/* * Licensed to the OpenAirInterface (OAI) Software Alliance under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The OpenAirInterface Software Alliance licenses this file to You under * the OAI Public License, Version 1.1 (the "License"); you may not use this file * except in compliance with the License. * You may obtain a copy of the License at * * http://www.openairinterface.org/?page_id=698 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. *------------------------------------------------------------------------------- * For more information about the OpenAirInterface (OAI) Software Alliance: * contact@openairinterface.org */ #define _GNU_SOURCE /* See feature_test_macros(7) */ #include <sched.h> #include "T.h" #undef MALLOC //there are two conflicting definitions, so we better make sure we don't use it at all #include <common/utils/assertions.h> #include "msc.h" #include "PHY/types.h" #include "common/ran_context.h" #include "PHY/defs_gNB.h" #include "PHY/defs_common.h" #include "common/config/config_userapi.h" #include "common/utils/load_module_shlib.h" #undef MALLOC //there are two conflicting definitions, so we better make sure we don't use it at all //#undef FRAME_LENGTH_COMPLEX_SAMPLES //there are two conflicting definitions, so we better make sure we don't use it at all #include "../../ARCH/COMMON/common_lib.h" #include "../../ARCH/ETHERNET/USERSPACE/LIB/if_defs.h" //#undef FRAME_LENGTH_COMPLEX_SAMPLES //there are two conflicting definitions, so we better make sure we don't use it at all #include "PHY/phy_vars.h" #include "SCHED/sched_common_vars.h" #include "LAYER2/MAC/mac_vars.h" #include "RRC/LTE/rrc_vars.h" #include "PHY_INTERFACE/phy_interface_vars.h" #include "gnb_config.h" #include "SIMULATION/TOOLS/sim.h" #ifdef SMBV #include "PHY/TOOLS/smbv.h" unsigned short config_frames[4] = {2,9,11,13}; #endif #include "common/utils/LOG/log.h" #include "common/utils/LOG/vcd_signal_dumper.h" #include "UTIL/OPT/opt.h" //#include "PHY/TOOLS/time_meas.h" #ifndef OPENAIR2 #include "UTIL/OTG/otg_vars.h" #endif #include "intertask_interface.h" #include "PHY/INIT/phy_init.h" #include "system.h" #include <openair2/GNB_APP/gnb_app.h> #include "PHY/TOOLS/phy_scope_interface.h" #include "PHY/TOOLS/nr_phy_scope.h" #include "stats.h" #include "nr-softmodem.h" #include "executables/softmodem-common.h" #include "executables/thread-common.h" #include "NB_IoT_interface.h" #include "x2ap_eNB.h" #include "ngap_gNB.h" #include "gnb_paramdef.h" #include "nfapi/oai_integration/vendor_ext.h" pthread_cond_t nfapi_sync_cond; pthread_mutex_t nfapi_sync_mutex; int nfapi_sync_var=-1; //!< protected by mutex \ref nfapi_sync_mutex extern uint8_t nfapi_mode; // Default to monolithic mode pthread_cond_t sync_cond; pthread_mutex_t sync_mutex; int sync_var=-1; //!< protected by mutex \ref sync_mutex. int config_sync_var=-1; volatile int start_gNB = 0; volatile int oai_exit = 0; static int wait_for_sync = 0; unsigned int mmapped_dma=0; int single_thread_flag=1; int8_t threequarter_fs=0; uint64_t downlink_frequency[MAX_NUM_CCs][4]; int32_t uplink_frequency_offset[MAX_NUM_CCs][4]; //Temp fix for inexistent NR upper layer unsigned char NB_gNB_INST = 1; static char *itti_dump_file = NULL; int UE_scan = 1; int UE_scan_carrier = 0; runmode_t mode = normal_txrx; static double snr_dB=20; FILE *input_fd=NULL; #if MAX_NUM_CCs == 1 rx_gain_t rx_gain_mode[MAX_NUM_CCs][4] = {{max_gain,max_gain,max_gain,max_gain}}; double tx_gain[MAX_NUM_CCs][4] = {{20,0,0,0}}; double rx_gain[MAX_NUM_CCs][4] = {{110,0,0,0}}; #else rx_gain_t rx_gain_mode[MAX_NUM_CCs][4] = {{max_gain,max_gain,max_gain,max_gain},{max_gain,max_gain,max_gain,max_gain}}; double tx_gain[MAX_NUM_CCs][4] = {{20,0,0,0},{20,0,0,0}}; double rx_gain[MAX_NUM_CCs][4] = {{110,0,0,0},{20,0,0,0}}; #endif double rx_gain_off = 0.0; static int tx_max_power[MAX_NUM_CCs]; /* = {0,0}*/; int chain_offset=0; uint8_t dci_Format = 0; uint8_t agregation_Level =0xFF; uint8_t nb_antenna_tx = 1; uint8_t nb_antenna_rx = 1; char ref[128] = "internal"; char channels[128] = "0"; int rx_input_level_dBm; int otg_enabled; //int number_of_cards = 1; //static NR_DL_FRAME_PARMS *frame_parms[MAX_NUM_CCs]; //static nfapi_nr_config_request_t *config[MAX_NUM_CCs]; uint32_t target_dl_mcs = 28; //maximum allowed mcs uint32_t target_ul_mcs = 20; uint32_t timing_advance = 0; uint64_t num_missed_slots=0; // counter for the number of missed slots int split73=0; void sendFs6Ul(PHY_VARS_eNB *eNB, int UE_id, int harq_pid, int segmentID, int16_t *data, int dataLen, int r_offset) { AssertFatal(false, "Must not be called in this context\n"); } extern void reset_opp_meas(void); extern void print_opp_meas(void); extern void init_eNB_afterRU(void); extern void *udp_eNB_task(void *args_p); int transmission_mode=1; int emulate_rf = 0; int numerology = 0; int usrp_tx_thread = 0; static char *parallel_config = NULL; static char *worker_config = NULL; /* struct for ethernet specific parameters given in eNB conf file */ eth_params_t *eth_params; openair0_config_t openair0_cfg[MAX_CARDS]; double cpuf; extern char uecap_xer[1024]; char uecap_xer_in=0; /* see file openair2/LAYER2/MAC/main.c for why abstraction_flag is needed * this is very hackish - find a proper solution */ uint8_t abstraction_flag=0; /* forward declarations */ void set_default_frame_parms(nfapi_nr_config_request_scf_t *config[MAX_NUM_CCs], NR_DL_FRAME_PARMS *frame_parms[MAX_NUM_CCs]); /*---------------------BMC: timespec helpers -----------------------------*/ struct timespec min_diff_time = { .tv_sec = 0, .tv_nsec = 0 }; struct timespec max_diff_time = { .tv_sec = 0, .tv_nsec = 0 }; struct timespec clock_difftime(struct timespec start, struct timespec end) { struct timespec temp; if ((end.tv_nsec-start.tv_nsec)<0) { temp.tv_sec = end.tv_sec-start.tv_sec-1; temp.tv_nsec = 1000000000+end.tv_nsec-start.tv_nsec; } else { temp.tv_sec = end.tv_sec-start.tv_sec; temp.tv_nsec = end.tv_nsec-start.tv_nsec; } return temp; } void print_difftimes(void) { #ifdef DEBUG printf("difftimes min = %lu ns ; max = %lu ns\n", min_diff_time.tv_nsec, max_diff_time.tv_nsec); #else LOG_I(HW,"difftimes min = %lu ns ; max = %lu ns\n", min_diff_time.tv_nsec, max_diff_time.tv_nsec); #endif } void update_difftimes(struct timespec start, struct timespec end) { struct timespec diff_time = { .tv_sec = 0, .tv_nsec = 0 }; int changed = 0; diff_time = clock_difftime(start, end); if ((min_diff_time.tv_nsec == 0) || (diff_time.tv_nsec < min_diff_time.tv_nsec)) { min_diff_time.tv_nsec = diff_time.tv_nsec; changed = 1; } if ((max_diff_time.tv_nsec == 0) || (diff_time.tv_nsec > max_diff_time.tv_nsec)) { max_diff_time.tv_nsec = diff_time.tv_nsec; changed = 1; } #if 1 if (changed) print_difftimes(); #endif } /*------------------------------------------------------------------------*/ unsigned int build_rflocal(int txi, int txq, int rxi, int rxq) { return (txi + (txq<<6) + (rxi<<12) + (rxq<<18)); } unsigned int build_rfdc(int dcoff_i_rxfe, int dcoff_q_rxfe) { return (dcoff_i_rxfe + (dcoff_q_rxfe<<8)); } #define KNRM "\x1B[0m" #define KRED "\x1B[31m" #define KGRN "\x1B[32m" #define KBLU "\x1B[34m" #define RESET "\033[0m" void exit_function(const char *file, const char *function, const int line, const char *s) { int ru_id; if (s != NULL) { printf("%s:%d %s() Exiting OAI softmodem: %s\n",file,line, function, s); } oai_exit = 1; if (RC.ru == NULL) exit(-1); // likely init not completed, prevent crash or hang, exit now... for (ru_id=0; ru_id<RC.nb_RU; ru_id++) { if (RC.ru[ru_id] && RC.ru[ru_id]->rfdevice.trx_end_func) { RC.ru[ru_id]->rfdevice.trx_end_func(&RC.ru[ru_id]->rfdevice); RC.ru[ru_id]->rfdevice.trx_end_func = NULL; } if (RC.ru[ru_id] && RC.ru[ru_id]->ifdevice.trx_end_func) { RC.ru[ru_id]->ifdevice.trx_end_func(&RC.ru[ru_id]->ifdevice); RC.ru[ru_id]->ifdevice.trx_end_func = NULL; } } sleep(1); //allow lte-softmodem threads to exit first exit(1); } int create_gNB_tasks(uint32_t gnb_nb) { LOG_D(GNB_APP, "%s(gnb_nb:%d)\n", __FUNCTION__, gnb_nb); itti_wait_ready(1); if (gnb_nb > 0) { /* Last task to create, others task must be ready before its start */ /*if (itti_create_task (TASK_GNB_APP, gNB_app_task, NULL) < 0) { LOG_E(GNB_APP, "Create task for gNB APP failed\n"); return -1; }*/ if(itti_create_task(TASK_SCTP, sctp_eNB_task, NULL) < 0){ LOG_E(SCTP, "Create task for SCTP failed\n"); return -1; } if (is_x2ap_enabled()) { if(itti_create_task(TASK_X2AP, x2ap_task, NULL) < 0){ LOG_E(X2AP, "Create task for X2AP failed\n"); } } else { LOG_I(X2AP, "X2AP is disabled.\n"); } } paramdef_t NETParams[] = GNBNETPARAMS_DESC; char aprefix[MAX_OPTNAME_SIZE*2 + 8]; sprintf(aprefix,"%s.[%i].%s",GNB_CONFIG_STRING_GNB_LIST,0,GNB_CONFIG_STRING_NETWORK_INTERFACES_CONFIG); config_get( NETParams,sizeof(NETParams)/sizeof(paramdef_t),aprefix); for(int i = GNB_INTERFACE_NAME_FOR_NG_AMF_IDX; i <= GNB_IPV4_ADDRESS_FOR_NG_AMF_IDX; i++){ if( NETParams[i].strptr == NULL){ LOG_E(NGAP, "No configuration in the file.\n"); NGAP_CONF_MODE = 0; } else { LOG_D(NGAP, "Configuration in the file: %s.\n",*NETParams[i].strptr); } } if (AMF_MODE_ENABLED && (get_softmodem_params()->phy_test==0 && get_softmodem_params()->do_ra==0 && get_softmodem_params()->sa==0)) { if (gnb_nb > 0) { /* if (itti_create_task (TASK_SCTP, sctp_eNB_task, NULL) < 0) { LOG_E(SCTP, "Create task for SCTP failed\n"); return -1; } */ if(NGAP_CONF_MODE){ if (itti_create_task (TASK_NGAP, ngap_gNB_task, NULL) < 0) { LOG_E(NGAP, "Create task for NGAP failed\n"); return -1; } } else { LOG_E(NGAP, "Ngap task not created\n"); } if(!emulate_rf){ if (itti_create_task (TASK_UDP, udp_eNB_task, NULL) < 0) { LOG_E(UDP_, "Create task for UDP failed\n"); return -1; } } if (itti_create_task (TASK_GTPV1_U, >pv1u_gNB_task, NULL) < 0) { LOG_E(GTPU, "Create task for GTPV1U failed\n"); return -1; } } } if (gnb_nb > 0) { if (itti_create_task (TASK_GNB_APP, gNB_app_task, NULL) < 0) { LOG_E(GNB_APP, "Create task for gNB APP failed\n"); return -1; } LOG_I(NR_RRC,"Creating NR RRC gNB Task\n"); if (itti_create_task (TASK_RRC_GNB, rrc_gnb_task, NULL) < 0) { LOG_E(NR_RRC, "Create task for NR RRC gNB failed\n"); return -1; } } return 0; } static void get_options(void) { paramdef_t cmdline_params[] = CMDLINE_PARAMS_DESC_GNB ; CONFIG_SETRTFLAG(CONFIG_NOEXITONHELP); get_common_options(SOFTMODEM_GNB_BIT ); config_process_cmdline( cmdline_params,sizeof(cmdline_params)/sizeof(paramdef_t),NULL); CONFIG_CLEARRTFLAG(CONFIG_NOEXITONHELP); if ( !(CONFIG_ISFLAGSET(CONFIG_ABORT)) ) { memset((void *)&RC,0,sizeof(RC)); /* Read RC configuration file */ NRRCConfig(); NB_gNB_INST = RC.nb_nr_inst; NB_RU = RC.nb_RU; printf("Configuration: nb_rrc_inst %d, nb_nr_L1_inst %d, nb_ru %hhu\n",NB_gNB_INST,RC.nb_nr_L1_inst,NB_RU); } if(parallel_config != NULL) set_parallel_conf(parallel_config); if(worker_config != NULL) set_worker_conf(worker_config); } void set_default_frame_parms(nfapi_nr_config_request_scf_t *config[MAX_NUM_CCs], NR_DL_FRAME_PARMS *frame_parms[MAX_NUM_CCs]) { for (int CC_id=0; CC_id<MAX_NUM_CCs; CC_id++) { frame_parms[CC_id] = (NR_DL_FRAME_PARMS *) malloc(sizeof(NR_DL_FRAME_PARMS)); config[CC_id] = (nfapi_nr_config_request_scf_t *) malloc(sizeof(nfapi_nr_config_request_scf_t)); config[CC_id]->ssb_config.scs_common.value = 1; config[CC_id]->cell_config.frame_duplex_type.value = 1; //FDD //config[CC_id]->subframe_config.dl_cyclic_prefix_type.value = 0; //NORMAL config[CC_id]->carrier_config.dl_grid_size[1].value = 106; config[CC_id]->carrier_config.ul_grid_size[1].value = 106; config[CC_id]->cell_config.phy_cell_id.value = 0; ///dl frequency to be filled in /* //Set some default values that may be overwritten while reading options frame_parms[CC_id]->frame_type = FDD; frame_parms[CC_id]->tdd_config = 3; frame_parms[CC_id]->tdd_config_S = 0; frame_parms[CC_id]->N_RB_DL = 100; frame_parms[CC_id]->N_RB_UL = 100; frame_parms[CC_id]->Ncp = NORMAL; frame_parms[CC_id]->Ncp_UL = NORMAL; frame_parms[CC_id]->Nid_cell = 0; frame_parms[CC_id]->num_MBSFN_config = 0; frame_parms[CC_id]->nb_antenna_ports_gNB = 1; frame_parms[CC_id]->nb_antennas_tx = 1; frame_parms[CC_id]->nb_antennas_rx = 1; frame_parms[CC_id]->nushift = 0; frame_parms[CC_id]->phich_config_common.phich_resource = oneSixth; frame_parms[CC_id]->phich_config_common.phich_duration = normal; // UL RS Config frame_parms[CC_id]->pusch_config_common.ul_ReferenceSignalsPUSCH.cyclicShift = 0;//n_DMRS1 set to 0 frame_parms[CC_id]->pusch_config_common.ul_ReferenceSignalsPUSCH.groupHoppingEnabled = 0; frame_parms[CC_id]->pusch_config_common.ul_ReferenceSignalsPUSCH.sequenceHoppingEnabled = 0; frame_parms[CC_id]->pusch_config_common.ul_ReferenceSignalsPUSCH.groupAssignmentPUSCH = 0; frame_parms[CC_id]->prach_config_common.rootSequenceIndex=22; frame_parms[CC_id]->prach_config_common.prach_ConfigInfo.zeroCorrelationZoneConfig=1; frame_parms[CC_id]->prach_config_common.prach_ConfigInfo.prach_ConfigIndex=0; frame_parms[CC_id]->prach_config_common.prach_ConfigInfo.highSpeedFlag=0; frame_parms[CC_id]->prach_config_common.prach_ConfigInfo.prach_FreqOffset=0; // downlink_frequency[CC_id][0] = 2680000000; // Use float to avoid issue with frequency over 2^31. // downlink_frequency[CC_id][1] = downlink_frequency[CC_id][0]; // downlink_frequency[CC_id][2] = downlink_frequency[CC_id][0]; // downlink_frequency[CC_id][3] = downlink_frequency[CC_id][0]; //printf("Downlink for CC_id %d frequency set to %u\n", CC_id, downlink_frequency[CC_id][0]); frame_parms[CC_id]->dl_CarrierFreq=downlink_frequency[CC_id][0]; */ } } void wait_RUs(void) { LOG_I(PHY,"Waiting for RUs to be configured ... RC.ru_mask:%02lx\n", RC.ru_mask); // wait for all RUs to be configured over fronthaul pthread_mutex_lock(&RC.ru_mutex); while (RC.ru_mask>0) { pthread_cond_wait(&RC.ru_cond,&RC.ru_mutex); printf("RC.ru_mask:%02lx\n", RC.ru_mask); } pthread_mutex_unlock(&RC.ru_mutex); LOG_I(PHY,"RUs configured\n"); } void wait_gNBs(void) { int i; int waiting=1; while (waiting==1) { printf("Waiting for gNB L1 instances to all get configured ... sleeping 50ms (nb_nr_sL1_inst %d)\n",RC.nb_nr_L1_inst); usleep(50*1000); waiting=0; for (i=0; i<RC.nb_nr_L1_inst; i++) { if (RC.gNB[i]->configured==0) { waiting=1; break; } } } printf("gNB L1 are configured\n"); } /* * helper function to terminate a certain ITTI task */ void terminate_task(task_id_t task_id, module_id_t mod_id) { LOG_I(GNB_APP, "sending TERMINATE_MESSAGE to task %s (%d)\n", itti_get_task_name(task_id), task_id); MessageDef *msg; msg = itti_alloc_new_message (ENB_APP, 0, TERMINATE_MESSAGE); itti_send_msg_to_task (task_id, ENB_MODULE_ID_TO_INSTANCE(mod_id), msg); } //extern void free_transport(PHY_VARS_gNB *); extern void nr_phy_free_RU(RU_t *); int stop_L1L2(module_id_t gnb_id) { LOG_W(GNB_APP, "stopping nr-softmodem\n"); oai_exit = 1; if (!RC.ru) { LOG_F(GNB_APP, "no RU configured\n"); return -1; } /* stop trx devices, multiple carrier currently not supported by RU */ if (RC.ru[gnb_id]) { if (RC.ru[gnb_id]->rfdevice.trx_stop_func) { RC.ru[gnb_id]->rfdevice.trx_stop_func(&RC.ru[gnb_id]->rfdevice); LOG_I(GNB_APP, "turned off RU rfdevice\n"); } else { LOG_W(GNB_APP, "can not turn off rfdevice due to missing trx_stop_func callback, proceeding anyway!\n"); } if (RC.ru[gnb_id]->ifdevice.trx_stop_func) { RC.ru[gnb_id]->ifdevice.trx_stop_func(&RC.ru[gnb_id]->ifdevice); LOG_I(GNB_APP, "turned off RU ifdevice\n"); } else { LOG_W(GNB_APP, "can not turn off ifdevice due to missing trx_stop_func callback, proceeding anyway!\n"); } } else { LOG_W(GNB_APP, "no RU found for index %d\n", gnb_id); return -1; } /* these tasks need to pick up new configuration */ terminate_task(TASK_RRC_ENB, gnb_id); LOG_I(GNB_APP, "calling kill_gNB_proc() for instance %d\n", gnb_id); kill_gNB_proc(gnb_id); LOG_I(GNB_APP, "calling kill_NR_RU_proc() for instance %d\n", gnb_id); kill_NR_RU_proc(gnb_id); oai_exit = 0; //free_transport(RC.gNB[gnb_id]); phy_free_nr_gNB(RC.gNB[gnb_id]); nr_phy_free_RU(RC.ru[gnb_id]); free_lte_top(); return 0; } /* * Restart the nr-softmodem after it has been soft-stopped with stop_L1L2() */ int restart_L1L2(module_id_t gnb_id) { RU_t *ru = RC.ru[gnb_id]; MessageDef *msg_p = NULL; LOG_W(GNB_APP, "restarting nr-softmodem\n"); /* block threads */ sync_var = -1; RC.gNB[gnb_id]->configured = 0; RC.ru_mask |= (1 << ru->idx); set_function_spec_param(RC.ru[gnb_id]); LOG_I(GNB_APP, "attempting to create ITTI tasks\n"); // No more rrc thread, as many race conditions are hidden behind rrc_enb_init(); itti_mark_task_ready(TASK_RRC_ENB); /* pass a reconfiguration request which will configure everything down to * RC.eNB[i][j]->frame_parms, too */ msg_p = itti_alloc_new_message(TASK_ENB_APP, 0, RRC_CONFIGURATION_REQ); RRC_CONFIGURATION_REQ(msg_p) = RC.rrc[gnb_id]->configuration; itti_send_msg_to_task(TASK_RRC_ENB, ENB_MODULE_ID_TO_INSTANCE(gnb_id), msg_p); /* TODO XForms might need to be restarted, but it is currently (09/02/18) * broken, so we cannot test it */ wait_gNBs(); init_RU_proc(ru); ru->rf_map.card = 0; ru->rf_map.chain = 0; /* CC_id + chain_offset;*/ wait_RUs(); init_eNB_afterRU(); printf("Sending sync to all threads\n"); pthread_mutex_lock(&sync_mutex); sync_var=0; pthread_cond_broadcast(&sync_cond); pthread_mutex_unlock(&sync_mutex); return 0; } static void wait_nfapi_init(char *thread_name) { printf( "waiting for NFAPI PNF connection and population of global structure (%s)\n",thread_name); pthread_mutex_lock( &nfapi_sync_mutex ); while (nfapi_sync_var<0) pthread_cond_wait( &nfapi_sync_cond, &nfapi_sync_mutex ); pthread_mutex_unlock(&nfapi_sync_mutex); printf( "NFAPI: got sync (%s)\n", thread_name); } void init_pdcp(void) { //if (!NODE_IS_DU(RC.rrc[0]->node_type)) { pdcp_layer_init(); uint32_t pdcp_initmask = (IS_SOFTMODEM_NOS1) ? (PDCP_USE_NETLINK_BIT | LINK_ENB_PDCP_TO_IP_DRIVER_BIT) : LINK_ENB_PDCP_TO_GTPV1U_BIT; if (IS_SOFTMODEM_NOS1) { printf("IS_SOFTMODEM_NOS1 option enabled \n"); pdcp_initmask = pdcp_initmask | ENB_NAS_USE_TUN_BIT | SOFTMODEM_NOKRNMOD_BIT ; } pdcp_module_init(pdcp_initmask); /*if (NODE_IS_CU(RC.rrc[0]->node_type)) { pdcp_set_rlc_data_req_func((send_rlc_data_req_func_t)proto_agent_send_rlc_data_req); } else {*/ pdcp_set_rlc_data_req_func((send_rlc_data_req_func_t) rlc_data_req); pdcp_set_pdcp_data_ind_func((pdcp_data_ind_func_t) pdcp_data_ind); //} /*} else { pdcp_set_pdcp_data_ind_func((pdcp_data_ind_func_t) proto_agent_send_pdcp_data_ind); }*/ } int main( int argc, char **argv ) { int ru_id, CC_id = 0; start_background_system(); ///static configuration for NR at the moment if ( load_configmodule(argc,argv,CONFIG_ENABLECMDLINEONLY) == NULL) { exit_fun("[SOFTMODEM] Error, configuration module init failed\n"); } set_softmodem_sighandler(); #ifdef DEBUG_CONSOLE setvbuf(stdout, NULL, _IONBF, 0); setvbuf(stderr, NULL, _IONBF, 0); #endif mode = normal_txrx; memset(&openair0_cfg[0],0,sizeof(openair0_config_t)*MAX_CARDS); memset(tx_max_power,0,sizeof(int)*MAX_NUM_CCs); logInit(); configure_linux(); printf("Reading in command-line options\n"); get_options (); if (CONFIG_ISFLAGSET(CONFIG_ABORT) ) { fprintf(stderr,"Getting configuration failed\n"); exit(-1); } openair0_cfg[0].threequarter_fs = threequarter_fs; AMF_MODE_ENABLED = !IS_SOFTMODEM_NOS1; //!get_softmodem_params()->phy_test; NGAP_CONF_MODE = !IS_SOFTMODEM_NOS1; //!get_softmodem_params()->phy_test; if (get_softmodem_params()->do_ra) AssertFatal(get_softmodem_params()->phy_test == 0,"RA and phy_test are mutually exclusive\n"); if (get_softmodem_params()->sa) AssertFatal(get_softmodem_params()->phy_test == 0,"Standalone mode and phy_test are mutually exclusive\n"); #if T_TRACER T_Config_Init(); #endif //randominit (0); set_taus_seed (0); printf("configuring for RAU/RRU\n"); if (opp_enabled ==1) { reset_opp_meas(); } cpuf=get_cpu_freq_GHz(); itti_init(TASK_MAX, tasks_info); // initialize mscgen log after ITTI MSC_INIT(MSC_E_UTRAN, ADDED_QUEUES_MAX+TASK_MAX); init_opt(); #ifdef PDCP_USE_NETLINK if(!IS_SOFTMODEM_NOS1) netlink_init(); #if defined(PDCP_USE_NETLINK_QUEUES) pdcp_netlink_init(); #endif #endif #ifndef PACKAGE_VERSION # define PACKAGE_VERSION "UNKNOWN-EXPERIMENTAL" #endif LOG_I(HW, "Version: %s\n", PACKAGE_VERSION); if(IS_SOFTMODEM_NOS1) init_pdcp(); if (RC.nb_nr_inst > 0) { // don't create if node doesn't connect to RRC/S1/GTP AssertFatal(create_gNB_tasks(1) == 0,"cannot create ITTI tasks\n"); } else { printf("No ITTI, Initializing L1\n"); RCconfig_NR_L1(); } /* Start the agent. If it is turned off in the configuration, it won't start */ /* RCconfig_nr_flexran(); for (i = 0; i < RC.nb_nr_L1_inst; i++) { flexran_agent_start(i); } */ // init UE_PF_PO and mutex lock pthread_mutex_init(&ue_pf_po_mutex, NULL); memset (&UE_PF_PO[0][0], 0, sizeof(UE_PF_PO_t)*NUMBER_OF_UE_MAX*MAX_NUM_CCs); mlockall(MCL_CURRENT | MCL_FUTURE); pthread_cond_init(&sync_cond,NULL); pthread_mutex_init(&sync_mutex, NULL); usleep(1000); if (NFAPI_MODE) { printf("NFAPI*** - mutex and cond created - will block shortly for completion of PNF connection\n"); pthread_cond_init(&sync_cond,NULL); pthread_mutex_init(&sync_mutex, NULL); } const char *nfapi_mode_str = "<UNKNOWN>"; switch(NFAPI_MODE) { case 0: nfapi_mode_str = "MONOLITHIC"; break; case 1: nfapi_mode_str = "PNF"; break; case 2: nfapi_mode_str = "VNF"; break; default: nfapi_mode_str = "<UNKNOWN NFAPI MODE>"; break; } printf("NFAPI MODE:%s\n", nfapi_mode_str); if (NFAPI_MODE==NFAPI_MODE_VNF) wait_nfapi_init("main?"); printf("START MAIN THREADS\n"); // start the main threads number_of_cards = 1; printf("RC.nb_nr_L1_inst:%d\n", RC.nb_nr_L1_inst); if (RC.nb_nr_L1_inst > 0) { printf("Initializing gNB threads single_thread_flag:%d wait_for_sync:%d\n", single_thread_flag,wait_for_sync); init_gNB(single_thread_flag,wait_for_sync); } printf("wait_gNBs()\n"); wait_gNBs(); printf("About to Init RU threads RC.nb_RU:%d\n", RC.nb_RU); if (RC.nb_RU >0) { printf("Initializing RU threads\n"); init_NR_RU(get_softmodem_params()->rf_config_file); for (ru_id=0; ru_id<RC.nb_RU; ru_id++) { RC.ru[ru_id]->rf_map.card=0; RC.ru[ru_id]->rf_map.chain=CC_id+chain_offset; } } config_sync_var=0; if (NFAPI_MODE==NFAPI_MODE_PNF) { wait_nfapi_init("main?"); } printf("wait RUs\n"); wait_RUs(); printf("ALL RUs READY!\n"); printf("RC.nb_RU:%d\n", RC.nb_RU); // once all RUs are ready initialize the rest of the gNBs ((dependence on final RU parameters after configuration) printf("ALL RUs ready - init gNBs\n"); if(IS_SOFTMODEM_DOFORMS) { sleep(1); scopeParms_t p; p.argc=&argc; p.argv=argv; p.gNB=RC.gNB[0]; p.ru=RC.ru[0]; load_softscope("nr",&p); } if (NFAPI_MODE != NFAPI_MODE_PNF && NFAPI_MODE != NFAPI_MODE_VNF) { printf("Not NFAPI mode - call init_eNB_afterRU()\n"); init_eNB_afterRU(); } else { printf("NFAPI mode - DO NOT call init_gNB_afterRU()\n"); } printf("ALL RUs ready - ALL gNBs ready\n"); // connect the TX/RX buffers printf("Sending sync to all threads\n"); pthread_mutex_lock(&sync_mutex); sync_var=0; pthread_cond_broadcast(&sync_cond); pthread_mutex_unlock(&sync_mutex); printf("About to call end_configmodule() from %s() %s:%d\n", __FUNCTION__, __FILE__, __LINE__); end_configmodule(); printf("Called end_configmodule() from %s() %s:%d\n", __FUNCTION__, __FILE__, __LINE__); // wait for end of program printf("TYPE <CTRL-C> TO TERMINATE\n"); //getchar(); printf("Entering ITTI signals handler\n"); itti_wait_tasks_end(); printf("Returned from ITTI signal handler\n"); oai_exit=1; printf("oai_exit=%d\n",oai_exit); // stop threads /*#ifdef XFORMS printf("waiting for XFORMS thread\n"); if (do_forms==1) { pthread_join(forms_thread,&status); fl_hide_form(form_stats->stats_form); fl_free_form(form_stats->stats_form); fl_hide_form(form_stats_l2->stats_form); fl_free_form(form_stats_l2->stats_form); for(UE_id=0; UE_id<scope_enb_num_ue; UE_id++) { for(CC_id=0; CC_id<MAX_NUM_CCs; CC_id++) { fl_hide_form(form_enb[CC_id][UE_id]->phy_scope_gNB); fl_free_form(form_enb[CC_id][UE_id]->phy_scope_gNB); } } } #endif*/ printf("stopping MODEM threads\n"); // cleanup stop_gNB(NB_gNB_INST); stop_RU(NB_RU); /* release memory used by the RU/gNB threads (incomplete), after all * threads have been stopped (they partially use the same memory) */ for (int inst = 0; inst < NB_gNB_INST; inst++) { //free_transport(RC.gNB[inst]); phy_free_nr_gNB(RC.gNB[inst]); } for (int inst = 0; inst < NB_RU; inst++) { nr_phy_free_RU(RC.ru[inst]); } free_lte_top(); pthread_cond_destroy(&sync_cond); pthread_mutex_destroy(&sync_mutex); pthread_cond_destroy(&nfapi_sync_cond); pthread_mutex_destroy(&nfapi_sync_mutex); pthread_mutex_destroy(&ue_pf_po_mutex); // *** Handle per CC_id openair0 for(ru_id=0; ru_id<NB_RU; ru_id++) { if (RC.ru[ru_id]->rfdevice.trx_end_func) RC.ru[ru_id]->rfdevice.trx_end_func(&RC.ru[ru_id]->rfdevice); if (RC.ru[ru_id]->ifdevice.trx_end_func) RC.ru[ru_id]->ifdevice.trx_end_func(&RC.ru[ru_id]->ifdevice); } logClean(); printf("Bye.\n"); return 0; }