##################################################################### # srsENB configuration file ##################################################################### ##################################################################### # eNB configuration # # enb_id: 20-bit eNB identifier. # cell_id: 8-bit cell identifier. # tac: 16-bit Tracking Area Code. # 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 # s1c_bind_addr: Local IP address to bind for S1AP connection # 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] # need hex value here for enb_id due to bug: https://github.com/srsLTE/srsLTE/issues/485 enb_id = ${hex(int(enb.id))} mcc = ${enb.mcc} mnc = ${enb.mnc} mme_addr = ${enb.mme_addr} gtp_bind_addr = ${enb.gtp_bind_addr} s1c_bind_addr = ${enb.addr} n_prb = ${enb.num_prb} tm = ${enb.transmission_mode} nof_ports = ${enb.num_ports} ##################################################################### # 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 # drb_config: DRB configuration file ##################################################################### [enb_files] sib_config = ${enb.sib_filename} rr_config = ${enb.rr_filename} drb_config = ${enb.drb_filename} ##################################################################### # RF configuration # # dl_earfcn: EARFCN code for DL # 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 found), "UHD" or "bladeRF" # 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. # burst_preamble_us: Preamble length to transmit before start of burst. # Default "auto". B210 USRP: 400 us, bladeRF: 0 us. ##################################################################### [rf] tx_gain = ${enb.tx_gain} rx_gain = ${enb.rx_gain} device_name = ${enb.rf_dev_type} # 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 # 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 device_args = ${enb.rf_dev_args},${enb.rf_dev_sync} #time_adv_nsamples = auto #burst_preamble_us = auto ##################################################################### # MAC-layer packet capture configuration # # Packets are captured to file in the compact format decoded by # the Wireshark mac-lte-framed dissector and with DLT 147. # To use the dissector, edit the preferences for DLT_USER to # add an entry with DLT=147, Payload Protocol=mac-lte-framed. # For more information see: https://wiki.wireshark.org/MAC-LTE # # 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 enb/src/stack/mac/mac.cc if you want # SIB to be part of the MAC pcap file. # # enable: Enable MAC layer packet captures (true/false) # filename: File path to use for packet captures ##################################################################### [pcap] enable = ${'true' if enb.enable_pcap else 'false'} filename = ${enb.pcap_filename} s1ap_enable = ${'true' if enb.enable_pcap else 'false'} s1ap_filename = ${enb.s1ap_pcap_filename} ##################################################################### # 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, 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 = ${enb.log_all_level} all_hex_limit = 32 filename = ${enb.log_filename} file_max_size = -1 [gui] enable = false ##################################################################### # Scheduler configuration options # # max_aggr_level: Optional maximum aggregation level index (l=log2(L) can be 0, 1, 2 or 3) # 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 # ##################################################################### [scheduler] #max_aggr_level = -1 #pdsch_mcs = -1 #pdsch_max_mcs = -1 #pusch_mcs = -1 #pusch_max_mcs = 16 #min_nof_ctrl_symbols = 1 #max_nof_ctrl_symbols = 3 ##################################################################### # eMBMS configuration options # # enable: Enable MBMS transmission in the eNB # m1u_multiaddr: Multicast addres the M1-U socket will register to # m1u_if_addr: Address of the inteferface the M1-U interface will listen for multicast packets. # ##################################################################### [embms] #enable = false #m1u_multiaddr = 239.255.0.1 #m1u_if_addr = 127.0.1.201 ##################################################################### # Channel emulator options: # enable: Enable/Disable internal Downlink/Uplink channel emulator # # -- 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 ##################################################################### % if enb.enable_dl_awgn: [channel.dl] enable = true % endif % if enb.enable_dl_awgn: [channel.dl.awgn] enable = true snr = ${enb.dl_awgn_snr} % endif [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.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) # 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. # pregenerate_signals: Pregenerate uplink signals after attach. Improves CPU performance. # tx_amplitude: Transmit amplitude factor (set 0-1 to reduce PAPR) # link_failure_nof_err: Number of PUSCH failures after which a radio-link failure is triggered. # a link failure is when SNR<0 and CRC=KO # max_prach_offset_us: Maximum allowed RACH offset (in us) # 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). # ##################################################################### [expert] % if enb.rf_dev_type == 'zmq': nof_prach_threads = 0 % endif #pusch_max_its = 8 # These are half iterations #pusch_8bit_decoder = false #nof_phy_threads = 3 #metrics_period_secs = 1 metrics_csv_enable = true metrics_csv_filename = ${enb.metrics_filename} tracing_enable = ${enb.enable_tracing} tracing_filename = ${enb.tracing_filename} #pregenerate_signals = false #tx_amplitude = 0.6 #link_failure_nof_err = 50 rrc_inactivity_timer = ${enb.inactivity_timer} #max_prach_offset_us = 30 eea_pref_list = ${', '.join(list(dict.fromkeys(enb.cipher_list))).upper()} eia_pref_list = ${', '.join(list(dict.fromkeys(enb.integrity_list))).upper()} % if "lime" in enb.rf_dev_args: lte_sample_rates = true % endif