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https://gitlab.eurecom.fr/oai/openairinterface5g.git
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526 lines
24 KiB
C
526 lines
24 KiB
C
/*
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* SPDX-License-Identifier: LicenseRef-CSSL-1.0
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*/
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#include "nr-ue-ru.h"
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#include "nr-uesoftmodem.h"
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#include "PHY/NR_UE_TRANSPORT/nr_transport_proto_ue.h"
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#include "common/config/config_paramdesc.h"
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#include "common/config/config_userapi.h"
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#include "openair1/PHY/phy_extern_nr_ue.h"
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/* NR UE RU configuration section name */
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#define CONFIG_STRING_NRUE_RU_LIST "RUs"
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#define NRUE_RU_NB_TX "nb_tx"
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#define NRUE_RU_NB_RX "nb_rx"
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#define NRUE_RU_ATT_TX "att_tx"
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#define NRUE_RU_ATT_RX "att_rx"
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#define NRUE_RU_MAX_RXGAIN "max_rxgain"
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#define NRUE_RU_SDR_ADDRS "sdr_addrs"
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#define NRUE_RU_TX_SUBDEV "tx_subdev"
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#define NRUE_RU_RX_SUBDEV "rx_subdev"
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#define NRUE_RU_CLOCK_SRC "clock_src"
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#define NRUE_RU_TIME_SRC "time_src"
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#define NRUE_RU_TUNE_OFFSET "tune_offset"
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#define NRUE_RU_IF_FREQUENCY "if_freq"
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#define NRUE_RU_IF_FREQ_OFFSET "if_offset"
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#define NRUE_RU_SRC_CHECK \
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&(checkedparam_t) \
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{ \
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.s3a = { config_checkstr_assign_integer, {"internal", "external", "gpsdo"}, {internal, external, gpsdo}, 3 } \
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}
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/*------------------------------------------------------------------------------------------------------------------------------------------------*/
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/* NR UE RU configuration parameters */
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/* optname helpstr paramflags XXXptr defXXXval type numelt chkPptr */
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/*------------------------------------------------------------------------------------------------------------------------------------------------*/
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// clang-format off
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#define NRUE_RU_PARAMS_DESC { \
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{NRUE_RU_NB_TX, CONFIG_HLP_UENANTT, 0, .uptr=NULL, .defuintval=1, TYPE_UINT, 0, NULL }, \
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{NRUE_RU_NB_RX, CONFIG_HLP_UENANTR, 0, .uptr=NULL, .defuintval=1, TYPE_UINT, 0, NULL }, \
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{NRUE_RU_ATT_TX, NULL, 0, .uptr=NULL, .defuintval=0, TYPE_UINT, 0, NULL }, \
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{NRUE_RU_ATT_RX, NULL, 0, .uptr=NULL, .defuintval=0, TYPE_UINT, 0, NULL }, \
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{NRUE_RU_MAX_RXGAIN, NULL, 0, .iptr=NULL, .defintval=120, TYPE_INT, 0, NULL }, \
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{NRUE_RU_SDR_ADDRS, CONFIG_HLP_USRP_ARGS, 0, .strptr=NULL, .defstrval="type=b200", TYPE_STRING, 0, NULL }, \
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{NRUE_RU_TX_SUBDEV, CONFIG_HLP_TX_SUBDEV, 0, .strptr=NULL, .defstrval="", TYPE_STRING, 0, NULL }, \
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{NRUE_RU_RX_SUBDEV, CONFIG_HLP_RX_SUBDEV, 0, .strptr=NULL, .defstrval="", TYPE_STRING, 0, NULL }, \
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{NRUE_RU_CLOCK_SRC, NULL, 0, .strptr=NULL, .defstrval="internal", TYPE_STRING, 0, NRUE_RU_SRC_CHECK }, \
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{NRUE_RU_TIME_SRC, NULL, 0, .strptr=NULL, .defstrval="internal", TYPE_STRING, 0, NRUE_RU_SRC_CHECK }, \
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{NRUE_RU_TUNE_OFFSET, CONFIG_HLP_TUNE_OFFSET, 0, .dblptr=NULL, .defdblval=0.0, TYPE_DOUBLE, 0, NULL }, \
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{NRUE_RU_IF_FREQUENCY, CONFIG_HLP_IF_FREQ, 0, .u64ptr=NULL, .defint64val=0, TYPE_UINT64, 0, NULL }, \
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{NRUE_RU_IF_FREQ_OFFSET, CONFIG_HLP_IF_FREQ_OFF, 0, .iptr=NULL, .defintval=0, TYPE_INT, 0, NULL }, \
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}
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// clang-format on
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/* NR UE cell configuration section name */
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#define CONFIG_STRING_NRUE_CELL_LIST "cells"
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#define NRUE_CELL_RU_ID "ru_id"
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#define NRUE_CELL_BAND "band"
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#define NRUE_CELL_RF_FREQUENCY "rf_freq"
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#define NRUE_CELL_RF_FREQ_OFFSET "rf_offset"
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#define NRUE_CELL_NUMEROLOGY "numerology"
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#define NRUE_CELL_N_RB_DL "N_RB_DL"
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#define NRUE_CELL_SSB_START "ssb_start"
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/*------------------------------------------------------------------------------------------------------------------------------------------------*/
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/* NR UE cell configuration parameters */
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/* optname helpstr paramflags XXXptr defXXXval type numelt chkPptr */
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/*------------------------------------------------------------------------------------------------------------------------------------------------*/
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// clang-format off
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#define NRUE_CELL_PARAMS_DESC { \
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{NRUE_CELL_RU_ID, NULL, 0, .iptr=NULL, .defintval=0, TYPE_INT, 0, NULL }, \
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{NRUE_CELL_BAND, CONFIG_HLP_BAND, 0, .iptr=NULL, .defintval=78, TYPE_INT, 0, NULL }, \
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{NRUE_CELL_RF_FREQUENCY, CONFIG_HLP_DLF, 0, .u64ptr=NULL, .defint64val=0, TYPE_UINT64, 0, NULL }, \
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{NRUE_CELL_RF_FREQ_OFFSET, CONFIG_HLP_ULF, 0, .i64ptr=NULL, .defint64val=0, TYPE_INT64, 0, NULL }, \
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{NRUE_CELL_NUMEROLOGY, CONFIG_HLP_NUMEROLOGY, 0, .iptr=NULL, .defintval=1, TYPE_INT, 0, NULL }, \
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{NRUE_CELL_N_RB_DL, CONFIG_HLP_PRB_SA, 0, .iptr=NULL, .defintval=106, TYPE_INT, 0, NULL }, \
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{NRUE_CELL_SSB_START, CONFIG_HLP_SSC, 0, .iptr=NULL, .defintval=516, TYPE_INT, 0, NULL }, \
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}
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// clang-format on
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static int nrue_cell_count;
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static nrUE_cell_params_t *nrue_cells;
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static NR_DL_FRAME_PARMS *nrue_cell_fp;
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static int nrue_ru_count;
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static nrUE_RU_params_t *nrue_rus;
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openair0_config_t openair0_cfg[MAX_CARDS];
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openair0_device_t openair0_dev[MAX_CARDS];
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int nrue_get_cell_count(void)
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{
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return nrue_cell_count;
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}
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int nrue_get_band(const PHY_VARS_NR_UE *UE)
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{
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int cell_id = nrue_rus[UE->rf_map.card].used_by_cell;
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return nrue_cells[cell_id].band;
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}
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const nrUE_cell_params_t *nrue_get_cell(int cell_id)
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{
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AssertFatal(cell_id >= 0 && cell_id < nrue_cell_count, "Invalid cell ID %d! Cell count = %d\n", cell_id, nrue_cell_count);
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return &nrue_cells[cell_id];
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}
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NR_DL_FRAME_PARMS *nrue_get_cell_fp(int cell_id)
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{
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AssertFatal(cell_id >= 0 && cell_id < nrue_cell_count, "Invalid cell ID %d! Cell count = %d\n", cell_id, nrue_cell_count);
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return &nrue_cell_fp[cell_id];
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}
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void nrue_set_cell(int cell_id, const nrUE_cell_params_t *cell)
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{
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AssertFatal(cell_id >= 0 && cell_id < nrue_cell_count, "Invalid cell ID %d! Cell count = %d\n", cell_id, nrue_cell_count);
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nrue_cells[cell_id] = *cell;
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}
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void nrue_set_cell_params(configmodule_interface_t *cfg)
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{
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paramdef_t cellParams[] = NRUE_CELL_PARAMS_DESC;
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paramlist_def_t cellParamList = {CONFIG_STRING_NRUE_CELL_LIST, NULL, 0};
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config_getlist(cfg, &cellParamList, cellParams, sizeofArray(cellParams), NULL);
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if (cellParamList.numelt <= 0) {
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nrue_cell_count = 1;
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nrue_cell_fp = calloc_or_fail(nrue_cell_count, sizeof(NR_DL_FRAME_PARMS));
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nrue_cells = calloc_or_fail(nrue_cell_count, sizeof(nrUE_cell_params_t));
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nrue_cells[0] = (nrUE_cell_params_t){.ru_id = 0,
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.band = get_softmodem_params()->band,
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.rf_frequency = downlink_frequency[0][0],
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.rf_freq_offset = uplink_frequency_offset[0][0],
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.numerology = get_softmodem_params()->numerology,
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.N_RB_DL = get_nrUE_params()->N_RB_DL,
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.ssb_start = get_nrUE_params()->ssb_start_subcarrier,
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.used_by_ue = -1};
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return;
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}
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nrue_cell_count = cellParamList.numelt;
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nrue_cell_fp = calloc_or_fail(nrue_cell_count, sizeof(NR_DL_FRAME_PARMS));
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nrue_cells = calloc_or_fail(nrue_cell_count, sizeof(nrUE_cell_params_t));
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LOG_W(NR_PHY, "Ignoring command line cell parameters, using the following instead:\n");
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for (int cell_id = 0; cell_id < nrue_cell_count; cell_id++) {
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nrue_cells[cell_id].ru_id = *(gpd(cellParamList.paramarray[cell_id], sizeofArray(cellParams), NRUE_CELL_RU_ID)->iptr);
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nrue_cells[cell_id].band = *(gpd(cellParamList.paramarray[cell_id], sizeofArray(cellParams), NRUE_CELL_BAND)->iptr);
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nrue_cells[cell_id].rf_frequency = *(gpd(cellParamList.paramarray[cell_id], sizeofArray(cellParams), NRUE_CELL_RF_FREQUENCY)->u64ptr);
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nrue_cells[cell_id].rf_freq_offset = *(gpd(cellParamList.paramarray[cell_id], sizeofArray(cellParams), NRUE_CELL_RF_FREQ_OFFSET)->i64ptr);
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nrue_cells[cell_id].numerology = *(gpd(cellParamList.paramarray[cell_id], sizeofArray(cellParams), NRUE_CELL_NUMEROLOGY)->iptr);
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nrue_cells[cell_id].N_RB_DL = *(gpd(cellParamList.paramarray[cell_id], sizeofArray(cellParams), NRUE_CELL_N_RB_DL)->iptr);
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nrue_cells[cell_id].ssb_start = *(gpd(cellParamList.paramarray[cell_id], sizeofArray(cellParams), NRUE_CELL_SSB_START)->iptr);
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nrue_cells[cell_id].used_by_ue = -1;
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LOG_I(NR_PHY,
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"cell %d: ru_id %d, band %d, DL freq %lu, UL freq_offset %ld, numerology %d, N_RB_DL %d, ssb_start %d\n",
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cell_id,
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nrue_cells[cell_id].ru_id,
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nrue_cells[cell_id].band,
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nrue_cells[cell_id].rf_frequency,
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nrue_cells[cell_id].rf_freq_offset,
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nrue_cells[cell_id].numerology,
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nrue_cells[cell_id].N_RB_DL,
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nrue_cells[cell_id].ssb_start);
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}
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}
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int nrue_get_ru_count(void)
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{
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return nrue_ru_count;
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}
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const nrUE_RU_params_t *nrue_get_ru(int ru_id)
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{
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AssertFatal(ru_id >= 0 && ru_id < nrue_ru_count, "Invalid RU ID %d! RU count = %d\n", ru_id, nrue_ru_count);
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return &nrue_rus[ru_id];
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}
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void nrue_set_ru_cell_id(int ru_id, int cell_id)
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{
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AssertFatal(ru_id >= 0 && ru_id < nrue_ru_count, "Invalid RU ID %d! RU count = %d\n", ru_id, nrue_ru_count);
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AssertFatal(cell_id >= 0 && cell_id < nrue_cell_count, "Invalid cell ID %d! Cell count = %d\n", cell_id, nrue_cell_count);
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nrue_rus[ru_id].used_by_cell = cell_id;
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}
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void nrue_set_ru_params(configmodule_interface_t *cfg)
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{
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paramdef_t RUParams[] = NRUE_RU_PARAMS_DESC;
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paramlist_def_t RUParamList = {CONFIG_STRING_NRUE_RU_LIST, NULL, 0};
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config_getlist(cfg, &RUParamList, RUParams, sizeofArray(RUParams), NULL);
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if (RUParamList.numelt <= 0) {
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nrue_ru_count = 1;
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nrue_rus = calloc_or_fail(nrue_ru_count, sizeof(nrUE_RU_params_t));
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nrue_rus[0] = (nrUE_RU_params_t){.nb_tx = get_nrUE_params()->nb_antennas_tx,
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.nb_rx = get_nrUE_params()->nb_antennas_rx,
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.att_tx = get_nrUE_params()->tx_gain,
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.att_rx = 0,
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.max_rxgain = get_nrUE_params()->rx_gain,
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.sdr_addrs = get_nrUE_params()->usrp_args,
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.tx_subdev = get_nrUE_params()->tx_subdev,
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.rx_subdev = get_nrUE_params()->rx_subdev,
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.clock_source = get_softmodem_params()->clock_source,
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.time_source = get_softmodem_params()->timing_source,
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.tune_offset = get_softmodem_params()->tune_offset,
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.if_frequency = get_nrUE_params()->if_freq,
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.if_freq_offset = get_nrUE_params()->if_freq_off,
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.used_by_cell = -1};
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return;
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}
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nrue_ru_count = RUParamList.numelt;
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nrue_rus = calloc_or_fail(nrue_ru_count, sizeof(nrUE_RU_params_t));
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LOG_W(NR_PHY, "Ignoring command line RU parameters, using the following instead:\n");
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for (int ru_id = 0; ru_id < nrue_ru_count; ru_id++) {
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nrue_rus[ru_id].nb_tx = *(gpd(RUParamList.paramarray[ru_id], sizeofArray(RUParams), NRUE_RU_NB_TX)->uptr);
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nrue_rus[ru_id].nb_rx = *(gpd(RUParamList.paramarray[ru_id], sizeofArray(RUParams), NRUE_RU_NB_RX)->uptr);
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nrue_rus[ru_id].att_tx = *(gpd(RUParamList.paramarray[ru_id], sizeofArray(RUParams), NRUE_RU_ATT_TX)->uptr);
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nrue_rus[ru_id].att_rx = *(gpd(RUParamList.paramarray[ru_id], sizeofArray(RUParams), NRUE_RU_ATT_RX)->uptr);
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nrue_rus[ru_id].max_rxgain = *(gpd(RUParamList.paramarray[ru_id], sizeofArray(RUParams), NRUE_RU_MAX_RXGAIN)->iptr);
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nrue_rus[ru_id].tune_offset = *(gpd(RUParamList.paramarray[ru_id], sizeofArray(RUParams), NRUE_RU_TUNE_OFFSET)->dblptr);
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nrue_rus[ru_id].if_frequency = *(gpd(RUParamList.paramarray[ru_id], sizeofArray(RUParams), NRUE_RU_IF_FREQUENCY)->u64ptr);
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nrue_rus[ru_id].if_freq_offset = *(gpd(RUParamList.paramarray[ru_id], sizeofArray(RUParams), NRUE_RU_IF_FREQ_OFFSET)->iptr);
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nrue_rus[ru_id].used_by_cell = -1;
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nrue_rus[ru_id].sdr_addrs = strdup(*(gpd(RUParamList.paramarray[ru_id], sizeofArray(RUParams), NRUE_RU_SDR_ADDRS)->strptr));
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nrue_rus[ru_id].tx_subdev = strdup(*(gpd(RUParamList.paramarray[ru_id], sizeofArray(RUParams), NRUE_RU_TX_SUBDEV)->strptr));
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nrue_rus[ru_id].rx_subdev = strdup(*(gpd(RUParamList.paramarray[ru_id], sizeofArray(RUParams), NRUE_RU_RX_SUBDEV)->strptr));
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int clock_src_idx = config_paramidx_fromname(RUParams, sizeofArray(RUParams), NRUE_RU_CLOCK_SRC);
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AssertFatal(clock_src_idx >= 0, "Index for clock_src config option not found!\n");
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nrue_rus[ru_id].clock_source = config_get_processedint(cfg, &RUParamList.paramarray[ru_id][clock_src_idx]);
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int time_src_idx = config_paramidx_fromname(RUParams, sizeofArray(RUParams), NRUE_RU_TIME_SRC);
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AssertFatal(time_src_idx >= 0, "Index for time_src config option not found!\n");
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nrue_rus[ru_id].time_source = config_get_processedint(cfg, &RUParamList.paramarray[ru_id][time_src_idx]);
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LOG_I(NR_PHY,
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"RU %d: nb_tx %d, nb_rx %d, att_tx %d, att_rx %d, max_rxgain %d, tune_offset %f, if_frequency %lu, if_freq_offset %d, "
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"sdr_addrs \"%s\", tx_subdev \"%s\", rx_subdev \"%s\", clock_source %d, time_source %d\n",
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ru_id,
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nrue_rus[ru_id].nb_tx,
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nrue_rus[ru_id].nb_rx,
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nrue_rus[ru_id].att_tx,
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nrue_rus[ru_id].att_rx,
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nrue_rus[ru_id].max_rxgain,
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nrue_rus[ru_id].tune_offset,
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nrue_rus[ru_id].if_frequency,
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nrue_rus[ru_id].if_freq_offset,
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nrue_rus[ru_id].sdr_addrs,
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nrue_rus[ru_id].tx_subdev,
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nrue_rus[ru_id].rx_subdev,
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nrue_rus[ru_id].clock_source,
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nrue_rus[ru_id].time_source);
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}
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}
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void nrue_init_openair0(void)
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{
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int freq_off = 0;
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bool is_sidelink = (get_softmodem_params()->sl_mode) ? true : false;
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memset(openair0_cfg, 0, sizeof(openair0_config_t) * MAX_CARDS);
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memset(openair0_dev, 0, sizeof(openair0_device_t) * MAX_CARDS);
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AssertFatal(MAX_CARDS >= nrue_ru_count,
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"Too many RUs allocated (%d)! Maybe increase MAX_CARDS (%d).\n",
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nrue_ru_count,
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MAX_CARDS);
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for (int ru_id = 0; ru_id < nrue_ru_count; ru_id++) {
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int cell_id = nrue_rus[ru_id].used_by_cell;
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if (cell_id < 0) {
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LOG_W(PHY, "Skipping initialization of RU %d because it is not used by any cell!\n", ru_id);
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continue;
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}
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NR_DL_FRAME_PARMS *frame_parms = &nrue_cell_fp[cell_id];
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if (is_sidelink) {
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int UE_id = nrue_cells[cell_id].used_by_ue;
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if (UE_id < 0) {
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LOG_W(PHY, "Skipping initialization of RU %d because it is not used by any UE!\n", ru_id);
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continue;
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}
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frame_parms = &nrPHY_vars_UE_g[UE_id][0]->SL_UE_PHY_PARAMS.sl_frame_params;
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}
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openair0_config_t *cfg = &openair0_cfg[ru_id];
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cfg->configFilename = NULL;
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cfg->sample_rate = frame_parms->samples_per_subframe * 1e3;
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if (frame_parms->frame_type == TDD)
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cfg->duplex_mode = duplex_mode_TDD;
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else
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cfg->duplex_mode = duplex_mode_FDD;
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cfg->ru_id = ru_id;
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cfg->num_rb_dl = frame_parms->N_RB_DL;
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cfg->tx_num_channels = min(4, frame_parms->nb_antennas_tx);
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cfg->rx_num_channels = min(4, frame_parms->nb_antennas_rx);
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LOG_I(PHY,
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"HW: Configuring ru_id %d, sample_rate %f, tx/rx num_channels %d/%d, duplex_mode %s\n",
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ru_id,
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cfg->sample_rate,
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cfg->tx_num_channels,
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cfg->rx_num_channels,
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duplex_mode_txt[cfg->duplex_mode]);
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uint64_t dl_carrier, ul_carrier;
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if (is_sidelink || nrue_rus[ru_id].if_frequency == 0) {
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dl_carrier = frame_parms->dl_CarrierFreq;
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ul_carrier = frame_parms->ul_CarrierFreq;
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} else {
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dl_carrier = nrue_rus[ru_id].if_frequency;
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ul_carrier = nrue_rus[ru_id].if_frequency + nrue_rus[ru_id].if_freq_offset;
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}
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nr_rf_card_config_freq(cfg, ul_carrier, dl_carrier, freq_off);
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nr_rf_card_config_gain(cfg);
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cfg->configFilename = get_softmodem_params()->rf_config_file;
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cfg->sdr_addrs = nrue_rus[ru_id].sdr_addrs;
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cfg->tx_subdev = nrue_rus[ru_id].tx_subdev;
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cfg->rx_subdev = nrue_rus[ru_id].rx_subdev;
|
|
cfg->clock_source = nrue_rus[ru_id].clock_source;
|
|
cfg->time_source = nrue_rus[ru_id].time_source;
|
|
cfg->tune_offset = nrue_rus[ru_id].tune_offset;
|
|
}
|
|
}
|
|
|
|
void nrue_ru_start(void)
|
|
{
|
|
for (int ru_id = 0; ru_id < nrue_ru_count; ru_id++) {
|
|
openair0_config_t *cfg0 = &openair0_cfg[ru_id];
|
|
openair0_device_t *dev0 = &openair0_dev[ru_id];
|
|
|
|
dev0->host_type = RAU_HOST;
|
|
int tmp = openair0_device_load(dev0, cfg0);
|
|
AssertFatal(tmp == 0, "Could not load the device %d\n", ru_id);
|
|
int tmp2 = dev0->trx_start_func(dev0);
|
|
AssertFatal(tmp2 == 0, "Could not start the device %d\n", ru_id);
|
|
if (usrp_tx_thread == 1)
|
|
dev0->trx_write_init(dev0);
|
|
}
|
|
}
|
|
|
|
void nrue_ru_stop(void)
|
|
{
|
|
for (int ru_id = 0; ru_id < nrue_ru_count; ru_id++) {
|
|
if (openair0_dev[ru_id].trx_stop_func)
|
|
openair0_dev[ru_id].trx_stop_func(&openair0_dev[ru_id]);
|
|
}
|
|
}
|
|
|
|
void nrue_ru_end(void)
|
|
{
|
|
for (int ru_id = 0; ru_id < nrue_ru_count; ru_id++) {
|
|
if (openair0_dev[ru_id].trx_get_stats_func)
|
|
openair0_dev[ru_id].trx_get_stats_func(&openair0_dev[ru_id]);
|
|
if (openair0_dev[ru_id].trx_end_func)
|
|
openair0_dev[ru_id].trx_end_func(&openair0_dev[ru_id]);
|
|
}
|
|
}
|
|
|
|
void nrue_ru_set_freq(PHY_VARS_NR_UE *UE, uint64_t ul_carrier, uint64_t dl_carrier, int freq_offset)
|
|
{
|
|
int current_cell_id = nrue_rus[UE->rf_map.card].used_by_cell;
|
|
NR_DL_FRAME_PARMS *fp0 = &nrue_cell_fp[current_cell_id];
|
|
uint64_t dl_carrier_distance =
|
|
fp0->dl_CarrierFreq > dl_carrier ? fp0->dl_CarrierFreq - dl_carrier : dl_carrier - fp0->dl_CarrierFreq;
|
|
uint64_t ul_carrier_distance =
|
|
fp0->ul_CarrierFreq > ul_carrier ? fp0->ul_CarrierFreq - ul_carrier : ul_carrier - fp0->ul_CarrierFreq;
|
|
uint64_t carrier_distance = dl_carrier_distance + ul_carrier_distance;
|
|
|
|
for (int ru_id = 0; carrier_distance != 0 && ru_id < nrue_ru_count; ru_id++) {
|
|
int cell_id = nrue_rus[ru_id].used_by_cell;
|
|
if (cell_id < 0) // skip RUs that have no cell definition
|
|
continue;
|
|
if (nrue_cells[cell_id].used_by_ue >= 0) // skip cells that are already used by an UE
|
|
continue;
|
|
|
|
fp0 = &nrue_cell_fp[cell_id];
|
|
uint64_t this_dl_carrier_distance =
|
|
fp0->dl_CarrierFreq > dl_carrier ? fp0->dl_CarrierFreq - dl_carrier : dl_carrier - fp0->dl_CarrierFreq;
|
|
uint64_t this_ul_carrier_distance =
|
|
fp0->ul_CarrierFreq > ul_carrier ? fp0->ul_CarrierFreq - ul_carrier : ul_carrier - fp0->ul_CarrierFreq;
|
|
uint64_t this_carrier_distance = this_dl_carrier_distance + this_ul_carrier_distance;
|
|
if (this_carrier_distance < carrier_distance) {
|
|
UE->rf_map.card = ru_id;
|
|
carrier_distance = this_carrier_distance;
|
|
}
|
|
}
|
|
|
|
nrue_cells[current_cell_id].used_by_ue = -1;
|
|
current_cell_id = nrue_rus[UE->rf_map.card].used_by_cell;
|
|
nrue_cells[current_cell_id].used_by_ue = UE->Mod_id;
|
|
|
|
openair0_config_t *cfg0 = &openair0_cfg[UE->rf_map.card];
|
|
openair0_device_t *dev0 = &openair0_dev[UE->rf_map.card];
|
|
nr_rf_card_config_freq(cfg0, ul_carrier, dl_carrier, freq_offset);
|
|
dev0->trx_set_freq_func(dev0, cfg0);
|
|
}
|
|
|
|
int nrue_ru_adjust_rx_gain(PHY_VARS_NR_UE *UE, int gain_change)
|
|
{
|
|
openair0_config_t *cfg0 = &openair0_cfg[UE->rf_map.card];
|
|
openair0_device_t *dev0 = &openair0_dev[UE->rf_map.card];
|
|
|
|
// Increase the RX gain by the value determined by adjust_rxgain
|
|
cfg0->rx_gain[0] += gain_change;
|
|
|
|
// Set new RX gain.
|
|
int ret_gain = dev0->trx_set_gains_func(dev0, cfg0);
|
|
// APPLY RX gain again if crossed the MAX RX gain threshold
|
|
if (ret_gain < 0) {
|
|
gain_change += ret_gain;
|
|
cfg0->rx_gain[0] += ret_gain;
|
|
ret_gain = dev0->trx_set_gains_func(dev0, cfg0);
|
|
}
|
|
|
|
int applied_rxgain = cfg0->rx_gain[0] - cfg0->rx_gain_offset[0];
|
|
LOG_I(HW, "Rxgain adjusted by %d dB, RX gain: %d dB \n", gain_change, applied_rxgain);
|
|
|
|
return gain_change;
|
|
}
|
|
|
|
int nrue_ru_read(PHY_VARS_NR_UE *UE, openair0_timestamp_t *ptimestamp, void **buff, int nsamps, int num_antennas)
|
|
{
|
|
openair0_device_t *dev0 = &openair0_dev[UE->rf_map.card];
|
|
openair0_timestamp_t tmp_timestamp;
|
|
int ret = dev0->trx_read_func(dev0, &tmp_timestamp, buff, nsamps, num_antennas);
|
|
if (!dev0->firstTS_initialized) {
|
|
dev0->firstTS = tmp_timestamp;
|
|
dev0->firstTS_initialized = true;
|
|
}
|
|
*ptimestamp = tmp_timestamp - dev0->firstTS;
|
|
|
|
if (UE->Mod_id != 0)
|
|
return ret;
|
|
|
|
// UE 0 needs to read from all RUs that are not used by any other UE
|
|
|
|
void *tmp_buf[num_antennas];
|
|
uint32_t tmp_samples[nsamps];
|
|
for (int ant = 0; ant < num_antennas; ant++)
|
|
tmp_buf[ant] = tmp_samples;
|
|
|
|
for (int ru_id = 0; ru_id < nrue_ru_count; ru_id++) {
|
|
int cell_id = nrue_rus[ru_id].used_by_cell;
|
|
if (cell_id < 0) // skip RUs that have no cell definition
|
|
continue;
|
|
int ue_id = nrue_cells[cell_id].used_by_ue;
|
|
if (ue_id >= 0) // skip cells that are already used by an UE
|
|
continue;
|
|
|
|
dev0 = &openair0_dev[ru_id];
|
|
dev0->trx_read_func(dev0, &tmp_timestamp, tmp_buf, nsamps, num_antennas);
|
|
if (!dev0->firstTS_initialized) {
|
|
dev0->firstTS = tmp_timestamp;
|
|
dev0->firstTS_initialized = true;
|
|
}
|
|
}
|
|
|
|
return ret;
|
|
}
|
|
|
|
int nrue_ru_write(PHY_VARS_NR_UE *UE, openair0_timestamp_t timestamp, void **buff, int nsamps, int num_antennas, int flags)
|
|
{
|
|
openair0_device_t *dev0 = &openair0_dev[UE->rf_map.card];
|
|
int ret = dev0->trx_write_func(dev0, timestamp + dev0->firstTS, buff, nsamps, num_antennas, flags);
|
|
|
|
if (UE->Mod_id != 0)
|
|
return ret;
|
|
|
|
// UE 0 needs to write to all RUs that are not used by any other UE
|
|
|
|
void *tmp_buf[num_antennas];
|
|
uint32_t tmp_samples[nsamps];
|
|
memset(tmp_samples, 0, sizeof(tmp_samples));
|
|
for (int ant = 0; ant < num_antennas; ant++)
|
|
tmp_buf[ant] = tmp_samples;
|
|
|
|
for (int ru_id = 0; ru_id < nrue_ru_count; ru_id++) {
|
|
int cell_id = nrue_rus[ru_id].used_by_cell;
|
|
if (cell_id < 0) // skip RUs that have no cell definition
|
|
continue;
|
|
int ue_id = nrue_cells[cell_id].used_by_ue;
|
|
if (ue_id >= 0) // skip cells that are already used by an UE
|
|
continue;
|
|
|
|
dev0 = &openair0_dev[ru_id];
|
|
dev0->trx_write_func(dev0, timestamp + dev0->firstTS, tmp_buf, nsamps, num_antennas, flags);
|
|
}
|
|
return ret;
|
|
}
|
|
|
|
typedef int (*nrue_ru_write_t)(PHY_VARS_NR_UE *UE, openair0_timestamp_t timestamp, void **txp, int nsamps, int nbAnt, int flags);
|
|
int openair0_write_reorder_common(nrue_ru_write_t nrue_ru_write,
|
|
PHY_VARS_NR_UE *UE,
|
|
openair0_device_t *device,
|
|
openair0_timestamp_t timestamp,
|
|
void **txp,
|
|
int nsamps,
|
|
int nbAnt,
|
|
int flags);
|
|
|
|
int nrue_ru_write_reorder(PHY_VARS_NR_UE *UE, openair0_timestamp_t timestamp, void **txp, int nsamps, int nbAnt, int flags)
|
|
{
|
|
openair0_device_t *device = &openair0_dev[UE->rf_map.card];
|
|
return openair0_write_reorder_common(nrue_ru_write, UE, device, timestamp, txp, nsamps, nbAnt, flags);
|
|
}
|
|
|
|
void nrue_ru_write_reorder_clear_context(PHY_VARS_NR_UE *UE)
|
|
{
|
|
openair0_device_t *device = &openair0_dev[UE->rf_map.card];
|
|
openair0_write_reorder_clear_context(device);
|
|
}
|