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C++

/**
*
* \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 SRSRAN_SCELL_SYNC_H
#define SRSRAN_SCELL_SYNC_H
namespace srsue {
namespace scell {
/**
* Radio feedback interface
*/
class sync_callback
{
public:
/**
* Provides secondary serving cell synchronization feedback
* @param ch channel index
* @param offset Number of samples to offset
*/
virtual void set_rx_channel_offset(uint32_t ch, int32_t offset) = 0;
};
class sync
{
private:
/**
* FSM
*
* Init +------+ Set cell +------------+ PSS found +----------+
* or -->| IDLE |---------->| Search PSS |---------->| In-Synch |
* Stop +------+ +------------+ +----------+
* ^ Set Cell |
* | |
* +----------------------+
*/
typedef enum { STATE_IDLE = 0, STATE_SEARCH_PSS, STATE_IN_SYNCH } state_t;
/**
* Buffer length in subframes, only 2 subframes are allowed
*/
static const uint32_t BUFFER_LEN = 2;
state_t state = STATE_IDLE;
sync_callback* callback = nullptr;
uint32_t channel = 0;
srsran_sync_t find_pss = {};
int32_t sf_len = 0;
int32_t cell_id = -1;
std::array<cf_t, BUFFER_LEN* SRSRAN_SF_LEN_MAX> temp = {};
std::mutex mutex; ///< Used for avoiding reconfiguring (set_cell) while it is searching
/**
* Executes the PSS search state
* @param tti
* @param buffer
*/
void run_state_search_pss(uint32_t tti, cf_t* buffer)
{
uint32_t peak_pos = 0;
// Append new base-band
if (buffer == nullptr) {
srsran_vec_cf_zero(&temp[sf_len], sf_len);
} else {
srsran_vec_cf_copy(&temp[sf_len], buffer, sf_len);
}
// Run PSS search
switch (srsran_sync_find(&find_pss, temp.data(), 0, &peak_pos)) {
case SRSRAN_SYNC_FOUND:
if (callback != nullptr) {
// Calculate Sample Offset from TTI difference
int tti_mod = (int)tti % (SRSRAN_NOF_SF_X_FRAME / 2);
int tti_offset = (tti_mod < 3) ? tti_mod : (tti_mod - SRSRAN_NOF_SF_X_FRAME / 2);
// Calculate sample offset from PSS correlation peak
int offset = (int)(peak_pos - (3 * sf_len) / 2);
// Provide offset through feedback interface
callback->set_rx_channel_offset(channel, offset + tti_offset * sf_len);
}
state = STATE_IN_SYNCH;
break;
case SRSRAN_SYNC_FOUND_NOSPACE:
ERROR("No space error");
break;
case SRSRAN_SYNC_NOFOUND:
// Ignore
break;
case SRSRAN_SYNC_ERROR:
ERROR("Error finding PSS");
break;
}
// If the state has not changed, copy new data into the temp buffer
if (state == STATE_SEARCH_PSS) {
srsran_vec_cf_copy(&temp[0], buffer, sf_len);
}
}
/**
* Unprotected internal resize method for a given bandwidth
*/
void resize(uint32_t new_nof_prb)
{
uint32_t symbol_sz = srsran_symbol_sz(new_nof_prb);
int32_t new_sf_len = SRSRAN_SF_LEN_PRB(new_nof_prb);
// Reset Temporal buffer
srsran_vec_cf_zero(temp.data(), BUFFER_LEN * new_sf_len);
// Skip if no BW is changed
if (new_sf_len == sf_len) {
return;
}
// Resizes synchronization object. As the secondary serving cell base-band might be unaligned respect the primary
// serving cell, the PSS may be located away from the primary serving cell PSS time. The secondary serving cell PSS
// could be in the boundary between subframes, so more than a subframe is required to ensure PSS is captured. Two
// subframes is a simple and conservative buffer size.
if (srsran_sync_resize(&find_pss, BUFFER_LEN * new_sf_len, BUFFER_LEN * new_sf_len, symbol_sz) != SRSRAN_SUCCESS) {
ERROR("Error setting cell sync find");
}
// Update values
sf_len = new_sf_len;
cell_id = -1; // Force next set_cell to set the ID
}
public:
/**
* Constructor
*
* Init PSS search object with twice the max subframe length to support max cell bandwidth.
*
* @param _callback provides the class for giving feedback
* @param _channel provides the channel index where the feedback needs to be applied
*/
sync(sync_callback* _callback, uint32_t _channel) : callback(_callback), channel(_channel)
{
// Initialise Find PSS object
if (srsran_sync_init(&find_pss, 2 * SRSRAN_SF_LEN_MAX, 2 * SRSRAN_SF_LEN_MAX, SRSRAN_SYMBOL_SZ_MAX) !=
SRSRAN_SUCCESS) {
ERROR("Initiating Synchronizer");
}
}
~sync() { srsran_sync_free(&find_pss); };
void set_bw(const uint32_t nof_prb)
{
// Protect DSP objects and buffers; As it is called by asynchronous thread, it can wait to finish current processing
std::unique_lock<std::mutex> lock(mutex);
// Resizes the DSP objects for the given bandwidth
resize(nof_prb);
// Reset state to idle
state = STATE_IDLE;
}
/**
* Sets the cell for the synchronizer
*/
void set_cell(const srsran_cell_t& cell)
{
// Protect DSP objects and buffers; As it is called by asynchronous thread, it can wait to finish current processing
std::unique_lock<std::mutex> lock(mutex);
// Resize DSP for the new cell bandwidth
resize(cell.nof_prb);
// Configure only if the cell identifier has changed
int32_t new_cell_id = cell.id;
if (cell_id != new_cell_id) {
srsran_sync_set_frame_type(&find_pss, cell.frame_type);
srsran_sync_set_N_id_2(&find_pss, new_cell_id % SRSRAN_NOF_NID_2);
srsran_sync_set_N_id_1(&find_pss, new_cell_id / SRSRAN_NOF_NID_2);
srsran_sync_set_cfo_ema_alpha(&find_pss, 0.1);
srsran_sync_set_em_alpha(&find_pss, 1);
srsran_sync_set_threshold(&find_pss, 3.0);
cell_id = new_cell_id;
}
// Go to search PSS
state = STATE_SEARCH_PSS;
}
/**
* Resets the class, goes back into IDLE mode
*/
void stop()
{
std::unique_lock<std::mutex> lock(mutex);
state = STATE_IDLE;
}
/**
* Runs internal FSM, performing Synchronization operations on the provided buffer. It expects data per subframe
* basis (1 ms).
* @param tti Current primary serving cell time
* @param buffer Base-band buffer of the given secondary serving cell
*/
void run(uint32_t tti, cf_t* buffer)
{
// Try to get lock. The lock is unsuccessful if the DSP objects are getting configured. In this case, ignore
// the subframe.
if (not mutex.try_lock()) {
return;
}
switch (state) {
case STATE_IDLE:
// Do nothing
break;
case STATE_SEARCH_PSS:
run_state_search_pss(tti, buffer);
break;
case STATE_IN_SYNCH:
// Do nothing
break;
}
mutex.unlock();
}
/**
* Indicates whether the secondary serving cell assigned to the instance is in-sync
* @return true if it is in sync state
*/
bool is_in_sync() const { return state == STATE_IN_SYNCH; }
};
} // namespace scell
} // namespace srsue
#endif // SRSRAN_SCELL_SYNC_H