/** * * \section COPYRIGHT * * Copyright 2013-2021 Software Radio Systems Limited * * By using this file, you agree to the terms and conditions set * forth in the LICENSE file which can be found at the top level of * the distribution. * */ #ifndef SRSUE_RRC_NR_H #define SRSUE_RRC_NR_H #include "srsran/adt/circular_map.h" #include "srsran/asn1/rrc_nr.h" #include "srsran/asn1/rrc_nr_utils.h" #include "srsran/common/block_queue.h" #include "srsran/common/buffer_pool.h" #include "srsran/common/common_nr.h" #include "srsran/common/stack_procedure.h" #include "srsran/common/task_scheduler.h" #include "srsran/interfaces/ue_interfaces.h" #include "srsran/interfaces/ue_nr_interfaces.h" #include "srsran/interfaces/ue_rrc_interfaces.h" #include "srsue/hdr/stack/upper/gw.h" namespace srsue { class usim_interface_rrc_nr; class pdcp_interface_rrc; class rlc_interface_rrc; // Expert arguments to create GW without proper RRC struct core_less_args_t { std::string ip_addr; srsue::gw_args_t gw_args; uint8_t drb_lcid; }; struct rrc_nr_args_t { core_less_args_t coreless; uint32_t sim_nr_meas_pci; bool pdcp_short_sn_support; std::string supported_bands_nr_str; std::vector supported_bands_nr; std::vector supported_bands_eutra; std::string log_level; uint32_t log_hex_limit; }; struct rrc_nr_metrics_t {}; class rrc_nr final : public rrc_interface_phy_nr, public rrc_interface_pdcp, public rrc_interface_rlc, public rrc_interface_mac, public rrc_nr_interface_rrc, public srsran::timer_callback { public: rrc_nr(srsran::task_sched_handle task_sched_); ~rrc_nr(); int init(phy_interface_rrc_nr* phy_, mac_interface_rrc_nr* mac_, rlc_interface_rrc* rlc_, pdcp_interface_rrc* pdcp_, gw_interface_rrc* gw_, rrc_eutra_interface_rrc_nr* rrc_eutra_, usim_interface_rrc_nr* usim_, srsran::timer_handler* timers_, stack_interface_rrc* stack_, const rrc_nr_args_t& args_); void stop(); void init_core_less(); void get_metrics(rrc_nr_metrics_t& m); // Timeout callback interface void timer_expired(uint32_t timeout_id) final; void srsran_rrc_log(const char* str); enum direction_t { Rx = 0, Tx }; template void log_rrc_message(const std::string& source, direction_t dir, const srsran::byte_buffer_t* pdu, const T& msg, const std::string& msg_type); template void log_rrc_message(const std::string& source, direction_t dir, asn1::dyn_octstring oct, const T& msg, const std::string& msg_type); // PHY interface void in_sync() final; void out_of_sync() final; // RLC interface void max_retx_attempted() final; void protocol_failure() final; // MAC interface void run_tti(uint32_t tti) final; void ra_completed() final; void ra_problem() final; void release_pucch_srs() final; // PDCP interface void write_pdu(uint32_t lcid, srsran::unique_byte_buffer_t pdu) final; void write_pdu_bcch_bch(srsran::unique_byte_buffer_t pdu) final; void write_pdu_bcch_dlsch(srsran::unique_byte_buffer_t pdu) final; void write_pdu_pcch(srsran::unique_byte_buffer_t pdu) final; void write_pdu_mch(uint32_t lcid, srsran::unique_byte_buffer_t pdu) final; void notify_pdcp_integrity_error(uint32_t lcid) final; // RRC (LTE) interface int get_eutra_nr_capabilities(srsran::byte_buffer_t* eutra_nr_caps); int get_nr_capabilities(srsran::byte_buffer_t* eutra_nr_caps); void phy_meas_stop(); void phy_set_cells_to_meas(uint32_t carrier_freq_r15); bool rrc_reconfiguration(bool endc_release_and_add_r15, bool nr_secondary_cell_group_cfg_r15_present, asn1::dyn_octstring nr_secondary_cell_group_cfg_r15, bool sk_counter_r15_present, uint32_t sk_counter_r15, bool nr_radio_bearer_cfg1_r15_present, asn1::dyn_octstring nr_radio_bearer_cfg1_r15); bool configure_sk_counter(uint16_t sk_counter); bool is_config_pending(); // STACK interface void cell_search_completed(const rrc_interface_phy_lte::cell_search_ret_t& cs_ret, const phy_cell_t& found_cell); private: srsran::task_sched_handle task_sched; struct cmd_msg_t { enum { PDU, PCCH, PDU_MCH, RLF, PDU_BCCH_DLSCH, STOP } command; srsran::unique_byte_buffer_t pdu; uint16_t lcid; }; srslog::basic_logger& logger; bool running = false; srsran::block_queue cmd_q; // PHY config srsran::phy_cfg_nr_t phy_cfg = {}; phy_interface_rrc_nr* phy = nullptr; mac_interface_rrc_nr* mac = nullptr; rlc_interface_rrc* rlc = nullptr; pdcp_interface_rrc* pdcp = nullptr; gw_interface_rrc* gw = nullptr; rrc_eutra_interface_rrc_nr* rrc_eutra = nullptr; usim_interface_rrc_nr* usim = nullptr; stack_interface_rrc* stack = nullptr; const uint32_t sim_measurement_timer_duration_ms = 250; uint32_t sim_measurement_carrier_freq_r15; srsran::timer_handler::unique_timer sim_measurement_timer; /// RRC states (3GPP 38.331 v15.5.1 Sec 4.2.1) enum rrc_nr_state_t { RRC_NR_STATE_IDLE = 0, RRC_NR_STATE_CONNECTED, RRC_NR_STATE_CONNECTED_INACTIVE, RRC_NR_STATE_N_ITEMS, }; const static char* rrc_nr_state_text[RRC_NR_STATE_N_ITEMS]; // rrc_nr_state_t state = RRC_NR_STATE_IDLE; rrc_nr_args_t args = {}; const char* get_rb_name(uint32_t lcid) final; bool add_lcid_drb(uint32_t lcid, uint32_t drb_id); uint32_t get_lcid_for_drbid(uint32_t rdid); std::map lcid_drb; // Map of lcid to drb std::map drb_eps_bearer_id; // Map of drb id to eps_bearer_id // temporary maps for building the pucch nr resources srsran::static_circular_map pucch_res_list; std::map csi_rs_zp_res; std::map csi_rs_nzp_res; bool apply_cell_group_cfg(const asn1::rrc_nr::cell_group_cfg_s& cell_group_cfg); bool apply_radio_bearer_cfg(const asn1::rrc_nr::radio_bearer_cfg_s& radio_bearer_cfg); bool apply_rlc_add_mod(const asn1::rrc_nr::rlc_bearer_cfg_s& rlc_bearer_cfg); bool apply_mac_cell_group(const asn1::rrc_nr::mac_cell_group_cfg_s& mac_cell_group_cfg); bool apply_sp_cell_cfg(const asn1::rrc_nr::sp_cell_cfg_s& sp_cell_cfg); bool apply_phy_cell_group_cfg(const asn1::rrc_nr::phys_cell_group_cfg_s& phys_cell_group_cfg); bool apply_dl_common_cfg(const asn1::rrc_nr::dl_cfg_common_s& dl_cfg_common); bool apply_ul_common_cfg(const asn1::rrc_nr::ul_cfg_common_s& ul_cfg_common); bool apply_sp_cell_init_dl_pdcch(const asn1::rrc_nr::pdcch_cfg_s& pdcch_cfg); bool apply_sp_cell_init_dl_pdsch(const asn1::rrc_nr::pdsch_cfg_s& pdsch_cfg); bool apply_sp_cell_ded_ul_pucch(const asn1::rrc_nr::pucch_cfg_s& pucch_cfg); bool apply_sp_cell_ded_ul_pusch(const asn1::rrc_nr::pusch_cfg_s& pusch_cfg); bool apply_csi_meas_cfg(const asn1::rrc_nr::csi_meas_cfg_s& csi_meas_cfg); bool apply_res_csi_report_cfg(const asn1::rrc_nr::csi_report_cfg_s& csi_report_cfg); bool apply_drb_add_mod(const asn1::rrc_nr::drb_to_add_mod_s& drb_cfg); bool apply_drb_release(const uint8_t drb); bool apply_security_cfg(const asn1::rrc_nr::security_cfg_s& security_cfg); srsran::as_security_config_t sec_cfg; typedef enum { mcg_srb1, en_dc_srb3, nr } reconf_initiator_t; class connection_reconf_no_ho_proc { public: explicit connection_reconf_no_ho_proc(rrc_nr* parent_); srsran::proc_outcome_t init(const reconf_initiator_t initiator_, const bool endc_release_and_add_r15, const bool nr_secondary_cell_group_cfg_r15_present, const asn1::dyn_octstring nr_secondary_cell_group_cfg_r15, const bool sk_counter_r15_present, const uint32_t sk_counter_r15, const bool nr_radio_bearer_cfg1_r15_present, const asn1::dyn_octstring nr_radio_bearer_cfg1_r15); srsran::proc_outcome_t step() { return srsran::proc_outcome_t::yield; } static const char* name() { return "NR Connection Reconfiguration"; } srsran::proc_outcome_t react(const bool& config_complete); void then(const srsran::proc_state_t& result); private: // const rrc_nr* rrc_ptr; reconf_initiator_t initiator; asn1::rrc_nr::rrc_recfg_s rrc_recfg; asn1::rrc_nr::cell_group_cfg_s cell_group_cfg; }; srsran::proc_t conn_recfg_proc; srsran::proc_manager_list_t callback_list; }; } // namespace srsue #endif // SRSUE_RRC_NR_H