetxThreshold_t2;
break;
case 3:
enb_properties.properties[enb_properties_index]->srb1_max_retx_threshold = UL_AM_RLC__maxRetxThreshold_t3;
break;
case 4:
enb_properties.properties[enb_properties_index]->srb1_max_retx_threshold = UL_AM_RLC__maxRetxThreshold_t4;
break;
case 6:
enb_properties.properties[enb_properties_index]->srb1_max_retx_threshold = UL_AM_RLC__maxRetxThreshold_t6;
break;
case 8:
enb_properties.properties[enb_properties_index]->srb1_max_retx_threshold = UL_AM_RLC__maxRetxThreshold_t8;
break;
case 16:
enb_properties.properties[enb_properties_index]->srb1_max_retx_threshold = UL_AM_RLC__maxRetxThreshold_t16;
break;
case 32:
enb_properties.properties[enb_properties_index]->srb1_max_retx_threshold = UL_AM_RLC__maxRetxThreshold_t32;
break;
default:
AssertError (0, parse_errors ++,
"Bad config value when parsing eNB configuration file %s, enb %d srb1_max_retx_threshold %u!\n",
lib_config_file_name_pP, i, srb1_max_retx_threshold);
}
switch (srb1_poll_pdu) {
case 4:
enb_properties.properties[enb_properties_index]->srb1_poll_pdu = PollPDU_p4;
break;
case 8:
enb_properties.properties[enb_properties_index]->srb1_poll_pdu = PollPDU_p8;
break;
case 16:
enb_properties.properties[enb_properties_index]->srb1_poll_pdu = PollPDU_p16;
break;
case 32:
enb_properties.properties[enb_properties_index]->srb1_poll_pdu = PollPDU_p32;
break;
case 64:
enb_properties.properties[enb_properties_index]->srb1_poll_pdu = PollPDU_p64;
break;
case 128:
enb_properties.properties[enb_properties_index]->srb1_poll_pdu = PollPDU_p128;
break;
case 256:
enb_properties.properties[enb_properties_index]->srb1_poll_pdu = PollPDU_p256;
break;
default:
if (srb1_poll_pdu >= 10000)
enb_properties.properties[enb_properties_index]->srb1_poll_pdu = PollPDU_pInfinity;
else
AssertError (0, parse_errors ++,
"Bad config value when parsing eNB configuration file %s, enb %d srb1_poll_pdu %u!\n",
lib_config_file_name_pP, i, srb1_poll_pdu);
}
enb_properties.properties[enb_properties_index]->srb1_poll_byte = srb1_poll_byte;
switch (srb1_poll_byte) {
case 25:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB25;
break;
case 50:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB50;
break;
case 75:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB75;
break;
case 100:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB100;
break;
case 125:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB125;
break;
case 250:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB250;
break;
case 375:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB375;
break;
case 500:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB500;
break;
case 750:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB750;
break;
case 1000:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB1000;
break;
case 1250:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB1250;
break;
case 1500:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB1500;
break;
case 2000:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB2000;
break;
case 3000:
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kB3000;
break;
default:
if (srb1_poll_byte >= 10000)
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kBinfinity;
else
AssertError (0, parse_errors ++,
"Bad config value when parsing eNB configuration file %s, enb %d srb1_poll_byte %u!\n",
lib_config_file_name_pP, i, srb1_poll_byte);
}
if (srb1_timer_poll_retransmit <= 250) {
enb_properties.properties[enb_properties_index]->srb1_timer_poll_retransmit = (srb1_timer_poll_retransmit - 5)/5;
} else if (srb1_timer_poll_retransmit <= 500) {
enb_properties.properties[enb_properties_index]->srb1_timer_poll_retransmit = (srb1_timer_poll_retransmit - 300)/50 + 50;
} else {
AssertError (0, parse_errors ++,
"Bad config value when parsing eNB configuration file %s, enb %d srb1_timer_poll_retransmit %u!\n",
lib_config_file_name_pP, i, srb1_timer_poll_retransmit);
}
if (srb1_timer_status_prohibit <= 250) {
enb_properties.properties[enb_properties_index]->srb1_timer_status_prohibit = srb1_timer_status_prohibit/5;
} else if ((srb1_timer_poll_retransmit >= 300) && (srb1_timer_poll_retransmit <= 500)) {
enb_properties.properties[enb_properties_index]->srb1_timer_status_prohibit = (srb1_timer_status_prohibit - 300)/50 + 51;
} else {
AssertError (0, parse_errors ++,
"Bad config value when parsing eNB configuration file %s, enb %d srb1_timer_status_prohibit %u!\n",
lib_config_file_name_pP, i, srb1_timer_status_prohibit);
}
switch (srb1_timer_reordering) {
case 0:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms0;
break;
case 5:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms5;
break;
case 10:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms10;
break;
case 15:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms15;
break;
case 20:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms20;
break;
case 25:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms25;
break;
case 30:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms30;
break;
case 35:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms35;
break;
case 40:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms40;
break;
case 45:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms45;
break;
case 50:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms50;
break;
case 55:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms55;
break;
case 60:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms60;
break;
case 65:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms65;
break;
case 70:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms70;
break;
case 75:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms75;
break;
case 80:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms80;
break;
case 85:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms85;
break;
case 90:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms90;
break;
case 95:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms95;
break;
case 100:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms100;
break;
case 110:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms110;
break;
case 120:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms120;
break;
case 130:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms130;
break;
case 140:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms140;
break;
case 150:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms150;
break;
case 160:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms160;
break;
case 170:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms170;
break;
case 180:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms180;
break;
case 190:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms190;
break;
case 200:
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms200;
break;
default:
AssertError (0, parse_errors ++,
"Bad config value when parsing eNB configuration file %s, enb %d srb1_timer_reordering %u!\n",
lib_config_file_name_pP, i, srb1_timer_reordering);
}
} else {
enb_properties.properties[enb_properties_index]->srb1_timer_poll_retransmit = T_PollRetransmit_ms80;
enb_properties.properties[enb_properties_index]->srb1_timer_reordering = T_Reordering_ms35;
enb_properties.properties[enb_properties_index]->srb1_timer_status_prohibit = T_StatusProhibit_ms0;
enb_properties.properties[enb_properties_index]->srb1_poll_pdu = PollPDU_p4;
enb_properties.properties[enb_properties_index]->srb1_poll_byte = PollByte_kBinfinity;
enb_properties.properties[enb_properties_index]->srb1_max_retx_threshold = UL_AM_RLC__maxRetxThreshold_t8;
}
setting_mme_addresses = config_setting_get_member (setting_enb, ENB_CONFIG_STRING_MME_IP_ADDRESS);
num_mme_address = config_setting_length(setting_mme_addresses);
enb_properties.properties[enb_properties_index]->nb_mme = 0;
for (j = 0; j < num_mme_address; j++) {
setting_mme_address = config_setting_get_elem(setting_mme_addresses, j);
if ( !(
config_setting_lookup_string(setting_mme_address, ENB_CONFIG_STRING_MME_IPV4_ADDRESS, (const char **)&ipv4)
&& config_setting_lookup_string(setting_mme_address, ENB_CONFIG_STRING_MME_IPV6_ADDRESS, (const char **)&ipv6)
&& config_setting_lookup_string(setting_mme_address, ENB_CONFIG_STRING_MME_IP_ADDRESS_ACTIVE, (const char **)&active)
&& config_setting_lookup_string(setting_mme_address, ENB_CONFIG_STRING_MME_IP_ADDRESS_PREFERENCE, (const char **)&preference)
)
) {
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, %u th enb %u th mme address !\n",
lib_config_file_name_pP, i, j);
continue; // FIXME will prevent segfaults below, not sure what happens at function exit...
}
enb_properties.properties[enb_properties_index]->nb_mme += 1;
enb_properties.properties[enb_properties_index]->mme_ip_address[j].ipv4_address = strdup(ipv4);
enb_properties.properties[enb_properties_index]->mme_ip_address[j].ipv6_address = strdup(ipv6);
if (strcmp(active, "yes") == 0) {
enb_properties.properties[enb_properties_index]->mme_ip_address[j].active = 1;
#if defined(ENABLE_USE_MME)
EPC_MODE_ENABLED = 1;
#endif
} // else { (calloc)
if (strcmp(preference, "ipv4") == 0) {
enb_properties.properties[enb_properties_index]->mme_ip_address[j].ipv4 = 1;
} else if (strcmp(preference, "ipv6") == 0) {
enb_properties.properties[enb_properties_index]->mme_ip_address[j].ipv6 = 1;
} else if (strcmp(preference, "no") == 0) {
enb_properties.properties[enb_properties_index]->mme_ip_address[j].ipv4 = 1;
enb_properties.properties[enb_properties_index]->mme_ip_address[j].ipv6 = 1;
}
}
// RRH Config
setting_rrh_gws = config_setting_get_member (setting_enb, ENB_CONFIG_STRING_RRH_GW_CONFIG);
if ( setting_rrh_gws != NULL) {
num_rrh_gw = config_setting_length(setting_rrh_gws);
enb_properties.properties[enb_properties_index]->nb_rrh_gw = 0;
for (j = 0; j < num_rrh_gw; j++) {
setting_rrh_gw = config_setting_get_elem(setting_rrh_gws, j);
if ( !(
config_setting_lookup_string(setting_rrh_gw, ENB_CONFIG_STRING_RRH_GW_LOCAL_IF_NAME, (const char **)&if_name)
&& config_setting_lookup_string(setting_rrh_gw, ENB_CONFIG_STRING_RRH_GW_LOCAL_ADDRESS, (const char **)&ipv4)
&& config_setting_lookup_string(setting_rrh_gw, ENB_CONFIG_STRING_RRH_GW_REMOTE_ADDRESS , (const char **)&ipv4_remote)
&& config_setting_lookup_int(setting_rrh_gw, ENB_CONFIG_STRING_RRH_GW_LOCAL_PORT, &local_port)
&& config_setting_lookup_int(setting_rrh_gw, ENB_CONFIG_STRING_RRH_GW_REMOTE_PORT, &remote_port)
&& config_setting_lookup_string(setting_rrh_gw, ENB_CONFIG_STRING_RRH_GW_ACTIVE, (const char **)&active)
&& config_setting_lookup_string(setting_rrh_gw, ENB_CONFIG_STRING_RRH_GW_TRANSPORT_PREFERENCE, (const char **)&tr_preference)
&& config_setting_lookup_string(setting_rrh_gw, ENB_CONFIG_STRING_RRH_GW_RF_TARGET_PREFERENCE, (const char **)&rf_preference)
&& config_setting_lookup_int(setting_rrh_gw, ENB_CONFIG_STRING_RRH_GW_IQ_TXSHIFT, &iq_txshift)
&& config_setting_lookup_int(setting_rrh_gw, ENB_CONFIG_STRING_RRH_GW_TX_SAMPLE_ADVANCE, &tx_sample_advance)
&& config_setting_lookup_int(setting_rrh_gw, ENB_CONFIG_STRING_RRH_GW_TX_SCHEDULING_ADVANCE, &tx_scheduling_advance)
)
) {
AssertError (0, parse_errors ++,
"Failed to parse eNB configuration file %s, %u th enb %u the RRH GW address !\n",
lib_config_file_name_pP, i, j);
continue; // FIXME will prevent segfaults below, not sure what happens at function exit...
}
enb_properties.properties[enb_properties_index]->nb_rrh_gw += 1;
enb_properties.properties[enb_properties_index]->rrh_gw_if_name = strdup(if_name);
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].local_address = strdup(ipv4);
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].remote_address = strdup(ipv4_remote);
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].local_port = local_port;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].remote_port = remote_port;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].iq_txshift = iq_txshift;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].tx_sample_advance = tx_sample_advance;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].tx_scheduling_advance= tx_scheduling_advance;
if (strcmp(active, "yes") == 0) {
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].active = 1;
}
if (strcmp(tr_preference, "udp") == 0) {
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].udp = 1;
} else if (strcmp(tr_preference, "raw") == 0) {
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].raw = 1;
} else {//if (strcmp(preference, "no") == 0)
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].udp = 1;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].raw = 1;
}
if (strcmp(rf_preference, "exmimo") == 0) {
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].exmimo = 1;
} else if (strcmp(rf_preference, "usrp_b200") == 0) {
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].usrp_b200 = 1;
} else if (strcmp(rf_preference, "usrp_x300") == 0) {
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].usrp_x300 = 1;
} else if (strcmp(rf_preference, "bladerf") == 0) {
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].bladerf = 1;
} else if (strcmp(rf_preference, "bladerf") == 0) {
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].lmssdr = 1;
} else {//if (strcmp(preference, "no") == 0)
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].exmimo = 1;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].usrp_b200 = 1;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].usrp_x300 = 1;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].bladerf = 1;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].lmssdr = 1;
}
}
} else {
enb_properties.properties[enb_properties_index]->nb_rrh_gw = 0;
enb_properties.properties[enb_properties_index]->rrh_gw_if_name = "none";
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].local_address = "0.0.0.0";
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].remote_address = "0.0.0.0";
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].local_port= 0;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].remote_port= 0;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].active = 0;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].udp = 0;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].raw = 0;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].tx_scheduling_advance = 0;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].tx_sample_advance = 0;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].iq_txshift = 0;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].exmimo = 0;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].usrp_b200 = 0;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].usrp_x300 = 0;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].bladerf = 0;
enb_properties.properties[enb_properties_index]->rrh_gw_config[j].lmssdr = 0;
}
// SCTP SETTING
enb_properties.properties[enb_properties_index]->sctp_out_streams = SCTP_OUT_STREAMS;
enb_properties.properties[enb_properties_index]->sctp_in_streams = SCTP_IN_STREAMS;
# if defined(ENABLE_USE_MME)
subsetting = config_setting_get_member (setting_enb, ENB_CONFIG_STRING_SCTP_CONFIG);
if (subsetting != NULL) {
if ( (config_setting_lookup_int( subsetting, ENB_CONFIG_STRING_SCTP_INSTREAMS, &my_int) )) {
enb_properties.properties[enb_properties_index]->sctp_in_streams = (uint16_t)my_int;
}
if ( (config_setting_lookup_int( subsetting, ENB_CONFIG_STRING_SCTP_OUTSTREAMS, &my_int) )) {
enb_properties.properties[enb_properties_index]->sctp_out_streams = (uint16_t)my_int;
}
}
#endif
// NETWORK_INTERFACES
subsetting = config_setting_get_member (setting_enb, ENB_CONFIG_STRING_NETWORK_INTERFACES_CONFIG);
if (subsetting != NULL) {
if ( (
config_setting_lookup_string( subsetting, ENB_CONFIG_STRING_ENB_INTERFACE_NAME_FOR_S1_MME,
(const char **)&enb_interface_name_for_S1_MME)
&& config_setting_lookup_string( subsetting, ENB_CONFIG_STRING_ENB_IPV4_ADDRESS_FOR_S1_MME,
(const char **)&enb_ipv4_address_for_S1_MME)
&& config_setting_lookup_string( subsetting, ENB_CONFIG_STRING_ENB_INTERFACE_NAME_FOR_S1U,
(const char **)&enb_interface_name_for_S1U)
&& config_setting_lookup_string( subsetting, ENB_CONFIG_STRING_ENB_IPV4_ADDR_FOR_S1U,
(const char **)&enb_ipv4_address_for_S1U)
&& config_setting_lookup_int(subsetting, ENB_CONFIG_STRING_ENB_PORT_FOR_S1U,
&enb_port_for_S1U)
)
) {
enb_properties.properties[enb_properties_index]->enb_interface_name_for_S1U = strdup(enb_interface_name_for_S1U);
cidr = enb_ipv4_address_for_S1U;
address = strtok(cidr, "/");
if (address) {
IPV4_STR_ADDR_TO_INT_NWBO ( address, enb_properties.properties[enb_properties_index]->enb_ipv4_address_for_S1U, "BAD IP ADDRESS FORMAT FOR eNB S1_U !\n" );
}
enb_properties.properties[enb_properties_index]->enb_port_for_S1U = enb_port_for_S1U;
enb_properties.properties[enb_properties_index]->enb_interface_name_for_S1_MME = strdup(enb_interface_name_for_S1_MME);
cidr = enb_ipv4_address_for_S1_MME;
address = strtok(cidr, "/");
if (address) {
IPV4_STR_ADDR_TO_INT_NWBO ( address, enb_properties.properties[enb_properties_index]->enb_ipv4_address_for_S1_MME, "BAD IP ADDRESS FORMAT FOR eNB S1_MME !\n" );
}
}
}
// OTG _CONFIG
setting_otg = config_setting_get_member (setting_enb, ENB_CONF_STRING_OTG_CONFIG);
if (setting_otg != NULL) {
num_otg_elements = config_setting_length(setting_otg);
printf("num otg elements %d \n", num_otg_elements);
enb_properties.properties[enb_properties_index]->num_otg_elements = 0;
for (j = 0; j < num_otg_elements; j++) {
subsetting_otg=config_setting_get_elem(setting_otg, j);
if (config_setting_lookup_int(subsetting_otg, ENB_CONF_STRING_OTG_UE_ID, &otg_ue_id)) {
enb_properties.properties[enb_properties_index]->otg_ue_id[j] = otg_ue_id;
} else {
enb_properties.properties[enb_properties_index]->otg_ue_id[j] = 1;
}
if (config_setting_lookup_string(subsetting_otg, ENB_CONF_STRING_OTG_APP_TYPE, (const char **)&otg_app_type)) {
if ((enb_properties.properties[enb_properties_index]->otg_app_type[j] = map_str_to_int(otg_app_type_names,otg_app_type))== -1) {
enb_properties.properties[enb_properties_index]->otg_app_type[j] = BCBR;
}
} else {
enb_properties.properties[enb_properties_index]->otg_app_type[j] = NO_PREDEFINED_TRAFFIC; // 0
}
if (config_setting_lookup_string(subsetting_otg, ENB_CONF_STRING_OTG_BG_TRAFFIC, (const char **)&otg_bg_traffic)) {
if ((enb_properties.properties[enb_properties_index]->otg_bg_traffic[j] = map_str_to_int(switch_names,otg_bg_traffic)) == -1) {
enb_properties.properties[enb_properties_index]->otg_bg_traffic[j]=0;
}
} else {
enb_properties.properties[enb_properties_index]->otg_bg_traffic[j] = 0;
printf("otg bg %s\n", otg_bg_traffic);
}
enb_properties.properties[enb_properties_index]->num_otg_elements+=1;
}
}
// log_config
subsetting = config_setting_get_member (setting_enb, ENB_CONFIG_STRING_LOG_CONFIG);
if (subsetting != NULL) {
// global
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_GLOBAL_LOG_LEVEL, (const char **) &glog_level)) {
if ((enb_properties.properties[enb_properties_index]->glog_level = map_str_to_int(log_level_names, glog_level)) == -1) {
enb_properties.properties[enb_properties_index]->glog_level = LOG_INFO;
}
//printf( "\tGlobal log level :\t%s->%d\n",glog_level, enb_properties.properties[enb_properties_index]->glog_level);
} else {
enb_properties.properties[enb_properties_index]->glog_level = LOG_INFO;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_GLOBAL_LOG_VERBOSITY,(const char **) &glog_verbosity)) {
if ((enb_properties.properties[enb_properties_index]->glog_verbosity = map_str_to_int(log_verbosity_names, glog_verbosity)) == -1) {
enb_properties.properties[enb_properties_index]->glog_verbosity = LOG_MED;
}
//printf( "\tGlobal log verbosity:\t%s->%d\n",glog_verbosity, enb_properties.properties[enb_properties_index]->glog_verbosity);
} else {
enb_properties.properties[enb_properties_index]->glog_verbosity = LOG_MED;
}
// HW
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_HW_LOG_LEVEL, (const char **) &hw_log_level)) {
if ((enb_properties.properties[enb_properties_index]->hw_log_level = map_str_to_int(log_level_names,hw_log_level)) == -1) {
enb_properties.properties[enb_properties_index]->hw_log_level = LOG_INFO;
}
//printf( "\tHW log level :\t%s->%d\n",hw_log_level,enb_properties.properties[enb_properties_index]->hw_log_level);
} else {
enb_properties.properties[enb_properties_index]->hw_log_level = LOG_INFO;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_HW_LOG_VERBOSITY, (const char **) &hw_log_verbosity)) {
if ((enb_properties.properties[enb_properties_index]->hw_log_verbosity = map_str_to_int(log_verbosity_names,hw_log_verbosity)) == -1) {
enb_properties.properties[enb_properties_index]->hw_log_verbosity = LOG_MED;
}
//printf( "\tHW log verbosity:\t%s->%d\n",hw_log_verbosity, enb_properties.properties[enb_properties_index]->hw_log_verbosity);
} else {
enb_properties.properties[enb_properties_index]->hw_log_verbosity = LOG_MED;
}
// phy
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_PHY_LOG_LEVEL,(const char **) &phy_log_level)) {
if ((enb_properties.properties[enb_properties_index]->phy_log_level = map_str_to_int(log_level_names,phy_log_level)) == -1) {
enb_properties.properties[enb_properties_index]->phy_log_level = LOG_INFO;
}
//printf( "\tPHY log level :\t%s->%d\n",phy_log_level,enb_properties.properties[enb_properties_index]->phy_log_level);
} else {
enb_properties.properties[enb_properties_index]->phy_log_level = LOG_INFO;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_PHY_LOG_VERBOSITY, (const char **)&phy_log_verbosity)) {
if ((enb_properties.properties[enb_properties_index]->phy_log_verbosity = map_str_to_int(log_verbosity_names,phy_log_verbosity)) == -1) {
enb_properties.properties[enb_properties_index]->phy_log_verbosity = LOG_MED;
}
//printf( "\tPHY log verbosity:\t%s->%d\n",phy_log_level,enb_properties.properties[enb_properties_index]->phy_log_verbosity);
} else {
enb_properties.properties[enb_properties_index]->phy_log_verbosity = LOG_MED;
}
//mac
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_MAC_LOG_LEVEL, (const char **)&mac_log_level)) {
if ((enb_properties.properties[enb_properties_index]->mac_log_level = map_str_to_int(log_level_names,mac_log_level)) == -1 ) {
enb_properties.properties[enb_properties_index]->mac_log_level = LOG_INFO;
}
//printf( "\tMAC log level :\t%s->%d\n",mac_log_level,enb_properties.properties[enb_properties_index]->mac_log_level);
} else {
enb_properties.properties[enb_properties_index]->mac_log_level = LOG_INFO;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_MAC_LOG_VERBOSITY, (const char **)&mac_log_verbosity)) {
if ((enb_properties.properties[enb_properties_index]->mac_log_verbosity = map_str_to_int(log_verbosity_names,mac_log_verbosity)) == -1) {
enb_properties.properties[enb_properties_index]->mac_log_verbosity = LOG_MED;
}
//printf( "\tMAC log verbosity:\t%s->%d\n",mac_log_verbosity,enb_properties.properties[enb_properties_index]->mac_log_verbosity);
} else {
enb_properties.properties[enb_properties_index]->mac_log_verbosity = LOG_MED;
}
//rlc
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_RLC_LOG_LEVEL, (const char **)&rlc_log_level)) {
if ((enb_properties.properties[enb_properties_index]->rlc_log_level = map_str_to_int(log_level_names,rlc_log_level)) == -1) {
enb_properties.properties[enb_properties_index]->rlc_log_level = LOG_INFO;
}
//printf( "\tRLC log level :\t%s->%d\n",rlc_log_level, enb_properties.properties[enb_properties_index]->rlc_log_level);
} else {
enb_properties.properties[enb_properties_index]->rlc_log_level = LOG_INFO;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_RLC_LOG_VERBOSITY, (const char **)&rlc_log_verbosity)) {
if ((enb_properties.properties[enb_properties_index]->rlc_log_verbosity = map_str_to_int(log_verbosity_names,rlc_log_verbosity)) == -1) {
enb_properties.properties[enb_properties_index]->rlc_log_verbosity = LOG_MED;
}
//printf( "\tRLC log verbosity:\t%s->%d\n",rlc_log_verbosity, enb_properties.properties[enb_properties_index]->rlc_log_verbosity);
} else {
enb_properties.properties[enb_properties_index]->rlc_log_verbosity = LOG_MED;
}
//pdcp
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_PDCP_LOG_LEVEL, (const char **)&pdcp_log_level)) {
if ((enb_properties.properties[enb_properties_index]->pdcp_log_level = map_str_to_int(log_level_names,pdcp_log_level)) == -1) {
enb_properties.properties[enb_properties_index]->pdcp_log_level = LOG_INFO;
}
//printf( "\tPDCP log level :\t%s->%d\n",pdcp_log_level, enb_properties.properties[enb_properties_index]->pdcp_log_level);
} else {
enb_properties.properties[enb_properties_index]->pdcp_log_level = LOG_INFO;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_PDCP_LOG_VERBOSITY, (const char **)&pdcp_log_verbosity)) {
enb_properties.properties[enb_properties_index]->pdcp_log_verbosity = map_str_to_int(log_verbosity_names,pdcp_log_verbosity);
//printf( "\tPDCP log verbosity:\t%s->%d\n",pdcp_log_verbosity, enb_properties.properties[enb_properties_index]->pdcp_log_verbosity);
} else {
enb_properties.properties[enb_properties_index]->pdcp_log_verbosity = LOG_MED;
}
//rrc
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_RRC_LOG_LEVEL, (const char **)&rrc_log_level)) {
if ((enb_properties.properties[enb_properties_index]->rrc_log_level = map_str_to_int(log_level_names,rrc_log_level)) == -1 ) {
enb_properties.properties[enb_properties_index]->rrc_log_level = LOG_INFO;
}
//printf( "\tRRC log level :\t%s->%d\n",rrc_log_level,enb_properties.properties[enb_properties_index]->rrc_log_level);
} else {
enb_properties.properties[enb_properties_index]->rrc_log_level = LOG_INFO;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_RRC_LOG_VERBOSITY, (const char **)&rrc_log_verbosity)) {
if ((enb_properties.properties[enb_properties_index]->rrc_log_verbosity = map_str_to_int(log_verbosity_names,rrc_log_verbosity)) == -1) {
enb_properties.properties[enb_properties_index]->rrc_log_verbosity = LOG_MED;
}
//printf( "\tRRC log verbosity:\t%s->%d\n",rrc_log_verbosity,enb_properties.properties[enb_properties_index]->rrc_log_verbosity);
} else {
enb_properties.properties[enb_properties_index]->rrc_log_verbosity = LOG_MED;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_GTPU_LOG_LEVEL, (const char **)>pu_log_level)) {
if ((enb_properties.properties[enb_properties_index]->gtpu_log_level = map_str_to_int(log_level_names,gtpu_log_level)) == -1 ) {
enb_properties.properties[enb_properties_index]->gtpu_log_level = LOG_INFO;
}
//printf( "\tGTPU log level :\t%s->%d\n",gtpu_log_level,enb_properties.properties[enb_properties_index]->gtpu_log_level);
} else {
enb_properties.properties[enb_properties_index]->gtpu_log_level = LOG_INFO;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_GTPU_LOG_VERBOSITY, (const char **)>pu_log_verbosity)) {
if ((enb_properties.properties[enb_properties_index]->gtpu_log_verbosity = map_str_to_int(log_verbosity_names,gtpu_log_verbosity)) == -1) {
enb_properties.properties[enb_properties_index]->gtpu_log_verbosity = LOG_MED;
}
//printf( "\tGTPU log verbosity:\t%s->%d\n",gtpu_log_verbosity,enb_properties.properties[enb_properties_index]->gtpu_log_verbosity);
} else {
enb_properties.properties[enb_properties_index]->gtpu_log_verbosity = LOG_MED;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_UDP_LOG_LEVEL, (const char **)&udp_log_level)) {
if ((enb_properties.properties[enb_properties_index]->udp_log_level = map_str_to_int(log_level_names,udp_log_level)) == -1 ) {
enb_properties.properties[enb_properties_index]->udp_log_level = LOG_INFO;
}
//printf( "\tUDP log level :\t%s->%d\n",udp_log_level,enb_properties.properties[enb_properties_index]->udp_log_level);
} else {
enb_properties.properties[enb_properties_index]->udp_log_level = LOG_INFO;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_UDP_LOG_VERBOSITY, (const char **)&udp_log_verbosity)) {
if ((enb_properties.properties[enb_properties_index]->udp_log_verbosity = map_str_to_int(log_verbosity_names,udp_log_verbosity)) == -1) {
enb_properties.properties[enb_properties_index]->udp_log_verbosity = LOG_MED;
}
//printf( "\tUDP log verbosity:\t%s->%d\n",udp_log_verbosity,enb_properties.properties[enb_properties_index]->gtpu_log_verbosity);
} else {
enb_properties.properties[enb_properties_index]->udp_log_verbosity = LOG_MED;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_OSA_LOG_LEVEL, (const char **)&osa_log_level)) {
if ((enb_properties.properties[enb_properties_index]->osa_log_level = map_str_to_int(log_level_names,osa_log_level)) == -1 ) {
enb_properties.properties[enb_properties_index]->osa_log_level = LOG_INFO;
}
//printf( "\tOSA log level :\t%s->%d\n",osa_log_level,enb_properties.properties[enb_properties_index]->osa_log_level);
} else {
enb_properties.properties[enb_properties_index]->osa_log_level = LOG_INFO;
}
if (config_setting_lookup_string(subsetting, ENB_CONFIG_STRING_OSA_LOG_VERBOSITY, (const char **)&osa_log_verbosity)) {
if ((enb_properties.properties[enb_properties_index]->osa_log_verbosity = map_str_to_int(log_verbosity_names,osa_log_verbosity)) == -1) {
enb_properties.properties[enb_properties_index]->osa_log_verbosity = LOG_MED;
}
//printf( "\tOSA log verbosity:\t%s->%d\n",osa_log_verbosity,enb_properties.properties[enb_properties_index]->gosa_log_verbosity);
} else {
enb_properties.properties[enb_properties_index]->osa_log_verbosity = LOG_MED;
}
} else { // not configuration is given
enb_properties.properties[enb_properties_index]->glog_level = LOG_INFO;
enb_properties.properties[enb_properties_index]->glog_verbosity = LOG_MED;
enb_properties.properties[enb_properties_index]->hw_log_level = LOG_INFO;
enb_properties.properties[enb_properties_index]->hw_log_verbosity = LOG_MED;
enb_properties.properties[enb_properties_index]->phy_log_level = LOG_INFO;
enb_properties.properties[enb_properties_index]->phy_log_verbosity = LOG_MED;
enb_properties.properties[enb_properties_index]->mac_log_level = LOG_INFO;
enb_properties.properties[enb_properties_index]->mac_log_verbosity = LOG_MED;
enb_properties.properties[enb_properties_index]->rlc_log_level = LOG_INFO;
enb_properties.properties[enb_properties_index]->rlc_log_verbosity = LOG_MED;
enb_properties.properties[enb_properties_index]->pdcp_log_level = LOG_INFO;
enb_properties.properties[enb_properties_index]->pdcp_log_verbosity = LOG_MED;
enb_properties.properties[enb_properties_index]->rrc_log_level = LOG_INFO;
enb_properties.properties[enb_properties_index]->rrc_log_verbosity = LOG_MED;
enb_properties.properties[enb_properties_index]->gtpu_log_level = LOG_INFO;
enb_properties.properties[enb_properties_index]->gtpu_log_verbosity = LOG_MED;
enb_properties.properties[enb_properties_index]->udp_log_level = LOG_INFO;
enb_properties.properties[enb_properties_index]->udp_log_verbosity = LOG_MED;
enb_properties.properties[enb_properties_index]->osa_log_level = LOG_INFO;
enb_properties.properties[enb_properties_index]->osa_log_verbosity = LOG_MED;
}
enb_properties_index += 1;
break;
}
}
}
}
enb_properties.number = num_enb_properties;
AssertError (enb_properties_index == num_enb_properties, parse_errors ++,
"Failed to parse eNB configuration file %s, mismatch between %u active eNBs and %u corresponding defined eNBs !\n",
lib_config_file_name_pP, num_enb_properties, enb_properties_index);
AssertFatal (parse_errors == 0,
"Failed to parse eNB configuration file %s, found %d error%s !\n",
lib_config_file_name_pP, parse_errors, parse_errors > 1 ? "s" : "");
enb_config_display();
return &enb_properties;
}
const Enb_properties_array_t *enb_config_get(void)
{
return &enb_properties;
}