CI: Integration Branch 2024 week 08
See merge request oai/openairinterface5g!2585
* !2540 NR UE max MIMO layers from UEcap
* !2554 NR UE RRC minor improvements
* !2563 Add missing backtick for proper code style in README.md
* !2567 Avoid integer overflows, buffer overflows, in channel levelling
* !2574 NR UE fix for configuring coreset0 and SS0
* !2575 NR UE fix init PDCP phy-test
* !2551 NR UE improvements for contention resolution timer
* !2570 CI: Replace nrmodule2 by up2
UBsan fails with errors without this commit. The commit changes:
- avoid two possible integer overflows in nr_dlsch_channel_level() and nr_dlsch_channel_level_median()
- nr_dlsch_channel_level_median() is simplified
- use MAX_ANT in avg to handle more than 4x4 config
Integration: 2024.w06
Closes#733 and #732
See merge request oai/openairinterface5g!2564
* !2490 reworking configuration of LogicalChannelConfig at MAC UE
* !2548 NR UE MSG3 buffer
* !2556 Support RC SM aperiodic subscription for "UE RRC State Change"
* !2557 fix duplicate call of RCconfig_NR_L1
* !2550 use pointer to structure instead of module_id inside MAC
* address #733
* !2560 chore(ci): force rebuild of ran-base for integration branches
* !2495 Sidelink configuration passed from RRC->MAC
* !2220 L1 tx thread
* !2559 FH 7.2 improvements
* !2566 Provide right E1 instance when creating E2 agent in CU-UP
* !2513 Update NR SA tutorials
CUuniqInstance is also used for GTP module identification, which
uses the UDP server socket as its ID. This leads to arbitrary IDs (>0),
which is wrong.
- Phy configuration will be prepared by MAC
- Sidelink preconfiguration parameters passed from RRC->MAC
- Only 1 SSB TA allocation used
- psbch payload prepared by MAC after receiving the tx slss req
PUSCH decoding is started multiple times in nr_ulsch_procedures() for
each ULSCH segment, and stopped once inside
phy_procedures_gNB_uespec_RX(). Not only is it not clear if that works
with the API, it also might measure more than just PUSCH decoding.
Remove the PUSCH decoding, it is misleading. Check L1 RX processing
instead.
The CI would only detect a deviation from the normalized value based on
a configurable threshold, typically 1.25 (so we would tolerate a 25%
increase). However, it often happens that a timing gets shorter (e.g.,
forgot to put the timing measurements). This commit introduces a
"Deviation Threshold" (smaller than 1) to not only check that we exceed
1.0 + "Deviation Threshold" (as before), but also that are not below 1.0
- "Deviation Threshold".
In other words, assuming a maximum divergence of 25%, instead of just
checking if val > 1.25, we now also check if val < 0.75 (and flag
error).
This commit introduces a separate thread (l1_tx_thread) that processes
gNB DL/TX slots. It receives a message from the ru_thread when a new
slot started, and starts processing.
The DL part of the scheduler is run in the l1_tx_thread. Therefore,
only call UL indication (for scheduler) in UL slots. The UL indication
previously triggered the DL scheduler -- hence, it had to be called in
every slot. Now, since the DL scheduler is moved into the DL thread, we
don't have to call the scheduler in every slot anymore.
The reorder thread is removed, as reordering with this scheme is not
necessary anymore.
The main advantage of this version is that the TX can be scheduled
earlier (sl_ahead). Further, there can no longer be race conditions in
the TX path, since the scheduler/L2, TX L1 processing and the RU tx
function are all execute in the same thread (L1_tX_thread).
Also, the scheduler prepares PRACH/PUSCH/PUCCH FAPI PDUs. As of this
commit, the scheduler runs in the TX processing chain, whereas these
PDUs are destined for RX processing. Thus, too avoid data races,
instead of triggering the RX processing at the same time as TX
processing in the RU thread, this commit changes the code to trigger RX
processing after the scheduler has been run in TX processing to avoid
data races.
Finally, we synchronize RU and L1 threads. This is important for
rfsimulator, since unlike most radios, rfsimulator can run slower or
faster, depending on I/O and CPU (it does not have a stable "tick").
Co-authored-by: kiran <saikiran@iitj.ac.in>
The UL_INFO_mutex is used in only one place, and therefore useless.
Also, the scheduler uses a lock internally to prevent concurrent access.
Hence, the UL_INFO_mutex is not needed.
Remove kill_gNB_proc(), as it is now dead code.
The next commit introduces a separate gNB TX processing thread. To
properly separate DL scheduler (for scheduling decisions) from UL
indication handling (for UL packets), this commit introduces a slot
indication "tick" to run the DL scheduler which will be put into the gNB
TX processing chain instead of the UL indication.
For different reasons, the frame/slot numbers might jump (e.g., gNB and
RU machines not properly synced). The scheduler would assert for PUCCH
allocations. Handle this gracefully by printing an error message, and
resetting the PUCCH structure.
Disable DPDK telemetry to skip creation of one/two threads (depending on
DPDK version). To force users to do this, bump the version of the patch
checked by cmake.
More information on DPDK telemetry:
https://doc.dpdk.org/guides/howto/telemetry.htmlCloses: #732 (suggestion 2)
Suggested-by: Andrew Sergeev <andrew.sergeev@adtran.com>
Force the CPU affinity for ru_thread explicitly to ru_thread_core. It is
already done via threadCreate(), but force again as per change request.
Delete commented 7.2 code that did the equivalent. We cannot set it in
the driver, as we don't have access to variable ru->ru_thread_core.
Closes: #732 (suggestion 2)
Suggested-by: Andrew Sergeev <andrew.sergeev@adtran.com>
system_core is the core reserved for DPDK control threads. It was
hardcoded to 0, but it seems that one some systems, CPU 0 cannot be
reasonably isolated from kernel threads. Make it therefore configurable
(default: 0)
Closes: #732 (suggestion 1)
Suggested-by: Andrew Sergeev <andrew.sergeev@adtran.com>
The main goal of this tutorial is to get 5G end-to-end connectivity as simple and fast as possible. For advanced topic the user should search for specific documentation.
No need to pull every single image independently, we can pull all the images with the corresponding tag that is in the 'docker-compose.yaml' with the 'docker compose pull' command
This tutorial aims to achieve end-to-end connectivity as simple as possible. Let's remove this complex topic from here.
Also, if a user copy-paste the section as it was, nrUE gets a segfault because there is no imeisv here, tutorial is out-dated.
- create hash table to save ric_req_id (key) and array of ran_param_id(s) (values), per each subscription
- create RB tree to store list of ric_req_id(s) for each ran_param_id
=> when the async event occurs, it is easier and faster to search per ran_param_id and send the indication message to all xApps (ric_req_id(s)) subscribed to the same ran_param_id
- it is important to mention that both data structures need to be maintained, especially when unsubscription occurs (free_aperiodic_subscription)
Integration: 2024.w05
See merge request oai/openairinterface5g!2549
* !2537 Fix for UE PUSCH scheduler DURATION_RX_TO_TX assertion
* !2538 Fix for UE MAC PDU LCID handling
* !2542 Fix L1_SSB_CSI_RSRP table mapping and check validity
* !2544 NR UE RRC timers improvement
* !2546 Correcting the location of packages
* !2493 Fix for computing SSB subcarrier offset
* !2496 MCS for retransmission fix in case of dci failed detection at NR UE
* !2503 Handle PDU Sessions in NG Initial UE context Setup and forward 5G-S-TMSI to core
* enable caching in the docker build of the CI build steps
* !2541 Fix RA bug, improve overall logging
We used to trigger the UECapabilityEnquiry right after
SecurityModeComplete, and before the RRCReconfiguration (which we call
"default" reconfiguration). However, 38.401 tells us that we should send
the RRCReconfiguration right after the SecurityModeComplete. In fact,
even though we get the UE capabilities, we cannot use them during this
reconfiguration, as we would first need to update the DU with a UE
Context Modification Request, which we cannot, as we just sent the UE
Context Setup Request, and the DU relies on first getting the
RRCReconfiguration.
Since we rely on a subsequent reconfiguration anyway, we can safely
trigger the UECapabilityEnquiry after RRCReconfigurationComplete.
(38.331 also says we can send UECapabilityEnquiry at any point.)
To cater for the possibility that there might not be any reconfiguration
coming afterwards, we check if a DRB has been set up. If not, we assume
a reconfiguration will come, and do not trigger one only for the UE
capabilities (this is what we do before this commit). If we already have
DRBs set up, they might have been set up during the "default" RRC
Reconfiguration, and another reconfiguration might not follow soon; in
this case, we trigger the reconfiguration by sending the UE capabilities
to the DU right away.
The next commit moves the UE Capability Enquiry after the first
reconfiguration. This has the effect that for some UEs (e.g., iPhone),
the Setup Requests come too close to each other, triggering RRC
Reconfigurations while previous transactions are ongoing.
I think the "true" solution would be to implement some tracking of
transactions across RRC, F1AP, E1AP, but this might require many
changes. For the moment, limit to delaying PDU session resource setups
to prevent above problem. Delaying is done using ITTI timers (to be able
to serve other UEs), waiting 10ms each time, up to 20 times (to not
deadlock the transaction -- after all, if the UE is unhappy, it will
drop the connection).
This commit allows the gNB to handle PDU sessions that the core requests
to setup during the NGAP Initial UE Context Setup. Previously, we only
managed them as part of PDU Session Resource Setup Request.
The RRC will, depending on whether a PDU session is in the NGAP Initial
UE Context Setup, either directly trigger the Security Command, or first
do a bearer setup at the CU-UP. Some asserts have been lifted, as now
the PDU sessions might be present before the RRC Connection is fully
established.
Implement the correct forwarding of the bearers in an F1 UE Context
Setup Request message.
This solves bug #672.
Prior to this commit, the handling of DRBs is complex: first the RRC
"guessed" a DRB ID when setting up DRBs via E1AP (in
rrc_gNB_process_NGAP_PDUSESSION_SETUP_REQ()), and later chose one for
real in fill_DRB_Configlist() (called in
rrc_gNB_generate_dedicatedRRCReconfiguration()).
To simplify, remove fill_DRB_Configlist(), and instead allocate the DRB
using generateDRB() before sending the message via E1AP, in
rrc_gNB_generate_dedicatedRRCReconfiguration(). The rest of the logic is
the same.
For PDU sessions, always mark PDU sessions as "done" to match pdu
session state logic.
It might happen that a UE has no CU-UP (e.g., never requested a PDU
session). When triggering a release, we previously and implicitly
associated a CU-UP in that case. That is not good, and confusing.
This commit adds a function to look up if the UE has an associated
CU-UP. We only send a release if it is the case.
The function get_existing_cuup_for_ue() now instead verifies that a
CU-UP exist, and does not implicitly create an association (which might
be unwanted, see above).
The function rrc_gNB_process_RRCReconfigurationComplete() does almost
nothing, we can delete it.
The variable name ue_reconfiguration_after_reestablishment_counter is
misleading, as it counts all reconfigurations; rename to make it clear.
The drb_active array keeps track of active DRBs. However, it only
replicates some of the information in established_drbs, and could lead
to a reuse of DRB IDs when two bearers are to be set up. Consider the
following:
1. trigger first DRB creation at RRC
2. DRB ID chosen from free drb_active entry
3. trigger second DRB creation at RRC
-> The first reconfiguration has not been acknowledged
-> drb_active is not marked as DRB_ACTIVE
4. The second DRB ID is chosen from a free drb_active entry, which is
the same as in 2.
By reusing established_drbs everywhere, this cannot happen, as we
1. select the DRB to be used using next_available_drb() and then
2. use generateDRB(), which marks the DRB used
all from within fill_DRB_configList, which gives a new DRB.
The logic is still overly complex, though.
If there are no active bearers, the function previously returned an
empty list. Return NULL if there are no bearers, so it is safe to call
this function even when no bearers are present. We can also pass it
every time to do_RRCReconfiguration(), which will not add an empty list
for DRBs.
Create a single function to activate an SRB. This function derives the
corresponding keys, triggers the setup in PDCP, and marks the SRB as set
up, instead of doing all of this common functionality in individual
steps. Use it at the corresponding places.
- show MAC bytes in one line
- add MCS table idx
- show ulsch errors before ulsch DTX (as in DL)
- show if UE in-sync/out-of-sync
- show CU UE ID next to RNTI to stats
Since we modify the format of the statistics, fix the format in the retx
checkers of the CI.
This commit implements retrieval of 5G-S-TMSI from Parts 1&2, or the
entire 5G-S-TMSI, depending on what the UE sends. Further, if it has
been retrieved, print a log of all constituent parts of it.
The UE-specific variable ng_5G_S_TMSI_Part2 is not needed, as we compute
the full 5G-S-TMSI as soon as we have Part2 (and 1).
The correct forwarding to the core is implemented in the following
commit.
We did not give a cause value, and therefore NGAP's "PDU sessions
failed" encoding failed. Give a cause value in all cases, so that this
cannot happen anymore.
To prevent against this, put an AssertFatal() into the encoder that
stops if an internally sent message does not have a correct cause value
(we can at least select a default).
Print an info message for all failed PDU sessions.
In rrc_gNB_send_NGAP_INITIAL_CONTEXT_SETUP_RESP(): if a PDU session is
already established, don't count it as failed.
If we are in one of these procedures, we basically must be in SA mode,
everything else is illogical. It also does not seem plausible to check
for this, as it is not apparent why only these couple of calls should
not be executed if not in SA. Hence, remove.
This implementation might work, but it simply triggers RRC setup on the new
DU when we might send a RRC reestablishment speeding up the whole
connection setup. For this:
- we should send the F1 UE context setup to the new DU
- we should still do the reestablishment, containing the reestablishment message
The latter should be sent once we received the F1 UE context setup
response. We don't need a new context. send a release to the old DU (and
don't release our own context!!).
We might also send the reestablishment to the UE encapsulated with the
F1 UE context setup response. Need to investigate if this is feasible
(because if the DU rejects [can that happen here?], the UE will still
send reestablishment complete -- what then?).
Also, we would need to send the E1 bearer context modification to the
CU-UP.
Keeping track if AS security is activated. This is important for a later
commit, where we use this to decide if we send a F1 UE Context Setup Req
with security command after receiving the E1 bearer context setup
response. The corresponding AssertFatal() removed in the same commit
implementing PDU session handling in NGAP Initial UE Context Setup.
38.401 Sec 8.1 asks for sending the Initial Context Setup Response after
a reconfiguration happened. Therefore, we can never send this message
directly from the handler in the Initial Context Setup Request
38.133 table 10.1.6.1.1 specifies dB for RSRP measurements. On the
"edges", the choice of INT_MIN/INT_MAX is poor, as it can quickly lead
to integer overflow/underflow for the wrong values. Instead, set proper
min/max RSRP values.
If we cannot send Msg.2, then basically the RA process is dead (because
the UE expects it at a fixed time). Hence, cancel the RA process, so
that we do not pick it up again after 1000 frames.
Integration: 2024.w04
See merge request oai/openairinterface5g!2535
* !2522 Integration of O-RAN 7.2 FH using OSC xRAN library
* !2416 fix-ue-scheduler-multi-thread-storage-list-mutex-protection
* !2488 LDPC T2 card encoding: rate matching and interleaving on the T2 card
* !2497 Read NoS1 bearer configuration from gNB-generated file
* !2518 Extension of E1AP procedures
* !2533 This limits PUCCH payload to 11 bits, 7 CSI + 3 ACKNACK + 1 SR maximum.
* !2526 prepare MSG3 in advance at RRC UE
* !2451 MAC procedures to handle DLSCH allocation type 0
* !2525 NR UE fix for function to find PUCCH resource set
* !2536 Improve Precoding Matrix computation taking in consideration the DCI format
* some documentation+config file updates for 7.2
* !2501 Improvements for NR implementation of timers
* !2531 Fix unit test build and build unit tests in CI
- Rate matching performed by card
- Due to rate matching on card, small TBs are encoded correctly, so the
limitation of encoding small TBs in CPU can be lifted (all TBs encoded
on T2), see a later commits
- CU-CP replying to the CU-UP with a Setup Failure message in case of unsuccessfull E1 Setup Request
- message is decoded by the CU-UP, and stops the process
Subsequent pipelines can/might use the ran-base image. Further, before
building a new ran-base image, we delete it. Hence, it suffices to only
delete the image when necessary (before building a new one), and
otherwise leave the current (develop, ci-temp) ran-base image.
Using AssertFatal() has the drawback that it requires the definition of
an exit_function() (which is typically declared in OAI main
executables). We don't want to pull in such dependency for every
consumer. Hence, use c stdlib's assert() instead.
This commit removes nr_rrc_mac_config_req_ue_logicalChannelBearer and handles configuration of logical channel bearers at MAC in nr_rrc_mac_config_req_cg.
This also avoids to configure LCs before resetting them again nr_rrc_mac_config_req_cg().
- update library location
- correct information for ioWorker
- disable HT on servers
- add local/lib trick for Fedora-based OS. Also clean-up on line terminations
- add another pkg-config trick.
- Proper version(s) of DPDK
- Support for both Bronze and E releases
- Minor fixes on E-patches and build system
- fixed a few typos and better explanation of the CPU allocation scheme
Co-authored-by: Raphael Defosseux <raphael.defosseux@eurecom.fr>
Co-authored-by: Jaroslava Fiedlerova <jaroslava.fiedlerova@openairinterface.org>
Co-authored-by: Robert Schmidt <jaroslava.fiedlerova@openairinterface.org>
- Add the O-RAN 7.2 FHI library, interfacing with OSC xRAN library (E
release)
- Add Findxran.cmake to detect the library and headers, including
version information
- Test for numa and DPDK presence
- Add patch for OSC xRAN to make interworking possible
- Add sample config files for LiteOn, Benetel, and VVDN units.
Documentation is provided in the next commit.
Co-authored-by: Raymond Knopp <raymond.knopp@eurecom.fr>
Co-authored-by: Cedric Roux <cedric.roux@eurecom.fr>
Co-authored-by: Manish Kumar Singh <manish1.kumar@amd.com>
Co-authored-by: thamizhselvan.k <thamizhselvan.k@vvdntech.in>
Co-authored-by: rajeshwari.p <rajeshwari.p@vvdntech.in>
Co-authored-by: Hongzhi Wang <hongzhi.wang@openairinterface.org>
Co-authored-by: Sofia Pison <Sofia.Pison@eurecom.fr>
For the initialization of the xran library (split 7.2), we need some
parameters such as PRACH or frame config. However, to date,
initialization of split at level 7 use the split 8 openair0_config
structure, which does not have the necessary information.
Hence, add a single structure that contains that information.
* make a single call to various function
* make fill_rf_config() static, it is only used in this file
* do not initialize the number of antennas in openair0_cfg in
init_NR_RU(), as it is already done in fill_rf_config()
Harmonize the call to openair0_transport_load(), by putting it in a
single place instead of multiple calls
Further, delay the call to ru_thread, for two reasons:
1) it is somewhat "symmetric" with local RF, which is done there as well
2) for the xran library, we need to read some parameters such as PRACH,
frame format, etc. At the RU, the corresponding FAPI config request
parameter structure is copied from the gNB to RU at the beginning of
the ru_thread, so we have to wait for that to happen.
Reformat code to properly copy memory if we skip precoding.
precoding_stats timing is not part of ru->feptx_ofdm, but
ru->feptx_prec, so always print it.
Previously, in order to speed up processing if precoding is disabled, we
just copy the pointer from txdataF to txdataF_BF, as opposed to do a
full memcpy() to duplicate the data. The same happens if we cannot have
precoding, i.e., in SISO. This has implications such as memory leaks,
which is why this is not being done. However, the code comment is
intentionally placed there.
For 7.2 FH, some RUs do phase compensation, whereas for others, the DU
does it. In fact, this can be "negotiated" using the M plane. Since we
don't have the M plane yet, add a configuration option to set where
phase compensation is performed.
For certain processing, e.g., in the case of FH 7.2, we need to ensure
that critical L1 processing happens fast. Try to force speedy processing
with this high priority.
Integration: 2024.w03
See merge request oai/openairinterface5g!2524
* !2519 fix(build): migrating rocky dockerfiles to Rocky-linux-9 to ease maintenance
* !2508 NR UE PDCP RLC indexing
* !2511 chore(ci): updating 5G RF / L2 simulator scenarios to release v2.0
* !2486 E2 agent: Use FlexRIC release v2 and add to CU-UP
* !2453 Liteon DU integration
* !2516 remove ASAN_OPTIONS: detect_leaks=0 from SA rfsim CI tests
* !2199 NR precoding matrix generation at MAC
RRC Version is a required IE. Hence, implement the encoder and decoder
for this message. At the DU and CU, read the RRC Version we use and fill
the corresponding field.
Co-authored-by: Robert Schmidt <robert.schmidt@openairinterface.org>
In NSA, we don't have SIB1. However, the DU system information requires
both MIB and SIB1, but is itself optional. So, in NSA, don't fill the DU
system information.
For LiteOn DU, we do not receive the MIB/SIB1 in the F1 Setup Request.
This is not a problem in itself, but it might happen that certain
procedures are executed without MIB/SIB1. Check for it and handle
appropriately:
- During normal connection establishment, we might not be able to
calculate measurement config
- During reestablishment, we might not be able to calculate ARFCN SSB
and cannot do reestablishment; do RRC setup instead.
read_version() takes a version string in format "x.y.z" with x being
major, y minor, and z patch number. It transforms reads them into
separate numbers, and outputs in the correspondingly named variables.
- e2_ran_func library divided into e2_ran_func_cuup (CU-UP only) and e2_ran_func_du_cucp_cuup (DU, CU, CU-CP and gNB-mono)
- GTP SM is not yet implemented in CU-UP -> CU-UP doesn't store PDU session information
- PDCP SM support for gNB-mono, CU and CU-UP
- KPM SM support for all node types (DU, CU, CU-UP, CU-CP and gNB-mono)
Integration: 2024.w02
See merge request oai/openairinterface5g!2514
* !2506 NR UE MAC config fixes
* !2478 Moving computation of base graph for LDPC at MAC in the UE
* !2481 fix UE RX/TX thread several bugs in synchronisation of events, add LOG_E and...
* !2494 Fix for building rach occasions in case of multiple BWPs
* !2498 Fix security header type for PDU session establishment, and update sqn, counters
* !2509 Fixed typos in init_ru
* !2512 Null pointer in nr generate msg3 retransmission
* !2505 USRP doc: Include b205-mini, improve markup
While testing the OAI 5G RAN in SA mode, it appears that the PDU session
establishment request is using the wrong security header type.
The current used header is: "Integrity protected and ciphered with new
5G NAS security context".
However, according to TS 24.501, Table 9.3.1, this header can only be used
by the "Security mode complete" procedure.
Changes:
- Hence, the new security header has been changed to "Integrity protected
and ciphered", which will use the security context generated during the
"Security mode complete".
- Sequences numbers and NAS counters have been updated to reflect that
change.
Integration: 2024.w01
See merge request oai/openairinterface5g!2502
* !2482 Trigger UL Failure if Ack of Msg4 not received and implement RA Contention Resolution timer in gNB
* !2484 function to harmonize handling of NAS registraction accept
* !2487 Rework PUCCH codec with c16_t type and functions to make readable code
* !2491 improvements for NR UE detaching
* !2499 Update L1sim and RFsim documentation
* !2500 Fix FAPI CoreSetType enumeration options after the fix on the description made by SCF
* !2489 NR UE improvements RRCSetup
- update explanation for noS1
- better help for nr-uesoftmodem options
- consistent writing of name "RFsimulator"
- remove LDPC section at end, is already referenced in doc/README.md
- Add TOC
- Better describe what RFsim does
- Remove misleading, wrong, unnecessary information
* It is futile to mention --phy-test or other modes, RFsim works with
all
* Explaining how to ping is not the task of the RFsim documentation
(that is what tutorials are for)
* Remove useless/outdated build log information
- Add some more information on which flags to run
- Improve formatting, and minor clarifications
SCF FAPI 222.10.02 had a bug on the description of CoreSetType:
0: CORESET is configured by the PBCH or SIB1
(subcarrier 0 of CRB0 for DMRS mapping)
1: otherwise (subcarrier 0 of CORESET)
That was fixed in SCF 222.10.04:
0: CORESET is configured by the PBCH or SIB1
(subcarrier 0 of the CORESET)
1: otherwise (subcarrier 0 of CRB0 for DMRS mapping)
That wrong description created a misunderstanding, to overcome it we "wrongly" added a third value. This commit fixes that and aligns the CoreSetType with FAPI 222.10.04
- Do not list L1sim as a way of running OAI: it is untested, and might
not work
- Reword the tutorial where necessary, remove outdated/wrong information
(e.g., we don't test this mode AFAIK)
The UE will trigger new RA either with MAC CE C-RNTI or with new RRCSetupRequest:
- MAC CE C-RNTI: The ul_failure_timer will be reset
- RRCSetupRequest: New UE will be created and the previous one will be deleted
Integration: 2023.w51
See merge request oai/openairinterface5g!2483
* !2221 NR UE going to IDLE state
* !2464 move common .h file in common directory, remove mem_block_t
* !2479 CI: test with 2 UL layers in AW2S pipeline
* !2468 LDPC T2 card: fix and doc update
* !2480 Enabling multi-ue support in the open-source L2 proxy
* !2476 Fixes for multi-DU/CU-UP and CI test
* !2482 Trigger UL Failure if Ack of Msg4 not received
* !2484 function to harmonize handling of NAS registraction accept
The 5G-RFsim F1 test tested multiple DUs at one CU. This
functionality is retained in the new F1+E1 test.
The 5G-RFsim E1 test tested a single CU-UP at a single CU-CP. Here, we
extend to use multiple CU-UPs, one for each DU. The associated is
ensured by using three different F1-U transport networks, one for each
DU/CU-UP pair.
- Test only one DU at the CU (3 DUs is tested in F1+E1)
- Harmonize IP configuration to make it simpler to reuse in the F1+E1
test
- Speed up the test by reducing the number of steps to deploy core/RAN
- Add traffic test
binding the local address for SCTP is pointless, because we don't really
care through which interface SCTP traffic goes. Actually, we even might
want to set the DU remote_n_addr and the the local_n_addr to addresses
in different networks, because we might want to have GTP traffic go
through a different interface than SCTP, as done in the CI test for E1.
MR-2401 changed the argument to the init_nrUE_standalone_thread
to be zero instead of the ue_id_g. This causes every port to be
opened for multiple UEs to have the same value, therefore only
allowing one UE to be connected to the proxy. If the ue_id_g
global is an issue, we should open a new ticket for a proper fix.
We set the RFsim TCP socket to non-blocking. Thus, it may happen that we
cannot write() to the socket when the kernel cannot handle the request,
in which case we wait some time before trying again. This is the
correct/expected behavior.
Since this is *normal*, an error message is not justified; we did not
even print a message in this case before commit 21790f9c4f introduced it.
When setting up bearer(s) through F1, the corresponding F1 message has
QoS fields for the DRB(s) to be set up, as well as for all flows
associated to this DRB. In this commit, set the DRB QoS field to be
equal to the first flow (it is unclear/unspecified how it should be set
up, based on the flows), which was not set before and therefore
contained unitialized data.
The F1 module uses this data, and in split mode, F1 message generation
failed due to uninitialized data.
We reuse RRC UE IDs at the RRC. Previous to this commit, we did not
release a UE at the CU-CP's PDCP (for SRBs). Thus, when reconnecting a
UE, the PDCP might not be in a good state, since we did not release the
previous PDCP UE context.
Integration: 2023.w50
See merge request oai/openairinterface5g!2474
* !2460 bugfix: initialize TX and RX antennas separately
* !2471 fix a useless computation done in case we activate LOG_D
* !2417 PDSCH precoding optimization
* !2436 Fix the DoS vulnerability in RA procedure
* !2472 (ci): adding new packages in cuup dockerfiles
* !2463 NR UE RRC MAC configuration improvements
* !2475 Fix gNB RA procedures when Msg4 Ack not received
remove several unused files
remove mem_block_t that is never used in a different way than a simple heap buffer
move up IP address type and remove duplications of the same struct declaration
When the gNB does not receive PUCCH with Ack for Msg4 we have to consider Msg4 received by the UE, so we need to apply the CellGroupConfig sent to the UE.
There are two scenarios:
1 - The UE never decoded PDSCH for Msg4, the RA will fail because RA Contention Resolution timer, the UE will come with a new RA with new RRCSetupRequest
2 - The UE decoded PDSCH for Msg4, and if SR does not work and no resources for PUSCH, it will trigger RA with MAC CE C-RNTI in Msg3 (so, gNB must be ready for it)
Integration: 2023.w49
See merge request oai/openairinterface5g!2470
* !2264 Improvements in f1ap for qos
* !2377 Store allowed NSSAIs from NAS message
* !2462 Hotfix: swap UIDs after RRCReestablishment
* !2449 Improve performance of polar initialization
* !2469 handling configuration of MAC-CellGroupConfig at UE
* !2395 `nr_generate_pdsch()` clean up and little performance improves
* !2461 CI: add FDD test to SA B200 pipeline
* !2424 Improvements in SDAP RRC management
to use faster code
- replaced hundreds mallocs by either local arrays or by the OAI multi-dimensionalarray (G_N_tab array)
- made in SIMD a one bit per byte packing function to packed (ordinary) bits in bytes
The CellGroup is created considering UID, for example:
'pucchres0->startingPRB = 8 + uid;' and since we keep the CellGroup from
the previous RNTI/UID we should keep also the previous UID.
Considering the scenario where a UE did successful RRCReestablishment,
it was getting uid = 1, and uid = 0 was removed.
When another UE connected, it was getting UID = 0 (because 0 was already
free), and so the PUCCH 0 resource was conflicting with the first UE.
On that occasion, also correct the comment that describes the code, as
it was wrong/misleading.
- new cu and du config files for testing in band 1
- modification of yml file for CU DU deployment - with new config files
- modification of xml file for SA F1 testcase
See merge request oai/openairinterface5g!2459
* !2419 chore(ci): running 5G RF simulator scenarios with address sanitizer
* !2455 Remove mac_LogicalChannelConfig from RLC (handled at MAC)
* !2456 Setting uniform periodicity for CSI-RS and measurement report
* !2429 LDPC encoding/decoding offload to the T2 card
* !2447 E2 agent: build in CI, fix slice support, add gNB-DU and gNB-CU-UP IDs
* !2452 Include sample advance option in UE tutorial
* !2430 bugfix: nr-ue: set first_tx=1 at first transmission of a harq process
* !2457 Fix scaling for FR2
Position of SSB from Point A depends on offsetToPointA and Kssb, and for both, the unit for RB is expressed as 15KHz for FR1 and 60 KHz for FR2, so scaling must be 4 for FR2 frequencies
- Implement: Extend the F1 encoding and decoding with Qos
- Implement: E1 decoding for QoS
- Fix: Modify the UE_MODIFICATION_REQUEST_MSG towards DU to contain QoS info based on E1AP context response
- Fix: Modify the E1AP and F1AP message structures
- Fill the Qos configuration to send to MAC
The macrlc_has_f1 (static) variable was introduced to signal when we use
F1 in the configuration. It is superfluous: the node_type already passes
this information in a unique manner; hence, remove.
Correctly match UEs based on the NSSAI in MAC and RRC. There is a
convenience function capture_sst_sd() that extracts SST and SD (which
form the NSSAI). Because a previous version used integers to convey the
slice identifier, this function gracefully handles this case, although
it is not spec-compliant.
Prior to this commit, the RAN function for KPM is leaking memory: it
allocates using calloc() but never frees it.
The fix consists of not allocating this memory on the heap in the first
place, but on the stack. Therefore, there are changes to pass in a
pointer to various functions to the structure on the stack, instead of
passing the "container" for the heap memory by value.
Further, the MAC was allocating an excessive amount of memory (N times
sizeof(NR_UE_info_t)). Instead of copying the entire struct, the present
code stores a pointer to the MAC UE container (NR_UE_info_t *). For the
RRC, there is a similar simplification that consists in not storing the
entire struct f1_ue_data_t (which is not required), but only the RRC UE
ID.
Note that both MAC and RRC might suffer from race conditions. For the
MAC, we should lock the scheduler for the time we read statistics. For
the RRC, the problem is more delicate as no mutex exists; the RRC
assumes everything is executed synchronously in the ITTI task loop. In
both cases, this commit does not address this problem
Filtering UEs by NSSAI is broken, so remove it. A later commit will
reestablish this functionality.
Simplify the code: we only handle one condition, so we can check for it
upfront.
This commit introduces an additional (implicit) option that signals if
the E2 agent is to be activated or not. When reading the configuration,
we now check if all fields are set, and activate the E2 agent only if
this is the case. If not, we only print a warning and start the gNB
without the agent.
Note that previously, if not all fields are set correctly, the gNB
stopped.
To implement this behavior, it is necessary to change the defaults of
the RIC IP and the directory for SMs to a (non-NULL) default value.
Otherwise, the configuration system would not consider the field to be
set to the default, and wrongly assumes the field is set, even though it
is not; at least, this change is necessary to make config_isparamset()
return NULL if the configuration is not set.
3GPP has the concept of a gNB-CU-UP ID and a (separate) gNB ID (for gNB,
CU-CP). This commit introduces the gNB-CU-UP as a separate ID that has to be
set in the configuration file when running as a CU-UP. For the
CU/monolithic gNB, it is optional (but needs to be the same as the
gNB-ID if specified).
The CU-UP ID is necessary, as some entities, e.g., the e2 agent, need to
signal both IDs, e.g., to reconcile a CU-CP and (multiple) CU-UP(s)
belonging together.
3GPP has the concept of a gNB-DU ID and a (separate) gNB ID (for gNB,
CU). This commit introduces the gNB-DU as a separate ID that has to be
set in the configuration file. It is necessary, as some entities, e.g.,
the e2 agent, need to signal both IDs, e.g., to reconcile a CU and
(multiple) DU(s) belonging together.
* Dockerfile argument is now a generic BUILD_OPTION for any build_oai available option
* docker-compose files are only modified at deployment time. Not needed for undeployment
* fixes for oai-nr-cuup
* cleaner section for the private registry push
Signed-off-by: Raphael Defosseux <raphael.defosseux@eurecom.fr>
See merge request oai/openairinterface5g!2450
* !2440 hotfix: set PDCP t-reordering to 100ms
* !2439 rfsimulator: ignore PIPE signal
* !2441 minor: documentation: advertise correct default value for --ssb
* !2446 chore(ci): displaying the ASN1C commit
* !2443 CI documentation: updates and how to reproduce
* !2355 NR UE improve handling of MSG4 feedback in default PUCCH
* !2408 NR UE MAC config improvements
* !2431 T: isolate generated .h files when using make
* !2442 nr pdcp: rework reestablishment
* !2448 lte: switch to RRC release 16.13.0
* !2088 Implementation of logical channel prioritization at UE
* correctly read timing advance option `-A` in gNB
* set sample advance for OAIUE test to make it more stable
* set gain for OAIUE test to make it more stable
* !2445 Correctly allocate SCC n_TimingAdvanceOffset
* !2454 bugfix: fix NSA CI test
A COTS UE is sending UE capabilities with accessStratumRelease "rel16"
which is not decoded by our RRC. Switching to RRC 16.13.0 lets our RRC
accept these capabilities (and as a positive side effect lets this
particular UE work nicely in NSA fr1).
cleanup means:
- typo: susbend -> suspend
- call nr_pdcp_manager_unlock() where needed
- simplify LOG_XX (remove __FILE__, __LINE__, __FUNCTION__)
note:
nr_pdcp_release_srb() and nr_pdcp_release_drb() don't use
nr_pdcp_release_drb() because they modify the arrays, so
it does not make sense to "abstract" the accesses to
->srb and ->drb.
Security part needs to be checked, may fail to work.
But if it fails, it was probably not working before either.
This commit also contains adding 'static' to nr_pdcp_entity_release()
and nr_pdcp_entity_delete() (it was too complicated to do a separate
commit for this).
We also update stats in free_rx_list() (again, too complicated for
a separate commit).
openair2/RRC/NR/rrc_gNB.c probably needs some more work, it is a
bit ugly to reestablish all the drbs without checking if they
exit. It will generate warnings at runtime. I didn't do it because
I don't know the proper way.
The function generateDRB() sets the value to 100ms but the function
rrc_gNB_process_NGAP_PDUSESSION_SETUP_REQ() sets it to 0ms.
So what happens is that the UE gets the value 100ms in the
RRC Reconfiguration but the gNB creates the PDCP entity with 0ms.
Let's create it with 100ms instead, to be aligned with how we configure
the UE.
And also avoid some PDCP warnings at runtime when some packets
are retransmitted but rejected because of the 0ms timer. This is
the warning:
[PDCP] discard NR PDU rcvd_count=68469, entity->rx_deliv 68481,sdu_in_list 0
This is just a hotfix. A real solution is to have the RB creation in
only one place. And we should also have those parameters configurable.
Work for later.
- Reorder the logical channels based on priority
- Handling of configuration and release of logical channel bearer
- Add changes in the implementation of lcp procedure for equal priority logical channels
- Restructure the lcp parameters as a separate structure
- Further code clean up
Closes#685 and #698
See merge request oai/openairinterface5g!2425
* !2404 NR UE MCS for retransmission v2
* !2420 Scan build: Argument with 'nonnull' attribute passed null
* !2422 Fix AssertFatal when using NR band n1
* !2418 NR UE resynchronization fix
* !2376 Save NSSAI params of PDU session coming from AMF
* add `build_oai` option for thread sanitizer
* update 60 MHz 2x2 phytest-timing threshold
* !2423 Free F1 UE data struct only on UE release
* !2428 Prevent CU-UP UE ID management if integrated CU
* !2390 NR PTRS improvements
* !2291 Pass config object instead of using implicit global
* !2421 Change UL_TTI.request PRACH PDU beamforming pack/unpack handling
* !2406 CI:AW2S - test with 10 AmariUEs
* !2401 ue-rrc-coarse-cleaning
* !2366 Remove F1 BWP switching logic
* !2426 F1: support multiple DUs per CU
* !2432 Remove cblas dependency for 5G targets
This commit follows the previous one and adds a dependancy for the
generated .h files so that when we change T_messages.txt to add a
T trace, the compilation succeeds when using ninja in
cmake_targets/ran_build/build.
When using the make system to generate T files, if you change
T_messages.txt you may have problems compiling the gnb with ninja.
If you want to see the problem:
First run: cd cmake_targets; ./build_oai --ninja --gNB
Then: cd common/utils/T
edit T_messages.txt, add a trace, for example:
---
ID = ENB_PHY_UL_TOCK
DESC = eNodeB uplink tick - one tick per ms at start of uplink processing
GROUP = ALL:PHY:GRAPHIC:ENB
FORMAT = int,eNB_ID : int,frame : int,subframe
---
then run: make
then: cd cmake_targets/ran_build/build; ninja nr-softmodem
You should have an error looking like this:
---
[3/81] Checking validity of VCD files
FAILED: common/utils/T/CMakeFiles/check_vcd /tmp/develop/cmake_targets/ran_build/build/common/utils/T/CMakeFiles/check_vcd
cd /tmp/develop/cmake_targets/ran_build/build/common/utils/T && /tmp/develop/cmake_targets/ran_build/build/common/utils/T/_check_vcd /tmp/develop/common/utils/T/T_messages.txt /tmp/develop/common/utils/T/../LOG/vcd_signal_dumper.h
error: VCD_FIRST_VARIABLE is not correct in T_defs.h
You probably added a VCD trace (variable or function) but you did not
update T_messages.txt and/or T_defs.h in common/utils/T/
[...]
---
Let's first isolate the generated T .h files when using make because
we have two versions of T_IDs.h and T_messages.txt.h when mixing
make/cmake.
A next commit will regenerate T_IDs.h and T_messages.txt.h when
T_messages.txt chages for the cmake system, because this commit
does not solve the problem.
- PRACH Configuration Index = 98 is not suSpported by the Amarisoft UE simulator, as a number of PRACH occasions within the PRACH slot is > 1
- for PRACH Configuration Index = 100, number of time-domain PRACH occasions within a PRACH slot is 1
Multiple DUs host cells, whose cell ID cannot match (to identify them
uniquely). Hence, don't check for equality with CU, because otherwise,
we can never connect multiple DUs.
This is a workaround for a problem described in #706. In short, we
cannot reuse the cu_add/remove_f1_ue_data() functions if we are in an
integrated CU-UP/CP ("CU"), but then we can also not reliably use
different UE IDs in CU-UP and CU-CP (except if using even more hacks).
An assoc_id of 0 is used to mark UEs whose DU is "offline" (not
connected). In this patch, if a DU disconnects, we go through all UEs
and set their assoc_id to 0 if they belong to a UE that just went
offline.
This code printed BW masks (what is this) and number of MIMO layers. It
was dependent on the current DU, and only showed the information for the
current DU config (SCS, band). On DU disconnect, it leads to segfaults
to this dependency, and IMO is not useful in itself (it could rather be
printed when receiving the UE capabilities, for all bands etc.).
To allow to send F1 messages to multiple DUs from the CU, we need to
send these messages via different assoc_id (SCTP association ID,
basically akin to a file descriptor). Currently, the assoc_id is stored
in a context at the F1 module and retrieved in
f1ap_itti_send_sctp_data_req().
To facilitate a later change towards indicating (from the RRC) to which
assoc_id (hence, DU) to send a message, we refactor all
CU_send_*()/DU_send_*() functions to take the assoc_id as a parameter to
which to send messages. In this commit, we then pass the assoc_id from
the context. A later commit changes this (at the CU) to pass the
assoc_id from the message to be sent.
Previous to this commit, the CU creates an F1 instance and initializes
GTP after a successful connection establishment, and tears the F1
instance down after the DU disconnects. This does not work when trying
to connect multiple DUs, or have them reconnect, as e.g., GTP
re-initialization fails (socket already bound).
This commit makes the CU F1 instance creation and GTP init at CU task
init (only once), and also frees the F1 instance only after the CU task
exits, which is at termination of the application, typically.
Remove dead code, result of 2136ceec0d: we
cannot connect() in GTP on multiple remotes (as then only packets of one
host might be received), but might need to send to multiple remote
sockets.
The DU UE capability printing depends on data on SCS and band, which
currently is only stored with the DU. To avoid any assert, we check
that the DU is present. A follow-up commit will rework this.
Before this commit, as visible in the handler of an F1 UE release, it
can happen that we forward the RRC Release message to a UE and start the
release timer, while also removing the F1 UE data (containing e.g., the
CU UE ID). This can lead to asserts, since there might still be
subsequent traffic for such UE during a short time, while the DU does
not have the secondary UE ID stored anymore.
This commit changes the logic. It introduces function
nr_mac_release_ue() that removes the UE at MAC and RLC, frees the F1 UE
data (if applicable), and sends the complete, after timing expiry. If
the UE is out of sync, this function is used to free the UE immediately.
This fixes#685 and #698.
integration_2023_w43
See merge request oai/openairinterface5g!2415
* !2407 hotfix: UE DCI format 11: only 1 dl_config instead of 2
* !2372 chore(ci): testing up to 10 UEs in 5G RF simulation
* !2396 Add optimized function to count the number of bits set in uint64_t variable
* !2383 E1: implement release bearer, handle multiple CU-UPs
* !2413 Assigned value is garbage or undefined reported by scan-build
* !2387 Small fixes for UE stability and introduction of ITTI "no-thread" mode (separate bug fixes and ITTI changes?)
* !2410 Fix CellGroupConfig-related memory problems
* !2414 fix doxygen
- Set the correct QoS flow ID to associate a correct QoS flow to the
bearer: the UE would misassociate otherwise
- Set the DRB as the default: the handler applies bool with true==1, so
use bool value
Introduce a --no-itti-threads command line option to disable threading
in ITTI, and call message handlers in the current thread. This is being
introduced in order to increase repeatability when testing the nrUE with
the IQPlayer. Without this feature, runs with the IQPlayer will end up
differently, depending on the timing of ITTI threads, mostly when
sending messages to RRC and NAS.
Before this commit, the DMRS_UplinkConfig was stored in a separate
DMRS-related structure, although it is always referenced in the
PUSCHConfig of the current UL BWP.
Through certain code paths (e.g., retransmission), it could happen that
an old DMRS_UplinkConfig was accessed that was freed (through new
CellGroupConfig).
In this commit, we always look up the DMRS_UplinkConfig in the current
PUSCH config, which should always be up to date.
Until this commit, the SIB1's PDCCH_configCommon was set (via a pointer,
i.e., an indirection) to the one of the ServingCellConfigCommon (SCC).
Afterwards, the SIB1 code further populated this PDCCH configCommon,
indirectly populating the one of the the SCC, on which code later
depends.
Not only did this create possibilities for double-frees (since freeing
the memory of SIB1, then SCC would free the PDCCH configcommon twice),
but also it makes it harder to track where certain structures are
populated. Hence, this commit solves both issues:
- The SCC is correctly populated on initialization of the SCC
- The SIB1 makes a deep copy of the SCC' PDCCH configCommon
This resolves the two issues above.
This allows to communicate with multiple remote hosts. A further
improvement would be to refactor this piece of code into a function and
call it only when necessary, i.e., when we know the remote host, or want
to add one to a list of hosts.
This commit introduces the capability to handle multiple CU-UPs. It uses
a RB tree and puts the CU-UPs into the tree. Upon the connection, it
associates UEs to CU-UPs in a round-robin fashion.
A later commit will introduce an RB tree to manage multiple CU-UPs. The
RB tree implementation relies on some macros that generate RB tree
functions. Functions using the RB tree implementation will be grouped in
this file.
The E1AP Setup Request contained the network configuration (IP address,
ports) as well as the actual E1AP Setup Request application data
(Supported PLMNs, ...). This has the drawbacks that
- The E1AP Setup Request is stored to retrieve IP addresses in the E1AP
module, which is confusing as the Setup Request, per standard, has no IP
info
- The CU-CP received an E1 Setup Request for configuration during start
up, but it did not actually receive such Setup Request, but merely the
IP configuration to set up the socket
This commit splits the E1AP Setup Request into a "real" Setup Request
for application data, and creates a new type e1ap_net_config_t to group
all IP configuration data. Further, a new ITTI message type
E1AP_REGISTER_REQ is introduced to group both types. What happens is
- RCconfig_NR_CU_E1() reads both E1AP application-level data and IP
configuration, as previously
- The data is sent to the CU-CP. It discards the E1AP Setup Request
data, and only uses the network configuration to set up the socket
- The data is sent to the CU-UP. It uses the network configuration to
connect to the CU-CP, and then sends the E1AP Setup Request to the
CU-CP.
Currently, the CU-CP still stores the Setup Request locally, which will
be changed in the next commit to send it to the RRC.
The DRBLists inside E1AP message are for E-UTRAN. We don't support that
with our CU-CP/UP yet, so remove it to reduce ambiguity and complexity.
For the same reason, we remove the CN Support, which for us is always
"NR".
Integration Branch 2023.w42
See merge request oai/openairinterface5g!2403
* !2368 NR UE SRB0
* !2399 build_oai: Auto-detect if terminal supports colors
* !2398 Correctly load channel models
* !2365 Change PDU_Length and tlv length calculation to be inline with SCF 222.10.02
* !2402 chore(ci): enabling the ARM cross-compilation pipeline
* !2397 fix(ci): improve for parallelism issue in Groovy
* !2405 Clean IDE files and remove old documentation
* properly formatted the finalizeSlaveJob function
* explained the reason and gave an explicit name to the global variable
Signed-off-by: Raphael Defosseux <raphael.defosseux@eurecom.fr>
This enables build_oai to detect if the output terminal supports colors.
If it does, it will use colors in its output. If it does not, it will
just print the text, without color codes, improving legibility.
PDU Length is as per SCF 222.10.02: The total length (in bytes) of the
PDU description and PDU data, without the padding bytes. From
TX_DATA.request we get 8 (2 bytes PDU_Length + 2 bytes PDU_Index + 4
bytes num_TLV ) and from each TLV we get 4 + value size ( 2 bytes tag +
2 bytes length + value size without pading)
Therefore, add function to compute PDU_length() value for
TX_Data.request, taking into account how many TLVs there are.
compute_PDU_length() does not rely on access to `nfapi_nr_pdu_t`.
Put it into nr_mac_common.c to avoid introducing dependencies.
integration_2023_w41
See merge request oai/openairinterface5g!2394
* !2389 Remove global variable rx_spatial_power
* !2364 NR UE PUCCH2 sanitize errors
* !2352 Break DCI processing function into smaller pieces
* !2391 Remove calloc from L1 at CSIRS_PDU conversion function
* !2393 Fix UE assertion due to PUCCH resource lookup all BWPs
* !2307 Improve documentation for L2sim Readme
* !2310 doc(websvr): how to install properly the dependencies
- Remove calloc from convert_csirs_pdu function, change return value
from 'nfapi_nr_dl_tti_csi_rs_pdu_rel15_t *' to
'nfapi_nr_dl_tti_csi_rs_pdu_rel15_t' to not require call to 'free()'
- Set parameter pointer as const as it's not modified
- Remove cast to fapi_nr_dl_config_csirs_pdu_rel15_t in csi_rx.c as
ue->csirs_vars[gNB_id]->csirs_config_pdu is already of type
fapi_nr_dl_config_csirs_pdu_rel15_t.
- Remove casted parameter in call to convert_csirs_pdu and replace with
csirs_config_pdu obtained earlier from
ue->csirs_vars[gNB_id]->csirs_config_pdu.
integration_2023_w40
See merge request oai/openairinterface5g!2381
* !2345 fix bug for IE cause in pdu session accept
* !2361 Fix Msg3 MAC CE C-RNTI
* !2371 fix(ci): printing the warning and error lines for CI purposes
* !2374 Fix SSB ARFCN: wrong ARFCNs in FDD
* !2379 fix the selection of DCI candidates at UE
* !2369 Add bwp_size and bwp_start fields to CSI_RS PDU struct at NR UE
* !2349 E2AP Version 1,2,3 and KPM version 2, 3
* !2375 increase the max fd of rfsim, that have been shorten to tightly for cpu saving
* !2367 chore(ci): improve GitLab <-> Jenkins contributor experience
* !2378 F1AP: correct message handling
* !2370 NR PDCP RB suspend
* !2107 Compute RI based on SRS up to 4
* !2339 PUCCH power computation
* !2382 Remove dead code in NR UE
* !2229 PUSCH LLR 128/256 SIMDe routines for ARM/x86
The RRC container is to be handled by the msg handler in
mac_rrc_dl_handler.c. Therefore, don't forward the RRC message, but copy
it into the message so the handler can take the action.
Create function to obtain nfapi_nr_dl_tti_csi_rs_pdu_rel15_t from fapi_nr_dl_config_csirs_pdu_rel15_t without bwp_size and bwp_start.
Replace previously problematic cast with call to created function.
Before this MR, openair1/PHY/NR_TRANSPORT/nr_ulsch_llr_computation.c:
nr_ulsch_qam64_qam64():
xmm3 = simde_mm256_max_epi16(bit_met_m5_p1, bit_met_m5_p1);
Should be instead:
xmm3 = simde_mm256_max_epi16(bit_met_m5_p1, bit_met_m7_p1);
integration_2023_w39
See merge request oai/openairinterface5g!2363
* !2142 Fix packing/unpacking procedures for P7 messages
* !2253 Parallelize the Compensation, LLR, layer de-mapping, and unscrambling with symbol
* !2319 Fix NR UE init RA
* !2343 Reverse bits in UCI message when using polar encoding/decoding
* !2348 Resolve "SIGSEGV in nr-softmodem @ 100MHz on USRP"
* fix phytest-timing thresholds after merge of !2253
* !2320 Reduce ITTI log message volume when queues full
* !2360 nr rlc: minor: fix tests
* !2359 nr rlc am: bugfix: correct usage of tx_next
* !2356 Const return values
* !2357 Fix compile error when --build-e2 option included
* !2340 Resolve "gNB build on ubuntu 22.04 fails with dpkg error"
* !2362 Implement F1 bearer release and add telnet module
* !2324 Refactor gNB ULSCH decoding
* fix for SSB ARFCN in RRC MeasConfig
The UE should measure on the SSB, otherwise it does not see anything.
Hence, this commit fixes the meas-config to request the UE to measure
on the right frequency.
tx_next was increased only when all segments of an SDU were sent to
lower layers. This may lead to a situation where the receive entity
transmits a control PDU that is rejected because it sets its ACK to
tx_next+1 (if all segments were not transmitted when the control PDU
is sent).
What is done now is to increase tx_next as soon as we send the first
segment of an SDU to lower layers. A control PDU received from the
receive entity is now accepted and processed.
Specifications (38.322 5.2.3.1.1) say to increase tx_next when the
RLC entity receives an SDU from upper layers. But for us, since the
buffering of SDUs is done in the RLC layer and since the buffer size
may be big, we may increase tx_next too much. The choice has been
made to increase it only when we transmit an SDU to lower layers.
We may change this logic if needed. (But it won't be simple.)
Creation and usage of packing/unpacking functions for DCI payload
Update Proxy commit id for CI
Apply formatting on changed functions and fix pull/push return value checking
- avoid the finction duplication
- add the transform predoding to the nr_rx_pusch_tp
- add the MMSE for 2 layer which modulation greater than 16 qam
- can support to 256 qam for 1 layer and 2 layer
integration_2023_w38
See merge request oai/openairinterface5g!2354
* !2296 rfsimulator optimization
* !2344 NR UE DCI config small fixes
* !2342 Fix for PBCH decoding
* !2347 Handle NAS registration accept inside NAS downlink
* !2350 Tutorials: upgrade UHD version to 4.5.0.0
* !2351 NR UE HARQ fix
* !2304 Use F1 internally: F1 Setup
* !2306 nr_ulsim and nr_dlsim logging and help modifications
* !2305 NR UE RRC bearers management
* !2353 Fix documentation references to "telnetsrv"
- store the assoc ID of a UE at the RRC
- if F1 receives an SCTP shutdown, it removes the endpoint
- F1 will also send an "F1 Lost Connection" message to the RRC
- it is not yet possible to reconnect a DU after it had already been
connected at the CU, since the CU F1AP task will try to rebind GTP,
which fails
- MAC creates CellGroupConfig and sends to RRC
- the RRC does not manually update the CellGroupConfig
- MAC handles the RRC processing timer
In this commit, any updates to the CellGroupConfig previously done at
the RRC don't work. In other words, MIMO etc don't work; this is
implemented in the next commit.
Note that the change to take out spCellConfig during reestablishment is
because after reestablishment, as per spec (38.331 5.3.7.2), the UE
should drop the spCellConfig, which we generate by default on the first
UE connection.
Furthermore, add a new variable apply_cellgroup to signal if, after RRC
processing timer, we wish to apply the CellGroup. In some situations,
e.g., Msg.4 ack, we do not want to apply the CellGroup, because for
instance in reestablishment, we await for a reconfiguration of cellgroup
that would be triggered too early.
!SIB1 is not correctly filled! This commit does not work with COTS UEs!
The next commit fixes this.
- Move radio config (e.g., minRXTXTIME, SIB1 TDA, do_SRS, etc) down to
MAC.
- Some parameters in MAC are redundant: delete them.
- Remove call to nr_mac_config_scc() from RRC and simulators, the MAC
initialization routine calls it implicitly
Previously, filling of F1 Setup Request depended on reading the RRC;
hence, for timing reasons, we only initialized and sent the F1 Setup
Request once the MAC and RRC are ready.
After moving SCC, SCD, MIB, and SIB1 to MAC, the MAC does not depend on
an RRC being present anymore, and hence, the F1 Setup Request does
neither. In this commit, we read the F1 Setup Request after initializing
the MAC.
The MasterInformationBlock is handled at the DU and sent to the CU in
the F1 Setup Response. Hence, move it down to the MAC. Furthermore:
- Change type because MIB_PDU_t is 4G type
- Simplify schedule_nr_mib()
Note: the reestablishment is broken, and a later commit fixes it.
The ServingCellConfigCommon is an inherently radio-related
configuration. As such, it should be handled by the DU, not the CU.
Therefore, move it "down" to the MAC.
- send F1 Setup using callback
- store f1 setup req locally for reference
- check F1 Setup Req against RRC data structures:
* if matches: send F1 Setup Response using callback
* if not matching: send F1 Setup Failure using callback
- don't send CU config update by default, we don't need this
- if the Setup Response does not contain a cell, don't activate. It is
possible the CU sends a gNB-CU configuration update, which will
initialize the structures
Use a struct to initialize the RRC at the beginning, and remove the
NRRRC_CONFIGURATION_REQ. This message is not necessary; the RRC/CU
should be initialized from the F1 Setup Request, coming from the DU.
Before this commit, we did not read the ServingCellConfigCommon (SCC)
completely at start; rather, we read most (but not all) of it, then also
the minRXTXTIME, and at RRC initialization in
openair_rrc_gNB_configuration(), we filled the
pusch-TimeDomainAllocationList into the SCC, depending on the
minRXTXTIME.
The reason might be that we read part of the SCC, use that to fill the
NRRRC_CONFIGURATION_REQ, read also the minRXTXTIME (part of the RRC
config), and then we have all we need to "finalize the SCC". Since we
move everything to the MAC, I avoid too much upfront code changes,
hardcode the minRXTXTIME (and check with an assert), and undo this in a
later commit when the "RRC config" relevant for radio parameters, e.g.,
minRXTXTIME, is moved to MAC.
I verified the equality of the SCC before (at the end
openair_rrc_gNB_configuration()) and after (at the end of
get_scc_config()) this commit manually using a printf, assuming that
after RRC initialization, we didn't do any further modifications to the
SCC. But in fact, I cannot know that we don't do it...
This branch series implements the usage of the F1 Setup Request
internally at the gNB, even if CU and DU run in the same process. Until
now, the F1 Setup Request contained struct fields to pass IP
configuration to the F1AP module; this information is not necessary in
monolithic, nor should it be relevant when passing the information in
F1 Setup Request.
Therefore, this commit moves all IP connection-related information out
of the F1 Setup Request and into a separate structure instead. In order
to give the F1AP module the necessary connection information, the
DU_REGISTER_REQ message is introduced that combines the F1 Setup Request
and IP configuration, such that the F1AP module can setup the SCTP
connection and then send the F1 Setup Request message.
In a later commit, there will be a callback for F1 Setup Request at MAC
to simply register the DU at the CU. The monolithic callback will simply
forward the F1 Setup Request The F1AP callback will look up the IP
configuration and create DU_REGISTER_REQ message containing IP
configuration and F1 Setup Request, which is then handled by the F1AP
module. To this end, a separate function in gnb_config.c allows to read
IP information from configuration.
Instead of storing the F1 Setup Request implicitly in F1 context, we
provide the F1 Setup Request message to be encoded explicitly to the
encoding function.
In the case of MIMO, we reused memory to point to the same PUCCH
resource. This is problematic, since ASN_STRUCT_FREE() would try to free
this resource twice.
This commit changes to create distinct memory for the PUCCH resources,
while putting the same configuration to still use the same PUCCH
resource from a radio configuration point of view.
integration_2023_w37
* !1909 Rework for aarch64 support after SIMDe integration
* !1995 Fix packing/unpacking for nFAPI P5 messages
* !2228 TDLA, TDLB and TDLC channel models in DLSIM
* !2327 Bugfixes and some rewrite for nr rlc am control PDU reception
* !2331 NR UE HARQ improvements to handle more than 4 per PUCCH
* !2286 Service Models integration - KPM v03.00, GTP, MAC, RLC and PDCP
* !2336 fix(ci): HTML reporting for Ubuntu build fix
* !2338 nr-softmodem: fixed invalid length calculation, leading to segfault
* !2326 Tutorials: Update NR SA Tutorials to be compliant with OAI CN5G pre-2.0 release
* !2334 NR UE DL channel estimation fix
* !2325 Compute ULSCH TB CRC
Laurent noticed it on one of his MR and confirmed with him:
-- Volumes have be created the 1st time they ran on avra on July 7th
-- Volumes were created with not only the raw files but also the nr-softmodem executable
Solution: two-fold:
1. using the `docker-compose down -v` syntax, the volume is deleted automatically
2. I added redundancy with the custom command to remove the used volume
Signed-off-by: Raphael Defosseux <raphael.defosseux@eurecom.fr>
- Fix 4G and 5G discrepancy in TLV padding requirements: 4G does not
need padding, whereas 5G needs, so make separate set of function for
padding for NR
- Fix packing/unpacking for (n)FAPI PARAM and CONFIG.request/response
messages
- Handle message padding to next 32-bit boundary, as per SCF
specification in packing and unpacking functions
- Account for message header size upon receiving message in PNF and VNF
Testing on Neoverse N1 (Ampere 3GHz). Tested only on a subset of phy-simulators.
- Changes:
- use SIMDE consistently
- adaptations of LDPC decoder generator for ARMv8 performance
- SIMDe modifications of Intel CRC to allow for aarch64 build.
optimizations for 128-bit to improve performance of LDPC encode/decode
on aarch64 (Neoverse 1)
- added BG2 files for 128-bit ldpc encoder (aarch64)
- testing on Xeon
- testing on x86
- minor changes to build/run on x86
- change in crc.h after returning to aarch64
- removed some warning in ldpc decoder generator for x86_64
- char
- Delete irrelevant constants
- Correctly declare variables
- Define stdbool for all architectures
- Remove definition of _MM_SHUFFLE and use SIMDE_MM_SHUFFLE
- Remove commented code
- Fix CMakeLists.txt
- Include SIMDE avx2 functions in tools_defs.h
This improves the RFsimulator code to reach a ~40% E2E throughput
improvement (depending on the machines).
Changes:
- reduce ring buffer size
- code cleanup for readability
- set TCP kernel parameters
integration_2023_w36
See merge request oai/openairinterface5g!2333
* !2185 DL delay compensation
* !2255 Add condition to call or not the function nr_mac_prepare_ra_ue()
* !2301 NR UE handling MCS for retransmissions
* !2308 Heap Allocation issue: Removed Dynamic allocation
* !2317 bugfix: don't force an UE to support en-dc, respect its capabilities
* !2318 Set security for all active SRBs after NR_RRCReestablishment
* !2321 Use appropriate CMake flags to link to UHD
* !2332 T tracer: add a trace for NR SIB1
* !2322 Remove small races in ue
* !2323 NR UE fix DCI candidates
* !2328 Add SRB1 and SRB2 received bytes to statistics
integration_2023_w34
See merge request oai/openairinterface5g!2316
* !2283 going back to sync mode when cell is barred in MIB
* !2290 fix gtp delete. we should not delete all bearer in case of dedicaded bearer release
* !2299 fix-mem-overflow_64qam
* !2288 NR UE avoid crashes upon renewal of SIB1
* !2279 web server enhancement and doc link fix
* !2302 Tutorials: update links for Open Cells SIM Card programming tool and Ubuntu 22.04 LTS
* !2303 NR gNB limit on PUCCH bits to be scheduled
* !2207 Use F1 internally: UE Context Modification Required
* !2315 Fix LCID to RB association, allow more than 8 LCIDs in the UE
- Add O-RAN KPM SM with DRB.RlcSduDelayDl, DRB.UEThpDl and DRB.UEThpUl measurements
- Add L1M.PHR1.BinX KPM meas
- Add comments for all KPM meas; deleted few outputs (but added in xApp)
- Add DRB.PdcpSduVolumeDL and DRB.PdcpSduVolumeUL KPM meas
- Delete unnecessary rnd functions in ran_func_kpm.c -> path set to
flexric submodule
- Add GOL-delay and AVG-soujour
- Correct the types of/measurement the tx/rxsdu_bytes and tx/rxsdu_occ_bytes
- Update txsdu_avg_time_to_tx value only when measurements activated
Co-authored-by: Teodora Vladic <teodora.vladic@openairinterface.org>
fix the 64QAM modulator case, that process 192 bits per iteration, then 24 bits per iteration of the tail bits, then added the last two symboles processing (no odd number of symbols case)
integration_2023_w33
See merge request oai/openairinterface5g!2300
* !2247 Fix cppcheck warnings related to nullPointerArithmeticRedundantCheck
* !2250 Fix cppcheck warnings related to negativeIndex
* !2281 avoid NR UE stalling if SIB not decoded
* !2273 NR_UE: fix limited UL data throughput in do-ra mode
* !2295 hack: see Bye. message when quitting gnb running with aw2s
* !2298 mapping LCID to RBID to index RLC entities
* !2267 Make read-only global variables const, additional fixes
* !2297 nr rlc: change retx logic
* !2230 Readme correction
* Lower scheduler PF averaging constant
This time constant plays a major role in how long a UE has to wait
maximally before it might be scheduled. For instance, if a UE had a lot
of traffic, the average traffic will be high, pushing the PF coefficient
down. If another UE with no traffic in the past becomes active with
heavy traffic, the first UE might not be scheduled for an extended
period of time.
In the AW2S-Amarisoft UE CI test pipeline, we sometimes see that the
maximum number of RLC retransmissions was reached. While this might not
be the (only) cause, scheduling a UE more often might prevent such
situations, and we saw an improved stability.
After removing RA.crnti, there is no need to use a separate function
nr_generate_Msg3_dcch_dtch_response() to generate Msg.4 (yes, the
function mentions Msg3 but it does Msg3 response == Msg.4).
Also, using nr_generate_Msg4() has the advantage that it waits until we
have the reconfiguration available in RLC to be sent to the UE. Finally,
we can delete the old nr_generate_Msg3_dcch_dtch_response() as we don't
need it anymore.
When t_poll_retransmit expires we need to consider an SDU for
retransmission.
We used to take the first SDU (which could be a segment, not a full SDU)
of the wait list and put it in the retransmit list.
When testing with some UE (Amarisoft UE) a bad behavior was detected.
This is what happens for the SDU with SN 6 (for illustration purpose).
The gNB is sending an SDU in several pieces (it is segmented).
slot n: rlc sn 6 [1 .. 119[ p=0 RECEIVED
slot n+x: rlc sn 6 ]120 .. 180[ p=0 RECEIVED
slot n+x+y: rlc sn 6 ]181 .. 210] p=1 not RECEIVED
Then when t_poll_retransmit expires rlc retransmits only the PDU of
slot n (with p=1 this time) and the UE replies with ack 6. So nothing
happens on the gnb side.
(We would have expected ack 7 + nack 6 181..end.)
Then after t_poll_retransmit expires again rlc retransmits only PDU
of slot n and the UE still replies with ack 6.
This goes on forever (or some other timeout occurs.)
The logic is now changed.
When t_poll_retransmit expires we transfer all the SDUs in the wait list
having the same SN as the head of the wait list into the retransmit list.
Testing with Amarisoft UE, it seems to work properly.
The RA.crnti field is marked as being used by NSA mode, but it is not.
OTOH, it is used in the case of RA with Msg.3 with C-RNTI MAC CE. The
latter does not necessarily need it, though, as we can change the RNTI
of the RA process when we receive C-RNTI MAC CE.
This introduces a slight complication, though, as we cannot remove the
MAC UE Context (generated when receiving Msg.3) directly when parsing
the C-RNTI MAC CE. Previously, we had both rnti and crnti in the RA
struct, and when sending Msg.4 after Msg.3 with C-RNTI MAC CE, we would
remove the UE context (this is changed in the next commit). Therefore,
we employ nr_mac_trigger_release_timer() which releases the UE after
60ms, circumventing this complication.
The RRC should not trigger RLC bearer establishment: this should be done
only via F1, and in the remaining code (removed here), this principle
was violated.
Further, this code was doubly wrong, as it used the CU UE ID for the
RLC, setting up bearers with IDs 1,2,3 etc instead of the RNTI.
The MAC_NR target is not needed; every dependent target also links
L2_NR. Therefore, this target just creates double compilation. We can
remove it without problems.
integration_2023_w32
See merge request oai/openairinterface5g!2293
* !2061 Rel16 NR PRS improvements
* !2113 handle TDD pattern2 at UE
* !2266 Use cmake3 command if on RHEL
* !2287 Initialize OAIgraph before usage
* !2285 Fix alignment of Tpool user data to 32 bytes
* !2284 USRP driver: Make it compile for UHD < 4.0.0
* !2214 Use F1 Internally: switch to CU UE ID in CU
This commit repairs the reestablishment after the introduction of the CU
UE ID in the CU, different from the DU UE ID. Now, the CU uses an
identifier different from the RNTI, used in the MAC, to refer to UEs.
To repair the reestablishment, a number of changes needed to be
introduced:
- Handle old_gNB_DU_UE_id in MAC
The MAC handles the old_gNB_DU_UE_id field in the DL RRC Message. The
commit adds encoding/decoding of the field. The MAC will drop the old
UE, but retain the CellGroup of the corresponding UE(!). Because a UE
releases the spCellGroup on reestablishment, the MAC does the same; it
needs to reapply the old configuration after a reconfiguration. For the
latter, introduce new variables to keep a "future" CellGroupConfig to be
applied (reconfigCellGroup) and a flag (expect_reconfiguration) that
applies the CellGroupConfig if a DL RRC Message transfer on DCCH, which
is assumed to be the reconfiguration.
- Add RNTI change in RLC
The RLC needs to reuse the old UE context. Hence, we simply change the
RNTI in the old context, and delete the new one.
- No PDCP UE ID change
The previous implementation of the PDCP used the RNTI; hence, the ID
needed to be switch (as above for the RLC). Since the PDCP now also uses
the CU UE ID, no identifier change is needed, and we remove all
corresponding code.
- No MAC modifications/update from CU
As foreseen by the spec, the CU does not modify or change the
cellGroupConfig in the RRC during reestablishment. This change will be
generalized in the future to all of the RRC. Also, the
nr_rrc_mac_remove_ue() function has been removed: the MAC handles any UE
changes autonomeously, without being triggered from the RRC explicitly.
- Remove reestablish_rnti_map
The RRC does not use RNTIs for UE identification. Hence, a
reestablish_rnti_map to link two UEs to each other is not necessary
anymore.
After a reestablishment, the PDCP sequence number counters have to be
reset. Implement an API to allow the RRC to reset the sequence numbers
for a particular UE in the case of reestablishment
The RRC gives its own RRC UE ID. It won't intervene if DUs assign the same RNTI to different UEs: it simply does not care what the DUs do with the RNTI.
- Use the same CU-UP in E1 as in CU-CP: we don't have a separate entity
to allocate IDs, and we just use the same as the CU-CP
- Correct gNB CU-UP/CP UE IDs in E1AP message types to 32bit
- Set CU UP UE ID explicitly for clarity
- Remove RNTI from E1 messages, E1 does not know what an RNTI is
The UE had a list of known UEs. With the introduction of a separate
module for F1 UE ID handling that is also used in monolithic (to
separate CU UE ID from DU UE ID), this functionality is not needed, and
deleted in this commit.
Previously, the F1AP handler called various functions directly, instead
of sending an ITTI message to the RRC thread. This has two drawbacks:
- it can lead to data races if the RRC task uses functionality that is
being accessed by the F1 task through this function
- no homogeneity: all other handlers send an ITTI message, so this one
should too
- The CU/DU UE ID is used in DL RRC Message Transfer
- Note: The CU UE ID currently is still the RNTI
- on every DL RRC Message, the DU verifies that the UE exists
- Refactor RRC: common function to forward protected SRB PDUs
The RRC uses gNB_ue_ngap_id as its primary ID; the following commits
will introduce the usage of the (F1) gNB CU UE ID. This commits renames
the gNB_ue_ngap_id to rrc_ue_id to better reflect its usage as the RRC's
primary UE ID.
It will be used as the NGAP and F1 (CU) UE IDs.
for reusing the old UE Context after reestablishment: we have to free a
UE context, but that also free's the RA process that we still need.
Remove here
Is this necessary?
The thread pool provides user data to be stored by (pre-)allocating the
necessary memory. A previous attempt was made to have this user data
aligned on a 32 byte boundary (e.g., to prevent segfault with SIMD
instructions, or avoid inefficient data access); the current
implementation, however, leads to unaligned memory access.
This patch attempts again to implement user data to be 32 byte aligned.
First, use memalign() to allocate the actual job on a 32 byte boundary.
Second, use alignas(32) to align the pointer to the user data to be
aligned to 32 bytes. Since it is the last member of the struct, this
ensures that user data, which is allocated right behind it, will be
aligned to 32 bytes as well.
Newer GCC releases warn about the scope being uninitialized:
openair1/PHY/TOOLS/nr_phy_scope.c:1076:20: error: ‘graph.text’ is used uninitialized [-Werror=uninitialized]
This is correct, as we don't initialize the scope. This commit correctly
initializes the scope.
Config options --reconfig_file and --rbconfig-file have been introduced
to modify the filenames of reconfig.raw and rbconfig.raw (e.g., in the
case of multiple UEs). These filen*ames* were to be prepended with
--rrc_config_path to set the path. In summary, three options were
necessary, when two are sufficient.
In this commit, change to the options --reconfig-file and
--rbconfig-file (slight change for harmonization with other options,
which mostly use dashes) to give the full path to the corresponding
files, and avoid to surprise users who would not expect to have three
options.
--rrc_config_path has been deprecated and an error will be printed if a
user attempts to use it.
Some distributions, e.g., CentOS8 or RHEL8, ship with an old cmake
(v2.8). To provide a newer, they have a separate cmake3 package, where a
recent cmake version is in program cmake3. To be agnostic, build_helper
detects the distribution and choses the cmake program to use.
This commit uses the correct cmake, which is provided in the environment
variable $CMAKE.
In case of noS1-mode, we initialize the 'logicalChannelBearer_exist' array element for the pre-configured DRB0 in function 'nr_l2_init_ue()'.
That array is indexed with the LCID.
For DRB0, the LCID is 4.
Unfortunately, the code incorrectly used the array at index 0.
Therefore, the UE sent neither scheduling requests nor buffer status reports, what resulted in extremely poor UL throughput.
// the following parameter options are commented out so it shows the ones
// that you SHALL have to run the job.
// You can use them as template
/*
parameters {
//node-test parameters
string(name: 'pythonExecutor', defaultValue: 'nodea', description: 'Node where the pipeline - python scripts will be executed')
string(name: 'pythonTestXmlFile', defaultValue: 'enb_usrpB210_band7_50PRB.xml', description: 'Location of the Test XML to be run')
string(name: 'pipelineTestStageName', defaultValue: 'Test COTS-UE - OAI eNB - LTEBOX EPC', description: 'Naming of the Test Stage')
booleanParam(name: 'pipelineZipsConsoleLog', defaultValue: 'True', description: 'If true, the pipeline script retrieves the job console log, zips it and archives it as artifact')
string(name: 'lockResources', defaultValue: 'CI-Bench-1-Phones', description: 'Lockeable Resource to prevent multiple jobs to run simultaneously with the same resource')
//eNB parameters
string(name: 'eNB_IPAddress', defaultValue: '192.168.XX.XX', description: 'IP Address of eNB')
credentials(name: 'eNB_Credentials', defaultValue: 'XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX', credentialType: "Username with password", required: true, description: 'Credentials for eNB')
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