Update the shared neighbour config used by the F1 rfsim pipeline to
enable CU-provided SIB2 and neighbour-derived SIB3/SIB4 inputs.
In `ci-scripts/conf_files/gnb-cu.sa.band78.106prb.conf`
- Add `cu_sibs = (2, 3, 4)
In `ci-scripts/conf_files/neighbour-config.conf`:
- Add a complete `sib2_config` block
- Add `frequency_list` / `frequency_config` for inter-frequency SIB4 fields
- Extend both neighbour entries with per-cell offsets
Add encode/decode helpers and basic round-trip tests for NR SIB2, SIB3
and SIB4 in test_asn1_msg.cpp to ensure we produce decodable messages
with expected fields. Extend SIB4 coverage with an
inter_freq_carrier_freq_info_ranges test that exercises boundary and
out-of-range values for carrier reselection parameters and checks
encoder failures for invalid configurations.
Changes:
- Introduce encode_and_decode_sib2, encode_and_decode_sib3 and
encode_and_decode_sib4 helpers that call do_SIB2_NR, do_SIB3_NR,
do_SIB4_NR and uper_decode and assert non-empty, non-null byte
arrays and successful decoding.
- Add sib2_basic_encode_decode, sib3_basic_encode_decode and
sib4_basic_encode_decode tests that populate minimal but
representative NR_SIB2_t, NR_SIB3_t and NR_SIB4_t instances and
verify selected decoded fields match the originals.
- Add inter_freq_carrier_freq_info_ranges test that builds an NR_SIB4_t
with NR_InterFreqCarrierFreqInfo_t and varies different offsets and
thresholds to confirm valid combinations encode and invalid ones
are rejected.
- Add comprehensive documentation header explaining the structure's role
as single source of truth for neighbor cell information across multiple
protocols (NGAP/XnAP handover, measurement config, DU validation, SIB3/SIB4)
- Add detailed field comments documenting protocol-specific mappings:
* Core identification fields (gNB_ID, nrcell_id, physicalCellId)
* Frequency/RF parameters (absoluteFrequencySSB, subcarrierSpacing, band)
* Handover target identification (plmn, tac)
- Document NGAP/XnAP IE mappings for plmn and tac fields
Remove the isIntraFrequencyNeighbour field and all code that sets or
uses it, simplifying neighbour cell handling and avoiding redundant
state in the RRC gNB code. The flag duplicated information that can be
derived from the neighbour absoluteFrequencySSB and the serving cell
SSB ARFCN, and intra-frequency neighbours are logged in the SIB3
preparation flow.
Changes:
- Remove isIntraFrequencyNeighbour from nr_neighbour_cell_t in
openair2/RRC/NR/nr_rrc_defs.h
- Delete is_intra_frequency_neighbour() and
label_intra_frequency_neighbours() helpers from
openair2/RRC/NR/rrc_gNB_du.c
- Remove calls to label_intra_frequency_neighbours() from
rrc_gNB_process_f1_setup_req() and
rrc_gNB_process_f1_du_configuration_update() in rrc_gNB_du.c
- Stop setting .isIntraFrequencyNeighbour in the local
nr_neighbour_cell_t neighbourConfig initializer in
openair2/RRC/NR/rrc_gNB_mobility.c
Add SIB4 encode/decode helpers and populate SIB4 from configured
inter-frequency carriers and neighbour cells, wiring it into DU F1
Setup handling and MAC SystemInformation.
Changes:
- Add do_SIB4_NR() and NR_SIB4.h inclusion in asn1_msg.c/asn1_msg.h to
UPER-encode NR_SIB4_t into a byte_array_t.
- Extend nr_mac_configure_other_sib() in NR_MAC_gNB/config.c with an
NR_SIB_4 case that validates the SIB container, decodes NR_SIB4_t via
uper_decode, logs failures, and appends SIB4 to SystemInformation.
- Introduce build_inter_freq_carrier_from_cfg() and
get_sib4_inter_freq_neighbors() in rrc_gNB_du.c to build
NR_InterFreqCarrierFreqInfo_t and NR_SIB4_t from inter-frequency and
neighbour cell configuration, skipping invalid or empty carriers.
- Handle NR_SIB_4 in rrc_gNB_process_f1_setup_req() by deriving SIB4
from neighbour/inter-frequency configuration, encoding it with
do_SIB4_NR(), validating the resulting byte_array_t and adding the SI
message for the DU cell when encoding succeeds.
Introduce NR SIB3 encoding in RRC and wire SIB3 neighbour information
into CU–DU F1 Setup and DU SystemInformation. Extend MAC to decode NR
SIB3 from CU-provided SIB containers and attach the decoded SIB3 to the
DU SystemInformation structure.
Changes:
- Add NR_SIB3 ASN.1 include and a do_SIB3_NR() encoder in asn1_msg
so SIB3 can be serialized into a byte_array_t buffer.
- Introduce get_q_offset_asn1() and get_sib3_intra_freq_neighbors() in
rrc_gNB_du.c to build an intra-frequency neighbour cell list for SIB3,
mapping q_OffsetCell dB values to NR_Q_OffsetRange and optionally
filling q_RxLevMinOffsetCell and q_QualMinOffsetCell.
- Limit the number of intra-frequency neighbours in SIB3 to
NR_maxCellIntra, logging a warning and skipping additional cells when
the limit is reached.
- Hook SIB3 construction and encoding into rrc_gNB_process_f1_setup_req()
so SIB type 3 entries are added to the F1 Setup Response when
neighbour configuration and matching neighbours are available.
- Handle NR_SIB_3 in nr_mac_configure_other_sib() by validating the CU
SIB3 container buffer, decoding it with uper_decode into an NR_SIB3_t,
and attaching the resulting SIB3 to the MAC SystemInformation via
add_sib_to_systeminformation().
Introduce typed SIB3/SIB4 neighbour and inter-frequency carrier
configuration structures, wire them into the RRC neighbour and gNB
instances, and centralise parsing and bounds checking of per-frequency
SIB4 parameters from the gNB frequency list.
Changes:
- Define SIB3/SIB4 reselection and offset bound macros in gnb_config.c
and apply them when parsing SIB4 frequency_config and
per-carrier q_RxLevMin/t_ReselectionNR.
- Add add_inter_freq and parse_inter_freq_list helpers in gnb_config.c
to populate a shared inter_freqs seq_arr_t from gNB_CONFIG_STRING_GNB_LIST
frequency_list entries, enforcing unique (ARFCN,SCS) combinations and
logging duplicates.
- Extend neighbour cell parameters in gnb_paramdef.h with SIB3 per-
neighbour offset fields and define frequency_list/frequency_config
option names, descriptor tables, and index constants for SIB4 inter-
frequency configuration.
- Introduce nr_neighbour_cell_neighbor_offset_t, nr_neighbour_cell_sib3_t,
nr_neighbour_cell_sib4_freq_t, nr_neighbour_cell_sib4_t, and
nr_inter_freq_cfg_t in nr_rrc_defs.h, and extend nr_neighbour_cell_t
and gNB_RRC_INST with sib3/sib4 and inter_freqs members respectively.
- udpated fill_neighbour_cell_configuration to use GET_PARAMS_LIST
with params bound check
Introduce a typed SIB2 cell reselection configuration, load it from the
gNB configuration into the RRC gNB instance, and use it to build and
encode SIB2 instead of relying on a fixed SIB2 definition.
Validate SIB2 parameters against explicit bounds and make the SIB2
encoder consume a pre-built ASN.1 structure with safer error handling.
Changes:
- Add SIB2 mobility timer and q-HystSF enums plus SIB2 config structs
(`sib2_speed_state_reselection_pars_t`, `sib2_config_t`) and a
`sib2_config` field on `gNB_RRC_INST` in `nr_rrc_defs.h`.
- Define SIB2 configuration option names, defaults
(`GNB_CONFIG_STRING_SIB2_*`, `GNBSIB2PARAMS_DESC`)
in `gnb_paramdef.h` for q_Hyst, thresholds, mobility timers, scaling
factors and deriveSSB_IndexFromCell.
- Add `sib2_config` parameter keys, defaults, and range/value checks in
`gnb_paramdef.h` (`GNBSIB2PARAMS_DESC`).
- Add SIB2 `fill_sib2_configuration()` in `gnb_config.c` to read SIB2
parameters from the config file log the resulting configuration and
store it in `rrc->sib2_config` via `RCconfig_NRRRC()`.
- Add `get_q_hyst_asn1()` and `get_sib2_from_cfg()` in `rrc_gNB_du.c`, and
update `rrc_gNB_process_f1_setup_req()` to encode/add SIB2 from config with
explicit encode-failure handling and logging.
- Change `do_SIB2_NR` signature in `asn1_msg.h/.c` to
`byte_array_t do_SIB2_NR(const NR_SIB2_t *sib2)`, remove internal default
SIB2 construction, and add ASN.1 constraint/encode error logging.
Unify SIB container handling by introducing a typed SIB enum and storing
SIB payloads as byte_array_t across common NR types, F1AP helpers, MAC,
and RRC DU setup code.
Changes:
- Include byte_array support in nr_common.h, add nr_sib_type_t (NR_SIB_1–NR_SIB_21),
and change nr_SIBs_t to hold only nr_sib_type_t SIB_type.
- Switch f1ap_sib_msg_t in f1ap_messages_types.h to use a byte_array_t SI_container
instead of raw pointer and length fields.
- Update F1AP encode/decode, equality, copy, and free helpers in
f1ap_interface_management.c to work on SI_container.buf / SI_container.len and
use eq_byte_array, copy_byte_array, and free_byte_array.
- Adapt F1AP tests in f1ap_lib_test.c to build and inspect SIB containers via
SI_container.buf and SI_container.len.
- Replace magic SIB numbers with nr_sib_type_t values in gnb_config.c
(get_sys_info and fill_du_sibs) to validate and configure DU SIBs.
- Rework nr_mac_configure_other_sib in NR_MAC_gNB/config.c to decode SIB2
from a byte_array_t container, fix freeing by releasing the decoded sib2 on
failure, and use NR_SIB_2 / NR_SIB_19 for CU/DU SIB selection.
- Add an add_si_msg helper in rrc_gNB_du.c and refactor the SIB2 branch of
rrc_gNB_process_f1_setup_req to populate cell->SI_msg from encoded local
byte array while iterating SIBs with FOR_EACH_SEQ_ARR.
Tighten neighbour-cell config parsing by enforcing parameter constraints in
the descriptor and switching parsing code to name-based lookups with gpd.
Changes:
- Update `GNBNEIGHBOURCELLPARAMS_DESC` in `openair2/GNB_APP/gnb_paramdef.h`
to add checks for `physical id`, `absoluteFrequencySSB`, `scs`, `band`
`tracking_area_code`.
- Remove neighbour-cell parameter index macros.
- Refactor `parse_neighbour_cells_list` in `openair2/GNB_APP/gnb_config.c`
to use `gpd()` lookups for neighbour fields instead of fixed indexes.
- Extend `parse_neighbour_cells_list` with an `n_cell_params` argument and
update `fill_neighbour_cell_configuration` to pass
`sizeofArray(ncell_params)`.
Inline neighbour cell arrays into the RRC neighbour configuration and
update RRC/DU helpers to use const-aware access and shared iteration
helpers when walking neighbour lists and building measurement configs.
Changes:
- Change neighbour_cells in neighbour_cell_configuration_t from a
seq_arr_t * to an embedded seq_arr_t field.
- Initialize and populate the embedded neighbour_cells directly in
parse_neighbour_cells_list in gnb_config.c, dropping dynamic
allocation of the neighbour list container.
- Refactor get_neighbour_cell_by_pci and nr_rrc_get_measconfig in
rrc_gNB.c to access the embedded neighbour_cells via const pointers,
introduce a local meas_cfg and a3_event_list, and iterate neighbour
cells with FOR_EACH_SEQ_ARR.
- Treat neighbour cell configuration entries as const in rrc_gNB_du.c
(get_cell_neighbour_list, label_intra_frequency_neighbours,
valid_du_in_neighbour_configs) and iterate neighbour lists with
FOR_EACH_SEQ_ARR instead of index-based loops.
Outer gNB neighbour_list entries now only declare the serving cell
nr_cellid. The code resolves that field with gpd instead of a fixed column
index.
Changes:
- gnb_paramdef.h: remove unused NEIGHBOUR_CELL_PHYSICAL_ID from
GNB_NEIGHBOUR_LIST_PARAM_LIST (keep NRCELLID only).
- gnb_config.c: in fill_neighbour_cell_configuration, set nr_cell_id
from gpd
Refactor gNB configuration code to share PLMN extraction logic and to
split neighbour-cell configuration into smaller helpers with safer
allocation and clearer list handling.
Changes:
- Add `extract_plmn_from_params()` in `gnb_config_common.c` and declare
it in `gnb_config_common.h` to centralize PLMN extraction from
`paramdef_t`.
- Update `set_plmn_config()` to use `extract_plmn_from_params()` when
filling the PLMN array instead of duplicating field assignments.
- Refactor `fill_neighbour_cell_configuration()` in `gnb_config.c` to
delegate per-cell neighbour parsing to
`parse_neighbour_cells_list()` and sorting to
`sort_neighbour_configuration()`, simplifying the main loop.
- Use `extract_plmn_from_params()` when parsing neighbour PLMNs in
`parse_neighbour_cells_list()` and log each neighbour with its PLMN,
PCI, and other radio parameters before adding it to the sequence.
- Switch allocation of `rrc->neighbour_cell_configuration` in
`fill_neighbour_cell_configuration()` from `malloc` to
`malloc_or_fail()` to enforce consistent handling of allocation
failures.
Change 1: config_check_intval() now uses the correct integer pointer for TYPE_INT
Problem: config_check_intval() previously dereferenced param->uptr regardless
of param->type. For parameters declared as signed (TYPE_INT / TYPE_INT32), the
active union member is param->iptr, and param->uptr may be NULL -> using uptr
makes validation unsafe and type-inconsistent.
What changed: Updated config_check_intval() behavior (signature unchanged).
Handle both param->type, param->iptr and param->uptr.
Change 1: new config_check_uintrange() for unsigned range constraints
Problem: there was a signed range checker (config_check_intrange()) that reads
param->iptr, but there was no dedicated unsigned range validator using param->uptr.
What changed: added config_check_uintrange() in config_userapi.h/.c
The new function reads param->uptr as uint32_t and validates against
param->chkPptr->s2.okintrange[] endpoints.
Change 3: constify input params for f2 function pointers
Problem: checkedparam_t.s2.f2 was typed with non-const input params, even though
range checks only read. A safer const-safe signature is required.
What changed: s2.f2 now takes const configmodule_interface_t *
and const paramdef_t *. config_check_intrange() and config_check_uintrange() use
the same const-qualified parameters.
Integration `2026.w15`
* !4014 Microamp FR2 configuration file and documentation
* !4029 nr rlc: tolerate bogus data
* !4032 build_oai fixes: harmonize duplicate options, remove wrong --build-lib handling
* !3977 Further unused arguments cleanup
* !4009 Fix for NULL pucch-ResourceCommon at MSG4
* !4037 Increase reliability of ltebox start
* !4034 Prevent infinite loop on Single Entry PHR handling
* !4038 doc(record_db): explain how to use record_db
* fix compilation of T tracers with 'make'
* !3489 Thread-pool support for TX symbol processing.
See merge request oai/openairinterface5g!4033
Thread-pool support for TX symbol processing.
This MR adds thread-pool support for TX symbol processing. It allows modulation
/mapping/layer-precoding to run in parallel and offers a speedup of around 3
compared to single-thread execution. This is particularly important for large
bandwidths and 4 or more TX antenna ports where the precoding operation is quite
computationally-intensive.
Please see the description of !3489 for the performance comparison results and
the nr_dlsim timing measurements.
Extend the performance tuning section of documentation
to include explanation on the `--L1s.L1_num_tx_sym_per_thread` option
and on the AMD EPYC core complex behavior
Increase reliability of ltebox start
The existing ltebox startup sequence on nepes occasionally fails. Running
sudo su -c 'screen -dm -S simulated_hss /opt/hss_sim0609/starthss' \
&& sleep 1 && sudo /opt/ltebox/tools/start_mme && sudo /opt/ltebox/tools/start_xGw \
& sleep 1 && ip a show dev tun1
Reliably shows that no tun1 interface is created, because that takes around
1s itself. Increasing the second sleep to 2 reliably deploys it correctly.
Do the same for sabox and ltebox on nano for consistency.
Fix for NULL pucch-ResourceCommon at MSG4
Field pucch-ResourceCommon, used for ACK of MSG4, in some scenarios was
overwritten by RRCSetup before being used. Storing it in advance prevents
the segfault. In addition there is a clenaup of similar procedures at gNB.
* Add option `--L1s.L1_num_tx_sym_per_thread` for the softmodems and `-Y` for `nr_dlsim`
to provide the number of symbols processed per thread.
It defaults to 0 which makes that every symbols are processed in one thread.
* The last symbol processing task is processed in the L1 TX thread.
When receiving single-entry PHR with HARQ PID -1
(nr_mac_process_mac_pdu() is called with such parameter in at least two
places), the error handling path calls continue skipping the accounting
of the current sub-pdu (pduP and pdu_len). This results in an infinite
loop. Fix by moving functionality into a separate function.
Fixes: 2e0493632d ("RLC data ind: single call for complete TB at gNB")
Signed-off-by: Robert Schmidt <robert.schmidt@openairinterface.org>
Further unused arguments cleanup
More fixes for unused function arguments (see #1057),
add_compile_options(-Wunused-parameter) added in folders:
- nfapi
- openair2
- openair3
- USRP
- rfsimulator
build_oai fixes: harmonize duplicate options, remove wrong --build-lib handling
Correctly handle --build-lib such that missing arguments are still handled
properly. Harmonize, and remove useless code.
The existing ltebox startup sequence on nepes occasionally fails.
Running
sudo su -c 'screen -dm -S simulated_hss /opt/hss_sim0609/starthss' \
&& sleep 1 && sudo /opt/ltebox/tools/start_mme && sudo /opt/ltebox/tools/start_xGw \
& sleep 1 && ip a show dev tun1
Reliably shows that no tun1 interface is created, because that takes
around 1s itself. Increasing the second sleep to 2 reliably deploys it
correctly.
Do the same for sabox and ltebox on nano for consistency.
Signed-off-by: Robert Schmidt <robert.schmidt@openairinterface.org>
Functionality existed to print all output of asn1c on error, but the
form
asn1c || cat X
makes the command exit with a 0 exit code (success). Fix by explicitly
returning non-zero exit code in this case:
asn1c || ( cat X && false )
Signed-off-by: Robert Schmidt <robert.schmidt@openairinterface.org>
Both do practically the same. Harmonize them into one while guaranteeing
backwards compatibility.
Signed-off-by: Robert Schmidt <robert.schmidt@openairinterface.org>
This fixes two problem:
1. an omitted --build-lib library could yield strange grep errors. For
instance, calling build_oai --build-lib --cmake-opt OPTION passed
"--cmake-opt" to grep, that does not know this option. Handle by
explicitly separating options and search pattern through --.
2. Even with this fixed, set -e triggered an exit because grep exits
with non-zero error code. Remove set -e to have the error handling
code pass.
With set -e removed, properly check that the build passes.
Update a log line to make it clearer.
Assisted-by: Claude:claude-sonnet-4-6
Signed-off-by: Robert Schmidt <robert.schmidt@openairinterface.org>
nr rlc: tolerate bogus data
Some unfriendly entity may play with the RLC module and send bogus data to
trigger funky behaviors here and there.
A report sent by Dhanish indentifies one such issue.
From analyzing this report, a possible scenario is the following. Unfriendly
entity sends an RLC PDU with: is_first=0 is_last=0 so=15 lenght of data,
whatever, let's say 1.
This PDU is put in the RX list.
Then later it sends another PDU (for the same SN, obviously), with: is_first=1
is_last=1 so=0 (well, since is_first=1, necessarily so=0; it is not transmitted,
see 38.322 6.2.2.3 for UM and 38.322 6.2.2.4 for AM) length=10, let's say.
This PDU is also put in the RX list, before the previous one.
Then the function sdu_full() returns 1, so reassemble_and_deliver() is called
and the 'while (pdu)' loop is executed for both PDUs. When the second (bogus
one) is processed, so==10 (after processing the first PDU) and the line: int
len = pdu->size - (so - pdu->so) is: int len = 1 - (10 - 15) which is not good.
So we detect the case 'pdu->so > so' and reject the SDU. We could label the
other entity as bogus, since no standard RLC implementation will produce such a
case, but let's remain friendly, even with unfriendly entities. (To be changed
later if needed.)
The problem was reported for RLC AM but is also present in RLC UM. (Not in RLC
TM, where there is no segmentation.) Note: according to the report, this bug was
found using a fuzzer described as 'AI-assisted custom 5G NR protocol fuzzer'. It
had to be said.