Commit 826b5d5e authored by Fang-WANG's avatar Fang-WANG Committed by witcomm

build ok ofr YunSDR

parent 63663ac4
......@@ -843,7 +843,7 @@ add_library(F1AP
add_list1_option(NB_ANTENNAS_RX "4" "Number of antennas in reception" "1" "2" "4")
add_list1_option(NB_ANTENNAS_TX "4" "Number of antennas in transmission" "1" "2" "4")
add_list2_option(RF_BOARD "EXMIMO" "RF head type" "None" "OAI_USRP" "OAI_BLADERF" "OAI_LMSSDR" "OAI_SIMU")
add_list2_option(RF_BOARD "EXMIMO" "RF head type" "None" "OAI_USRP" "OAI_BLADERF" "OAI_LMSSDR" "OAI_SIMU" "OAI_YUNSDR")
......@@ -884,6 +884,13 @@ set(HWLIB_BLADERF_SOURCE
add_library(oai_bladerfdevif MODULE ${HWLIB_BLADERF_SOURCE} )
target_link_libraries(oai_bladerfdevif bladeRF)
include_directories("${OPENAIR_TARGETS}/ARCH/YUNSDR/USERSPACE/LIB/")
set(HWLIB_YUNSDR_SOURCE
${OPENAIR_TARGETS}/ARCH/YUNSDR/USERSPACE/LIB/yunsdr_lib.c
)
add_library(oai_yunsdrdevif MODULE ${HWLIB_YUNSDR_SOURCE} )
target_link_libraries(oai_yunsdrdevif yunsdr_ss)
include_directories("${OPENAIR_TARGETS}/ARCH/LMSSDR/USERSPACE/LIB/")
set(HWLIB_LMSSDR_SOURCE
......@@ -3122,7 +3129,7 @@ target_link_libraries (ocp-gnb ${LIBXML2_LIBRARIES} )
target_link_libraries (ocp-gnb pthread m ${CONFIG_LIB} rt crypt ${CRYPTO_LIBRARIES} ${OPENSSL_LIBRARIES} sctp ${XFORMS_LIBRARIES} ${PROTOBUF_LIB} ${CMAKE_DL_LIBS} ${LIBYAML_LIBRARIES} ${ATLAS_LIBRARIES})
target_link_libraries (ocp-gnb ${LIB_LMS_LIBRARIES})
target_link_libraries (ocp-gnb ${T_LIB})
add_dependencies(ocp-gnb ldpc_orig ldpc_optim ldpc_optim8seg ldpc params_libconfig rfsimulator oai_usrpdevif rfsimulator nrscope)
add_dependencies(ocp-gnb ldpc_orig ldpc_optim ldpc_optim8seg ldpc params_libconfig rfsimulator oai_usrpdevif oai_yunsdrdevif rfsimulator nrscope)
# nr-uesoftmodem is UE implementation
......@@ -3490,7 +3497,7 @@ if (${T_TRACER})
nr_ulschsim ldpctest polartest smallblocktest cu_test du_test
#all "add_library" definitions
ITTI RRC_LIB NR_RRC_LIB S1AP_LIB S1AP_ENB X2AP_LIB X2AP_ENB M2AP_LIB M2AP_ENB M3AP_LIB M3AP_ENB F1AP_LIB F1AP
params_libconfig oai_exmimodevif oai_usrpdevif oai_bladerfdevif oai_lmssdrdevif oai_iqplayer
params_libconfig oai_exmimodevif oai_usrpdevif oai_yunsdrdevif oai_bladerfdevif oai_lmssdrdevif oai_iqplayer
oai_eth_transpro oai_mobipass tcp_bridge tcp_bridge_oai
coding FLPT_MSG ASYNC_IF FLEXRAN_AGENT HASHTABLE MSC UTIL OMG_SUMO
SECU_OSA SECU_CN SCHED_LIB SCHED_NR_LIB SCHED_RU_LIB SCHED_UE_LIB SCHED_NR_UE_LIB default_sched remote_sched RAL
......
......@@ -116,7 +116,7 @@ Options
-a | --agent
Enables agent for software-defined control of the eNB
-w | --hardware
EXMIMO, USRP, BLADERF, LMSSDR, IRIS, ADRV9371_ZC706, SIMU, None (Default)
EXMIMO, USRP, BLADERF, LMSSDR, IRIS, YUNSDR, ADRV9371_ZC706, SIMU, None (Default)
Adds this RF board support (in external packages installation and in compilation)
-P | --phy_simulators
Makes the unitary tests Layer 1 simulators
......@@ -283,7 +283,7 @@ function main() {
"EXMIMO")
HW="EXMIMO"
;;
"USRP" | "BLADERF" | "LMSSDR" | "IRIS" | "ADRV9371_ZC706" | "SIMU")
"USRP" | "BLADERF" | "LMSSDR" | "IRIS" | "ADRV9371_ZC706" | "SIMU" | "YUNSDR")
HW="OAI_"$2
;;
"None")
......@@ -555,6 +555,10 @@ function main() {
flash_firmware_bladerf
fi
fi
if [ "$HW" == "OAI_YUNSDR" ] ; then
echo_info "installing packages for YUNSDR support"
#check_install_yunsdr_driver
fi
if [ "$HW" == "OAI_IRIS" ] ; then
echo_info "installing packages for IRIS support"
check_install_soapy
......@@ -900,6 +904,16 @@ function main() {
ln -sf liboai_bladerfdevif.so liboai_device.so
ln -sf $dbin/liboai_bladerfdevif.so.$REL $dbin/liboai_device.so
echo_info "liboai_device.so is linked to BLADERF device library"
elif [ "$HW" == "OAI_YUNSDR" ] ; then
if [ -f "/usr/local/include/yunsdr_api_ss.h" ] ; then
compilations \
$build_dir oai_yunsdrdevif \
liboai_yunsdrdevif.so $dbin/liboai_yunsdrdevif.so.$REL
fi
ln -sf liboai_yunsdrdevif.so liboai_device.so
ln -sf $dbin/liboai_yunsdrdevif.so.$REL $dbin/liboai_device.so
echo_info "liboai_device.so is linked to YUNSDR device library"
elif [ "$HW" == "OAI_LMSSDR" ] ; then
# if [ -f "/usr/include/libbladeRF.h" ] ; then
compilations \
......
......@@ -406,6 +406,34 @@ install_usrp_uhd_driver() {
fi
}
check_install_yunsdr_driver() {
#if modinfo riffa > /dev/null 2>&1
if modinfo xdma > /dev/null 2>&1
then
echo_success "YunSDR driver has loaded."
else
git clone https://github.com/v3best/riffa /tmp/riffa
if [ $? -ne 0 ]; then
echo_fatal "YunSDR driver download failed, please check your net connection."
else
cd /tmp/riffa/driver/linux
make && $SUDO make install
echo_success "YunSDR driver install success, please restart your PC later."
fi
git clone https://github.com/v3best/libyunsdr /tmp/libyunsdr
if [ $? -ne 0 ]; then
echo_fatal "YunSDR API download failed, please check your net connection."
else
cd /tmp/libyunsdr
mkdir build
cd build
cmake ../
make && $SUDO make install && $SUDO ldconfig
echo_success "YunSDR API install success, please restart your PC later."
fi
fi
}
install_bladerf_driver_from_source(){
bladerf_install_log=$OPENAIR_DIR/cmake_targets/log/bladerf_install_log.txt
echo_info "\nInstalling BladeRF driver from sources. The log file for BladeRF driver installation is here: $bladerf_install_log "
......@@ -823,7 +851,8 @@ check_install_oai_software() {
install_asn1c_from_source $1
$SUDO rm -fr /opt/ssh
$SUDO git clone https://gist.github.com/2190472.git /opt/ssh
#$SUDO git clone https://gist.github.com/2190472.git /opt/ssh
$SUDO git clone https://gitlab.eurecom.fr/oai/ssh.git /opt/ssh
}
install_asn1c_from_source(){
......
......@@ -100,6 +100,8 @@
#define CONFIG_HLP_USRP_ARGS "set the arguments to identify USRP (same syntax as in UHD)\n"
#define CONFIG_HLP_YUNSDR_ARGS "set the arguments to identify YUNSDR\n"
#define CONFIG_HLP_FLOG "Enable online log \n"
#define CONFIG_HLP_LOGL "Set the global log level, valid options: (4:trace, 3:debug, 2:info, 1:warn, (0:error))\n"
#define CONFIG_HLP_LOGV "Set the global log verbosity \n"
......
......@@ -122,6 +122,7 @@ int vcdflag = 0;
double rx_gain_off = 0.0;
char *usrp_args = NULL;
char *yunsdr_args = NULL;
char *rrc_config_path = NULL;
int dumpframe = 0;
......@@ -373,6 +374,7 @@ void init_openair0(void) {
openair0_cfg[card].configFilename = get_softmodem_params()->rf_config_file;
if (usrp_args) openair0_cfg[card].sdr_addrs = usrp_args;
else if (yunsdr_args) openair0_cfg[card].sdr_addrs = yunsdr_args;
}
}
......
......@@ -27,6 +27,7 @@
/*------------------------------------------------------------------------------------------------------------------------------------------*/
#define CMDLINE_NRUEPARAMS_DESC { \
{"usrp-args", CONFIG_HLP_USRP_ARGS, 0, strptr:(char **)&usrp_args, defstrval:"type=b200", TYPE_STRING, 0}, \
{"yunsdr-args", CONFIG_HLP_YUNSDR_ARGS, 0, strptr:(char **)&yunsdr_args, defstrval:"dev=pciex:0", TYPE_STRING, 0}, \
{"single-thread-disable", CONFIG_HLP_NOSNGLT, PARAMFLAG_BOOL, iptr:&single_thread_flag, defintval:1, TYPE_INT, 0}, \
{"dlsch-parallel", CONFIG_HLP_DLSCH_PARA, 0, iptr:(int32_t *)&nrUE_params.nr_dlsch_parallel, defintval:0, TYPE_UINT8, 0}, \
{"nr-dlsch-demod-shift", CONFIG_HLP_DLSHIFT, 0, iptr:(int32_t *)&nr_dlsch_demod_shift, defintval:0, TYPE_INT, 0}, \
......
......@@ -408,7 +408,7 @@ int nr_initial_sync(UE_nr_rxtx_proc_t *proc, PHY_VARS_NR_UE *ue, int n_frames)
phich_string[fp->phich_config_common.phich_resource],
fp->nb_antenna_ports_gNB);*/
#if defined(OAI_USRP) || defined(EXMIMO) || defined(OAI_BLADERF) || defined(OAI_LMSSDR) || defined(OAI_ADRV9371_ZC706)
#if defined(OAI_USRP) || defined(EXMIMO) || defined(OAI_BLADERF) || defined(OAI_LMSSDR) || defined(OAI_ADRV9371_ZC706) || defined(OAI_YUNSDR)
LOG_I(PHY, "[UE %d] Measured Carrier Frequency %.0f Hz (offset %d Hz)\n",
ue->Mod_id,
openair0_cfg[0].rx_freq[0]+ue->common_vars.freq_offset,
......@@ -458,10 +458,12 @@ int nr_initial_sync(UE_nr_rxtx_proc_t *proc, PHY_VARS_NR_UE *ue, int n_frames)
#ifndef OAI_BLADERF
#ifndef OAI_LMSSDR
#ifndef OAI_ADRV9371_ZC706
#ifndef OAI_YUNSDR
//phy_adjust_gain(ue,ue->measurements.rx_power_avg_dB[0],0);
#endif
#endif
#endif
#endif
#endif
}
......@@ -471,10 +473,12 @@ int nr_initial_sync(UE_nr_rxtx_proc_t *proc, PHY_VARS_NR_UE *ue, int n_frames)
#ifndef OAI_BLADERF
#ifndef OAI_LMSSDR
#ifndef OAI_ADRV9371_ZC706
#ifndef OAI_YUNSDR
//phy_adjust_gain(ue,dB_fixed(ue->measurements.rssi),0);
#endif
#endif
#endif
#endif
#endif
}
......
......@@ -42,6 +42,7 @@
* @defgroup _GENERIC_PHY_RF_INTERFACE_ Generic PHY - RF Interface
* @defgroup _USRP_PHY_RF_INTERFACE_ PHY - USRP RF Interface
* @defgroup _BLADERF_PHY_RF_INTERFACE_ PHY - BLADERF RF Interface
* @defgroup _YUNSDR_PHY_RF_INTERFACE_ PHY - YUNSDR RF Interface
* @defgroup _LMSSDR_PHY_RF_INTERFACE_ PHY - LMSSDR RF Interface
* @}
*
......
......@@ -81,7 +81,7 @@ char nr_mode_string[NUM_UE_MODE][20] = {"NOT SYNCHED","PRACH","RAR","RA_WAIT_CR"
const uint8_t nr_rv_round_map_ue[4] = {0, 2, 1, 3};
#if defined(EXMIMO) || defined(OAI_USRP) || defined(OAI_BLADERF) || defined(OAI_LMSSDR) || defined(OAI_ADRV9371_ZC706)
#if defined(EXMIMO) || defined(OAI_USRP) || defined(OAI_BLADERF) || defined(OAI_LMSSDR) || defined(OAI_ADRV9371_ZC706) || defined(OAI_YUNSDR)
extern uint64_t downlink_frequency[MAX_NUM_CCs][4];
#endif
......@@ -2089,8 +2089,8 @@ void nr_ue_prach_procedures(PHY_VARS_NR_UE *ue, UE_nr_rxtx_proc_t *proc, uint8_t
ue->prach_vars[gNB_id]->amp = AMP;
/* #if defined(EXMIMO) || defined(OAI_USRP) || defined(OAI_BLADERF) || defined(OAI_LMSSDR) || defined(OAI_ADRV9371_ZC706)
tx_amp = get_tx_amp_prach(ue->tx_power_dBm[nr_slot_tx], ue->tx_power_max_dBm, ue->frame_parms.N_RB_UL);
/* #if defined(EXMIMO) || defined(OAI_USRP) || defined(OAI_BLADERF) || defined(OAI_LMSSDR) || defined(OAI_ADRV9371_ZC706) || defined(OAI_YUNSDR)
tx_amp = get_tx_amp_prach(ue->tx_power_dBm[nr_tti_tx], ue->tx_power_max_dBm, ue->frame_parms.N_RB_UL);
if (tx_amp != -1)
ue->prach_vars[gNB_id]->amp = tx_amp;
#else
......
......@@ -850,7 +850,7 @@ bool pucch_procedures_ue_nr(PHY_VARS_NR_UE *ue, uint8_t gNB_id, UE_nr_rxtx_proc_
int tx_amp;
#if defined(EXMIMO) || defined(OAI_USRP) || defined(OAI_BLADERF) || defined(OAI_LMSSDR) || defined(OAI_ADRV9371_ZC706)
#if defined(EXMIMO) || defined(OAI_USRP) || defined(OAI_BLADERF) || defined(OAI_LMSSDR) || defined(OAI_ADRV9371_ZC706) || defined(OAI_YUNSDR)
tx_amp = nr_get_tx_amp(pucch_tx_power,
ue->tx_power_max_dBm,
......
......@@ -96,6 +96,8 @@ typedef enum {
USRP_N300_DEV,
/*!\brief device is BLADE RF*/
BLADERF_DEV,
/*!\brief device is YUNSDR pcie*/
YUNSDR_DEV,
/*!\brief device is LMSSDR (SoDeRa)*/
LMSSDR_DEV,
/*!\brief device is Iris */
......@@ -109,7 +111,7 @@ typedef enum {
RFSIMULATOR,
MAX_RF_DEV_TYPE
} dev_type_t;
#define DEVTYPE_NAMES {"","EXMIMO","USRP B200","USRP X300","USRP N300","BLADERF","LMSSDR","IRIS","No HW","ADRV9371_ZC706","UEDv2", "RFSIMULATOR"}
#define DEVTYPE_NAMES {"","EXMIMO","USRP B200","USRP X300","USRP N300","BLADERF","YUNSDR", "LMSSDR","IRIS","No HW","ADRV9371_ZC706","UEDv2", "RFSIMULATOR"}
/*!\brief transport protocol types
*/
typedef enum {
......@@ -210,7 +212,7 @@ typedef struct {
//! timing_source
clock_source_t time_source;
//! Manual SDR IP address
//#if defined(EXMIMO) || defined(OAI_USRP) || defined(OAI_BLADERF) || defined(OAI_LMSSDR)
//#if defined(EXMIMO) || defined(OAI_USRP) || defined(OAI_BLADERF) || defined(OAI_LMSSDR) || defined(OAI_YUNSDR)
char *sdr_addrs;
//! Auto calibration flag
int autocal[4];
......
/*
* Copyright 2013-2020 Software Radio Systems Limited
*
* This file is part of srsLTE.
*
* srsLTE 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.
*
* srsLTE 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/.
*
*/
#ifndef YUNSDR_RF_HELPER_H_
#define YUNSDR_RF_HELPER_H_
// A bunch of helper functions to process device arguments
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define REMOVE_SUBSTRING_WITHCOMAS(S, TOREMOVE) \
remove_substring(S, TOREMOVE ","); \
remove_substring(S, TOREMOVE ", "); \
remove_substring(S, "," TOREMOVE); \
remove_substring(S, ", " TOREMOVE); \
remove_substring(S, TOREMOVE)
static inline void remove_substring(char* s, const char* toremove)
{
while ((s = strstr(s, toremove))) {
memmove(s, s + strlen(toremove), 1 + strlen(s + strlen(toremove)));
}
}
static inline void copy_subdev_string(char* dst, char* src)
{
int n = 0;
int len = (int)strlen(src);
/* Copy until end of string or comma */
while (n < len && src[n] != '\0' && src[n] != ',') {
dst[n] = src[n];
n++;
}
dst[n] = '\0';
}
#endif /* YUNSDR_RF_HELPER_H_ */
/*
* Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The OpenAirInterface Software Alliance licenses this file to You under
* the OAI Public License, Version 1.0 (the "License"); you may not use this file
* except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.openairinterface.org/?page_id=698
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*-------------------------------------------------------------------------------
* For more information about the OpenAirInterface (OAI) Software Alliance:
* contact@openairinterface.org
*/
/** yunsdr_lib.c
*
* Author: eric
* base on bladerf_lib.c
*/
#include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include <unistd.h>
#include <string.h>
#include <inttypes.h>
#include <math.h>
#include "yunsdr_lib.h"
#include "rf_helper.h"
#include "common/utils/LOG/log.h"
/** @addtogroup _YUNSDR_PHY_RF_INTERFACE_
* @{
*/
#ifdef __SSE4_1__
# include <smmintrin.h>
#endif
#ifdef __AVX2__
# include <immintrin.h>
#endif
//! Number of YUNSDR devices
int num_devices = 0;
#ifdef __GNUC__
static int recving = 0;
static int transmiting = 0;
#endif
static bool running = false;
#define RX_MTU 30720
#define BUFFER_SIZE (122880 * 10 * sizeof(int))
#define NCHAN_PER_DEV 4
static void *cache_buf[NCHAN_PER_DEV];
static void *iq_buf[NCHAN_PER_DEV];
static uint32_t remain = 0;
static inline int channel_to_mask(int channel_count)
{
uint8_t ch_mask;
switch (channel_count) {
case 4:
ch_mask = 0xf;break;
case 3:
ch_mask = 0x7;break;
case 2:
ch_mask = 0x3;break;
case 1:
ch_mask = 0x1;break;
default:
ch_mask = 0x1;break;
}
return ch_mask;
}
/*! \brief get current timestamp
*\param device the hardware to use
*\returns timestamp of YunSDR
*/
openair0_timestamp trx_get_timestamp(openair0_device *device) {
return 0;
}
/*! \brief Start yunsdr
* \param device the hardware to use
* \returns 0 on success
*/
int trx_yunsdr_start(openair0_device *device) {
LOG_I(HW, "[yunsdr] Start yunsdr ...\n");
running = true;
return 0;
}
/*! \brief Called to send samples to the yunsdr RF target
\param device pointer to the device structure specific to the RF hardware target
\param timestamp The timestamp at whicch the first sample MUST be sent
\param buff Buffer which holds the samples
\param nsamps number of samples to be sent
\param cc index of the component carrier
\param flags Ignored for the moment
\returns 0 on success
*/
static int trx_yunsdr_write(openair0_device *device,openair0_timestamp timestamp, void **buff, int nsamps, int cc, int flags) {
int status;
yunsdr_state_t *yunsdr = (yunsdr_state_t*)device->priv;
#ifdef __GNUC__
__sync_fetch_and_add(&transmiting, 1);
#endif
#ifdef __AVX2__
__m256i a, *b;
int len = nsamps * 2;
int16_t *iq = buff[0];
while (len >= 16) {
a = *(__m256i *)&iq[0];
b = (__m256i *)&iq[0];
*b = _mm256_slli_epi16(a, 4);
iq += 16;
len -= 16;
}
#else
__m128i a, *b;
int len = nsamps * 2;
int16_t *iq = buff[0];
while (len >= 8) {
a = *(__m128i *)&iq[0];
b = (__m128i *)&iq[0];
*b = _mm_slli_epi16(a, 4);
iq += 8;
len -= 8;
}
#endif
/* remaining data */
while (len != 0) {
iq[0] <<= 4;
iq++;
len--;
}
status = yunsdr_write_samples_multiport(yunsdr->dev, (const void **)buff, nsamps, channel_to_mask(yunsdr->tx_num_channels), timestamp, 0);
if (status < 0) {
yunsdr->num_tx_errors++;
LOG_E(HW, "[yunsdr] Failed to TX samples\n");
exit(-1);
}
#ifdef __GNUC__
__sync_fetch_and_sub(&transmiting, 1);
#endif
//LOG_D(HW, "Provided TX timestamp: %u, nsamps: %u\n", ptimestamp, nsamps);
yunsdr->tx_current_ts = timestamp;
yunsdr->tx_nsamps += nsamps;
yunsdr->tx_count++;
return nsamps;
}
/*! \brief Receive samples from hardware.
* Read \ref nsamps samples from each channel to buffers. buff[0] is the array for
* the first channel. *ptimestamp is the time at which the first sample
* was received.
* \param device the hardware to use
* \param[out] ptimestamp the time at which the first sample was received.
* \param[out] buff An array of pointers to buffers for received samples. The buffers must be large enough to hold the number of samples \ref nsamps.
* \param nsamps Number of samples. One sample is 2 byte I + 2 byte Q => 4 byte.
* \param cc Index of component carrier
* \returns number of samples read
*/
static int trx_yunsdr_read(openair0_device *device, openair0_timestamp *ptimestamp, void **buff, int nsamps, int cc) {
int status;
yunsdr_state_t *yunsdr = (yunsdr_state_t *)device->priv;
uint64_t timestamp = 0L;
#ifdef __GNUC__
__sync_fetch_and_add(&recving, 1);
#endif
if(remain == 0) {
int recv = 0;
if(nsamps % RX_MTU)
recv = (nsamps / RX_MTU + 1) * RX_MTU;
else
recv = nsamps;
timestamp = 0L;
status = yunsdr_read_samples_multiport(yunsdr->dev, iq_buf, recv, channel_to_mask(yunsdr->rx_num_channels), &timestamp);
if (status < 0) {
LOG_E(HW, "[yunsdr] Failed to read samples %d\n", nsamps);
yunsdr->num_rx_errors++;
exit(-1);
}
for(int i = 0; i < yunsdr->rx_num_channels; i++)
memcpy(buff[i], iq_buf[i], nsamps * 4);
if(recv > nsamps) {
for(int i = 0; i < yunsdr->rx_num_channels; i++)
memcpy(cache_buf[i], iq_buf[i] + nsamps * 4, (recv - nsamps) * 4);
remain = recv - nsamps;
}
*(uint64_t *)ptimestamp = timestamp;
yunsdr->rx_current_ts = timestamp + nsamps;
//LOG_D(HW, "case 0: Current RX timestamp %"PRIu64", hw ts %"PRIu64", nsamps %u, remain %u, recv: %u\n", *ptimestamp, timestamp, nsamps, remain, recv);
} else if(remain >= nsamps) {
for(int i = 0; i < yunsdr->rx_num_channels; i++)
memcpy(buff[i], cache_buf[i], nsamps * 4);
remain -= nsamps;
if(remain > 0) {
for(int i = 0; i < yunsdr->rx_num_channels; i++)
memmove(cache_buf[i], cache_buf[i] + nsamps * 4, remain * 4);
}
*(uint64_t *)ptimestamp = yunsdr->rx_current_ts;
yunsdr->rx_current_ts += nsamps;
//LOG_D(HW, "case 1: Current RX timestamp %"PRIu64", nsamps %u, remain %u\n", *ptimestamp, nsamps, remain);
} else {
int recv;
if(remain + RX_MTU >= nsamps)
recv = RX_MTU;
else
recv = (nsamps / RX_MTU + 1) * RX_MTU;
timestamp = 0L;
status = yunsdr_read_samples_multiport(yunsdr->dev, iq_buf, recv, channel_to_mask(yunsdr->rx_num_channels), &timestamp);
if (status < 0) {
LOG_E(HW, "[yunsdr] Failed to read samples %d\n", nsamps);
yunsdr->num_rx_errors++;
exit(-1);
}
if(timestamp != (yunsdr->rx_current_ts + remain)) {
int overflow = timestamp - (yunsdr->rx_current_ts + remain);
//LOG_W(HW, "Rx overflow %u samples\n", overflow);
remain += overflow;
}
for(int i = 0; i < yunsdr->rx_num_channels; i++)
memcpy(cache_buf[i] + remain * 4, iq_buf[i], recv * 4);
for(int i = 0; i < yunsdr->rx_num_channels; i++)
memcpy(buff[i], cache_buf[i], nsamps * 4);
remain = recv + remain - nsamps;
for(int i = 0; i < yunsdr->rx_num_channels; i++)
memmove(cache_buf[i], cache_buf[i] + nsamps * 4, remain * 4);
*(uint64_t *)ptimestamp = yunsdr->rx_current_ts;
yunsdr->rx_current_ts += nsamps;
//LOG_D(HW, "case 2: Current RX timestamp %"PRIu64", hw ts %"PRIu64", nsamps %u, remain %u, recv: %u\n", *ptimestamp, timestamp, nsamps, remain, recv);
}
#ifdef __GNUC__
__sync_fetch_and_sub(&recving, 1);
#endif
//LOG_D(HW, "Current RX timestamp %"PRIu64", nsamps %u\n", *ptimestamp, nsamps);
yunsdr->rx_nsamps += nsamps;
yunsdr->rx_count++;
return nsamps;
}
/*! \brief Terminate operation of the yunsdr transceiver -- free all associated resources
* \param device the hardware to use
*/
void trx_yunsdr_end(openair0_device *device) {
yunsdr_state_t *yunsdr = (yunsdr_state_t*)device->priv;
if(!running)
return;
running = false;
#ifdef __GNUC__
while(__sync_and_and_fetch(&recving, 1) ||
__sync_and_and_fetch(&transmiting, 1))
usleep(50000);
#endif
LOG_I(HW, ">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>\n");
uint32_t count = 0;
yunsdr_get_channel_event(yunsdr->dev, TX_CHANNEL_TIMEOUT, 1, &count);
LOG_I(HW, "[yunsdr] TX%d Channel timeout: %u\n", 1, count);
yunsdr_get_channel_event(yunsdr->dev, RX_CHANNEL_OVERFLOW, 1, &count);
LOG_I(HW, "[yunsdr] RX%d Channel overflow: %u\n", 1, count);
LOG_I(HW, "<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<\n");
yunsdr_close_device(yunsdr->dev);
//exit(1);
}
/*! \brief print the yunsdr statistics
* \param device the hardware to use
* \returns 0 on success
*/
int trx_yunsdr_get_stats(openair0_device* device) {
return(0);
}
/*! \brief Reset the yunsdr statistics
* \param device the hardware to use
* \returns 0 on success
*/
int trx_yunsdr_reset_stats(openair0_device* device) {
return(0);
}
/*! \brief Stop yunsdr
* \param card the hardware to use
* \returns 0 in success
*/
int trx_yunsdr_stop(openair0_device* device) {
return(0);
}
/*! \brief Set frequencies (TX/RX)
* \param device the hardware to use
* \param openair0_cfg1 openair0 Config structure (ignored. It is there to comply with RF common API)
* \param exmimo_dump_config (ignored)
* \returns 0 in success
*/
int trx_yunsdr_set_freq(openair0_device* device, openair0_config_t *openair0_cfg1,int exmimo_dump_config) {
int status;
yunsdr_state_t *yunsdr = (yunsdr_state_t *)device->priv;
openair0_config_t *openair0_cfg = (openair0_config_t *)device->openair0_cfg;
if ((status = yunsdr_set_tx_lo_freq(yunsdr->dev, 0, (uint64_t)(openair0_cfg->tx_freq[0]))) < 0) {
LOG_E(HW, "[yunsdr] Failed to set TX frequency\n");
} else
LOG_I(HW, "[yunsdr] set TX frequency to %lu\n",(uint64_t)(openair0_cfg->tx_freq[0]));
if ((status = yunsdr_set_rx_lo_freq(yunsdr->dev, 0, (uint64_t)(openair0_cfg->rx_freq[0]))) < 0) {
LOG_E(HW, "[yunsdr] Failed to set RX frequency\n");
} else
LOG_I(HW, "[yunsdr] set RX frequency to %lu\n",(uint64_t)(openair0_cfg->rx_freq[0]));
return(0);
}
/*! \brief Set Gains (TX/RX)
* \param device the hardware to use
* \param openair0_cfg openair0 Config structure
* \returns 0 in success
*/
int trx_yunsdr_set_gains(openair0_device* device, openair0_config_t *openair0_cfg) {
int ret = 0;
yunsdr_state_t *yunsdr = (yunsdr_state_t *)device->priv;
if (openair0_cfg->rx_gain[0] > 65+openair0_cfg->rx_gain_offset[0]) {
LOG_E(HW, "[yunsdr] Reduce RX Gain 0 by %f dB\n", openair0_cfg->rx_gain[0] - openair0_cfg->rx_gain_offset[0] - 65);
return -1;
}
if ((ret = yunsdr_set_rx1_rf_gain(yunsdr->dev, 0, (uint32_t)(openair0_cfg->rx_gain[0] > 65?65:openair0_cfg->rx_gain[0]))) < 0) {
LOG_I(HW, "[yunsdr] Failed to set RX1 gain\n");
} else
LOG_I(HW, "[yunsdr] set RX1 gain to %u\n",(uint32_t)(openair0_cfg->rx_gain[0]));
if(yunsdr->rx_num_channels > 1) {
if ((ret = yunsdr_set_rx2_rf_gain(yunsdr->dev, 0, (uint32_t)(openair0_cfg->rx_gain[1] > 65?65:openair0_cfg->rx_gain[1]))) < 0) {
LOG_E(HW, "[yunsdr] Failed to set RX2 gain\n");
} else
LOG_I(HW, "[yunsdr] set RX gain to %u\n",(uint32_t)(openair0_cfg->rx_gain[1]));
}
int tx_gain = ((uint32_t)openair0_cfg->tx_gain[0] > 90?90:(uint32_t)openair0_cfg->tx_gain[0]);
if ((ret = yunsdr_set_tx1_attenuation(yunsdr->dev, 0, (90 - tx_gain) * 1000)) < 0) {
LOG_E(HW, "[yunsdr] Failed to set TX1 gain\n");
} else
LOG_I(HW, "[yunsdr] set the TX1 gain to %d\n", (uint32_t)openair0_cfg->tx_gain[0]);
if(yunsdr->tx_num_channels > 1) {
tx_gain = ((uint32_t)openair0_cfg->tx_gain[1] > 90?90:(uint32_t)openair0_cfg->tx_gain[1]);
if ((ret = yunsdr_set_tx2_attenuation(yunsdr->dev, 0, (90 - tx_gain) * 1000)) < 0) {
LOG_E(HW, "[yunsdr] Failed to set TX2 gain\n");
} else
LOG_I(HW, "[yunsdr] set the TX2 gain to %d\n", (uint32_t)openair0_cfg->tx_gain[1]);
}
return(ret);
}
/*! \brief Initialize Openair yunsdr target. It returns 0 if OK
* \param device the hardware to use
* \param openair0_cfg RF frontend parameters set by application
* \returns 0 on success
*/
int device_init(openair0_device *device, openair0_config_t *openair0_cfg) {
int status;
yunsdr_state_t *yunsdr = (yunsdr_state_t*)malloc(sizeof(yunsdr_state_t));
memset(yunsdr, 0, sizeof(yunsdr_state_t));
LOG_I(HW, "[yunsdr] openair0_cfg[0].sdr_addrs == '%s'\n", openair0_cfg[0].sdr_addrs);
LOG_I(HW, "[yunsdr] openair0_cfg[0].rx_num_channels == '%d'\n", openair0_cfg[0].rx_num_channels);
LOG_I(HW, "[yunsdr] openair0_cfg[0].tx_num_channels == '%d'\n", openair0_cfg[0].tx_num_channels);
// init required params
switch ((int)openair0_cfg->sample_rate) {
case 122880000:
openair0_cfg->samples_per_packet = 122880;
openair0_cfg->tx_sample_advance = 70;
openair0_cfg[0].tx_bw = 100e6;
openair0_cfg[0].rx_bw = 100e6;
break;
case 61440000:
openair0_cfg->samples_per_packet = 61440;
openair0_cfg->tx_sample_advance = 70;
openair0_cfg[0].tx_bw = 40e6;
openair0_cfg[0].rx_bw = 40e6;
break;
case 30720000:
openair0_cfg->samples_per_packet = 30720;
openair0_cfg->tx_sample_advance = 70;
openair0_cfg[0].tx_bw = 20e6;
openair0_cfg[0].rx_bw = 20e6;
break;
case 15360000:
openair0_cfg->samples_per_packet = 15360;
openair0_cfg->tx_sample_advance = 68;
openair0_cfg[0].tx_bw = 10e6;
openair0_cfg[0].rx_bw = 10e6;
break;
case 7680000:
openair0_cfg->samples_per_packet = 7680;
openair0_cfg->tx_sample_advance = 34;
openair0_cfg[0].tx_bw = 5e6;
openair0_cfg[0].rx_bw = 5e6;
break;
case 1920000:
openair0_cfg->samples_per_packet = 1920;
openair0_cfg->tx_sample_advance = 9;
openair0_cfg[0].tx_bw = 1.25e6;
openair0_cfg[0].rx_bw = 1.25e6;
break;
default:
LOG_I(HW, "[yunsdr] Error: unknown sampling rate %f\n", openair0_cfg->sample_rate);
free(yunsdr);
exit(-1);
break;
}
//openair0_cfg->iq_txshift = 2;
//openair0_cfg->iq_rxrescale = 14; /*not sure*/ //FIXME: adjust to yunsdr
yunsdr->sample_rate = (unsigned int)openair0_cfg->sample_rate;
LOG_I(HW, "[yunsdr] sampling_rate %d\n", yunsdr->sample_rate);
yunsdr->rx_num_channels = openair0_cfg[0].rx_num_channels;
yunsdr->tx_num_channels = openair0_cfg[0].tx_num_channels;
int auxdac1 = 0;
char args[64];
if (openair0_cfg[0].sdr_addrs == NULL) {
strcpy(args, "dev=pcie:0");
} else {
strcpy(args, openair0_cfg[0].sdr_addrs);
}
char dev_str[64];
const char dev_arg[] = "dev=";
char *dev_ptr = strstr(args, dev_arg);
if(dev_ptr) {
copy_subdev_string(dev_str, dev_ptr + strlen(dev_arg));
remove_substring(args, dev_arg);
remove_substring(args, dev_str);
LOG_I(HW, "[yunsdr] Using %s\n", dev_str);
}
const char auxdac1_arg[] = "auxdac1=";
char auxdac1_str[64] = {0};
char *auxdac1_ptr = strstr(args, auxdac1_arg);
if(auxdac1_ptr) {
copy_subdev_string(auxdac1_str, auxdac1_ptr + strlen(auxdac1_arg));
remove_substring(args, auxdac1_arg);
remove_substring(args, auxdac1_str);
auxdac1 = atoi(auxdac1_str);
LOG_I(HW, "[yunsdr] Setting auxdac1:%u\n", auxdac1);
}
if ((yunsdr->dev = yunsdr_open_device(dev_str)) == NULL ) {
LOG_E(HW, "[yunsdr] Failed to open yunsdr\n");
free(yunsdr);
return -1;
}
LOG_I(HW, "[yunsdr] Initializing openair0_device\n");
switch (openair0_cfg[0].clock_source) {
case external:
LOG_I(HW, "[yunsdr] clock_source: external\n");
yunsdr_set_ref_clock (yunsdr->dev, 0, EXTERNAL_REFERENCE);
yunsdr_set_pps_select (yunsdr->dev, 0, PPS_EXTERNAL_EN);
break;
case gpsdo:
LOG_I(HW, "[yunsdr] clock_source: gpsdo\n");
break;
case internal:
default:
yunsdr_set_ref_clock (yunsdr->dev, 0, INTERNAL_REFERENCE);
yunsdr_set_pps_select (yunsdr->dev, 0, PPS_INTERNAL_EN);
//yunsdr_set_vco_select (yunsdr->dev, 0, AUXDAC1);
LOG_I(HW, "[yunsdr] clock_source: internal\n");
break;
}
yunsdr_set_auxdac1 (yunsdr->dev, 0, auxdac1);
yunsdr_set_duplex_select (yunsdr->dev, 0, FDD);
yunsdr_set_trxsw_fpga_enable(yunsdr->dev, 0, 0);
yunsdr_set_rx_ant_enable (yunsdr->dev, 0, 1);
yunsdr_set_tx_fir_en_dis (yunsdr->dev, 0, 0);
yunsdr_set_rx_fir_en_dis (yunsdr->dev, 0, 0);
// RX port Initialize
if ((status = yunsdr_set_rx_lo_freq(yunsdr->dev, 0, (uint64_t)(openair0_cfg->rx_freq[0]))) < 0) {
LOG_E(HW, "[yunsdr] Failed to set RX frequency\n");
} else
LOG_I(HW, "[yunsdr] set RX frequency to %lu\n",(uint64_t)(openair0_cfg->rx_freq[0]));
if ((status = yunsdr_set_rx_sampling_freq(yunsdr->dev, 0, (uint32_t)(openair0_cfg->sample_rate))) < 0) {
LOG_E(HW, "[yunsdr] Failed to set RX sample rate\n");
} else
LOG_I(HW, "[yunsdr] set RX sample rate to %u\n", (uint32_t)(openair0_cfg->sample_rate));
if ((status = yunsdr_set_rx_rf_bandwidth(yunsdr->dev, 0, (uint32_t)(openair0_cfg->rx_bw))) < 0) {
LOG_E(HW, "[yunsdr] Failed to set RX bandwidth\n");
} else
LOG_I(HW, "[yunsdr] set RX bandwidth to %u\n",(uint32_t)(openair0_cfg->rx_bw));
if ((status = yunsdr_set_rx1_gain_control_mode(yunsdr->dev, 0, 0)) < 0){
LOG_E(HW, "[yunsdr] Failed to set RX1 Gain Control Mode\n");
} else
LOG_I(HW, "[yunsdr] set RX1 Gain Control Mode MGC\n");
if ((status = yunsdr_set_rx1_rf_gain(yunsdr->dev, 0, (uint32_t)(openair0_cfg->rx_gain[0] > 65?65:openair0_cfg->rx_gain[0]))) < 0) {
LOG_I(HW, "[yunsdr] Failed to set RX1 gain\n");
} else
LOG_I(HW, "[yunsdr] set RX1 gain to %u\n",(uint32_t)(openair0_cfg->rx_gain[0]));
if(yunsdr->rx_num_channels > 1) {
if ((status = yunsdr_set_rx2_gain_control_mode(yunsdr->dev, 0, 0)) < 0){
LOG_E(HW, "[yunsdr] Failed to set RX2 Gain Control Mode\n");
} else
LOG_I(HW, "[yunsdr] set RX2 Gain Control Mode MGC\n");
if ((status = yunsdr_set_rx2_rf_gain(yunsdr->dev, 0, (uint32_t)(openair0_cfg->rx_gain[1] > 65?65:openair0_cfg->rx_gain[1]))) < 0) {
LOG_E(HW, "[yunsdr] Failed to set RX2 gain\n");
} else
LOG_I(HW, "[yunsdr] set RX2 gain to %u\n",(uint32_t)(openair0_cfg->rx_gain[1]));
}
// TX port Initialize
if ((status = yunsdr_set_tx_lo_freq(yunsdr->dev, 0, (uint64_t)openair0_cfg->tx_freq[0])) < 0) {
LOG_E(HW, "[yunsdr] Failed to set TX frequency\n");
} else
LOG_I(HW, "[yunsdr] set TX Frequency to %lu\n", (uint64_t)openair0_cfg->tx_freq[0]);
if ((status = yunsdr_set_tx_sampling_freq(yunsdr->dev, 0, (uint32_t)openair0_cfg->sample_rate)) < 0) {
LOG_E(HW, "[yunsdr] Failed to set TX sample rate\n");
} else
LOG_I(HW, "[yunsdr] set TX sampling rate to %u\n", (uint32_t)openair0_cfg->sample_rate);
if ((status = yunsdr_set_tx_rf_bandwidth(yunsdr->dev, 0, (uint32_t)openair0_cfg->tx_bw)) <0) {
LOG_E(HW, "[yunsdr] Failed to set TX bandwidth\n");
} else
LOG_I(HW, "[yunsdr] set TX bandwidth to %u\n", (uint32_t)openair0_cfg->tx_bw);
int tx_gain = ((uint32_t)openair0_cfg->tx_gain[0] > 90?90:(uint32_t)openair0_cfg->tx_gain[0]);
if ((status = yunsdr_set_tx1_attenuation(yunsdr->dev, 0, (90 - tx_gain) * 1000)) < 0) {
LOG_E(HW, "[yunsdr] Failed to set TX1 gain\n");
} else
LOG_I(HW, "[yunsdr] set the TX1 gain to %d\n", (uint32_t)openair0_cfg->tx_gain[0]);
if(yunsdr->tx_num_channels > 1) {
tx_gain = ((uint32_t)openair0_cfg->tx_gain[1] > 90?90:(uint32_t)openair0_cfg->tx_gain[1]);
if ((status = yunsdr_set_tx2_attenuation(yunsdr->dev, 0, (90 - tx_gain) * 1000)) < 0) {
LOG_E(HW, "[yunsdr] Failed to set TX2 gain\n");
} else
LOG_I(HW, "[yunsdr] set the TX2 gain to %d\n", (uint32_t)openair0_cfg->tx_gain[1]);
}
yunsdr_enable_timestamp(yunsdr->dev, 0, 0);
usleep(5);
yunsdr_enable_timestamp(yunsdr->dev, 0, 1);
for(int i = 0; i < NCHAN_PER_DEV; i++) {
int ret = posix_memalign((void **)&cache_buf[i], 4096, BUFFER_SIZE);
if(ret) {
LOG_I(HW, "Failed to alloc memory\n");
return -1;
}
ret = posix_memalign((void **)&iq_buf[i], 4096, BUFFER_SIZE);
if(ret) {
LOG_I(HW, "Failed to alloc memory\n");
return -1;
}
}
device->Mod_id = num_devices++;
device->type = YUNSDR_DEV;
device->trx_start_func = trx_yunsdr_start;
device->trx_end_func = trx_yunsdr_end;
device->trx_read_func = trx_yunsdr_read;
device->trx_write_func = trx_yunsdr_write;
device->trx_get_stats_func = trx_yunsdr_get_stats;
device->trx_reset_stats_func = trx_yunsdr_reset_stats;
device->trx_stop_func = trx_yunsdr_stop;
device->trx_set_freq_func = trx_yunsdr_set_freq;
device->trx_set_gains_func = trx_yunsdr_set_gains;
device->openair0_cfg = openair0_cfg;
device->priv = (void *)yunsdr;
return 0;
}
/*@}*/
/*
* Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The OpenAirInterface Software Alliance licenses this file to You under
* the OAI Public License, Version 1.0 (the "License"); you may not use this file
* except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.openairinterface.org/?page_id=698
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*-------------------------------------------------------------------------------
* For more information about the OpenAirInterface (OAI) Software Alliance:
* contact@openairinterface.org
*/
/** yunsdr_lib.h
*
* Author: eric
* base on bladerf_lib.h
*/
#include "yunsdr_api_ss.h"
#include "common_lib.h"
/** @addtogroup _YUNSDR_PHY_RF_INTERFACE_
* @{
*/
/*! \brief YunSDR specific data structure */
typedef struct {
//! opaque YunSDR device struct. An empty ("") or NULL device identifier will result in the first encountered device being opened (using the first discovered backend)
YUNSDR_DESCRIPTOR *dev;
int16_t *rx_buffer;
int16_t *tx_buffer;
//! Sample rate
unsigned int sample_rate;
int rx_num_channels;
int tx_num_channels;
// --------------------------------
// Debug and output control
// --------------------------------
//! Number of underflows
int num_underflows;
//! Number of overflows
int num_overflows;
//! number of RX errors
int num_rx_errors;
//! Number of TX errors
int num_tx_errors;
//! timestamp of current TX
uint64_t tx_current_ts;
//! timestamp of current RX
uint64_t rx_current_ts;
//! number of TX samples
uint64_t tx_nsamps;
//! number of RX samples
uint64_t rx_nsamps;
//! number of TX count
uint64_t tx_count;
//! number of RX count
uint64_t rx_count;
//! timestamp of RX packet
openair0_timestamp rx_timestamp;
} yunsdr_state_t;
/*! \brief get current timestamp
*\param device the hardware to use
*/
openair0_timestamp trx_get_timestamp(openair0_device *device);
/*@}*/
#ifndef OPENAIRINTERFACE5G_LIMITS_H_
#define OPENAIRINTERFACE5G_LIMITS_H_
#if 1 /*defined(CBMIMO1) || defined(EXMIMO) || defined(OAI_USRP) || defined(OAI_LMSSDR) || defined(OAI_ADRV9371_ZC706)*/
#if 1 /*defined(CBMIMO1) || defined(EXMIMO) || defined(OAI_USRP) || defined(OAI_LMSSDR) || defined(OAI_ADRV9371_ZC706) || defined(OAI_YUNSDR)*/
# define NUMBER_OF_eNB_MAX 1
# define NUMBER_OF_gNB_MAX 1
# define NUMBER_OF_RU_MAX 2
......
Active_eNBs = ( "eNB-Eurecom-LTEBox");
# Asn1_verbosity, choice in: none, info, annoying
Asn1_verbosity = "none";
eNBs =
(
{
////////// Identification parameters:
eNB_ID = 0xe00;
cell_type = "CELL_MACRO_ENB";
eNB_name = "eNB-Eurecom-LTEBox";
// Tracking area code, 0x0000 and 0xfffe are reserved values
tracking_area_code = 1;
plmn_list = ( { mcc = 208; mnc = 93; mnc_length = 2; } );
tr_s_preference = "local_mac"
////////// Physical parameters:
component_carriers = (
{
node_function = "3GPP_eNODEB";
node_timing = "synch_to_ext_device";
node_synch_ref = 0;
frame_type = "FDD";
tdd_config = 3;
tdd_config_s = 0;
prefix_type = "NORMAL";
eutra_band = 7;
downlink_frequency = 2685000000L;
uplink_frequency_offset = -120000000;
Nid_cell = 0;
N_RB_DL = 50;
Nid_cell_mbsfn = 0;
nb_antenna_ports = 1;
nb_antennas_tx = 1;
nb_antennas_rx = 1;
tx_gain = 80;
rx_gain = 125;
pbch_repetition = "FALSE";
prach_root = 0;
prach_config_index = 0;
prach_high_speed = "DISABLE";
prach_zero_correlation = 1;
prach_freq_offset = 2;
pucch_delta_shift = 1;
pucch_nRB_CQI = 0;
pucch_nCS_AN = 0;
pucch_n1_AN = 0;
pdsch_referenceSignalPower = -27;
pdsch_p_b = 0;
pusch_n_SB = 1;
pusch_enable64QAM = "DISABLE";
pusch_hoppingMode = "interSubFrame";
pusch_hoppingOffset = 0;
pusch_groupHoppingEnabled = "ENABLE";
pusch_groupAssignment = 0;
pusch_sequenceHoppingEnabled = "DISABLE";
pusch_nDMRS1 = 1;
phich_duration = "NORMAL";
phich_resource = "ONESIXTH";
srs_enable = "DISABLE";
/* srs_BandwidthConfig =;
srs_SubframeConfig =;
srs_ackNackST =;
srs_MaxUpPts =;*/
pusch_p0_Nominal = -96;
pusch_alpha = "AL1";
pucch_p0_Nominal = -104;
msg3_delta_Preamble = 6;
pucch_deltaF_Format1 = "deltaF2";
pucch_deltaF_Format1b = "deltaF3";
pucch_deltaF_Format2 = "deltaF0";
pucch_deltaF_Format2a = "deltaF0";
pucch_deltaF_Format2b = "deltaF0";
rach_numberOfRA_Preambles = 64;
rach_preamblesGroupAConfig = "DISABLE";
/*
rach_sizeOfRA_PreamblesGroupA = ;
rach_messageSizeGroupA = ;
rach_messagePowerOffsetGroupB = ;
*/
rach_powerRampingStep = 4;
rach_preambleInitialReceivedTargetPower = -108;
rach_preambleTransMax = 10;
rach_raResponseWindowSize = 10;
rach_macContentionResolutionTimer = 48;
rach_maxHARQ_Msg3Tx = 4;
pcch_default_PagingCycle = 128;
pcch_nB = "oneT";
bcch_modificationPeriodCoeff = 2;
ue_TimersAndConstants_t300 = 1000;
ue_TimersAndConstants_t301 = 1000;
ue_TimersAndConstants_t310 = 1000;
ue_TimersAndConstants_t311 = 10000;
ue_TimersAndConstants_n310 = 20;
ue_TimersAndConstants_n311 = 1;
ue_TransmissionMode = 1;
//Parameters for SIB18
rxPool_sc_CP_Len = "normal";
rxPool_sc_Period = "sf40";
rxPool_data_CP_Len = "normal";
rxPool_ResourceConfig_prb_Num = 20;
rxPool_ResourceConfig_prb_Start = 5;
rxPool_ResourceConfig_prb_End = 44;
rxPool_ResourceConfig_offsetIndicator_present = "prSmall";
rxPool_ResourceConfig_offsetIndicator_choice = 0;
rxPool_ResourceConfig_subframeBitmap_present = "prBs40";
rxPool_ResourceConfig_subframeBitmap_choice_bs_buf = "00000000000000000000";
rxPool_ResourceConfig_subframeBitmap_choice_bs_size = 5;
rxPool_ResourceConfig_subframeBitmap_choice_bs_bits_unused = 0;
/* rxPool_dataHoppingConfig_hoppingParameter = 0;
rxPool_dataHoppingConfig_numSubbands = "ns1";
rxPool_dataHoppingConfig_rbOffset = 0;
rxPool_commTxResourceUC-ReqAllowed = "TRUE";
*/
// Parameters for SIB19
discRxPool_cp_Len = "normal"
discRxPool_discPeriod = "rf32"
discRxPool_numRetx = 1;
discRxPool_numRepetition = 2;
discRxPool_ResourceConfig_prb_Num = 5;
discRxPool_ResourceConfig_prb_Start = 3;
discRxPool_ResourceConfig_prb_End = 21;
discRxPool_ResourceConfig_offsetIndicator_present = "prSmall";
discRxPool_ResourceConfig_offsetIndicator_choice = 0;
discRxPool_ResourceConfig_subframeBitmap_present = "prBs40";
discRxPool_ResourceConfig_subframeBitmap_choice_bs_buf = "f0ffffffff";
discRxPool_ResourceConfig_subframeBitmap_choice_bs_size = 5;
discRxPool_ResourceConfig_subframeBitmap_choice_bs_bits_unused = 0;
}
);
srb1_parameters :
{
# timer_poll_retransmit = (ms) [5, 10, 15, 20,... 250, 300, 350, ... 500]
timer_poll_retransmit = 80;
# timer_reordering = (ms) [0,5, ... 100, 110, 120, ... ,200]
timer_reordering = 35;
# timer_reordering = (ms) [0,5, ... 250, 300, 350, ... ,500]
timer_status_prohibit = 0;
# poll_pdu = [4, 8, 16, 32 , 64, 128, 256, infinity(>10000)]
poll_pdu = 4;
# poll_byte = (kB) [25,50,75,100,125,250,375,500,750,1000,1250,1500,2000,3000,infinity(>10000)]
poll_byte = 99999;
# max_retx_threshold = [1, 2, 3, 4 , 6, 8, 16, 32]
max_retx_threshold = 4;
}
# ------- SCTP definitions
SCTP :
{
# Number of streams to use in input/output
SCTP_INSTREAMS = 2;
SCTP_OUTSTREAMS = 2;
};
////////// MME parameters:
mme_ip_address = ( { ipv4 = "127.0.1.100";
ipv6 = "192:168:30::17";
active = "yes";
preference = "ipv4";
}
);
enable_measurement_reports = "no";
///X2
enable_x2 = "no";
t_reloc_prep = 1000; /* unit: millisecond */
tx2_reloc_overall = 2000; /* unit: millisecond */
t_dc_prep = 1000; /* unit: millisecond */
t_dc_overall = 2000; /* unit: millisecond */
NETWORK_INTERFACES :
{
ENB_INTERFACE_NAME_FOR_S1_MME = "lo";
ENB_IPV4_ADDRESS_FOR_S1_MME = "127.0.1.1/24";
ENB_INTERFACE_NAME_FOR_S1U = "lo";
ENB_IPV4_ADDRESS_FOR_S1U = "127.0.1.1/24";
ENB_PORT_FOR_S1U = 2152; # Spec 2152
ENB_IPV4_ADDRESS_FOR_X2C = "127.0.1.1/24";
ENB_PORT_FOR_X2C = 36422; # Spec 36422
};
}
);
DU = (
{
DU_INTERFACE_NAME_FOR_F1U = "lo";
DU_IPV4_ADDRESS_FOR_F1U = "127.0.0.1/16";
DU_PORT_FOR_F1U = 22100;
F1_U_DU_TRANSPORT_TYPE = "TCP";
}
);
CU = (
{
CU_INTERFACE_NAME_FOR_F1U = "lo";
CU_IPV4_ADDRESS_FOR_F1U = "127.0.0.1"; //Address to search the DU
CU_PORT_FOR_F1U = 22100;
F1_U_CU_TRANSPORT_TYPE = "TCP"; // One of TCP/UDP/SCTP
DU_TYPE = "LTE";
}//,
// {
// CU_INTERFACE_NAME_FOR_F1U = "eth0";
// CU_IPV4_ADDRESS_FOR_F1U = "10.64.93.142"; //Address to search the DU
// CU_PORT_FOR_F1U = 2211;
// F1_U_CU_TRANSPORT_TYPE = "TCP"; // One of TCP/UDP/SCTP
// DU_TYPE = "WiFi";
// }
);
CU_BALANCING = "ALL";
MACRLCs = (
{
num_cc = 1;
tr_s_preference = "local_L1";
tr_n_preference = "local_RRC";
phy_test_mode = 0;
puSch10xSnr = 200;
puCch10xSnr = 200;
}
);
L1s = (
{
num_cc = 1;
tr_n_preference = "local_mac";
}
);
RUs = (
{
local_rf = "yes"
nb_tx = 1
nb_rx = 1
att_tx = 0
att_rx = 0;
bands = [7];
max_pdschReferenceSignalPower = -27;
max_rxgain = 125;
eNB_instances = [0];
sdr_addrs = "pciex:0";
}
);
NETWORK_CONTROLLER :
{
FLEXRAN_ENABLED = "no";
FLEXRAN_INTERFACE_NAME = "lo";
FLEXRAN_IPV4_ADDRESS = "127.0.0.1";
FLEXRAN_PORT = 2210;
FLEXRAN_CACHE = "/mnt/oai_agent_cache";
FLEXRAN_AWAIT_RECONF = "no";
};
THREAD_STRUCT = (
{
#three config for level of parallelism "PARALLEL_SINGLE_THREAD", "PARALLEL_RU_L1_SPLIT", or "PARALLEL_RU_L1_TRX_SPLIT"
parallel_config = "PARALLEL_SINGLE_THREAD";
#two option for worker "WORKER_DISABLE" or "WORKER_ENABLE"
worker_config = "WORKER_ENABLE";
}
);
/*
#example config for rfsimulator
rfsimulator :
{
serveraddr = "enb";
serverport = "4043";
options = ("saviq");
modelname = "AWGN";
IQfile = "/tmp/rfsimulator.iqs";
};
*/
log_config :
{
global_log_level ="info";
global_log_verbosity ="medium";
hw_log_level ="info";
hw_log_verbosity ="medium";
phy_log_level ="info";
phy_log_verbosity ="medium";
mac_log_level ="info";
mac_log_verbosity ="high";
rlc_log_level ="info";
rlc_log_verbosity ="medium";
pdcp_log_level ="info";
pdcp_log_verbosity ="medium";
rrc_log_level ="info";
rrc_log_verbosity ="medium";
};
Active_eNBs = ( "eNB-Eurecom-LTEBox");
# Asn1_verbosity, choice in: none, info, annoying
Asn1_verbosity = "none";
eNBs =
(
{
# real_time choice in {hard, rt-preempt, no}
real_time = "no";
////////// Identification parameters:
eNB_ID = 0xe01;
cell_type = "CELL_MACRO_ENB";
eNB_name = "eNB-Eurecom-LTEBox";
// Tracking area code, 0x0000 and 0xfffe are reserved values
tracking_area_code = 1;
plmn_list = (
{ mcc = 001; mnc = 01; mnc_length = 2; }
);
tr_s_preference = "local_mac"
////////// Physical parameters:
component_carriers = (
{
node_function = "eNodeB_3GPP";
node_timing = "synch_to_ext_device";
node_synch_ref = 0;
nb_antenna_ports = 1;
ue_TransmissionMode = 1;
frame_type = "FDD";
tdd_config = 3;
tdd_config_s = 0;
prefix_type = "NORMAL";
eutra_band = 7;
downlink_frequency = 2680000000L;
uplink_frequency_offset = -120000000;
Nid_cell = 0;
N_RB_DL = 50;
Nid_cell_mbsfn = 0;
nb_antennas_tx = 1;
nb_antennas_rx = 1;
prach_root = 0;
tx_gain = 90;
rx_gain = 125;
pbch_repetition = "FALSE";
prach_config_index = 0;
prach_high_speed = "DISABLE";
prach_zero_correlation = 1;
prach_freq_offset = 2;
pucch_delta_shift = 1;
pucch_nRB_CQI = 0;
pucch_nCS_AN = 0;
pucch_n1_AN = 0;
pdsch_referenceSignalPower = 0;//-29;
pdsch_p_b = 0;
pusch_n_SB = 1;
pusch_enable64QAM = "DISABLE";
pusch_hoppingMode = "interSubFrame";
pusch_hoppingOffset = 0;
pusch_groupHoppingEnabled = "ENABLE";
pusch_groupAssignment = 0;
pusch_sequenceHoppingEnabled = "DISABLE";
pusch_nDMRS1 = 1;
phich_duration = "NORMAL";
phich_resource = "ONESIXTH";
srs_enable = "DISABLE";
/*
srs_BandwidthConfig =;
srs_SubframeConfig =;
srs_ackNackST =;
srs_MaxUpPts =;
*/
pusch_p0_Nominal = -96;
pusch_alpha = "AL1";
pucch_p0_Nominal = -96;
msg3_delta_Preamble = 6;
pucch_deltaF_Format1 = "deltaF2";
pucch_deltaF_Format1b = "deltaF3";
pucch_deltaF_Format2 = "deltaF0";
pucch_deltaF_Format2a = "deltaF0";
pucch_deltaF_Format2b = "deltaF0";
rach_numberOfRA_Preambles = 64;
rach_preamblesGroupAConfig = "DISABLE";
/*
rach_sizeOfRA_PreamblesGroupA = ;
rach_messageSizeGroupA = ;
rach_messagePowerOffsetGroupB = ;
*/
rach_powerRampingStep = 4;
rach_preambleInitialReceivedTargetPower = -108;
rach_preambleTransMax = 10;
rach_raResponseWindowSize = 10;
rach_macContentionResolutionTimer = 48;
rach_maxHARQ_Msg3Tx = 4;
pcch_default_PagingCycle = 128;
pcch_nB = "oneT";
bcch_modificationPeriodCoeff = 2;
ue_TimersAndConstants_t300 = 1000;
ue_TimersAndConstants_t301 = 1000;
ue_TimersAndConstants_t310 = 1000;
ue_TimersAndConstants_t311 = 10000;
ue_TimersAndConstants_n310 = 20;
ue_TimersAndConstants_n311 = 1;
//Parameters for SIB18
rxPool_sc_CP_Len = "normal";
rxPool_sc_Period = "sf40";
rxPool_data_CP_Len = "normal";
rxPool_ResourceConfig_prb_Num = 20;
rxPool_ResourceConfig_prb_Start = 5;
rxPool_ResourceConfig_prb_End = 44;
rxPool_ResourceConfig_offsetIndicator_present = "prSmall";
rxPool_ResourceConfig_offsetIndicator_choice = 0;
rxPool_ResourceConfig_subframeBitmap_present = "prBs40";
rxPool_ResourceConfig_subframeBitmap_choice_bs_buf = "00000000000000000000";
rxPool_ResourceConfig_subframeBitmap_choice_bs_size = 5;
rxPool_ResourceConfig_subframeBitmap_choice_bs_bits_unused = 0;
/*
rxPool_dataHoppingConfig_hoppingParameter = 0;
rxPool_dataHoppingConfig_numSubbands = "ns1";
rxPool_dataHoppingConfig_rbOffset = 0;
rxPool_commTxResourceUC-ReqAllowed = "TRUE";
*/
// Parameters for SIB19
discRxPool_cp_Len = "normal"
discRxPool_discPeriod = "rf32"
discRxPool_numRetx = 1;
discRxPool_numRepetition = 2;
discRxPool_ResourceConfig_prb_Num = 5;
discRxPool_ResourceConfig_prb_Start = 3;
discRxPool_ResourceConfig_prb_End = 21;
discRxPool_ResourceConfig_offsetIndicator_present = "prSmall";
discRxPool_ResourceConfig_offsetIndicator_choice = 0;
discRxPool_ResourceConfig_subframeBitmap_present = "prBs40";
discRxPool_ResourceConfig_subframeBitmap_choice_bs_buf = "f0ffffffff";
discRxPool_ResourceConfig_subframeBitmap_choice_bs_size = 5;
discRxPool_ResourceConfig_subframeBitmap_choice_bs_bits_unused = 0;
//SSB central frequency of NR secondary cell group (for ENDC NSA)
nr_scg_ssb_freq = 641272;
}
);
srb1_parameters :
{
# timer_poll_retransmit = (ms) [5, 10, 15, 20,... 250, 300, 350, ... 500]
timer_poll_retransmit = 80;
# timer_reordering = (ms) [0,5, ... 100, 110, 120, ... ,200]
timer_reordering = 35;
# timer_reordering = (ms) [0,5, ... 250, 300, 350, ... ,500]
timer_status_prohibit = 0;
# poll_pdu = [4, 8, 16, 32 , 64, 128, 256, infinity(>10000)]
poll_pdu = 4;
# poll_byte = (kB) [25,50,75,100,125,250,375,500,750,1000,1250,1500,2000,3000,infinity(>10000)]
poll_byte = 99999;
# max_retx_threshold = [1, 2, 3, 4 , 6, 8, 16, 32]
max_retx_threshold = 4;
}
# ------- SCTP definitions
SCTP :
{
# Number of streams to use in input/output
SCTP_INSTREAMS = 2;
SCTP_OUTSTREAMS = 2;
};
enable_measurement_reports = "yes";
////////// MME parameters:
mme_ip_address = ( { ipv4 = "127.0.1.100";
ipv6 = "192:168:30::17";
active = "yes";
preference = "ipv4";
}
);
///X2
enable_x2 = "yes";
t_reloc_prep = 1000; /* unit: millisecond */
tx2_reloc_overall = 2000; /* unit: millisecond */
t_dc_prep = 1000; /* unit: millisecond */
t_dc_overall = 2000; /* unit: millisecond */
NETWORK_INTERFACES :
{
ENB_INTERFACE_NAME_FOR_S1_MME = "lo";
ENB_IPV4_ADDRESS_FOR_S1_MME = "127.0.0.1";
ENB_INTERFACE_NAME_FOR_S1U = "lo";
ENB_IPV4_ADDRESS_FOR_S1U = "127.0.0.1";
ENB_PORT_FOR_S1U = 2152; # Spec 2152
ENB_IPV4_ADDRESS_FOR_X2C = "127.0.0.1";
ENB_PORT_FOR_X2C = 36422; # Spec 36422
};
log_config :
{
global_log_level ="info";
global_log_verbosity ="high";
hw_log_level ="info";
hw_log_verbosity ="medium";
phy_log_level ="info";
phy_log_verbosity ="medium";
mac_log_level ="info";
mac_log_verbosity ="high";
rlc_log_level ="info";
rlc_log_verbosity ="high";
pdcp_log_level ="info";
pdcp_log_verbosity ="high";
rrc_log_level ="info";
rrc_log_verbosity ="medium";
};
}
);
MACRLCs = (
{
num_cc = 1;
tr_s_preference = "local_L1";
tr_n_preference = "local_RRC";
phy_test_mode = 0;
puSch10xSnr = 160;
puCch10xSnr = 160;
}
);
THREAD_STRUCT = (
{
parallel_config = "PARALLEL_SINGLE_THREAD";
#parallel_config = "PARALLEL_RU_L1_TRX_SPLIT";
worker_config = "WORKER_ENABLE";
}
);
L1s = (
{
num_cc = 1;
tr_n_preference = "local_mac";
}
);
RUs = (
{
local_rf = "yes"
nb_tx = 1
nb_rx = 1
att_tx = 85
att_rx = 0;
bands = [7];
max_pdschReferenceSignalPower = 0;//-27;
max_rxgain = 65;
eNB_instances = [0];
sdr_addrs = "dev=pciex:0,auxdac1=1632";
clock_src = "internal";
}
);
log_config :
{
global_log_level ="info";
global_log_verbosity ="high";
hw_log_level ="info";
hw_log_verbosity ="medium";
phy_log_level ="info";
phy_log_verbosity ="medium";
mac_log_level ="info";
mac_log_verbosity ="high";
rlc_log_level ="info";
rlc_log_verbosity ="high";
pdcp_log_level ="info";
pdcp_log_verbosity ="high";
rrc_log_level ="info";
rrc_log_verbosity ="medium";
};
Active_gNBs = ( "gNB-Eurecom-5GNRBox");
# Asn1_verbosity, choice in: none, info, annoying
Asn1_verbosity = "none";
gNBs =
(
{
////////// Identification parameters:
gNB_ID = 0xe00;
cell_type = "CELL_MACRO_GNB";
gNB_name = "gNB-Eurecom-5GNRBox";
// Tracking area code, 0x0000 and 0xfffe are reserved values
tracking_area_code = 1;
plmn_list = ({mcc = 001; mnc = 01; mnc_length = 2;});
tr_s_preference = "local_mac"
////////// Physical parameters:
ssb_SubcarrierOffset = 0;
pdsch_AntennaPorts = 1;
servingCellConfigCommon = (
{
#spCellConfigCommon
physCellId = 0;
# downlinkConfigCommon
#frequencyInfoDL
# this is 3600 MHz + 43 PRBs@30kHz SCS (same as initial BWP)
absoluteFrequencySSB = 641032;
dl_frequencyBand = 78;
# this is 3600 MHz
dl_absoluteFrequencyPointA = 640000;
#scs-SpecificCarrierList
dl_offstToCarrier = 0;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
dl_subcarrierSpacing = 1;
dl_carrierBandwidth = 106;
#initialDownlinkBWP
#genericParameters
# this is RBstart=0,L=50 (275*(L-1))+RBstart
initialDLBWPlocationAndBandwidth = 6366;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
initialDLBWPsubcarrierSpacing = 1;
#pdcch-ConfigCommon
initialDLBWPcontrolResourceSetZero = 12;
initialDLBWPsearchSpaceZero = 0;
#pdsch-ConfigCommon
#pdschTimeDomainAllocationList (up to 16 entries)
initialDLBWPk0_0 = 0;
#initialULBWPmappingType
#0=typeA,1=typeB
initialDLBWPmappingType_0 = 0;
#this is SS=1,L=13
initialDLBWPstartSymbolAndLength_0 = 40;
initialDLBWPk0_1 = 0;
initialDLBWPmappingType_1 = 0;
#this is SS=2,L=12
initialDLBWPstartSymbolAndLength_1 = 53;
initialDLBWPk0_2 = 0;
initialDLBWPmappingType_2 = 0;
#this is SS=1,L=12
initialDLBWPstartSymbolAndLength_2 = 54;
initialDLBWPk0_3 = 0;
initialDLBWPmappingType_3 = 0;
#this is SS=1,L=4
initialDLBWPstartSymbolAndLength_3 = 57;
#uplinkConfigCommon
#frequencyInfoUL
ul_frequencyBand = 78;
#scs-SpecificCarrierList
ul_offstToCarrier = 0;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
ul_subcarrierSpacing = 1;
ul_carrierBandwidth = 106;
pMax = 20;
#initialUplinkBWP
#genericParameters
initialULBWPlocationAndBandwidth = 6366;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
initialULBWPsubcarrierSpacing = 1;
#rach-ConfigCommon
#rach-ConfigGeneric
prach_ConfigurationIndex = 98;
#prach_msg1_FDM
#0 = one, 1=two, 2=four, 3=eight
prach_msg1_FDM = 0;
prach_msg1_FrequencyStart = 0;
zeroCorrelationZoneConfig = 13;
preambleReceivedTargetPower = -118;
#preamblTransMax (0...10) = (3,4,5,6,7,8,10,20,50,100,200)
preambleTransMax = 6;
#powerRampingStep
# 0=dB0,1=dB2,2=dB4,3=dB6
powerRampingStep = 1;
#ra_ReponseWindow
#1,2,4,8,10,20,40,80
ra_ResponseWindow = 4;
#ssb_perRACH_OccasionAndCB_PreamblesPerSSB_PR
#1=oneeighth,2=onefourth,3=half,4=one,5=two,6=four,7=eight,8=sixteen
ssb_perRACH_OccasionAndCB_PreamblesPerSSB_PR = 4;
#oneHalf (0..15) 4,8,12,16,...60,64
ssb_perRACH_OccasionAndCB_PreamblesPerSSB = 15;
#ra_ContentionResolutionTimer
#(0..7) 8,16,24,32,40,48,56,64
ra_ContentionResolutionTimer = 7;
rsrp_ThresholdSSB = 19;
#prach-RootSequenceIndex_PR
#1 = 839, 2 = 139
prach_RootSequenceIndex_PR = 2;
prach_RootSequenceIndex = 1;
# SCS for msg1, can only be 15 for 30 kHz < 6 GHz, takes precendence over the one derived from prach-ConfigIndex
#
msg1_SubcarrierSpacing = 1,
# restrictedSetConfig
# 0=unrestricted, 1=restricted type A, 2=restricted type B
restrictedSetConfig = 0,
# pusch-ConfigCommon (up to 16 elements)
initialULBWPk2_0 = 6;
initialULBWPmappingType_0 = 1
# this is SS=0 L=11
initialULBWPstartSymbolAndLength_0 = 55;
initialULBWPk2_1 = 6;
initialULBWPmappingType_1 = 1;
# this is SS=0 L=12
initialULBWPstartSymbolAndLength_1 = 69;
initialULBWPk2_2 = 7;
initialULBWPmappingType_2 = 1;
# this is SS=10 L=4
initialULBWPstartSymbolAndLength_2 = 52;
msg3_DeltaPreamble = 1;
p0_NominalWithGrant =-90;
# pucch-ConfigCommon setup :
# pucchGroupHopping
# 0 = neither, 1= group hopping, 2=sequence hopping
pucchGroupHopping = 0;
hoppingId = 40;
p0_nominal = -90;
# ssb_PositionsInBurs_BitmapPR
# 1=short, 2=medium, 3=long
ssb_PositionsInBurst_PR = 2;
ssb_PositionsInBurst_Bitmap = 1;
# ssb_periodicityServingCell
# 0 = ms5, 1=ms10, 2=ms20, 3=ms40, 4=ms80, 5=ms160, 6=spare2, 7=spare1
ssb_periodicityServingCell = 2;
# dmrs_TypeA_position
# 0 = pos2, 1 = pos3
dmrs_TypeA_Position = 0;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
subcarrierSpacing = 1;
#tdd-UL-DL-ConfigurationCommon
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
referenceSubcarrierSpacing = 1;
# pattern1
# dl_UL_TransmissionPeriodicity
# 0=ms0p5, 1=ms0p625, 2=ms1, 3=ms1p25, 4=ms2, 5=ms2p5, 6=ms5, 7=ms10
dl_UL_TransmissionPeriodicity = 6;
nrofDownlinkSlots = 7;
nrofDownlinkSymbols = 6;
nrofUplinkSlots = 2;
nrofUplinkSymbols = 4;
ssPBCH_BlockPower = 10;
}
);
# ------- SCTP definitions
SCTP :
{
# Number of streams to use in input/output
SCTP_INSTREAMS = 2;
SCTP_OUTSTREAMS = 2;
};
////////// MME parameters:
mme_ip_address = ( { ipv4 = "127.0.1.100";
ipv6 = "192:168:30::17";
active = "yes";
preference = "ipv4";
}
);
NETWORK_INTERFACES :
{
GNB_INTERFACE_NAME_FOR_S1_MME = "lo";
GNB_IPV4_ADDRESS_FOR_S1_MME = "127.0.0.1/24";
GNB_INTERFACE_NAME_FOR_S1U = "lo";
GNB_IPV4_ADDRESS_FOR_S1U = "127.0.0.1/24";
GNB_PORT_FOR_S1U = 2152; # Spec 2152
};
}
);
MACRLCs = (
{
num_cc = 1;
tr_s_preference = "local_L1";
tr_n_preference = "local_RRC";
}
);
L1s = (
{
num_cc = 1;
tr_n_preference = "local_mac";
}
);
RUs = (
{
local_rf = "yes"
nb_tx = 1
nb_rx = 1
att_tx = 85
att_rx = 0;
bands = [7];
#max_pdschReferenceSignalPower = -27;
max_pdschReferenceSignalPower = 0;
max_rxgain = 65;
eNB_instances = [0];
sdr_addrs = "dev=pciex:0,auxdac1=1632";
clock_src = "internel";
}
);
THREAD_STRUCT = (
{
#three config for level of parallelism "PARALLEL_SINGLE_THREAD", "PARALLEL_RU_L1_SPLIT", or "PARALLEL_RU_L1_TRX_SPLIT"
parallel_config = "PARALLEL_RU_L1_TRX_SPLIT";
#two option for worker "WORKER_DISABLE" or "WORKER_ENABLE"
worker_config = "WORKER_ENABLE";
}
);
log_config :
{
global_log_level ="info";
global_log_verbosity ="medium";
hw_log_level ="info";
hw_log_verbosity ="medium";
phy_log_level ="info";
phy_log_verbosity ="medium";
mac_log_level ="info";
mac_log_verbosity ="high";
rlc_log_level ="info";
rlc_log_verbosity ="medium";
pdcp_log_level ="info";
pdcp_log_verbosity ="medium";
rrc_log_level ="info";
rrc_log_verbosity ="medium";
};
Active_gNBs = ( "gNB-Eurecom-5GNRBox");
# Asn1_verbosity, choice in: none, info, annoying
Asn1_verbosity = "none";
gNBs =
(
{
////////// Identification parameters:
gNB_ID = 0xe00;
cell_type = "CELL_MACRO_GNB";
gNB_name = "gNB-Eurecom-5GNRBox";
// Tracking area code, 0x0000 and 0xfffe are reserved values
tracking_area_code = 1;
plmn_list = ({mcc = 208; mnc = 93; mnc_length = 2;});
tr_s_preference = "local_mac"
////////// Physical parameters:
ssb_SubcarrierOffset = 0;
pdsch_AntennaPorts = 1;
servingCellConfigCommon = (
{
#spCellConfigCommon
physCellId = 0;
# downlinkConfigCommon
#frequencyInfoDL
# this is 3600 MHz + 84 PRBs@30kHz SCS (same as initial BWP)
absoluteFrequencySSB = 642016;
dl_frequencyBand = 78;
# this is 3600 MHz
dl_absoluteFrequencyPointA = 640000;
#scs-SpecificCarrierList
dl_offstToCarrier = 0;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
dl_subcarrierSpacing = 1;
dl_carrierBandwidth = 217;
#initialDownlinkBWP
#genericParameters
# this is RBstart=84,L=50 (275*(L-1))+RBstart
initialDLBWPlocationAndBandwidth = 13559;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
initialDLBWPsubcarrierSpacing = 1;
#pdcch-ConfigCommon
initialDLBWPcontrolResourceSetZero = 12;
initialDLBWPsearchSpaceZero = 0;
#pdsch-ConfigCommon
#pdschTimeDomainAllocationList (up to 16 entries)
initialDLBWPk0_0 = 0;
#initialULBWPmappingType
#0=typeA,1=typeB
initialDLBWPmappingType_0 = 0;
#this is SS=1,L=13
initialDLBWPstartSymbolAndLength_0 = 40;
initialDLBWPk0_1 = 0;
initialDLBWPmappingType_1 = 0;
#this is SS=2,L=12
initialDLBWPstartSymbolAndLength_1 = 53;
initialDLBWPk0_2 = 0;
initialDLBWPmappingType_2 = 0;
#this is SS=1,L=12
initialDLBWPstartSymbolAndLength_2 = 54;
initialDLBWPk0_3 = 0;
initialDLBWPmappingType_3 = 0;
#this is SS=1,L=5
initialDLBWPstartSymbolAndLength_3 = 57;
#uplinkConfigCommon
#frequencyInfoUL
ul_frequencyBand = 78;
#scs-SpecificCarrierList
ul_offstToCarrier = 0;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
ul_subcarrierSpacing = 1;
ul_carrierBandwidth = 217;
pMax = 20;
#initialUplinkBWP
#genericParameters
initialULBWPlocationAndBandwidth = 13559;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
initialULBWPsubcarrierSpacing = 1;
#rach-ConfigCommon
#rach-ConfigGeneric
prach_ConfigurationIndex = 98;
#prach_msg1_FDM
#0 = one, 1=two, 2=four, 3=eight
prach_msg1_FDM = 0;
prach_msg1_FrequencyStart = 0;
zeroCorrelationZoneConfig = 13;
preambleReceivedTargetPower = -118;
#preamblTransMax (0...10) = (3,4,5,6,7,8,10,20,50,100,200)
preambleTransMax = 6;
#powerRampingStep
# 0=dB0,1=dB2,2=dB4,3=dB6
powerRampingStep = 1;
#ra_ReponseWindow
#1,2,4,8,10,20,40,80
ra_ResponseWindow = 4;
#ssb_perRACH_OccasionAndCB_PreamblesPerSSB_PR
#1=oneeighth,2=onefourth,3=half,4=one,5=two,6=four,7=eight,8=sixteen
ssb_perRACH_OccasionAndCB_PreamblesPerSSB_PR = 4;
#oneHalf (0..15) 4,8,12,16,...60,64
ssb_perRACH_OccasionAndCB_PreamblesPerSSB = 15;
#ra_ContentionResolutionTimer
#(0..7) 8,16,24,32,40,48,56,64
ra_ContentionResolutionTimer = 7;
rsrp_ThresholdSSB = 19;
#prach-RootSequenceIndex_PR
#1 = 839, 2 = 139
prach_RootSequenceIndex_PR = 2;
prach_RootSequenceIndex = 1;
# SCS for msg1, can only be 15 for 30 kHz < 6 GHz, takes precendence over the one derived from prach-ConfigIndex
#
msg1_SubcarrierSpacing = 1,
# restrictedSetConfig
# 0=unrestricted, 1=restricted type A, 2=restricted type B
restrictedSetConfig = 0,
# pusch-ConfigCommon (up to 16 elements)
initialULBWPk2_0 = 2;
initialULBWPmappingType_0 = 1
# this is SS=0 L=11
initialULBWPstartSymbolAndLength_0 = 55;
initialULBWPk2_1 = 2;
initialULBWPmappingType_1 = 1;
# this is SS=0 L=12
initialULBWPstartSymbolAndLength_1 = 69;
msg3_DeltaPreamble = 1;
p0_NominalWithGrant =-90;
# pucch-ConfigCommon setup :
# pucchGroupHopping
# 0 = neither, 1= group hopping, 2=sequence hopping
pucchGroupHopping = 0;
hoppingId = 40;
p0_nominal = -90;
# ssb_PositionsInBurs_BitmapPR
# 1=short, 2=medium, 3=long
ssb_PositionsInBurst_PR = 2;
ssb_PositionsInBurst_Bitmap = 255;
# ssb_periodicityServingCell
# 0 = ms5, 1=ms10, 2=ms20, 3=ms40, 4=ms80, 5=ms160, 6=spare2, 7=spare1
ssb_periodicityServingCell = 2;
# dmrs_TypeA_position
# 0 = pos2, 1 = pos3
dmrs_TypeA_Position = 0;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
subcarrierSpacing = 1;
#tdd-UL-DL-ConfigurationCommon
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
referenceSubcarrierSpacing = 1;
# pattern1
# dl_UL_TransmissionPeriodicity
# 0=ms0p5, 1=ms0p625, 2=ms1, 3=ms1p25, 4=ms2, 5=ms2p5, 6=ms5, 7=ms10
dl_UL_TransmissionPeriodicity = 6;
nrofDownlinkSlots = 7;
nrofDownlinkSymbols = 6;
nrofUplinkSlots = 2;
nrofUplinkSymbols = 4;
ssPBCH_BlockPower = 10;
}
);
# ------- SCTP definitions
SCTP :
{
# Number of streams to use in input/output
SCTP_INSTREAMS = 2;
SCTP_OUTSTREAMS = 2;
};
////////// MME parameters:
mme_ip_address = ( { ipv4 = "192.168.12.26";
ipv6 = "192:168:30::17";
active = "yes";
preference = "ipv4";
}
);
NETWORK_INTERFACES :
{
GNB_INTERFACE_NAME_FOR_S1_MME = "eth0";
GNB_IPV4_ADDRESS_FOR_S1_MME = "192.168.12.111/24";
GNB_INTERFACE_NAME_FOR_S1U = "eth0";
GNB_IPV4_ADDRESS_FOR_S1U = "192.168.12.111/24";
GNB_PORT_FOR_S1U = 2152; # Spec 2152
};
}
);
MACRLCs = (
{
num_cc = 1;
tr_s_preference = "local_L1";
tr_n_preference = "local_RRC";
}
);
L1s = (
{
num_cc = 1;
tr_n_preference = "local_mac";
}
);
RUs = (
{
local_rf = "yes"
nb_tx = 1
nb_rx = 1
att_tx = 85
att_rx = 0;
bands = [7];
max_pdschReferenceSignalPower = -27;
max_rxgain = 65;
eNB_instances = [0];
sdr_addrs = "dev=pciex:0,auxdac1=1632";
clock_src = "internel";
}
);
THREAD_STRUCT = (
{
#three config for level of parallelism "PARALLEL_SINGLE_THREAD", "PARALLEL_RU_L1_SPLIT", or "PARALLEL_RU_L1_TRX_SPLIT"
parallel_config = "PARALLEL_RU_L1_TRX_SPLIT";
#two option for worker "WORKER_DISABLE" or "WORKER_ENABLE"
worker_config = "WORKER_ENABLE";
}
);
log_config :
{
global_log_level ="info";
global_log_verbosity ="medium";
hw_log_level ="info";
hw_log_verbosity ="medium";
phy_log_level ="info";
phy_log_verbosity ="medium";
mac_log_level ="info";
mac_log_verbosity ="high";
rlc_log_level ="info";
rlc_log_verbosity ="medium";
pdcp_log_level ="info";
pdcp_log_verbosity ="medium";
rrc_log_level ="info";
rrc_log_verbosity ="medium";
};
Active_gNBs = ( "gNB-Eurecom-5GNRBox");
# Asn1_verbosity, choice in: none, info, annoying
Asn1_verbosity = "none";
gNBs =
(
{
////////// Identification parameters:
gNB_ID = 0xe00;
cell_type = "CELL_MACRO_GNB";
gNB_name = "gNB-Eurecom-5GNRBox";
// Tracking area code, 0x0000 and 0xfffe are reserved values
tracking_area_code = 1;
plmn_list = ({mcc = 001; mnc = 01; mnc_length = 2;});
tr_s_preference = "local_mac"
////////// Physical parameters:
ssb_SubcarrierOffset = 31; //0;
pdsch_AntennaPorts = 1;
servingCellConfigCommon = (
{
#spCellConfigCommon
physCellId = 0;
# downlinkConfigCommon
#frequencyInfoDL
# this is 3600 MHz + 84 PRBs@30kHz SCS (same as initial BWP)
absoluteFrequencySSB = 641272; //641032; #641968; 641968=start of ssb at 3600MHz + 82 RBs 641032=center of SSB at center of cell
dl_frequencyBand = 78;
# this is 3600 MHz
dl_absoluteFrequencyPointA = 640000;
#scs-SpecificCarrierList
dl_offstToCarrier = 0;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
dl_subcarrierSpacing = 1;
dl_carrierBandwidth = 106;
#initialDownlinkBWP
#genericParameters
# this is RBstart=84,L=13 (275*(L-1))+RBstart
initialDLBWPlocationAndBandwidth = 6366; //28875; //6366; #6407; #3384;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
initialDLBWPsubcarrierSpacing = 1;
#pdcch-ConfigCommon
initialDLBWPcontrolResourceSetZero = 0;
initialDLBWPsearchSpaceZero = 0;
#pdsch-ConfigCommon
#pdschTimeDomainAllocationList (up to 16 entries)
initialDLBWPk0_0 = 0;
#initialULBWPmappingType
#0=typeA,1=typeB
initialDLBWPmappingType_0 = 0;
#this is SS=1,L=13
initialDLBWPstartSymbolAndLength_0 = 40;
initialDLBWPk0_1 = 0;
initialDLBWPmappingType_1 = 0;
#this is SS=2,L=12
initialDLBWPstartSymbolAndLength_1 = 53;
initialDLBWPk0_2 = 0;
initialDLBWPmappingType_2 = 0;
#this is SS=1,L=12
initialDLBWPstartSymbolAndLength_2 = 54;
initialDLBWPk0_3 = 0;
initialDLBWPmappingType_3 = 0;
#this is SS=1,L=4 //5 (4 is for 43, 5 is for 57)
initialDLBWPstartSymbolAndLength_3 = 57; //43; //57;
#uplinkConfigCommon
#frequencyInfoUL
ul_frequencyBand = 78;
#scs-SpecificCarrierList
ul_offstToCarrier = 0;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
ul_subcarrierSpacing = 1;
ul_carrierBandwidth = 106;
pMax = 20;
#initialUplinkBWP
#genericParameters
initialULBWPlocationAndBandwidth = 6366; //28875; //6366; #6407; #3384;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
initialULBWPsubcarrierSpacing = 1;
#rach-ConfigCommon
#rach-ConfigGeneric
prach_ConfigurationIndex = 98;
#prach_msg1_FDM
#0 = one, 1=two, 2=four, 3=eight
prach_msg1_FDM = 0;
prach_msg1_FrequencyStart = 0;
zeroCorrelationZoneConfig = 13;
preambleReceivedTargetPower = -118;
#preamblTransMax (0...10) = (3,4,5,6,7,8,10,20,50,100,200)
preambleTransMax = 6;
#powerRampingStep
# 0=dB0,1=dB2,2=dB4,3=dB6
powerRampingStep = 1;
#ra_ReponseWindow
#1,2,4,8,10,20,40,80
ra_ResponseWindow = 5;
#ssb_perRACH_OccasionAndCB_PreamblesPerSSB_PR
#1=oneeighth,2=onefourth,3=half,4=one,5=two,6=four,7=eight,8=sixteen
ssb_perRACH_OccasionAndCB_PreamblesPerSSB_PR = 4;
#oneHalf (0..15) 4,8,12,16,...60,64
ssb_perRACH_OccasionAndCB_PreamblesPerSSB = 14; //15;
#ra_ContentionResolutionTimer
#(0..7) 8,16,24,32,40,48,56,64
ra_ContentionResolutionTimer = 7;
rsrp_ThresholdSSB = 19;
#prach-RootSequenceIndex_PR
#1 = 839, 2 = 139
prach_RootSequenceIndex_PR = 2;
prach_RootSequenceIndex = 1;
# SCS for msg1, can only be 15 for 30 kHz < 6 GHz, takes precendence over the one derived from prach-ConfigIndex
#
msg1_SubcarrierSpacing = 1,
# restrictedSetConfig
# 0=unrestricted, 1=restricted type A, 2=restricted type B
restrictedSetConfig = 0,
# pusch-ConfigCommon (up to 16 elements)
initialULBWPk2_0 = 2;
initialULBWPmappingType_0 = 1
# this is SS=0 L=11
initialULBWPstartSymbolAndLength_0 = 55;
initialULBWPk2_1 = 2;
initialULBWPmappingType_1 = 1;
# this is SS=0 L=12
initialULBWPstartSymbolAndLength_1 = 69;
initialULBWPk2_2 = 7;
initialULBWPmappingType_2 = 1;
# this is SS=10 L=4
initialULBWPstartSymbolAndLength_2 = 52;
msg3_DeltaPreamble = 1;
p0_NominalWithGrant =-90;
# pucch-ConfigCommon setup :
# pucchGroupHopping
# 0 = neither, 1= group hopping, 2=sequence hopping
pucchGroupHopping = 0;
hoppingId = 40;
p0_nominal = -90;
# ssb_PositionsInBurs_BitmapPR
# 1=short, 2=medium, 3=long
ssb_PositionsInBurst_PR = 2;
ssb_PositionsInBurst_Bitmap = 1; #0x80;
# ssb_periodicityServingCell
# 0 = ms5, 1=ms10, 2=ms20, 3=ms40, 4=ms80, 5=ms160, 6=spare2, 7=spare1
ssb_periodicityServingCell = 2;
# dmrs_TypeA_position
# 0 = pos2, 1 = pos3
dmrs_TypeA_Position = 0;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
subcarrierSpacing = 1;
#tdd-UL-DL-ConfigurationCommon
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
referenceSubcarrierSpacing = 1;
# pattern1
# dl_UL_TransmissionPeriodicity
# 0=ms0p5, 1=ms0p625, 2=ms1, 3=ms1p25, 4=ms2, 5=ms2p5, 6=ms5, 7=ms10
dl_UL_TransmissionPeriodicity = 6;
nrofDownlinkSlots = 7; //8; //7;
nrofDownlinkSymbols = 6; //0; //6;
nrofUplinkSlots = 2;
nrofUplinkSymbols = 4; //0; //4;
ssPBCH_BlockPower = 10;
}
);
# ------- SCTP definitions
SCTP :
{
# Number of streams to use in input/output
SCTP_INSTREAMS = 2;
SCTP_OUTSTREAMS = 2;
};
////////// MME parameters:
mme_ip_address = ( { ipv4 = "127.0.1.100";
ipv6 = "192:168:30::17";
active = "yes";
preference = "ipv4";
}
);
///X2
enable_x2 = "yes";
t_reloc_prep = 1000; /* unit: millisecond */
tx2_reloc_overall = 2000; /* unit: millisecond */
t_dc_prep = 1000; /* unit: millisecond */
t_dc_overall = 2000; /* unit: millisecond */
target_enb_x2_ip_address = (
{ ipv4 = "127.0.0.1";
ipv6 = "192:168:30::17";
preference = "ipv4";
}
);
NETWORK_INTERFACES :
{
GNB_INTERFACE_NAME_FOR_S1_MME = "lo";
GNB_IPV4_ADDRESS_FOR_S1_MME = "127.0.1.1";
GNB_INTERFACE_NAME_FOR_S1U = "lo";
GNB_IPV4_ADDRESS_FOR_S1U = "127.0.1.1";
GNB_PORT_FOR_S1U = 2152; # Spec 2152
GNB_IPV4_ADDRESS_FOR_X2C = "127.0.1.1";
GNB_PORT_FOR_X2C = 36422; # Spec 36422
};
}
);
MACRLCs = (
{
num_cc = 1;
tr_s_preference = "local_L1";
tr_n_preference = "local_RRC";
}
);
L1s = (
{
num_cc = 1;
tr_n_preference = "local_mac";
}
);
RUs = (
{
local_rf = "yes"
nb_tx = 1
nb_rx = 1
att_tx = 85
att_rx = 0;
bands = [7];
max_pdschReferenceSignalPower = -27;
max_rxgain = 65;
eNB_instances = [0];
sdr_addrs = "dev=pciex:1,auxdac1=1632";
clock_src = "external";
}
);
THREAD_STRUCT = (
{
#three config for level of parallelism "PARALLEL_SINGLE_THREAD", "PARALLEL_RU_L1_SPLIT", or "PARALLEL_RU_L1_TRX_SPLIT"
//parallel_config = "PARALLEL_RU_L1_TRX_SPLIT";
parallel_config = "PARALLEL_SINGLE_THREAD";
#two option for worker "WORKER_DISABLE" or "WORKER_ENABLE"
worker_config = "WORKER_ENABLE";
}
);
log_config :
{
global_log_level ="info";
global_log_verbosity ="medium";
hw_log_level ="info";
hw_log_verbosity ="medium";
phy_log_level ="info";
phy_log_verbosity ="medium";
mac_log_level ="info";
mac_log_verbosity ="high";
rlc_log_level ="info";
rlc_log_verbosity ="medium";
pdcp_log_level ="info";
pdcp_log_verbosity ="medium";
rrc_log_level ="info";
rrc_log_verbosity ="medium";
};
Active_gNBs = ( "gNB-Eurecom-5GNRBox");
# Asn1_verbosity, choice in: none, info, annoying
Asn1_verbosity = "none";
gNBs =
(
{
////////// Identification parameters:
gNB_ID = 0xe00;
cell_type = "CELL_MACRO_GNB";
gNB_name = "gNB-Eurecom-5GNRBox";
// Tracking area code, 0x0000 and 0xfffe are reserved values
tracking_area_code = 1;
plmn_list = ({mcc = 208; mnc = 92; mnc_length = 2;});
tr_s_preference = "local_mac"
////////// Physical parameters:
ssb_SubcarrierOffset = 0;
pdsch_AntennaPorts = 1;
pusch_AntennaPorts = 1;
pdcch_ConfigSIB1 = (
{
controlResourceSetZero = 12;
searchSpaceZero = 0;
}
);
servingCellConfigCommon = (
{
#spCellConfigCommon
physCellId = 0;
# downlinkConfigCommon
#frequencyInfoDL
# this is 3600 MHz + 43 PRBs@30kHz SCS (same as initial BWP)
absoluteFrequencySSB = 641280;
dl_frequencyBand = 78;
# this is 3600 MHz
dl_absoluteFrequencyPointA = 640008;
#scs-SpecificCarrierList
dl_offstToCarrier = 0;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
dl_subcarrierSpacing = 1;
dl_carrierBandwidth = 106;
#initialDownlinkBWP
#genericParameters
# this is RBstart=27,L=48 (275*(L-1))+RBstart
initialDLBWPlocationAndBandwidth = 12952; # 6366 12925 12956 28875 12952
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
initialDLBWPsubcarrierSpacing = 1;
#pdcch-ConfigCommon
initialDLBWPcontrolResourceSetZero = 12;
initialDLBWPsearchSpaceZero = 0;
#pdsch-ConfigCommon
#pdschTimeDomainAllocationList (up to 16 entries)
initialDLBWPk0_0 = 0;
#initialULBWPmappingType
#0=typeA,1=typeB
initialDLBWPmappingType_0 = 0;
#this is SS=1,L=13
initialDLBWPstartSymbolAndLength_0 = 40;
initialDLBWPk0_1 = 0;
initialDLBWPmappingType_1 = 0;
#this is SS=2,L=12
initialDLBWPstartSymbolAndLength_1 = 53;
initialDLBWPk0_2 = 0;
initialDLBWPmappingType_2 = 0;
#this is SS=1,L=12
initialDLBWPstartSymbolAndLength_2 = 54;
initialDLBWPk0_3 = 0;
initialDLBWPmappingType_3 = 0;
#this is SS=1,L=5
initialDLBWPstartSymbolAndLength_3 = 57;
#uplinkConfigCommon
#frequencyInfoUL
ul_frequencyBand = 78;
#scs-SpecificCarrierList
ul_offstToCarrier = 0;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
ul_subcarrierSpacing = 1;
ul_carrierBandwidth = 106;
pMax = 20;
#initialUplinkBWP
#genericParameters
initialULBWPlocationAndBandwidth = 12952;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
initialULBWPsubcarrierSpacing = 1;
#rach-ConfigCommon
#rach-ConfigGeneric
prach_ConfigurationIndex = 98;
#prach_msg1_FDM
#0 = one, 1=two, 2=four, 3=eight
prach_msg1_FDM = 0;
prach_msg1_FrequencyStart = 0;
zeroCorrelationZoneConfig = 13;
preambleReceivedTargetPower = -96;
#preamblTransMax (0...10) = (3,4,5,6,7,8,10,20,50,100,200)
preambleTransMax = 6;
#powerRampingStep
# 0=dB0,1=dB2,2=dB4,3=dB6
powerRampingStep = 1;
#ra_ReponseWindow
#1,2,4,8,10,20,40,80
ra_ResponseWindow = 4;
#ssb_perRACH_OccasionAndCB_PreamblesPerSSB_PR
#1=oneeighth,2=onefourth,3=half,4=one,5=two,6=four,7=eight,8=sixteen
ssb_perRACH_OccasionAndCB_PreamblesPerSSB_PR = 4;
#oneHalf (0..15) 4,8,12,16,...60,64
ssb_perRACH_OccasionAndCB_PreamblesPerSSB = 14;
#ra_ContentionResolutionTimer
#(0..7) 8,16,24,32,40,48,56,64
ra_ContentionResolutionTimer = 7;
rsrp_ThresholdSSB = 19;
#prach-RootSequenceIndex_PR
#1 = 839, 2 = 139
prach_RootSequenceIndex_PR = 2;
prach_RootSequenceIndex = 1;
# SCS for msg1, can only be 15 for 30 kHz < 6 GHz, takes precendence over the one derived from prach-ConfigIndex
#
msg1_SubcarrierSpacing = 1,
# restrictedSetConfig
# 0=unrestricted, 1=restricted type A, 2=restricted type B
restrictedSetConfig = 0,
# pusch-ConfigCommon (up to 16 elements)
initialULBWPk2_0 = 6;
initialULBWPmappingType_0 = 1
# this is SS=0 L=11
initialULBWPstartSymbolAndLength_0 = 55;
initialULBWPk2_1 = 6;
initialULBWPmappingType_1 = 1;
# this is SS=0 L=12
initialULBWPstartSymbolAndLength_1 = 69;
initialULBWPk2_2 = 7;
initialULBWPmappingType_2 = 1;
# this is SS=10 L=4
initialULBWPstartSymbolAndLength_2 = 52;
msg3_DeltaPreamble = 1;
p0_NominalWithGrant =-90;
# pucch-ConfigCommon setup :
# pucchGroupHopping
# 0 = neither, 1= group hopping, 2=sequence hopping
pucchGroupHopping = 0;
hoppingId = 40;
p0_nominal = -90;
# ssb_PositionsInBurs_BitmapPR
# 1=short, 2=medium, 3=long
ssb_PositionsInBurst_PR = 2;
ssb_PositionsInBurst_Bitmap = 1;
# ssb_periodicityServingCell
# 0 = ms5, 1=ms10, 2=ms20, 3=ms40, 4=ms80, 5=ms160, 6=spare2, 7=spare1
ssb_periodicityServingCell = 2;
# dmrs_TypeA_position
# 0 = pos2, 1 = pos3
dmrs_TypeA_Position = 0;
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
subcarrierSpacing = 1;
#tdd-UL-DL-ConfigurationCommon
# subcarrierSpacing
# 0=kHz15, 1=kHz30, 2=kHz60, 3=kHz120
referenceSubcarrierSpacing = 1;
# pattern1
# dl_UL_TransmissionPeriodicity
# 0=ms0p5, 1=ms0p625, 2=ms1, 3=ms1p25, 4=ms2, 5=ms2p5, 6=ms5, 7=ms10
dl_UL_TransmissionPeriodicity = 6;
nrofDownlinkSlots = 7;
nrofDownlinkSymbols = 6;
nrofUplinkSlots = 2;
nrofUplinkSymbols = 4;
ssPBCH_BlockPower = -25;
}
);
# ------- SCTP definitions
SCTP :
{
# Number of streams to use in input/output
SCTP_INSTREAMS = 2;
SCTP_OUTSTREAMS = 2;
};
////////// MME parameters:
mme_ip_address = ( { ipv4 = "192.168.12.26";
ipv6 = "192:168:30::17";
active = "yes";
preference = "ipv4";
}
);
///X2
enable_x2 = "no";
t_reloc_prep = 1000; /* unit: millisecond */
tx2_reloc_overall = 2000; /* unit: millisecond */
t_dc_prep = 1000; /* unit: millisecond */
t_dc_overall = 2000; /* unit: millisecond */
target_enb_x2_ip_address = (
{ ipv4 = "CI_FR1_CTL_ENB_IP_ADDR";
ipv6 = "192:168:30::17";
preference = "ipv4";
}
);
NETWORK_INTERFACES :
{
GNB_INTERFACE_NAME_FOR_S1_MME = "eth0";
GNB_IPV4_ADDRESS_FOR_S1_MME = "CI_GNB_IP_ADDR";
GNB_INTERFACE_NAME_FOR_S1U = "eth0";
GNB_IPV4_ADDRESS_FOR_S1U = "CI_GNB_IP_ADDR";
GNB_PORT_FOR_S1U = 2152; # Spec 2152
GNB_IPV4_ADDRESS_FOR_X2C = "CI_GNB_IP_ADDR";
GNB_PORT_FOR_X2C = 36422; # Spec 36422
};
}
);
MACRLCs = (
{
num_cc = 1;
tr_s_preference = "local_L1";
tr_n_preference = "local_RRC";
}
);
L1s = (
{
num_cc = 1;
tr_n_preference = "local_mac";
pusch_proc_threads = 8;
}
);
RUs = (
{
local_rf = "yes"
nb_tx = 1
nb_rx = 1
att_tx = 85
att_rx = 0;
bands = [7];
max_pdschReferenceSignalPower = -27;
max_rxgain = 65;
eNB_instances = [0];
#beamforming 1x4 matrix:
bf_weights = [0x00007fff, 0x0000, 0x0000, 0x0000];
sdr_addrs = "dev=pciex:0,auxdac1=1632";
clock_src = "internal";
}
);
THREAD_STRUCT = (
{
#three config for level of parallelism "PARALLEL_SINGLE_THREAD", "PARALLEL_RU_L1_SPLIT", or "PARALLEL_RU_L1_TRX_SPLIT"
parallel_config = "PARALLEL_SINGLE_THREAD";
#two option for worker "WORKER_DISABLE" or "WORKER_ENABLE"
worker_config = "WORKER_ENABLE";
}
);
rfsimulator :
{
serveraddr = "server";
serverport = "4043";
options = (); #("saviq"); or/and "chanmod"
modelname = "AWGN";
IQfile = "/tmp/rfsimulator.iqs";
};
log_config :
{
global_log_level ="info";
global_log_verbosity ="medium";
hw_log_level ="info";
hw_log_verbosity ="medium";
phy_log_level ="info";
phy_log_verbosity ="medium";
mac_log_level ="info";
mac_log_verbosity ="high";
rlc_log_level ="info";
rlc_log_verbosity ="medium";
pdcp_log_level ="info";
pdcp_log_verbosity ="medium";
rrc_log_level ="info";
rrc_log_verbosity ="medium";
};
......@@ -80,6 +80,7 @@
#define CONFIG_HLP_PRB "Set the PRB, valid values: 6, 25, 50, 100 \n"
#define CONFIG_HLP_DLSHIFT "dynamic shift for LLR compuation for TM3/4 (default 0)\n"
#define CONFIG_HLP_USRP_ARGS "set the arguments to identify USRP (same syntax as in UHD)\n"
#define CONFIG_HLP_YUNSDR_ARGS "set the arguments to identify YUNSDR\n"
#define CONFIG_HLP_DMAMAP "sets flag for improved EXMIMO UE performance\n"
#define CONFIG_HLP_TDD "Set hardware to TDD mode (default: FDD). Used only with -U (otherwise set in config file).\n"
#define CONFIG_HLP_TADV "Set timing_advance\n"
......@@ -113,6 +114,7 @@
{"r" , CONFIG_HLP_PRB, 0, u8ptr:&(frame_parms[0]->N_RB_DL), defintval:25, TYPE_UINT8, 0}, \
{"dlsch-demod-shift", CONFIG_HLP_DLSHIFT, 0, iptr:(int32_t *)&dlsch_demod_shift, defintval:0, TYPE_INT, 0}, \
{"usrp-args", CONFIG_HLP_USRP_ARGS, 0, strptr:(char **)&usrp_args, defstrval:"type=b200",TYPE_STRING, 0}, \
{"yunsdr-args", CONFIG_HLP_YUNSDR_ARGS, 0, strptr:(char **)&yunsdr_args, defstrval:"dev=pciex:0",TYPE_STRING, 0}, \
{"mmapped-dma", CONFIG_HLP_DMAMAP, PARAMFLAG_BOOL, uptr:&mmapped_dma, defintval:0, TYPE_INT, 0}, \
{"T" , CONFIG_HLP_TDD, PARAMFLAG_BOOL, iptr:&tddflag, defintval:0, TYPE_INT, 0}, \
{"A", CONFIG_HLP_TADV, 0, iptr:&(timingadv), defintval:0, TYPE_INT, 0} \
......
......@@ -174,6 +174,8 @@ int transmission_mode=1;
char *usrp_args=NULL;
char *usrp_clksrc=NULL;
char *yunsdr_args=NULL;
THREAD_STRUCT thread_struct;
/* struct for ethernet specific parameters given in eNB conf file */
eth_params_t *eth_params;
......@@ -490,6 +492,7 @@ void init_openair0(LTE_DL_FRAME_PARMS *frame_parms,int rxgain) {
}
if (usrp_args) openair0_cfg[card].sdr_addrs = usrp_args;
else if (yunsdr_args) openair0_cfg[card].sdr_addrs = yunsdr_args;
}
}
......
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