srsRAN_4G
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Published
20 hours ago •
srsran
srsran
EnodeB problem or lime configuration ?
trafficstars
Issue Description
Hello everyone, I've tried to setup working srsRAN network. I stucked on EnodeB when I try to run it.
Setup Details
- Well, I do everything on MacBook Pro M1, using Parallels. I installed Focal Ubuntu version arm64. Next, I installed required tools to working with LimeSDR-mini, then as in the official documentation, I did:
- required libraries for Ubuntu:
sudo apt-get install build-essential cmake libfftw3-dev libmbedtls-dev libboost-program-options-dev libconfig++-dev libsctp-dev
-Download and build srsRAN:
git clone https://github.com/srsRAN/srsRAN.git
cd srsRAN
mkdir build
cd build
cmake ../
make
make test
Install srsRAN:
sudo make install
sudo srsran_install_configs.sh service
I installed configuration files in /etc/srsran, also change paths of sib.conf, rr.conf and rb.conf (no warrning messages now)
Expected Behavior
I would like to start ENB. I think (maybee I'am wrong) it's something wrong with antenas configuration or transmission mode itd.
Actual Behaviour
At the end program says : " Error starting Tx streaming." but the whole resposne is:
--- Software Radio Systems LTE eNodeB ---
Reading configuration file /etc/srsran/enb.conf...
WARNING: Could not verify cpu0 scaling governor
WARNING: Could not verify cpu1 scaling governor
WARNING: Could not verify cpu2 scaling governor
Built in Release mode using commit 5275f3336 on branch master.
/home/srsran/srsRAN/srsenb/src/enb_cfg_parser.cc:1216: Force DL EARFCN for cell PCI=1 to 6200
Opening 1 channels in RF device=soapy with args=rxant=LNAW,txant=BAND1
Available RF device list: soapy
[INFO] [UHD] linux; GNU C++ version 9.2.1 20200228; Boost_107100; UHD_3.15.0.0-2build5
Soapy has found device #0: default_input=True, default_output=True, device_id=0, driver=audio, label=hw:HDA Intel,0,
Soapy has found device #1: default_input=False, default_output=False, device_id=1, driver=audio, label=default,
Soapy has found device #2: addr=24607:1027, driver=lime, label=LimeSDR Mini [USB 3.0] 1D5386F3C5B8BB, media=USB 3.0, module=FT601, name=LimeSDR Mini, serial=1D5386F3C5B8BB,
Selecting Soapy device: 0
Setting up Rx stream with 1 channel(s)
[INFO] Using format CF32.
Available device sensors:
Available sensors for Rx channel 0:
Setting Rx channel 0 antenna to LNAW
Setting Tx channel 0 antenna to BAND1
State of gain elements for Rx channel 0 (AGC supported):
State of gain elements for Tx channel 0 (AGC supported):
Rx antenna set to RX
Tx antenna set to RX
==== eNodeB started ===
Type <t> to view trace
Setting frequency: DL=796.0 Mhz, UL=837.0 MHz for cc_idx=0 nof_prb=50
Error starting Tx streaming.
Steps to reproduce the problem
1. /etc/srsran/enb.conf
#####################################################################
# srsENB configuration file
#####################################################################
#####################################################################
# eNB configuration
#
# enb_id: 20-bit eNB identifier.
# mcc: Mobile Country Code
# mnc: Mobile Network Code
# mme_addr: IP address of MME for S1 connnection
# gtp_bind_addr: Local IP address to bind for GTP connection
# gtp_advertise_addr: IP address of eNB to advertise for DL GTP-U Traffic
# s1c_bind_addr: Local IP address to bind for S1AP connection
# s1c_bind_port: Source port for S1AP connection (0 means any)
# n_prb: Number of Physical Resource Blocks (6,15,25,50,75,100)
# tm: Transmission mode 1-4 (TM1 default)
# nof_ports: Number of Tx ports (1 port default, set to 2 for TM2/3/4)
#
#####################################################################
[enb]
enb_id = 0x19B
mcc = 260
mnc = 50
mme_addr = 127.0.1.100
gtp_bind_addr = 127.0.1.1
s1c_bind_addr = 127.0.1.1
s1c_bind_port = 0
n_prb = 50
#tm = 4
#nof_ports = 2
#####################################################################
# eNB configuration files
#
# sib_config: SIB1, SIB2 and SIB3 configuration file
# note: When enabling MBMS, use the sib.conf.mbsfn configuration file which includes SIB13
# rr_config: Radio Resources configuration file
# rb_config: SRB/DRB configuration file
#####################################################################
[enb_files]
sib_config = /etc/srsran/sib.conf
rr_config = /etc/srsran/rr.conf
rb_config = /etc/srsran/rb.conf
#####################################################################
# RF configuration
#
# dl_earfcn: EARFCN code for DL (only valid if a single cell is configured in rr.conf)
# tx_gain: Transmit gain (dB).
# rx_gain: Optional receive gain (dB). If disabled, AGC if enabled
#
# Optional parameters:
# dl_freq: Override DL frequency corresponding to dl_earfcn
# ul_freq: Override UL frequency corresponding to dl_earfcn (must be set if dl_freq is set)
# device_name: Device driver family
# Supported options: "auto" (uses first driver found), "UHD", "bladeRF", "soapy", "zmq" or "Sidekiq"
# device_args: Arguments for the device driver. Options are "auto" or any string.
# Default for UHD: "recv_frame_size=9232,send_frame_size=9232"
# Default for bladeRF: ""
# time_adv_nsamples: Transmission time advance (in number of samples) to compensate for RF delay
# from antenna to timestamp insertion.
# Default "auto". B210 USRP: 100 samples, bladeRF: 27
#####################################################################
[rf]
dl_earfcn = 6200
tx_gain = 56
rx_gain = 38
device_name = soapy
device_args = rxant=LNAW,txant=BAND1
# For best performance in 2x2 MIMO and >= 15 MHz use the following device_args settings:
# USRP B210: num_recv_frames=64,num_send_frames=64
# And for 75 PRBs, also append ",master_clock_rate=15.36e6" to the device args
# For best performance when BW<5 MHz (25 PRB), use the following device_args settings:
# USRP B210: send_frame_size=512,recv_frame_size=512
#time_adv_nsamples = auto
# Example for ZMQ-based operation with TCP transport for I/Q samples
#device_name = zmq
#device_args = fail_on_disconnect=true,tx_port=tcp://*:2000,rx_port=tcp://localhost:2001,id=enb,base_srate=23.04e6
#####################################################################
# Packet capture configuration
#
# MAC-layer packets are captured to a file in the compact format which can
# be decoded by Wireshark. For decoding, use the UDP dissector and the UDP
# heuristic dissection. Edit the preferences (Edit > Preferences >
# Protocols > DLT_USER) for DLT_USER to add an entry for DLT=149 with
# Protocol=udp. Further, enable the heuristic dissection in UDP under:
# Analyze > Enabled Protocols > MAC-LTE > mac_lte_udp and MAC-NR > mac_nr_udp
# For more information see: https://wiki.wireshark.org/MAC-LTE
# Configuring this Wireshark preferences is needed for decoding the MAC PCAP
# files as well as for the live network capture option.
#
# Please note that this setting will by default only capture MAC
# frames on dedicated channels, and not SIB. You have to build with
# WRITE_SIB_PCAP enabled in srsenb/src/stack/mac/mac.cc if you want
# SIB to be part of the MAC pcap file.
#
# S1AP Packets are captured to a file in the compact format which can
# be decoded by the Wireshark s1ap dissector with DLT 150.
# To use the dissector, edit the preferences for DLT_USER to
# add an entry with DLT=150, Payload Protocol=s1ap.
#
# mac_enable: Enable MAC layer packet captures (true/false)
# mac_filename: File path to use for packet captures
# s1ap_enable: Enable or disable the PCAP.
# s1ap_filename: File name where to save the PCAP.
#
# mac_net_enable: Enable MAC layer packet captures sent over the network (true/false default: false)
# bind_ip: Bind IP address for MAC network trace (default: "0.0.0.0")
# bind_port: Bind port for MAC network trace (default: 5687)
# client_ip: Client IP address for MAC network trace (default: "127.0.0.1")
# client_port Client IP address for MAC network trace (default: 5847)
#####################################################################
[pcap]
enable = false
filename = /tmp/enb.pcap
s1ap_enable = false
s1ap_filename = /tmp/enb_s1ap.pcap
mac_net_enable = false
bind_ip = 0.0.0.0
bind_port = 5687
client_ip = 127.0.0.1
client_port = 5847
#####################################################################
# Log configuration
#
# Log levels can be set for individual layers. "all_level" sets log
# level for all layers unless otherwise configured.
# Format: e.g. phy_level = info
#
# In the same way, packet hex dumps can be limited for each level.
# "all_hex_limit" sets the hex limit for all layers unless otherwise
# configured.
# Format: e.g. phy_hex_limit = 32
#
# Logging layers: rf, phy, phy_lib, mac, rlc, pdcp, rrc, gtpu, s1ap, stack, all
# Logging levels: debug, info, warning, error, none
#
# filename: File path to use for log output. Can be set to stdout
# to print logs to standard output
# file_max_size: Maximum file size (in kilobytes). When passed, multiple files are created.
# If set to negative, a single log file will be created.
#####################################################################
[log]
all_level = warning
all_hex_limit = 32
filename = /tmp/enb.log
file_max_size = -1
[gui]
enable = false
#####################################################################
# Scheduler configuration options
#
# sched_policy: User MAC scheduling policy (E.g. time_rr, time_pf)
# min_aggr_level: Optional minimum aggregation level index (l=log2(L) can be 0, 1, 2 or 3)
# max_aggr_level: Optional maximum aggregation level index (l=log2(L) can be 0, 1, 2 or 3)
# adaptive_aggr_level: Boolean flag to enable/disable adaptive aggregation level based on target BLER
# pdsch_mcs: Optional fixed PDSCH MCS (ignores reported CQIs if specified)
# pdsch_max_mcs: Optional PDSCH MCS limit
# pusch_mcs: Optional fixed PUSCH MCS (ignores reported CQIs if specified)
# pusch_max_mcs: Optional PUSCH MCS limit
# min_nof_ctrl_symbols: Minimum number of control symbols
# max_nof_ctrl_symbols: Maximum number of control symbols
# pucch_multiplex_enable: Allow PUCCH HARQ to collide with PUSCH and other PUCCH
# pucch_harq_max_rb: Maximum number of RB to be used for PUCCH on the edges of the grid.
# If defined and greater than 0, the scheduler will avoid DL PDCCH allocations if
# PUCCH HARQ falls outside this region
# target_bler: Target BLER (in decimal) to achieve via adaptive link
# max_delta_dl_cqi: Maximum shift in CQI for adaptive DL link
# max_delta_ul_snr: Maximum shift in UL SNR for adaptive UL link
# adaptive_dl_mcs_step_size: Step size or learning rate used in adaptive DL MCS link
# adaptive_ul_mcs_step_size: Step size or learning rate used in adaptive UL MCS link
# min_tpc_tti_interval: Minimum TTI interval between TPCs different than 1
# ul_snr_avg_alpha: Exponential Average alpha coefficient used in estimation of UL SNR
# init_ul_snr_value: Initial UL SNR value used for computing MCS in the first UL grant
# init_dl_cqi: DL CQI value used before any CQI report is available to the eNB
# max_sib_coderate: Upper bound on SIB and RAR grants coderate
# pdcch_cqi_offset: CQI offset in derivation of PDCCH aggregation level
# nr_pdsch_mcs: Optional fixed NR PDSCH MCS (ignores reported CQIs if specified)
# nr_pusch_mcs: Optional fixed NR PUSCH MCS (ignores reported CQIs if specified)
#
#####################################################################
[scheduler]
#policy = time_pf
#policy_args = 2
#min_aggr_level = 0
#max_aggr_level = 3
#adaptive_aggr_level = false
#pdsch_mcs = -1
#pdsch_max_mcs = -1
#pusch_mcs = -1
#pusch_max_mcs = 16
#min_nof_ctrl_symbols = 1
#max_nof_ctrl_symbols = 3
#pucch_multiplex_enable = false
#pucch_harq_max_rb = 0
#target_bler = 0.05
#max_delta_dl_cqi = 5
#max_delta_ul_snr = 5
#adaptive_dl_mcs_step_size = 0.001
#adaptive_ul_mcs_step_size = 0.001
#min_tpc_tti_interval = 1
#ul_snr_avg_alpha=0.05
#init_ul_snr_value=5
#init_dl_cqi=5
#max_sib_coderate=0.3
#pdcch_cqi_offset=0
#nr_pdsch_mcs=28
#nr_pusch_mcs=28
#####################################################################
# eMBMS configuration options
#
# enable: Enable MBMS transmission in the eNB
# m1u_multiaddr: Multicast address the M1-U socket will register to
# m1u_if_addr: Address of the interface the M1-U interface will listen to for multicast packets
# mcs: Modulation and Coding scheme for MBMS traffic
#
#####################################################################
[embms]
#enable = false
#m1u_multiaddr = 239.255.0.1
#m1u_if_addr = 127.0.1.201
#mcs = 20
#####################################################################
# Channel emulator options:
# enable: Enable/disable internal Downlink/Uplink channel emulator
#
# -- AWGN Generator
# awgn.enable: Enable/disable AWGN generator
# awgn.snr: Target SNR in dB
#
# -- Fading emulator
# fading.enable: Enable/disable fading simulator
# fading.model: Fading model + maximum doppler (E.g. none, epa5, eva70, etu300, etc)
#
# -- Delay Emulator delay(t) = delay_min + (delay_max - delay_min) * (1 + sin(2pi*t/period)) / 2
# Maximum speed [m/s]: (delay_max - delay_min) * pi * 300 / period
# delay.enable: Enable/disable delay simulator
# delay.period_s: Delay period in seconds
# delay.init_time_s: Delay initial time in seconds
# delay.maximum_us: Maximum delay in microseconds
# delay.minumum_us: Minimum delay in microseconds
#
# -- Radio-Link Failure (RLF) Emulator
# rlf.enable: Enable/disable RLF simulator
# rlf.t_on_ms: Time for On state of the channel (ms)
# rlf.t_off_ms: Time for Off state of the channel (ms)
#
# -- High Speed Train Doppler model simulator
# hst.enable: Enable/disable HST simulator
# hst.period_s: HST simulation period in seconds
# hst.fd_hz: Doppler frequency in Hz
# hst.init_time_s: Initial time in seconds
#####################################################################
[channel.dl]
#enable = false
[channel.dl.awgn]
#enable = false
#snr = 30
[channel.dl.fading]
#enable = false
#model = none
[channel.dl.delay]
#enable = false
#period_s = 3600
#init_time_s = 0
#maximum_us = 100
#minimum_us = 10
[channel.dl.rlf]
#enable = false
#t_on_ms = 10000
#t_off_ms = 2000
[channel.dl.hst]
#enable = false
#period_s = 7.2
#fd_hz = 750.0
#init_time_s = 0.0
[channel.ul]
#enable = false
[channel.ul.awgn]
#enable = false
#n0 = -30
[channel.ul.fading]
#enable = false
#model = none
[channel.ul.delay]
#enable = false
#period_s = 3600
#init_time_s = 0
#maximum_us = 100
#minimum_us = 10
[channel.ul.rlf]
#enable = false
#t_on_ms = 10000
#t_off_ms = 2000
[channel.ul.hst]
#enable = false
#period_s = 7.2
#fd_hz = -750.0
#init_time_s = 0.0
#####################################################################
# Expert configuration options
#
# pusch_max_its: Maximum number of turbo decoder iterations (default: 4)
# nr_pusch_max_its: Maximum number of LDPC iterations for NR (Default 10)
# pusch_8bit_decoder: Use 8-bit for LLR representation and turbo decoder trellis computation (experimental)
# nof_phy_threads: Selects the number of PHY threads (maximum: 4, minimum: 1, default: 3)
# metrics_period_secs: Sets the period at which metrics are requested from the eNB
# metrics_csv_enable: Write eNB metrics to CSV file.
# metrics_csv_filename: File path to use for CSV metrics
# report_json_enable: Write eNB report to JSON file (default: disabled)
# report_json_filename: Report JSON filename (default: /tmp/enb_report.json)
# report_json_asn1_oct: Prints ASN1 messages encoded as an octet string instead of plain text in the JSON report file
# alarms_log_enable: Enable Alarms logging (default: disabled)
# alarms_filename: Alarms logging filename (default: /tmp/alarms.log)
# tracing_enable: Write source code tracing information to a file
# tracing_filename: File path to use for tracing information
# tracing_buffcapacity: Maximum capacity in bytes the tracing framework can store
# stdout_ts_enable: Prints once per second the timestamp into stdout
# pregenerate_signals: Pregenerate uplink signals after attach. Improves CPU performance
# tx_amplitude: Transmit amplitude factor (set 0-1 to reduce PAPR)
# rrc_inactivity_timer Inactivity timeout used to remove UE context from RRC (in milliseconds)
# max_mac_dl_kos: Maximum number of consecutive KOs in DL before triggering the UE's release (default: 100)
# max_mac_ul_kos: Maximum number of consecutive KOs in UL before triggering the UE's release (default: 100)
# max_prach_offset_us: Maximum allowed RACH offset (in us)
# nof_prealloc_ues: Number of UE memory resources to preallocate during eNB initialization for faster UE creation (default: 8)
# rlf_release_timer_ms: Time taken by eNB to release UE context after it detects an RLF
# eea_pref_list: Ordered preference list for the selection of encryption algorithm (EEA) (default: EEA0, EEA2, EEA1)
# eia_pref_list: Ordered preference list for the selection of integrity algorithm (EIA) (default: EIA2, EIA1, EIA0)
# gtpu_tunnel_timeout: Time that GTPU takes to release indirect forwarding tunnel since the last received GTPU PDU (0 for no timer)
# ts1_reloc_prep_timeout: S1AP TS 36.413 TS1RelocPrep Expiry Timeout value in milliseconds
# ts1_reloc_overall_timeout: S1AP TS 36.413 TS1RelocOverall Expiry Timeout value in milliseconds
# rlf_release_timer_ms: Time taken by eNB to release UE context after it detects a RLF
# rlf_min_ul_snr_estim: SNR threshold in dB below which the enb is notified with RLF ko
#
#####################################################################
[expert]
#pusch_max_its = 8 # These are half iterations
#nr_pusch_max_its = 10
#pusch_8bit_decoder = false
#nof_phy_threads = 3
#metrics_period_secs = 1
#metrics_csv_enable = false
#metrics_csv_filename = /tmp/enb_metrics.csv
#report_json_enable = true
#report_json_filename = /tmp/enb_report.json
#report_json_asn1_oct = false
#alarms_log_enable = true
#alarms_filename = /tmp/enb_alarms.log
#tracing_enable = true
#tracing_filename = /tmp/enb_tracing.log
#tracing_buffcapacity = 1000000
#stdout_ts_enable = false
#pregenerate_signals = false
#tx_amplitude = 0.6
#rrc_inactivity_timer = 30000
#max_mac_dl_kos = 100
#max_mac_ul_kos = 100
#max_prach_offset_us = 30
#nof_prealloc_ues = 8
#rlf_release_timer_ms = 4000
#lcid_padding = 3
#eea_pref_list = EEA0, EEA2, EEA1
#eia_pref_list = EIA2, EIA1, EIA0
#gtpu_tunnel_timeout = 0
#extended_cp = false
#ts1_reloc_prep_timeout = 10000
#ts1_reloc_overall_timeout = 10000
#rlf_release_timer_ms = 4000
#rlf_min_ul_snr_estim = -2
2. /etc/srsran/enc.conf
#####################################################################
# srsEPC configuration file
#####################################################################
#####################################################################
# MME configuration
#
# mme_code: 8-bit MME code identifies the MME within a group.
# mme_group: 16-bit MME group identifier.
# tac: 16-bit Tracking Area Code.
# mcc: Mobile Country Code
# mnc: Mobile Network Code
# apn: Set Access Point Name (APN)
# mme_bind_addr: IP bind addr to listen for eNB S1-MME connnections
# dns_addr: DNS server address for the UEs
# encryption_algo: Preferred encryption algorithm for NAS layer
# (supported: EEA0 (default), EEA1, EEA2, EEA3)
# integrity_algo: Preferred integrity protection algorithm for NAS
# (supported: EIA0 (rejected by most UEs), EIA1 (default), EIA2, EIA3
# paging_timer: Value of paging timer in seconds (T3413)
# request_imeisv: Request UE's IMEI-SV in security mode command
#
#####################################################################
[mme]
mme_code = 0x1a
mme_group = 0x0001
tac = 0x0007
mcc = 260
mnc = 50
mme_bind_addr = 127.0.1.100
apn = God's Network
dns_addr = 8.8.8.8
encryption_algo = EEA0
integrity_algo = EIA1
paging_timer = 2
request_imeisv = false
#####################################################################
# HSS configuration
#
# db_file: Location of .csv file that stores UEs information.
#
#####################################################################
[hss]
db_file = /etc/srsran/user_db.csv
#####################################################################
# SP-GW configuration
#
# gtpu_bind_addr: GTP-U bind address.
# sgi_if_addr: SGi TUN interface IP address.
# sgi_if_name: SGi TUN interface name.
# max_paging_queue: Maximum packets in paging queue (per UE).
#
#####################################################################
[spgw]
gtpu_bind_addr = 127.0.1.100
sgi_if_addr = 172.16.0.1
sgi_if_name = srs_spgw_sgi
max_paging_queue = 100
####################################################################
# PCAP configuration
#
# Packets are captured to file in the compact format decoded by
# the Wireshark s1ap dissector and with DLT 150.
# To use the dissector, edit the preferences for DLT_USER to
# add an entry with DLT=150, Payload Protocol=s1ap.
#
# enable: Enable or disable the PCAP.
# filename: File name where to save the PCAP.
#
####################################################################
[pcap]
enable = false
filename = /tmp/epc.pcap
####################################################################
# Log configuration
#
# Log levels can be set for individual layers. "all_level" sets log
# level for all layers unless otherwise configured.
# Format: e.g. s1ap_level = info
#
# In the same way, packet hex dumps can be limited for each level.
# "all_hex_limit" sets the hex limit for all layers unless otherwise
# configured.
# Format: e.g. s1ap_hex_limit = 32
#
# Logging layers: nas, s1ap, mme_gtpc, spgw_gtpc, gtpu, spgw, hss, all
# Logging levels: debug, info, warning, error, none
#
# filename: File path to use for log output. Can be set to stdout
# to print logs to standard output
#####################################################################
[log]
all_level = info
all_hex_limit = 32
filename = /tmp/epc.log
#nas_level = debug
#s1ap_level = debug
#mme_gtpc_level = debug
#spgw_gtpc_level = debug
#gtpu_level = debug
#spgw_level = debug
#hss_level = debug
## Additional Information ##
**SoapySDRUtil --probe**
######################################################
Soapy SDR -- the SDR abstraction library
######################################################
Probe device [INFO] [UHD] linux; GNU C++ version 9.2.1 20200228; Boost_107100; UHD_3.15.0.0-2build5
-- Device identification
driver=Audio hardware=Audio device_id=0 origin=https://github.com/pothosware/SoapyAudio
-- Peripheral summary
Channels: 1 Rx, 0 Tx Timestamps: NO Other Settings: * Stereo Sample Offset - Offset stereo samples for off-by-one audio inputs. [key=sample_offset, default=0, type=string, options=(-2, -1, 0, 1, 2)] * Rig Control - Select hamlib rig control type. [key=rig, type=string, options=(2901, 2516, 2517, 2513, 2518, 508, 506, 505, 504, 514, 503, 515, 502, 501, 513, 516, 1701, 2506, 3201, 2503, 2303, 2304, 3102, 3101, 902, 903, 221, 229, 238, 2501, 2507, 4, 2512, 2301, 236, 2515, 1, 2, 2519, 354, 302, 303, 372, 304, 306, 307, 360, 355, 309, 310, 311, 312, 370, 313, 361, 314, 315, 316, 373, 319, 320, 321, 322, 367, 323, 346, 324, 326, 327, 347, 357, 363, 328, 378, 329, 362, 330, 345, 356, 331, 375, 332, 334, 344, 368, 365, 335, 3001, 3003, 3002, 402, 401, 403, 404, 336, 358, 377, 340, 337, 341, 338, 339, 343, 366, 369, 342, 371, 605, 606, 607, 2511, 1801, 215, 233, 217, 219, 220, 223, 226, 234, 227, 230, 225, 214, 202, 203, 228, 201, 204, 216, 231, 237, 224, 205, 206, 207, 208, 209, 210, 222, 211, 213, 239, 1004, 374, 2514, 240, 353, 352, 2801, 2401, 1105, 1103, 804, 2702, 2701, 2703, 2502, 232, 1404, 1402, 2509, 2201, 5, 364, 351, 1603, 1612, 1604, 1605, 1607, 1602, 1601, 1608, 1609, 1611, 1613, 802, 806, 801, 803, 812, 810, 811, 133, 2601, 2602, 1204, 1501, 1502, 1503, 1504, 1505, 1506, 1507, 1509, 376, 117, 119, 118, 121, 103, 124, 134, 129, 127, 110, 105, 106, 107, 109, 120, 111, 101, 122, 115, 136, 123, 113, 114, 128, 131, 116, 135, 132, 130, 104, 125, 126, 2508)] * Rig Serial Rate - Select hamlib rig serial control rate. [key=rig_rate, default=57600, type=string, options=(1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200, 128000, 256000)] * Rig Serial Port - hamlib rig Serial Port dev / COMx / IP-Address [key=rig_port, default=/dev/ttyUSB0, type=string]
-- RX Channel 0
Full-duplex: YES Supports AGC: YES Stream formats: CS8, CS16, CF32 Native format: CS16 [full-scale=65536] Stream args: * Channel Setup - Input channel configuration. [key=chan, default=mono_l, type=string, options=(mono_l, mono_r, stereo_iq, stereo_qi)] Antennas: RX Full gain range: [0, 0] dB Full freq range: [0, 6000] MHz RF freq range: [0, 6000] MHz Sample rates: 0.008, 0.011025, 0.016, 0.02205, 0.032, 0.048, 0.0882, 0.096, 0.1764, 0.192 MSps
Please for any help/explanation, I will be very happy and grateful
The startup log has the clue:
Soapy has found device #0: default_input=True, default_output=True, device_id=0, driver=audio, label=hw:HDA Intel,0,
Soapy has found device #1: default_input=False, default_output=False, device_id=1, driver=audio, label=default,
Soapy has found device #2: addr=24607:1027, driver=lime, label=LimeSDR Mini [USB 3.0] 1D5386F3C5B8BB, media=USB 3.0, module=FT601, name=LimeSDR Mini, serial=1D5386F3C5B8BB,
Selecting Soapy device: 0
Looks like your eNB is selecting your sound card instead of your LimeSDR.
Try changing the enb.conf lines:
device_name = soapy
device_args = soapy=2
