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449 lines
18 KiB
C++
449 lines
18 KiB
C++
/*
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* Copyright 2013-2019 Software Radio Systems Limited
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*
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* This file is part of srsLTE.
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*
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* srsLTE is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Affero General Public License as
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* published by the Free Software Foundation, either version 3 of
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* the License, or (at your option) any later version.
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*
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* srsLTE is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Affero General Public License for more details.
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*
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* A copy of the GNU Affero General Public License can be found in
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* the LICENSE file in the top-level directory of this distribution
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* and at http://www.gnu.org/licenses/.
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*
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*/
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#ifndef SRSENB_RRC_H
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#define SRSENB_RRC_H
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#include "rrc_metrics.h"
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#include "srsenb/hdr/stack/upper/common_enb.h"
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#include "srslte/asn1/rrc_asn1.h"
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#include "srslte/common/block_queue.h"
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#include "srslte/common/buffer_pool.h"
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#include "srslte/common/common.h"
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#include "srslte/common/log.h"
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#include "srslte/common/stack_procedure.h"
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#include "srslte/common/timeout.h"
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#include "srslte/interfaces/enb_interfaces.h"
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#include <map>
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#include <queue>
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namespace srsenb {
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struct rrc_cfg_sr_t {
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uint32_t period;
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asn1::rrc::sched_request_cfg_c::setup_s_::dsr_trans_max_e_ dsr_max;
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uint32_t nof_prb;
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uint32_t sf_mapping[80];
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uint32_t nof_subframes;
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};
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enum rrc_cfg_cqi_mode_t { RRC_CFG_CQI_MODE_PERIODIC = 0, RRC_CFG_CQI_MODE_APERIODIC, RRC_CFG_CQI_MODE_N_ITEMS };
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static const char rrc_cfg_cqi_mode_text[RRC_CFG_CQI_MODE_N_ITEMS][20] = {"periodic", "aperiodic"};
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typedef struct {
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uint32_t sf_mapping[80];
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uint32_t nof_subframes;
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uint32_t nof_prb;
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uint32_t period;
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uint32_t m_ri;
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bool simultaneousAckCQI;
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rrc_cfg_cqi_mode_t mode;
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} rrc_cfg_cqi_t;
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typedef struct {
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bool configured;
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asn1::rrc::lc_ch_cfg_s::ul_specific_params_s_ lc_cfg;
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asn1::rrc::pdcp_cfg_s pdcp_cfg;
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asn1::rrc::rlc_cfg_c rlc_cfg;
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} rrc_cfg_qci_t;
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//! Cell to measure for HO. Filled by cfg file parser.
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struct meas_cell_cfg_t {
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uint32_t earfcn;
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uint16_t pci;
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uint32_t eci;
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float q_offset;
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};
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struct scell_cfg_t {
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uint32_t cell_id;
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bool cross_carrier_sched = false;
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uint32_t sched_cell_id;
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bool ul_allowed;
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};
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// neigh measurement Cell info
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struct rrc_meas_cfg_t {
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std::vector<meas_cell_cfg_t> meas_cells;
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std::vector<asn1::rrc::report_cfg_eutra_s> meas_reports;
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asn1::rrc::quant_cfg_eutra_s quant_cfg;
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// uint32_t nof_meas_ids;
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// srslte::rrc_meas_id_t meas_ids[LIBLTE_RRC_MAX_MEAS_ID];
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// TODO: Add blacklist cells
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// TODO: Add multiple meas configs
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};
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// Cell/Sector configuration
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struct cell_cfg_t {
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uint32_t rf_port;
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uint32_t cell_id;
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uint16_t tac;
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uint32_t pci;
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uint16_t root_seq_idx;
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uint32_t dl_earfcn;
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float dl_freq_hz;
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uint32_t ul_earfcn;
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float ul_freq_hz;
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std::vector<scell_cfg_t> scell_list;
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};
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#define MAX_NOF_QCI 10
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struct rrc_cfg_t {
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asn1::rrc::sib_type1_s sib1;
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asn1::rrc::sib_info_item_c sibs[ASN1_RRC_MAX_SIB];
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asn1::rrc::mac_main_cfg_s mac_cnfg;
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asn1::rrc::pusch_cfg_ded_s pusch_cfg;
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asn1::rrc::ant_info_ded_s antenna_info;
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asn1::rrc::pdsch_cfg_ded_s::p_a_e_ pdsch_cfg;
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rrc_cfg_sr_t sr_cfg;
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rrc_cfg_cqi_t cqi_cfg;
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rrc_cfg_qci_t qci_cfg[MAX_NOF_QCI];
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srslte_cell_t cell;
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bool enable_mbsfn;
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uint32_t inactivity_timeout_ms;
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srslte::CIPHERING_ALGORITHM_ID_ENUM eea_preference_list[srslte::CIPHERING_ALGORITHM_ID_N_ITEMS];
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srslte::INTEGRITY_ALGORITHM_ID_ENUM eia_preference_list[srslte::INTEGRITY_ALGORITHM_ID_N_ITEMS];
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bool meas_cfg_present = false;
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rrc_meas_cfg_t meas_cfg;
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std::vector<cell_cfg_t> cell_list;
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uint32_t pci; // TODO: add this to srslte_cell_t?
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uint32_t dl_earfcn; // TODO: add this to srslte_cell_t?
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};
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static const char rrc_state_text[RRC_STATE_N_ITEMS][100] = {"IDLE",
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"WAIT FOR CON SETUP COMPLETE",
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"WAIT FOR SECURITY MODE COMPLETE",
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"WAIT FOR UE CAPABILITIY INFORMATION",
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"WAIT FOR CON RECONF COMPLETE",
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"RRC CONNECTED",
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"RELEASE REQUEST"};
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class rrc final : public rrc_interface_pdcp,
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public rrc_interface_mac,
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public rrc_interface_rlc,
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public rrc_interface_s1ap
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{
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public:
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rrc();
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~rrc();
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void init(rrc_cfg_t* cfg,
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phy_interface_rrc_lte* phy,
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mac_interface_rrc* mac,
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rlc_interface_rrc* rlc,
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pdcp_interface_rrc* pdcp,
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s1ap_interface_rrc* s1ap,
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gtpu_interface_rrc* gtpu,
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srslte::timer_handler* timers_,
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srslte::log* log_rrc);
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void stop();
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void get_metrics(rrc_metrics_t& m);
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void tti_clock();
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// rrc_interface_mac
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void rl_failure(uint16_t rnti) override;
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void add_user(uint16_t rnti, const sched_interface::ue_cfg_t& init_ue_cfg) override;
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void upd_user(uint16_t new_rnti, uint16_t old_rnti) override;
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void set_activity_user(uint16_t rnti) override;
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bool is_paging_opportunity(uint32_t tti, uint32_t* payload_len) override;
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// rrc_interface_rlc
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void read_pdu_bcch_dlsch(uint32_t sib_idx, uint8_t* payload) override;
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void read_pdu_pcch(uint8_t* payload, uint32_t buffer_size) override;
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void max_retx_attempted(uint16_t rnti) override;
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// rrc_interface_s1ap
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void write_dl_info(uint16_t rnti, srslte::unique_byte_buffer_t sdu) override;
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void release_complete(uint16_t rnti) override;
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bool setup_ue_ctxt(uint16_t rnti, const asn1::s1ap::init_context_setup_request_s& msg) override;
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bool modify_ue_ctxt(uint16_t rnti, const asn1::s1ap::ue_context_mod_request_s& msg) override;
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bool setup_ue_erabs(uint16_t rnti, const asn1::s1ap::erab_setup_request_s& msg) override;
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bool release_erabs(uint32_t rnti) override;
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void add_paging_id(uint32_t ueid, const asn1::s1ap::ue_paging_id_c& UEPagingID) override;
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void ho_preparation_complete(uint16_t rnti, bool is_success, srslte::unique_byte_buffer_t rrc_container) override;
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// rrc_interface_pdcp
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void write_pdu(uint16_t rnti, uint32_t lcid, srslte::unique_byte_buffer_t pdu) override;
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uint32_t get_nof_users();
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// logging
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typedef enum { Rx = 0, Tx } direction_t;
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template <class T>
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void log_rrc_message(const std::string& source,
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direction_t dir,
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const srslte::byte_buffer_t* pdu,
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const T& msg,
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const std::string& msg_type);
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class ue
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{
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public:
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class rrc_mobility;
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ue(rrc* outer_rrc, uint16_t rnti, const sched_interface::ue_cfg_t& ue_cfg);
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bool is_connected();
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bool is_idle();
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typedef enum {
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MSG3_RX_TIMEOUT = 0, ///< Msg3 has its own timeout to quickly remove fake UEs from random PRACHs
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UE_RESPONSE_RX_TIMEOUT, ///< General purpose timeout for responses to eNB requests
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UE_INACTIVITY_TIMEOUT, ///< UE inactivity timeout
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nulltype
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} activity_timeout_type_t;
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std::string to_string(const activity_timeout_type_t& type);
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void set_activity_timeout(const activity_timeout_type_t type);
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void set_activity();
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void activity_timer_expired();
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uint32_t rl_failure();
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rrc_state_t get_state();
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void send_connection_setup(bool is_setup = true);
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void send_connection_reest();
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void send_connection_reject();
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void send_connection_release();
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void send_connection_reest_rej();
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void send_connection_reconf(srslte::unique_byte_buffer_t sdu);
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void send_connection_reconf_new_bearer(const asn1::s1ap::erab_to_be_setup_list_bearer_su_req_l& e);
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void send_connection_reconf_upd(srslte::unique_byte_buffer_t pdu);
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void send_security_mode_command();
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void send_ue_cap_enquiry();
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void parse_ul_dcch(uint32_t lcid, srslte::unique_byte_buffer_t pdu);
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void handle_rrc_con_req(asn1::rrc::rrc_conn_request_s* msg);
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void handle_rrc_con_reest_req(asn1::rrc::rrc_conn_reest_request_r8_ies_s* msg);
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void handle_rrc_con_setup_complete(asn1::rrc::rrc_conn_setup_complete_s* msg, srslte::unique_byte_buffer_t pdu);
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void handle_rrc_reconf_complete(asn1::rrc::rrc_conn_recfg_complete_s* msg, srslte::unique_byte_buffer_t pdu);
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void handle_security_mode_complete(asn1::rrc::security_mode_complete_s* msg);
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void handle_security_mode_failure(asn1::rrc::security_mode_fail_s* msg);
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bool handle_ue_cap_info(asn1::rrc::ue_cap_info_s* msg);
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void set_bitrates(const asn1::s1ap::ue_aggregate_maximum_bitrate_s& rates);
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void set_security_capabilities(const asn1::s1ap::ue_security_cap_s& caps);
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void set_security_key(const asn1::fixed_bitstring<256, false, true>& key);
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bool setup_erabs(const asn1::s1ap::erab_to_be_setup_list_ctxt_su_req_l& e);
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bool setup_erabs(const asn1::s1ap::erab_to_be_setup_list_bearer_su_req_l& e);
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void setup_erab(uint8_t id,
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const asn1::s1ap::erab_level_qos_params_s& qos,
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const asn1::bounded_bitstring<1, 160, true, true>& addr,
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uint32_t teid_out,
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const asn1::unbounded_octstring<true>* nas_pdu);
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bool release_erabs();
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// handover
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void handle_ho_preparation_complete(bool is_success, srslte::unique_byte_buffer_t container);
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void notify_s1ap_ue_ctxt_setup_complete();
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void notify_s1ap_ue_erab_setup_response(const asn1::s1ap::erab_to_be_setup_list_bearer_su_req_l& e);
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int sr_allocate(uint32_t period, uint8_t* I_sr, uint16_t* N_pucch_sr);
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void sr_get(uint8_t* I_sr, uint16_t* N_pucch_sr);
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int sr_free();
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int cqi_allocate(uint32_t period, uint16_t* pmi_idx, uint16_t* n_pucch);
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void cqi_get(uint16_t* pmi_idx, uint16_t* n_pucch);
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int cqi_free();
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int ri_get(uint32_t m_ri, uint16_t* ri_idx);
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bool select_security_algorithms();
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void send_dl_ccch(asn1::rrc::dl_ccch_msg_s* dl_ccch_msg);
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void send_dl_dcch(asn1::rrc::dl_dcch_msg_s* dl_dcch_msg,
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srslte::unique_byte_buffer_t pdu = srslte::unique_byte_buffer_t());
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uint16_t rnti = 0;
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rrc* parent = nullptr;
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bool connect_notified = false;
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bool is_csfb = false;
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private:
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// args
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srslte::byte_buffer_pool* pool = nullptr;
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srslte::timer_handler::unique_timer activity_timer;
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// cached for ease of context transfer
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asn1::rrc::rrc_conn_recfg_s last_rrc_conn_recfg;
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asn1::rrc::security_algorithm_cfg_s last_security_mode_cmd;
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asn1::rrc::establishment_cause_e establishment_cause;
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std::unique_ptr<rrc_mobility> mobility_handler;
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// S-TMSI for this UE
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bool has_tmsi = false;
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uint32_t m_tmsi = 0;
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uint8_t mmec = 0;
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// state
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sched_interface::ue_cfg_t current_sched_ue_cfg;
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uint32_t rlf_cnt = 0;
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uint8_t transaction_id = 0;
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rrc_state_t state = RRC_STATE_IDLE;
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std::map<uint32_t, asn1::rrc::srb_to_add_mod_s> srbs;
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std::map<uint32_t, asn1::rrc::drb_to_add_mod_s> drbs;
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uint8_t k_enb[32]; // Provided by MME
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uint8_t k_rrc_enc[32];
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uint8_t k_rrc_int[32];
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uint8_t k_up_enc[32];
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uint8_t k_up_int[32]; // Not used: only for relay nodes (3GPP 33.401 Annex A.7)
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srslte::CIPHERING_ALGORITHM_ID_ENUM cipher_algo;
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srslte::INTEGRITY_ALGORITHM_ID_ENUM integ_algo;
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asn1::s1ap::ue_aggregate_maximum_bitrate_s bitrates;
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asn1::s1ap::ue_security_cap_s security_capabilities;
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bool eutra_capabilities_unpacked = false;
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asn1::rrc::ue_eutra_cap_s eutra_capabilities;
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typedef struct {
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uint8_t id;
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asn1::s1ap::erab_level_qos_params_s qos_params;
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asn1::bounded_bitstring<1, 160, true, true> address;
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uint32_t teid_out;
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uint32_t teid_in;
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} erab_t;
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std::map<uint8_t, erab_t> erabs;
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int sr_sched_sf_idx = 0;
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int sr_sched_prb_idx = 0;
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bool sr_allocated = false;
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uint32_t sr_N_pucch = 0;
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uint32_t sr_I = 0;
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uint32_t cqi_pucch = 0;
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uint32_t cqi_idx = 0;
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bool cqi_allocated = false;
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int cqi_sched_sf_idx = 0;
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int cqi_sched_prb_idx = 0;
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int get_drbid_config(asn1::rrc::drb_to_add_mod_s* drb, int drbid);
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bool nas_pending = false;
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srslte::byte_buffer_t erab_info;
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///< UE's Physical layer dedicated configuration
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phy_interface_rrc_lte::phy_rrc_dedicated_list_t phy_rrc_dedicated_list = {};
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/**
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* Setups the PCell physical layer dedicated configuration of the UE. This method shall be called from the
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* connection setup only.
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* @param phys_cfg_ded ASN1 Physical layer configuration dedicated
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*/
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void apply_setup_phy_config(const asn1::rrc::phys_cfg_ded_s& phys_cfg_ded);
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/**
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* Reconfigures the PCell and SCell physical layer dedicated configuration of the UE. This method shall be called
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* from the connection reconfiguration. `apply_setup_phy_config` shall not be called before/after. It automatically
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* parses the PCell and SCell reconfiguration.
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*
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* @param reconfig_r8 ASN1 reconfiguration message
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*/
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void apply_reconf_phy_config(const asn1::rrc::rrc_conn_recfg_r8_ies_s& reconfig_r8);
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}; // class ue
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private:
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// args
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srslte::timer_handler* timers = nullptr;
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srslte::byte_buffer_pool* pool = nullptr;
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phy_interface_rrc_lte* phy = nullptr;
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mac_interface_rrc* mac = nullptr;
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rlc_interface_rrc* rlc = nullptr;
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pdcp_interface_rrc* pdcp = nullptr;
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gtpu_interface_rrc* gtpu = nullptr;
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s1ap_interface_rrc* s1ap = nullptr;
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srslte::log* rrc_log = nullptr;
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// state
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std::map<uint16_t, std::unique_ptr<ue> > users; // NOTE: has to have fixed addr
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std::map<uint32_t, asn1::s1ap::ue_paging_id_c> pending_paging;
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std::vector<srslte::unique_byte_buffer_t> sib_buffer;
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void process_release_complete(uint16_t rnti);
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void process_rl_failure(uint16_t rnti);
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void rem_user(uint16_t rnti);
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uint32_t generate_sibs();
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void configure_mbsfn_sibs(asn1::rrc::sib_type2_s* sib2, asn1::rrc::sib_type13_r9_s* sib13);
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void config_mac();
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void parse_ul_dcch(uint16_t rnti, uint32_t lcid, srslte::unique_byte_buffer_t pdu);
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void parse_ul_ccch(uint16_t rnti, srslte::unique_byte_buffer_t pdu);
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void configure_security(uint16_t rnti,
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uint32_t lcid,
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uint8_t* k_rrc_enc,
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uint8_t* k_rrc_int,
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uint8_t* k_up_enc,
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uint8_t* k_up_int,
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srslte::CIPHERING_ALGORITHM_ID_ENUM cipher_algo,
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srslte::INTEGRITY_ALGORITHM_ID_ENUM integ_algo);
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void enable_integrity(uint16_t rnti, uint32_t lcid);
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void enable_encryption(uint16_t rnti, uint32_t lcid);
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srslte::byte_buffer_t byte_buf_paging;
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typedef struct {
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uint16_t rnti;
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uint32_t lcid;
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srslte::unique_byte_buffer_t pdu;
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} rrc_pdu;
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const static uint32_t LCID_EXIT = 0xffff0000;
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const static uint32_t LCID_REM_USER = 0xffff0001;
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const static uint32_t LCID_REL_USER = 0xffff0002;
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const static uint32_t LCID_RLF_USER = 0xffff0003;
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const static uint32_t LCID_ACT_USER = 0xffff0004;
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bool running = false;
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static const int RRC_THREAD_PRIO = 65;
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srslte::block_queue<rrc_pdu> rx_pdu_queue;
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struct sr_sched_t {
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uint32_t nof_users[100][80];
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};
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sr_sched_t sr_sched = {};
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sr_sched_t cqi_sched = {};
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asn1::rrc::mcch_msg_s mcch;
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bool enable_mbms = false;
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rrc_cfg_t cfg = {};
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uint32_t nof_si_messages = 0;
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asn1::rrc::sib_type2_s sib2;
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asn1::rrc::sib_type7_s sib7;
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class mobility_cfg;
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std::unique_ptr<mobility_cfg> enb_mobility_cfg;
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void rem_user_thread(uint16_t rnti);
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pthread_mutex_t user_mutex;
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pthread_mutex_t paging_mutex;
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};
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} // namespace srsenb
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#endif // SRSENB_RRC_H
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