- Common source in NR_PDCP_SRC and derive NR_PDCP_SRC_GNB (gNB) and
NR_PDCP_SRC_UE from it; UE no longer compiles cucp_cuup_handler,
cuup_cucp_if, cuup_cucp_direct, cuup_cucp_e1ap.
- NR_L2_SRC_UE uses NR_PDCP_SRC_UE so UE links only common PDCP sources.
- Add L2_NR compile definition PDCP_CUCP_CUUP; wrap nr_pdcp_e1_if_init
call in nr_pdcp_oai_api.c with #ifdef PDCP_CUCP_CUUP so UE does not
reference it.
UE build no longer depends on E1/CU-CP/CU-UP code or symbols; gNB
keeps full PDCP and E1 interface init.
Signed-off-by: Guido Casati <guido.casati@openairinterface.org>
T-Tracer & Data Recording v1.1: UL PHY trace modularization and recording
enhancements
Based on the plan with @schmidtr and @roux-cedric, we agreed to enhance
the data recording in two phases:
- Phase 1: Update Data Recording framework to get All internal Massive
Updates and enhancements through the whole framework public
- Phase2: Restructure T-Tracer Apps and remove all Mems in gNB and UE
Softmodems to Get data on T-tarcer Apps for all activated Messages
symbol-by-symbol, and related Meta-data, then do the aggregation on
the T-tracer App. So, there is No Memory Creation at all on the 5G NR
Stack.
This Merge Request is for Phase 1. We address the comments given in: !3632
Summary: Refactor T-Tracer instrumentation for UL PHY data capture and
improve the data recording application (v1.0 → v1.1). This MR extracts
inline T() macro calls into modular wrapper functions, adds Unix timestamp
fields to trace messages, implements a 4-state shared memory protocol for
gNB/UE tracers, and delivers an improved synchronized recording architecture
in Python.
Changes:
- T-Tracer: Modular UL PHY trace wrappers
- Add T_messages_creator.c/.h with 7 wrapper functions (log_ul_fd_dmrs,
log_ul_fd_chan_est_dmrs_pos, log_ul_fd_pusch_iq,
log_ul_fd_chan_est_dmrs_interpl, log_ul_payload_rx_bits,
log_ul_payload_tx_bits, log_ul_scrambled_tx_bits) and a static
log_ul_common() helper
- Register T_messages_creator.c in the T library CMake build
- Update T_messages.txt definitions: Remove string timestamps and get
time stamp directly from sending_time of T-macro.
- PHY: Replace inline T() calls with wrappers
- gNB (nr_ulsch_demodulation.c, nr_ul_channel_estimation.c,
phy_procedures_nr_gNB.c): replace inline T() calls with
T_messages_creator wrappers
- UE (nr_ulsch_coding.c, nr_ulsch_ue.c): replace inline T() calls with
log_ul_payload_tx_bits and log_ul_scrambled_tx_bits wrappers
- Remove deprecated log_tools.c/.h and its CMake reference
- T-Tracer gNB & UE apps: Enhancements
- Implement 4-state shared memory protocol (WAIT → CONFIG → RECORD → STOP)
for coordination with the data recording app
- Add event_trace_msg_ul_data struct with 27 UL metadata fields
- Refactor event loop to poll()-based with proper signal handling
- Separate project IDs (gNB=2335, UE=2336) and ftok paths for independent
shared memory segments
- Update shared memory sizing: Limit number of records to
NUM_MESSAGES_PER_SLOT=5, 100 slots
- Data Recording App v1.1
- Improved architecture with thread pool and barrier synchronization
- Frame/slot-based message grouping with per-slot validation
- atexit/signal-based cleanup for graceful shared memory detach
- Delete legacy data_recording_app_v1.0.py
- Library improvements
- config_interface.py: remove legacy YAML config reader, streamline to
JSON-only
- shared_memory_interface.py: new module for shared memory
attach/read/protocol
- wireless_parameters_mapper.py: new module for NR parameter mapping
- data_recording_messages_def.py: updated message definitions for
27-field struct
- sigmf_interface.py, sync_service.py, common_utils.py: remove unused
imports and dead code
- Documentation
- Update data_recording.md for v1.1 architecture and usage
asn1c inside local tree
when /opt/asn1c/bin/asn1c does not exist, we download and use the right
asn1c version locally in the build tree. This simplifies dependancies
management
L1 RX: use queues instead of arrays and linear search for PUCCH, PUSCH, SRS, PRACH
This MR is an attempt to reduce the time L1 RX searches in array for the
next job to process, and instead use a queue. This queue is a FIFO,
because the various jobs (FAPI messages) to process come in order, and
need to be processed in order. The MR (hopefully, to be measured)
reduces the amount of time spent searching for the next UE (because the
next job is always at the beginning of the queue), and should scale
better for many UEs.
It does the following:
- introduce two helper libraries for (1) Frame.Slot calculation (sfn_t),
already introduced in !3521 (merged) commit 3102068e, and (2) a ring
buffer with fixed size
- use sfn_t and ring buffer (gNB->pucch_queue) to remove the linear
array for PUCCH (gNB->pucch)
- use sfn_t and ring buffer (gNB->pusch_queue) for some PUSCH lookups.
Because we need to still store PUSCH contexts, gNB->pusch is still
there
- use sfn_t and ring buffer (gNB->srs_queue) to remove the linear array
for SRS (gNB->srs)
- use sfn_t and ring buffers (gNB->prach_ru_queue and
gNB->prach_l1rx_queue) to remove the linear array for PRACH
(gNB->prach_list)
- some minor cleanups, e.g., additional loops over the PUSCH array,
using const, using pointers instead of indices, etc
Use the spsc queue to pass jobs from TX thread (scheduler) to RX thread
(handling those jobs), reducing the amount spent searching for PUCCH
jobs in an array, clarifying the design, and making it thread-safe.
Signed-off-by: Robert Schmidt <robert.schmidt@openairinterface.org>
phy_procedures_nr_gNB.c calls pack_srs() functions to pack individual
SRS "subPDUs". Correspondingly, the library depends on NFAPI_LIB. In
nr_ulsim, in a later commit, we will need to unpack the SRS.indication,
so remove dummy functions and implement correctly.
Signed-off-by: Robert Schmidt <robert.schmidt@openairinterface.org>
Extend UICC configuration parsing to provide: routing_indicator,
protection_scheme, home_network_public_key, and home_network_public_key_id.
Use the protection_scheme value to decide what SUCI Profile Scheme to
apply during SUCI generation. Add support for Profile Scheme A which
provides ECIES-based encryption using Curve25519 and X9.63 KDF as outlined
in TS 33.501 Section C.3.4.1 Profile A.
When a configuration file specifies an unsupported Profile Scheme,
the NAS layer triggers a fatal error. This occurs either because
Profile Scheme B is unimplemented or the build uses OpenSSL < 3.0,
which lacks Curve25519 and X9.63 KDF support, ensuring users are
informed of the incompatibility.
- all RAN code, CI code, configuration files, dockerfiles, in CSSL v1.0
- all deployment code (openshift, charts, ancillary files like shell
scripts), in MIT
- documentation in CC-BY-4.0
- exceptions might apply and are listed in NOTICE
- there is a new LICENSES folder with all licenses
- CONTRIBUTIONS.md has been updated accordingly
For automated changes based on OAI PL v1.1:
perl -i~ -0pe 's/\/\*.*Licensed to the OpenAirInterface.*openairinterface.org\n#?/\/*\n * SPDX-License-Identifier: LicenseRef-CSSL-1.0\n/s' **/*.{c,h,cpp}
perl -i~ -0pe 's/\/\*.*Licensed to the OpenAirInterface.*openairinterface.org\n#?/\/*\n * SPDX-License-Identifier: LicenseRef-CSSL-1.0\n/s' **/*.ts
perl -i~ -0pe 's/<!--.*Licensed to the OpenAirInterface.*openairinterface.org\n.*-->/<!-- SPDX-License-Identifier: LicenseRef-CSSL-1.0 -->/s' **/*.xml
The rest (cmake, files with missing license, cmake) manually.
- Add initial XnAP library structure under openair2/XNAP/lib
- Implement common XnAP helper utilities (xnap_lib_common)
- Add gNB interface management module for Xn Setup procedures
- Introduce XnAP message type definitions in xnap_messages_types.h
- Integrate XnAP library into build system (CMakeLists.txt)
- Add standalone XnAP library unit test (xnap_lib_test)
- Implement encoder, decoder + test for Xn Setup Request
Xn Setup Request (3GPP TS 38.423v16.2.0 §9.1.3.1)
- Global NG-RAN Node ID (M)
- TAI Support List (M)
- AMF Region Information (M)
- Extend conversions.h with MACRO_BIT_STRING_TO_GNB_ID utility
Co-authored-by: Sreeshma Shiv <sreeshmau@iisc.ac.in>
Integrate NRPPA and NGAP messages required for positioning
This MR integrates NRPPA and NGAP messages required for positioning.
The following NGAP messages are integrated (3GPP 38.413 Version 16.0.0):
NGAP UPLINK UE ASSOCIATED NRPPA TRANSPORT
NGAP UPLINK NON UE ASSOCIATED NRPPA TRANSPORT
NGAP DOWNLINK UE ASSOCIATED NRPPA TRANSPORT
NGAP DOWNLINK NON UE ASSOCIATED NRPPA TRANSPORT
The following NRPPA messages are integrated (3GPP 38.455 Version 16.7.1):
TRP Information Request
TRP Information Response
Positioning Information Request
Positioning Information Response
Positioning activation request
Positioning Activation Response
Measurement Request
Measurement Response
This MR tests these messages via a standalone tester nr-cu-nrppa-test that
connects to the AMF to perform NGAP enc/dec and NRPPA enc/dec
Core Network:
To pull the docker images:
docker pull oaisoftwarealliance/ims:latest
docker pull oaisoftwarealliance/oai-amf:develop
docker pull oaisoftwarealliance/oai-nrf:develop
docker pull oaisoftwarealliance/oai-smf:develop
docker pull oaisoftwarealliance/oai-udr:develop
docker pull oaisoftwarealliance/oai-upf:develop
docker pull oaisoftwarealliance/oai-udm:develop
docker pull oaisoftwarealliance/oai-ausf:develop
docker pull oaisoftwarealliance/oai-lmf:develop
openairinterface5g$ cd doc/tutorial_resources/oai-cn5g
To deploy:
openairinterface5g/doc/tutorial_resources/oai-cn5g$ docker compose -f docker-compose-positioning.yaml up -d
To undeploy:
openairinterface5g/doc/tutorial_resources/oai-cn5g$ docker compose -f docker-compose-positioning.yaml down -t 0
RAN:
To compile:
openairinterface5g$ mkdir build
openairinterface5g$ cd build
openairinterface5g/build$ cmake .. -GNinja
openairinterface5g/build$ ninja nr-cu-nrppa-test
To run:
openairinterface5g/build$ LD_LIBRARY_PATH=. ./tests/nr-cu-nrppa/nr-cu-nrppa-test -O ../tests/nr-cu-nrppa/nr-nrppa-test.conf
To initiate positioning procedure:
openairinterface5g$ cd doc/tutorial_resources/positioning/
openairinterface5g/doc/tutorial_resources/positioning$ curl --http2-prior-knowledge -H "Content-Type: application/json" -d "@InputData.json" -X POST http://192.168.70.141:8080/nlmf-loc/v1/determine-location
Prior to this commit, constants NB_ANTENNAS_RX/TX are provided on the
command line to each compiler invocation. This has the drawback (1) that
also files that don't need that get the constants, and (2) it is not
easy to find them using ctags or similar, as the only definition is in
CMakeLists.txt (where it is not found).
In this commit, use cmake configure_file() to write a header file with
these constants. The file will be generated during cmake invocation, and
written to <build-dir>/common/cmake_defs.h. The relevant files that
need this definition will pick it from the header.
This has been used previously also in a commit to write git information.
See-also: 8bffd1666d ("Avoid complete rebuild on cmake run with git info change")
NR Paging on CU
Implements the NR paging path on the CU:
- NGAP Paging is decoded and passed to RRC
- RRC builds F1AP Paging, and distributes it to DUs via F1 callback
Changes:
- Refactor and extend F1AP Paging encode/decode libraries
* add missing enc/dec/eq/cp functions
* add unit test
* IEs: CN UE 5G-S-TMSI, RAN UE I-RNTI; optional DRX/priority/origin)
- Refactor CU callback CU_send_Paging
- Refactor DU handler DU_handle_Paging
- Refactor old F1 callback for Paging indication, extend it and align
with existing F1 callbacks in stack
- Refactor and extend NGAP Paging encode/decode lib
* add missing enc/dec/eq/cp functions
* add unit test
* Fixes NGAP paging to accept Paging only on SCTP stream 0 per TS
38.412
- Includes supporting refactors (PDU session split, shared 5G-S-TMSI
helpers, NGAP/F1AP cleanups)
Testing
- NGAP and F1AP Paging lib unit tests (enc/dec)
- Stream-0 fix validated with Open5GS AMF
This MR does not address the DU changes besides the F1 handler. F1AP
Paging does not have an RRC container to pass the PCCH message to the
DU, and F1 DL RRC Message Transfer does not apply to PCCH. PCCH-Message
shall be built at DU per TS 38.331 §5.3.2, with padding as per §8.5 and
delivered as RLC SDU per §8.2. For each cell in Paging Cell List that
belongs to this DU, queue for MAC. MAC schedules at PF/PO per TS 38.304
§7.
Refs:
- F1AP 3GPP TS 38.473 version 16.21.0 Release 16
- NGAP 3GPP TS 38.413 version 16.17.0 Release 16
Add a simple GTP unit test
Add a simple unit test for GTP that as of now tests the main
functionality, i.e., for a single UE, set up a bearer between two
endpoints and checking that traffic sending works. This is a start to
extend it further, e.g., with API changes, extensions to support new
functionality such as IPv6, and refactorings.
A number of supporting cleanup has been done as well.
- Refactor ngap_paging_ind_t (openair2/COMMON/ngap_messages_types.h):
- optional paging_drx and paging_priority as pointers
- TAI list as tai_list[] and n_tai
- add optional IEs: Paging Origin, Paging Attempt Information,
UE Radio Capability for Paging.
- Introduce nr_tai_t, ngap_paging_attempt_info_t, ngap_paging_origin_t;
- generate paging enums via FOREACH macros.
- Add NGAP Paging encode/decode/eq/free in openair3/NGAP/ngap_gNB_paging.c
(encode_ng_paging, decode_ng_paging, eq_ng_paging, free_ng_paging).
- Replace inline Paging decode in ngap_gNB_handle_paging() with
decode_ng_paging() and add error handling; add eq_ngap_plmn() in
ngap_common.
- Update rrc_gNB_NGAP.c to use tai_list/n_tai and optional paging_drx
when forwarding paging to F1AP.
- Add ASN.1 includes for Paging in ngap_msg_includes.h; register
ngap_gNB_paging.c in root CMakeLists.txt.
- Add NGAP unit test (openair3/NGAP/tests/ngap_lib_test.c): encode/decode
roundtrip for Paging; tests subdirectory and executable under
ENABLE_TESTS in openair3/NGAP/CMakeLists.txt.
PDU session related NGAP messages do not belong to NAS procedures lib.
* Create ngap_gNB_pdu_session_management.c and .h
* Move out ngap_gNB_pdusession_setup_resp, ngap_gNB_pdusession_modify_resp,
ngap_gNB_pdusession_release_resp from ngap_gNB_nas_procedures.c
* Move encode_ngap_pdusession_setup_response_transfer to ngap_common.c:
this transfer IE is common used both in PDU Session Management and
Initial Context Setup, so it's moved to the common lib
* Add ngap_gNB_pdu_session_management.c to CMakeLists.txt
Since the parent commit, USE_MMSE is not defined. Thus, the
corresponding code is commented out. Since there are no linker problems,
it is obvious that this code is never called, and we can remove it.
Cleanup Cmake: remove some double compilation
Harmonize some cmake code to avoid double compilation, notably around
polar and smallblock. In develop, we just add their sources to other
targets, whereas now we define STATIC libraries (further changed to
shared library in !3856) to avoid double compilation.
With this command line:
cmake .. -GNinja -DENABLE_TESTS=ON && ninja
shows that before we compile 12631 files, where after it is 12583
there is additional supporting cleanup (move code, remove headers,
types, ...).
there is more harmonization to do, I limited myself to some easy wins.
For instance, we do the same with PDCP/SDAP, and this should be
refactored into STATIC libraries as well.
RRC: Multi-cell handling architecture
This MR implements a foundational multi-cell handling architecture for
RRC by separating DU management from cell management and establishing a
hierarchical cell organization within each DU container. The changes
enable proper multi-cell support where each DU can serve multiple cells,
addressing the previous limitation where DU and cell management were
tightly coupled with the assumption of one cell per DU.
Key Changes:
- Data Structure Separation: Separated for DU containers (DU-specific
info) from cell containers (cell-specific data)
- Global DU and Cell Trees: Cells are now stored in global RB trees in
RRC, similarly to DUs
- Du-specific cell seq_arr: within each DU container (du->cells) is
stored a seq_arr of cells belonging to the DU
- UE Cell Association Framework: Introduced serving_cells array to track
PCell and SCells for each UE with servCellIndex indexing
- Cell Management Library: Extracted cell management functions into
rrc_cell_management.c/h for better testability and maintainability
Other relevant changes:
- F1AP Refactoring: cell list definitions, heap allocation to prevent
stack overflow
- 5G-S-TMSI Helpers: Common helper functions for 3GPP TS 23.003
compliant construction
- Integration Tests: Comprehensive test suite for DU lookup, cell
lookup, and UE cell association
- Cell Duplication Checks: Validation in F1 DU configuration update to
prevent duplicate cells
- Documentation: Updated RRC developer documentation with multi-cell
architecture details
Validated with RFsim in re-establishment and handover scenarios.
Move the module cmake code to its subdirectory for better organization,
and remove superfluous include_directories() that are not recommended
to be used (as it populates all other targets with those directories,
most of which don't need it anyway).
Slightly clean up the module by removing headers to unused dependencies.
The GTP module has a dependency to 4G and 5G RLC, which should not exist
(the RLC modules have a dependency on GTP, not the other way around),
but in this commit, make as little modifications as possible.
In this case, there are a number of linker errors:
/usr/bin/ld: libL2_NR.a(rrc_gNB.c.o): in function `nr_rrc_transfer_protected_rrc_message':
/home/richie/oai/openair2/RRC/NR/rrc_gNB.c:330:(.text+0x6f6): undefined reference to `signal_rrc_msg'
However, nr_srssim does not need RRC, while it is being linked in. Thus,
link without nr_rrc and L2. For the remaining two linker problems:
- provide a definition of NR_IF_Module_init() as in most other
simulators
- move rrc_get_max_nr_csrs() to nr_common.c. It is already declared in
the corresponding header, and itself does not have anything to do with
RRC radio configuration, therefore it does not belong to
nr_radio_config.c
Integrate GPU-Accelerated Channel Simulation + CI Test Pipeline
This MR builds on top of MR !3588 (feat: GPU Accelerated Channel
Simulation Pipeline).
The main portion of the changes is directly taken from MR !3588, and
focuses on integrating the GPU-accelerated channel simulation. On top of
that, this MR adds CI-related configurations to introduce a new channel
simulation testing pipeline into the CI --> RAN-Channel-Simulation
This MR introduces a CUDA-based pipeline to offload the
multipath_channel and add_noise channel simulation functions to the GPU.
This enables large-scale, real-time physical layer simulations not
possible on the CPU.
For full documentation, please see the file at openair1/SIMULATION/TOOLS/DOC/gpu_acceleration.md.
System & Compiler Requirements: An NVIDIA GPU with a compatible driver
and the CUDA Toolkit installed.
This feature was developed and tested on the GH200 server using the GCC
12 toolchain. To ensure reproducibility, building with GCC 12 is highly
recommended. Build Instructions
The primary flag to enable this feature is -DCUDA_ENABLE=ON. The
following command shows a sample configuration used during development
on the GH200 server:
./build_oai --phy_simulators --cmake-opt "\
-DCUDA_ENABLE=ON \
-DUSE_UNIFIED_MEMORY=ON \
-DUSE_ATS_MEMORY=OFF \
-DCMAKE_C_COMPILER=/usr/bin/gcc-12 \
-DCMAKE_CXX_COMPILER=/usr/bin/g++-12 \
-DENABLE_TESTS=ON"
Memory Model Configuration
The pipeline supports multiple CUDA memory management modes, which can
be configured at compile time. ATS Memory (-DUSE_ATS_MEMORY=ON) is
enabled by default. To use another memory model, you must first disable
ATS.
For a detailed explanation of these models, please refer to Section 3 of
the gpu_acceleration.md report.