/** * * \section COPYRIGHT * * Copyright 2013-2015 Software Radio Systems Limited * * \section LICENSE * * This file is part of the srsUE library. * * srsUE is free software: you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as * published by the Free Software Foundation, either version 3 of * the License, or (at your option) any later version. * * srsUE is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Affero General Public License for more details. * * A copy of the GNU Affero General Public License can be found in * the LICENSE file in the top-level directory of this distribution * and at http://www.gnu.org/licenses/. * */ #include #include #include #include "srslte/srslte.h" #include "srslte/common/log.h" #include "phy/prach.h" #include "phy/phy.h" #include "srslte/interfaces/ue_interfaces.h" #define Error(fmt, ...) if (SRSLTE_DEBUG_ENABLED) log_h->error_line(__FILE__, __LINE__, fmt, ##__VA_ARGS__) #define Warning(fmt, ...) if (SRSLTE_DEBUG_ENABLED) log_h->warning_line(__FILE__, __LINE__, fmt, ##__VA_ARGS__) #define Info(fmt, ...) if (SRSLTE_DEBUG_ENABLED) log_h->info_line(__FILE__, __LINE__, fmt, ##__VA_ARGS__) #define Debug(fmt, ...) if (SRSLTE_DEBUG_ENABLED) log_h->debug_line(__FILE__, __LINE__, fmt, ##__VA_ARGS__) namespace srsue { prach::~prach() { if (mem_initiated) { for (int i=0;i<64;i++) { if (buffer[i]) { free(buffer[i]); } } if (signal_buffer) { free(signal_buffer); } srslte_cfo_free(&cfo_h); srslte_prach_free(&prach_obj); } } void prach::init(LIBLTE_RRC_PRACH_CONFIG_SIB_STRUCT *config_, uint32_t max_prb, phy_args_t *args_, srslte::log* log_h_) { log_h = log_h_; config = config_; args = args_; for (int i=0;i<64;i++) { buffer[i] = (cf_t*) srslte_vec_malloc(SRSLTE_PRACH_MAX_LEN*sizeof(cf_t)); if(!buffer[i]) { perror("malloc"); return; } } if (srslte_cfo_init(&cfo_h, SRSLTE_PRACH_MAX_LEN)) { fprintf(stderr, "PRACH: Error initiating CFO\n"); return; } srslte_cfo_set_tol(&cfo_h, 0); for (int p = 0; p < SRSLTE_MAX_PORTS; p++) { signal_buffer[p] = (cf_t *) srslte_vec_malloc(SRSLTE_PRACH_MAX_LEN * sizeof(cf_t)); if (!signal_buffer[p]) { perror("malloc"); return; } } if (srslte_prach_init(&prach_obj, srslte_symbol_sz(max_prb))) { Error("Initiating PRACH library\n"); return; } mem_initiated = true; } bool prach::set_cell(srslte_cell_t cell_) { if (mem_initiated) { // TODO: Check if other PRACH parameters changed if (cell_.id != cell.id || !cell_initiated) { memcpy(&cell, &cell_, sizeof(srslte_cell_t)); preamble_idx = -1; uint32_t configIdx = config->prach_cnfg_info.prach_config_index; uint32_t rootSeq = config->root_sequence_index; uint32_t zeroCorrConfig = config->prach_cnfg_info.zero_correlation_zone_config; uint32_t freq_offset = config->prach_cnfg_info.prach_freq_offset; bool highSpeed = config->prach_cnfg_info.high_speed_flag; if (6 + freq_offset > cell.nof_prb) { log_h->console("Error no space for PRACH: frequency offset=%d, N_rb_ul=%d\n", freq_offset, cell.nof_prb); log_h->error("Error no space for PRACH: frequency offset=%d, N_rb_ul=%d\n", freq_offset, cell.nof_prb); return false; } Info("PRACH: configIdx=%d, rootSequence=%d, zeroCorrelationConfig=%d, freqOffset=%d\n", configIdx, rootSeq, zeroCorrConfig, freq_offset); if (srslte_prach_set_cell(&prach_obj, srslte_symbol_sz(cell.nof_prb), configIdx, rootSeq, highSpeed, zeroCorrConfig)) { Error("Initiating PRACH library\n"); return false; } for (int i=0;i<64;i++) { if(srslte_prach_gen(&prach_obj, i, freq_offset, buffer[i])) { Error("Generating PRACH preamble %d\n", i); return false; } } len = prach_obj.N_seq + prach_obj.N_cp; transmitted_tti = -1; cell_initiated = true; } return true; } else { fprintf(stderr, "PRACH: Error must call init() first\n"); return false; } } bool prach::prepare_to_send(uint32_t preamble_idx_, int allowed_subframe_, float target_power_dbm_) { if (cell_initiated && preamble_idx_ < 64) { preamble_idx = preamble_idx_; target_power_dbm = target_power_dbm_; allowed_subframe = allowed_subframe_; transmitted_tti = -1; Debug("PRACH: prepare to send preamble %d\n", preamble_idx); return true; } else { if (!cell_initiated) { Error("PRACH: Cell not configured\n"); } else if (preamble_idx_ >= 64) { Error("PRACH: Invalid preamble %d\n", preamble_idx_); } return false; } } bool prach::is_ready_to_send(uint32_t current_tti_) { if (cell_initiated && preamble_idx >= 0 && preamble_idx < 64) { // consider the number of subframes the transmission must be anticipated uint32_t current_tti = (current_tti_ + tx_advance_sf)%10240; if (srslte_prach_tti_opportunity(&prach_obj, current_tti, allowed_subframe)) { Debug("PRACH Buffer: Ready to send at tti: %d (now is %d)\n", current_tti, current_tti_); transmitted_tti = current_tti; return true; } } return false; } int prach::tx_tti() { return transmitted_tti; } float prach::get_p0_preamble() { return target_power_dbm; } void prach::send(srslte::radio *radio_handler, float cfo, float pathloss, srslte_timestamp_t tx_time) { // Get current TX gain float old_gain = radio_handler->get_tx_gain(); // Correct CFO before transmission FIXME: UL SISO Only srslte_cfo_correct(&cfo_h, buffer[preamble_idx], signal_buffer[0], cfo / srslte_symbol_sz(cell.nof_prb)); // If power control is enabled, choose amplitude and power if (args->ul_pwr_ctrl_en) { // Get PRACH transmission power float tx_power = SRSLTE_MIN(SRSLTE_PC_MAX, pathloss + target_power_dbm); // Get output power for amplitude 1 radio_handler->set_tx_power(tx_power); // Scale signal float digital_power = srslte_vec_avg_power_cf(signal_buffer[0], len); float scale = sqrtf(pow(10,tx_power/10)/digital_power); srslte_vec_sc_prod_cfc(signal_buffer[0], scale, signal_buffer[0], len); log_h->console("PRACH: Pathloss=%.2f dB, Target power %.2f dBm, TX_power %.2f dBm, TX_gain %.1f dB\n", pathloss, target_power_dbm, tx_power, radio_handler->get_tx_gain(), scale); } else { float prach_gain = args->prach_gain; if (prach_gain > 0) { radio_handler->set_tx_gain(prach_gain); } Debug("TX PRACH: Power control for PRACH is disabled, setting gain to %.0f dB\n", prach_gain); } radio_handler->tx((void **) signal_buffer, len, tx_time); radio_handler->tx_end(); Info("PRACH: Transmitted preamble=%d, CFO=%.2f KHz, tx_time=%f\n", preamble_idx, cfo*15, tx_time.frac_secs); preamble_idx = -1; radio_handler->set_tx_gain(old_gain); Debug("Restoring TX gain to %.0f dB\n", old_gain); } } // namespace srsue