/** * * \section COPYRIGHT * * Copyright 2013-2020 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 SRSENB_UE_H #define SRSENB_UE_H #include "mac_metrics.h" #include "srslte/adt/circular_array.h" #include "srslte/common/block_queue.h" #include "srslte/common/mac_pcap.h" #include "srslte/common/mac_pcap_net.h" #include "srslte/interfaces/sched_interface.h" #include "srslte/mac/pdu.h" #include "srslte/mac/pdu_queue.h" #include "srslte/srslog/srslog.h" #include "ta.h" #include #include namespace srsenb { class rrc_interface_mac; class rlc_interface_mac; class phy_interface_stack_lte; class cc_buffer_handler { public: // List of Tx softbuffers for all HARQ processes of one carrier using cc_softbuffer_tx_list_t = std::vector; // List of Rx softbuffers for all HARQ processes of one carrier using cc_softbuffer_rx_list_t = std::vector; cc_buffer_handler(); ~cc_buffer_handler(); void reset(); void allocate_cc(uint32_t nof_prb, uint32_t nof_rx_harq_proc, uint32_t nof_tx_harq_proc); void deallocate_cc(); bool empty() const { return softbuffer_tx_list.empty() and softbuffer_rx_list.empty(); } srslte_softbuffer_tx_t& get_tx_softbuffer(uint32_t pid, uint32_t tb_idx) { return softbuffer_tx_list.at(pid * SRSLTE_MAX_TB + tb_idx); } srslte_softbuffer_rx_t& get_rx_softbuffer(uint32_t tti) { return softbuffer_rx_list.at(tti % nof_rx_harq_proc); } srslte::byte_buffer_t* get_tx_payload_buffer(size_t harq_pid, size_t tb) { return tx_payload_buffer[harq_pid][tb].get(); } std::map& get_rx_used_buffers() { return rx_used_buffers; } private: // args uint32_t nof_prb; uint32_t nof_rx_harq_proc; uint32_t nof_tx_harq_proc; // buffers cc_softbuffer_tx_list_t softbuffer_tx_list; ///< List of softbuffer lists for Tx cc_softbuffer_rx_list_t softbuffer_rx_list; ///< List of softbuffer lists for Rx std::map rx_used_buffers; // One buffer per TB per HARQ process and per carrier is needed for each UE. std::array, SRSLTE_FDD_NOF_HARQ> tx_payload_buffer; }; class ue : public srslte::read_pdu_interface, public srslte::pdu_queue::process_callback, public mac_ta_ue_interface { public: ue(uint16_t rnti, uint32_t nof_prb, sched_interface* sched, rrc_interface_mac* rrc_, rlc_interface_mac* rlc, phy_interface_stack_lte* phy_, srslog::basic_logger& logger, uint32_t nof_cells_, uint32_t nof_rx_harq_proc = SRSLTE_FDD_NOF_HARQ, uint32_t nof_tx_harq_proc = SRSLTE_FDD_NOF_HARQ); virtual ~ue(); void reset(); void start_pcap(srslte::mac_pcap* pcap_); void start_pcap_net(srslte::mac_pcap_net* pcap_net_); void set_tti(uint32_t tti); uint16_t get_rnti() { return rnti; } uint32_t set_ta(int ta) override; void start_ta() { ta_fsm.start(); }; uint32_t set_ta_us(float ta_us) { return ta_fsm.push_value(ta_us); }; void tic(); uint8_t* generate_pdu(uint32_t ue_cc_idx, uint32_t harq_pid, uint32_t tb_idx, const sched_interface::dl_sched_pdu_t pdu[sched_interface::MAX_RLC_PDU_LIST], uint32_t nof_pdu_elems, uint32_t grant_size); uint8_t* generate_mch_pdu(uint32_t harq_pid, sched_interface::dl_pdu_mch_t sched, uint32_t nof_pdu_elems, uint32_t grant_size); srslte_softbuffer_tx_t* get_tx_softbuffer(const uint32_t ue_cc_idx, const uint32_t harq_process, const uint32_t tb_idx); srslte_softbuffer_rx_t* get_rx_softbuffer(const uint32_t ue_cc_idx, const uint32_t tti); bool process_pdus(); uint8_t* request_buffer(uint32_t tti, uint32_t ue_cc_idx, const uint32_t len); void process_pdu(uint8_t* pdu, uint32_t nof_bytes, srslte::pdu_queue::channel_t channel) override; void push_pdu(uint32_t tti, uint32_t ue_cc_idx, uint32_t len); void deallocate_pdu(uint32_t tti, uint32_t ue_cc_idx); void clear_old_buffers(uint32_t tti); void metrics_read(mac_ue_metrics_t* metrics_); void metrics_rx(bool crc, uint32_t tbs); void metrics_tx(bool crc, uint32_t tbs); void metrics_phr(float phr); void metrics_dl_ri(uint32_t dl_cqi); void metrics_dl_pmi(uint32_t dl_cqi); void metrics_dl_cqi(uint32_t dl_cqi); void metrics_cnt(); int read_pdu(uint32_t lcid, uint8_t* payload, uint32_t requested_bytes) final; private: void allocate_sdu(srslte::sch_pdu* pdu, uint32_t lcid, uint32_t sdu_len); bool process_ce(srslte::sch_subh* subh); void allocate_ce(srslte::sch_pdu* pdu, uint32_t lcid); uint32_t phr_counter = 0; uint32_t dl_cqi_counter = 0; uint32_t dl_ri_counter = 0; uint32_t dl_pmi_counter = 0; mac_ue_metrics_t ue_metrics = {}; srslte::mac_pcap* pcap = nullptr; srslte::mac_pcap_net* pcap_net = nullptr; uint64_t conres_id = 0; uint16_t rnti = 0; uint32_t nof_prb = 0; uint32_t last_tti = 0; uint32_t nof_failures = 0; int nof_rx_harq_proc = 0; int nof_tx_harq_proc = 0; std::vector cc_buffers; std::mutex rx_buffers_mutex; srslte::block_queue pending_ta_commands; ta ta_fsm; // For UL there are multiple buffers per PID and are managed by pdu_queue srslte::pdu_queue pdus; srslte::sch_pdu mac_msg_dl, mac_msg_ul; srslte::mch_pdu mch_mac_msg_dl; rlc_interface_mac* rlc = nullptr; rrc_interface_mac* rrc = nullptr; phy_interface_stack_lte* phy = nullptr; srslog::basic_logger& logger; sched_interface* sched = nullptr; // Mutexes std::mutex mutex; const uint8_t UL_CC_IDX = 0; ///< Passed to write CC index in PCAP (TODO: use actual CC idx) }; } // namespace srsenb #endif // SRSENB_UE_H