/** * * \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 SRSUE_INTRA_MEASURE_H #define SRSUE_INTRA_MEASURE_H #include #include #include #include #include "scell_recv.h" namespace srsue { namespace scell { // Class to perform intra-frequency measurements class intra_measure : public srslte::thread { /* * The intra-cell measurment has 5 different states: * - idle: it has been initiated and it is waiting to get configured to start capturing samples. From any state * except quit can transition to idle. * - wait: waits for at least intra_freq_meas_period_ms since last receive start and goes to receive. * - receive: captures base-band samples for intra_freq_meas_len_ms and goes to measure. * - measure: enables the inner thread to start the measuring function. The asynchronous buffer will transition to * wait as soon as it has read the data from the buffer. * - quit: stops the inner thread and quits. Transition from any state measure state. * * FSM abstraction: * * +------+ set_cells_to_meas +------+ intra_freq_meas_period_ms +---------+ * | Idle | --------------------->| Wait |------------------------------>| Receive | * +------+ +------+ +---------+ * ^ ^ | stop +------+ * | Read buffer | | ----->| Quit | * init +---------+ intra_freq_meas_len_ms | +------+ * meas_stop | Measure |<----------------------------------+ * +---------+ */ public: // Interface for reporting new cell measurements class meas_itf { public: virtual void cell_meas_reset(uint32_t cc_idx) = 0; virtual void new_cell_meas(uint32_t cc_idx, const std::vector& meas) = 0; }; /** * Constructor */ intra_measure(srslog::basic_logger& logger); /** * Destructor */ ~intra_measure(); /** * Initiation function, necessary to configure main parameters * @param common SRSUE phy_common instance pointer for providing intra_freq_meas_len_ms and intra_freq_meas_period_ms * @param rrc SRSUE PHY->RRC interface for supplying the RRC with the measurements */ void init(uint32_t cc_idx, phy_common* common, meas_itf* new_cell_itf); /** * Stops the operation of this component */ void stop(); /** * Sets the primmary cell, configures the cell bandwidth and sampling rate * @param earfcn Frequency the component is receiving base-band from. Used only for reporting the EARFCN to the RRC * @param cell Actual cell configuration */ void set_primary_cell(uint32_t earfcn, srslte_cell_t cell); /** * Sets receiver gain offset to convert estimated dBFs to dBm in RSRP * @param rx_gain_offset Gain offset in dB */ void set_rx_gain_offset(float rx_gain_offset_db); /** * Sets the PCI list of the cells this components needs to measure and starts the FSM for measuring * @param pci is the list of PCIs to measure */ void set_cells_to_meas(const std::set& pci); /** * Stops the measurment FSM, setting the inner state to idle. */ void meas_stop(); /** * Inputs the baseband IQ samples into the component, internal state dictates whether it will be written or not. * @param tti The current physical layer TTI, used for calculating the buffer write * @param data buffer with baseband IQ samples * @param nsamples number of samples to write */ void write(uint32_t tti, cf_t* data, uint32_t nsamples); /** * Get EARFCN of this component * @return EARFCN */ uint32_t get_earfcn() { return current_earfcn; }; /** * Synchronous wait mechanism, blocks the writer thread while it is in measure state. If the asynchonous thread is too * slow, use this method for stalling the writing thread and wait the asynchronous thread to clear the buffer. */ void wait_meas() { // Only used by scell_search_test state.wait_change(internal_state::measure); } private: class internal_state ///< Internal state class, provides thread safe state management { public: typedef enum { idle = 0, ///< Initial state, internal thread runs, it does not capture data wait, ///< Wait for the period time to pass receive, ///< Accumulate samples in ring buffer measure, ///< Module is busy measuring quit ///< Quit thread, no transitions are allowed } state_t; private: state_t state = idle; std::mutex mutex; std::condition_variable cvar; public: /** * Get the internal state * @return protected state */ state_t get_state() { return state; } /** * Transitions to a different state, all transitions are allowed except from quit * @param new_state */ void set_state(state_t new_state) { std::unique_lock lock(mutex); // Do not allow transition from quit if (state != quit) { state = new_state; } // Notifies to the inner thread about the change of state cvar.notify_all(); } /** * Waits for a state transition to a state different than the provided, used for blocking the inner thread */ void wait_change(state_t s) { std::unique_lock lock(mutex); while (state == s) { cvar.wait(lock); } } }; internal_state state; /** * Measurement process helper method. Encapusulates the neighbour cell measurement functionality */ void measure_proc(); /** * Internal asynchronous low priority thread, waits for measure internal state to execute the measurement process. It * stops when the internal state transitions to quit. */ void run_thread() override; ///< Internal Thread priority, low by default const static int INTRA_FREQ_MEAS_PRIO = DEFAULT_PRIORITY + 5; scell_recv scell; meas_itf* new_cell_itf = nullptr; srslog::basic_logger& logger; uint32_t cc_idx = 0; uint32_t current_earfcn = 0; uint32_t current_sflen = 0; srslte_cell_t serving_cell = {}; std::set active_pci = {}; std::mutex active_pci_mutex = {}; uint32_t last_measure_tti = 0; uint32_t intra_freq_meas_len_ms = 20; uint32_t intra_freq_meas_period_ms = 200; uint32_t rx_gain_offset_db = 0; cf_t* search_buffer = nullptr; srslte_ringbuffer_t ring_buffer = {}; srslte_refsignal_dl_sync_t refsignal_dl_sync = {}; }; } // namespace scell } // namespace srsue #endif // SRSUE_INTRA_MEASURE_H