- 13 Feb, 2024 40 commits
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Kirill Smelkov authored
Noticed accidentaly: ssb_pos_bitmap is string, not integer - the default should be of the same type.
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Kirill Smelkov authored
Rework UEsim to be able to work with multiple cells, multiple radio units(*), multiple UE all at the same time. RU, CELLs and UEs are now configured, simiularly to eNB, via shared instances. Add tests. Contrary to ORS don't care about backward compatibility here because currently we have just a few UEsim deployments and migrating them should be easy. Please see added schemas, tests and updates slapos-render-config on how to use the new system. (*) contrary to eNB UEsim does not allow to use one RU for two cells,
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Kirill Smelkov authored
It should be already generally supported, but many parameters needs in NR case are currently hardcoded to their TDD values. I've adjusted only a few of them and stopped, becuase there is currently no practical case at hand for me to test it. Still I think it makes sense to save this first step. For ORS, who uses TDD, rendered config stays practically the same: ``` $ ./pythonwitheggs slapos-render-config.py && xdiff -C -C config/{old,out}/ors/ ``` ```diff diff --git a/config/old/ors/gnb/enb.cfg b/config/out/ors/gnb/enb.cfg index ead7f0160..9a260d73f 100644 --- a/config/old/ors/gnb/enb.cfg +++ b/config/out/ors/gnb/enb.cfg @@ -97,6 +97,7 @@ prach: { + ra_response_window: 20, }, pdcch: { @@ -180,7 +181,6 @@ preamble_received_target_power: -110, preamble_trans_max: 7, power_ramping_step: 4, - ra_response_window: 20, restricted_set_config: "unrestricted_set", ra_contention_resolution_timer: 64, ssb_per_prach_occasion: 1, ```
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Kirill Smelkov authored
If a base station has multiple cells, it should be possible for UE to be handed over from one cell into another, for example when UE crosses border of sectors. So far we had only Inter-ENB HO and now we are also adding configuration for HO in between all own cells. Add tests for everything. NOTE: we use allowed_meas_bandwidth, antenna_port_1 in dst=LTE case because otherwise, e.g. for NR->LTE HO if they are not present, lteenb complains: enb.cfg:260: expecting 'allowed_meas_bandwidth' field enb.cfg:260: expecting 'antenna_port_1' field for both Intra-ENB and Inter-ENB handovers. For Intra-ENB case we can compute those numbers from cell definition. For Inter-ENB case, when we don't know target context, we use conservative values.
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Kirill Smelkov authored
We already had CA for LTE+LTE case. Let's also setup it for NR+NR and LTE+NR cases as well. Add tests for everything.
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Kirill Smelkov authored
Currently when setting up cells we allow users to input - dl_earfcn for LTE, and - dl_nr_arfcn and nr_band for NR and from that lteenb automatically computes - ul_earfcn for LTE, and - ul_nr_arfcn and ssb_nr_arfcn for NR everything kind of works out of the box for eNB case when there is simple SDR Radio Unit. Then there are also the following cases: 1. we also need to set UL frequency when configuring Lopcomm RU, or any other ORAN-based Radio Unit. 2. we also need to specify DL/UL frequencies in MHz when configuring Lopcomm RU. 3. when configuring NR peercell it is required to set ssb_nr_arfcn. It is also required to set both dl_nr_arfcn and ul_nr_arfcn, and so far we were setting only DL one and using it for both assuming TDD band. 4. when configuring UEsim we need to specify both dl_nr_arfcn and ssb_nr_arfcn for NR cells. So the problem is that even though lteenb automatically computes UL and SSB frequencies, there is no way for us to reuse results of that computation for scenarios outside of "simple enb" case. As the result we kind of workaround that currently with exposing additional parameters and asking users to look into enb, probably its `cell phy` output, with the following: ---- 8< ---- (from UEsim) "ssb_nr_arfcn": { "title": "SSB NR ARFCN", "description": "SSB NR ARFCN, you can retrieve from ENB/GNB side", or use additional parameters just for ul_earfcn and frequency-in-MHz: ---- 8< ---- (from ru/lopcomm) "txa0cc00_center_frequency": { "title": "Lopcomm ORAN DL Center Frequency in MHz (TXA0CC00)", "description": "Lopcomm ORAN Center Frequency in MHz (TXA0CC00)", "type": "number", "default": 2140 }, "rxa0cc00_center_frequency_earfcn": { "title": "Lopcomm ORAN UL Center Frequency EARFCN (RXA0CC00)", "description": "Lopcomm ORAN Center Frequency EARFCN (RXA0CC00)", "type": "number", "default": 18300 }, "rxa0cc00_center_frequency": { "title": "Lopcomm ORAN UL Center Frequency in MHz (RXA0CC00)", "description": "Lopcomm ORAN Center Frequency in MHz (RXA0CC00)", "type": "number", "default": 1950 }, which prevents automation, opens the door for inconsistencies and puts the load to resolve all that on users. The root cause of the problem is that there is no way to access at instantiation time what lteenb would compute internally. But DL<->UL conversion and DL->SSB conversion is not a difficult task and we can do that on our own. -> Do that here and solve all the problems listed above in one go. For frequency computations we use my xlte.earfcn and xlte.nrarfcn modules and upstream nrarfcn egg. For this xlte is updated(*) to primarily pick up kirr/xlte@6cb9d37f kirr/xlte@b8065120 and the rest of the conversion is in slaplte to use corresponding dl2ul and dl2ssb routines. For consistency ul_earfcn and ul_nr_arfcn now become input parameters for LTE and NR cells, but optional. If they are absent - they are computed with defaults, but a user can now control them explicitly. The same applies for ssb_nr_arfcn. This patch does not convert UEsim yet, because UEsim does not use rulib yet and will be handled all in one go in a follow-up step. The computation routines are thoroughly tested. First they have unit tests inside XLTE itself, then we also update our tests in generic test/test.py here with explicitly checking that correct numbers are emitted for UL and SSB frequencies, and third I've also verified SSB computation results with respect to https://tech-academy.amarisoft.com/OutOfBox_UEsim_SA.html#Tips_SSB_Frequency . All this creates a base to be sure that the computations are correct and we are indeed safe to switch our frequencies computation modules. (*) full upgrade brings kirr/xlte@e716ab51...8e606c64 ; nrarfcn egg: https://pypi.org/project/nrarfcn/
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Kirill Smelkov authored
So far in the unit tests we were only generating enb.cfg without semantically processing as running lteenb is not possible on testnodes due to licensing restrictions. That allowed to use arbitrary numbers, even invalid, for frequencies without hitting an error. However in the next patch we are going to start handling frequencies ourselves, and invalid frequencies will lead to instantiation failures like ... in dl2ul(dl_earfcn) KeyError: 'no band that corresponds to DL EARFCN=325320' Avoid that by switching to valid LTE and NR frequency numbers in the test.
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Kirill Smelkov authored
Radio Units like Lopcomm ORAN require explicit activation for the radio. Generalize this and introduce a generic parameter for explicit activation of the radio on any RU. Default it to _INACTIVE_ so that radio happens only when it is explicitly asked to be on for real. But preserve backward compatibility for ORS which used to do "radio on" by default. disable_sdr becomes ORS-specific parameter. Lopcomm-specific txa0cc00_active and rxa0cc00_active go away and are replaced by txrx_active usage.
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Kirill Smelkov authored
I.e. apply not only to SDR but to all Radio Units and expecting that they apply to them with the same uniform semantic of controlling Tx/Rx amplifiers on on the RU. - For SDR nothing is changed. - For Lopcomm txa0cc00_gain goes away and is replaced by tx_gain. For rx_gain there is a question as I could not find offhand how to control aplifier on RX circuit there. - For Sunwave tx_gain/rx_gain, as with lots of more(*) is TODO.
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Kirill Smelkov authored
For example by publishing on RU the list of CELLs that are using it. While at it and as we are introducing per-RU publication, fix a long-standing TODO in ru/lopcomm to publish RU-specific information in per-RU way instead of global.
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Kirill Smelkov authored
Instead of publishing it on enb with prefixing by cell reference. It is more logical to have cell input parameters on the cell instance and also have output parameters about that cell published on that same instance. For now it is all only what was input. But in the next patches we'll extend set of published information with also computed things, so it won't remain trivial.
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Kirill Smelkov authored
For example if we need to do 4T4R but have SDR boards with only 2T2R ports, we need to combine two such boards into single RF port. Allow to do that via changing SDR schema from taking sdr_dev into accepting sdr_dev_list and adjusting the code everywhere correspondingly. For ORS full backward compatibility is preserved via adjusting "ORS mode" proxy correspondingly. One example in slapos-render-config.py is changed from 2T2R to be 4T2R on such RF port combined from two SDR boards. For that example the diff for rendered enb.cfg is as follows: --- a/config/old/enb/iRU1_SDR_tLTE2_tNR/enb.cfg +++ b/config/out/enb/iRU1_SDR_tLTE2_tNR/enb.cfg @@ -8,7 +8,7 @@ rf_driver: { // __CELL__a__ru 4T2R (sdr) name: "sdr", - args: "dev0=/dev/sdr0", + args: "dev0=/dev/sdr0,dev1=/dev/sdr1", }, tx_gain: [51, 51, 51, 51], rx_gain: [52, 52], All other cases, including ORS, remain without any change.
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Kirill Smelkov authored
We currently have at least the following problem: 1. a malfored shared instance reference leads to instantiation failure and potential buildout code injection. For example if reference of shared instance contains space then buildout fails with something like zc.buildout.configparser.ParsingError: File contains parsing errors: .../instance-enb.cfg [line 45]: '[promise-testing partition 0.RU-sdr-busy]\n' since, when requesting, it is possible to use arbitrary characters for references, including newline, it also opens the door for code injection attacks. 2. we currently use `json` directive of slapos.recipe.template e.g. as extra-context = json iru_dict {{ rulib.iru_dict | tojson }} this also potentially leads to instantiation failure if JSON(rulib.iru_dict) contains buildout control characters. Solve this problems. For 1 we develop "buildout encoding" that encodes arbitrary string into form that is safe to be used as a name of buildout section. This encoding never fails and does not loose information, which means it is safe to be applied unconditionanly and there is no chance for two string inputs to result in the same encoded form. The encoding also has practical property that it leaves most of the strings, that we use in our buildot profiles, intact. Which means that the result of the encoding is readable and the encoding can be applied almost unconditionally to all strings without hurting instantiation. Then this encoding is applied wherever reference of a shared instance is used to form e.g. name of buildout section or inside other codes. We apply this encoding universally - in config files too to avoid breakage there - e.g. in enb.cfg to protect from e.g. \n being inserted in the middle of comment resulting in YAML breakage. See documentation of added xbuildout.py for details. For 2 we switch from `json` to using `dumps` on an object and referring that dumps result via `key` directive. See the following links for preliminary discussions with Jérome and Vincent on this topic: kirr/slapos@d5d4f7c8 nexedi/slapos@bf6b2ef3
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Kirill Smelkov authored
As promised add tests for generic enb that exercise enb instantiation with multiple Radio Units and cells in all kind of combinations: FDD|TDD x LTE|NR x SDR|Lopcomm|Sunwave and not only one particular case, but verifying instantiation with many combinations at the same time - verifying how cells of different kinds are handled and how radio units of different kinds are handled too. Using multiple cells on top of several radio units of the same type is verified too. For Lopcomm we also exercise generated cu_config.xml a bit. See added tests for details. Enb/generic tests are bootstrapped now. From now one every fix to enb/generic and every semantic change will go on only if it is accompanied test change or enhancement.
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Kirill Smelkov authored
software/ors-amarisoft: ru: amarisoft-stats.jinja2.py: Don't hardcode n_antenna_ul=2 on testing=True This usually matches ORS expectations, but for testing generic enb it is inappropriate and work work good, because in those tests there are more uplink channels. -> Fix the code to detect how many uplink channels are there automatically.
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Kirill Smelkov authored
As promised in indicated TODO. It is useful for debugging and for being able to take all the rendered files, copy them to a callbox, and to be able to run lteenb directly on them. Besides enb.cfg we need to also have those drb and asn23, because enb.cfg references them.
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Kirill Smelkov authored
Extend slapos-render-config to simulate not only what ORS does, but also simulate multiple radio units and/or multiple cells with RU being SDR or CPRI-based Lopcomm. It is useful as an example on how to configure things in new "shared instances" MultiRU, and to verify handling of all those combinations.
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Kirill Smelkov authored
software/ors-amarisoft: enb/generic: Switch configuration of RU, cell, peer and peercell to shared instances Previously we had cell_list, ncell_list and peers parameters and we now remove them and rework the software release to accept configuration for said objects via shared instances. In other words now it is possible to add Radio Units, cells, peers and peer cells on on top of main eNB service. Schema for parameters of those shared instances is based on what we just recently generalized and established in ru/ cell/ peer/ and peer/cell/ input schemas. We only add cell_kind=enb|enb_peer addition field to be able to distinguish a cell from peercell object, and we add a way for cell to reference RU one way or another. RU-CELL relation is no longer 1-1: one RU can be generally serving multiple cells. For example transmission bandwidth of SDR100 board is ~ 100MHz while bandwidth of one LTE cell is max 20MHz. This way it is possible to put several cells whose frequencies are nearby each other to be run on the same SDR board(*). And in general one Radio Unit can be serving transmission/reception in multiple frequency ranges, thus providing ability for multiple cells to be served by RU. This way RU is split off from CELL object and each CELL needs to say which RU object it wants to use. There are 3 ways to configure CELL->RU links: 1. CELL references a RU object. This is the most general. 2. CELL embeds definition of RU object. This variant is provided for simplicity of management for users that do not want to split CELL/RU relations. 3. CELL2 references another cell object and says to use the same RU as CELL1. Again, this variant is provided for simplicity of management when users want to add a cell on top of same RU when they already started with "2". Full backward compatibility is provided for ORS. For this instance-ors-enb.jinja2.cfg is adjusted to inject synthetic RU/CELL/PEER/PEERCELL shared instances instead of translating to slapparameter_dict. As the result for ORS users it works without visible change as parameters with original ORS schema are handled as expected. Rendered files for ORS also stay practically the same as before this patch. The main change is in slaplte.jinja2 - in the loading routines. The other changes are mostly straightforward adaptation because details of how ru_dict, cell_dict, peer_dict and peercell_dict are loaded were already localized to slaplte and the rest of the code independent from that. Now, once we switched to shared instances, we will be finally able to add tests for updated enb. Please see a soon follow-up patch for that. And for existing test_ors.py we also temporary workaround breakage of tests, because currently generic code does not handle well special characters in partition references. For example it currently breaks on spaces with buildout complaining that sections with spaces in their name are invalid. We will fix that in another soon-followup patch as well, but apply a workaround for now. (*) see https://tech-academy.amarisoft.com/SDR_MultiCell_OneSdr.html for details. -------- Appendix. Diff for rendered ORS enb.cfg and gnb.cfg before and after this patch: ``` $ ./pythonwitheggs slapos-render-config.py && xdiff config/{old,out} ``` ```diff diff --git a/config/old/ors/enb/enb.cfg b/config/out/ors/enb/enb.cfg index 15f3b68e9..6046d366e 100644 --- a/config/old/ors/enb/enb.cfg +++ b/config/out/ors/enb/enb.cfg @@ -6,7 +6,7 @@ // Radio Units rf_driver: { - // CELL-RU 2T2R (sdr) + // RU 2T2R (sdr) name: "sdr", args: "dev0=/dev/sdr0", rx_antenna:"tx_rx", @@ -28,7 +28,7 @@ // LTE cells cell_list: [ - // CELL (CELL-RU) + // CELL (RU) { rf_port: 0, n_antenna_dl: 2, @@ -46,7 +46,7 @@ // Inter-ENB HO { rat: "eutra", - cell_id: 0x12345, // -> 1 + cell_id: 0x12345, // -> PEERCELL1 n_id_cell: 35, dl_earfcn: 700, tac: 123, diff --git a/config/old/ors/gnb/enb.cfg b/config/out/ors/gnb/enb.cfg index ac564db6c..9473f3207 100644 --- a/config/old/ors/gnb/enb.cfg +++ b/config/out/ors/gnb/enb.cfg @@ -6,7 +6,7 @@ // Radio Units rf_driver: { - // CELL-RU 2T2R (sdr) + // RU 2T2R (sdr) name: "sdr", args: "dev0=/dev/sdr0", rx_antenna:"tx_rx", @@ -35,7 +35,7 @@ // NR cells nr_cell_list: [ - // CELL (CELL-RU) + // CELL (RU) { rf_port: 0, n_antenna_dl: 2, @@ -58,7 +58,7 @@ // Inter-ENB HO { rat: "nr", - nr_cell_id: 0x77712, // -> 1 + nr_cell_id: 0x77712, // -> PEERCELL2 gnb_id_bits: 22, n_id_cell: 75, dl_nr_arfcn: 520000, ```
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Kirill Smelkov authored
We already have peer cells in the setup of generated enb/gnb, but there were no X2/XN peers there. Add them to be able to see how handling of peers works. Rendered files change as expected: ``` $ ./pythonwitheggs slapos-render-config.py && xdiff config/{old,out} ``` ```diff diff --git a/config/old/ors/enb/enb.cfg b/config/out/ors/enb/enb.cfg index 252c2e379..15f3b68e9 100644 --- a/config/old/ors/enb/enb.cfg +++ b/config/out/ors/enb/enb.cfg @@ -22,7 +22,7 @@ }, ], gtp_addr: "127.0.1.1", - x2_peers: [], + x2_peers: ["44.1.1.1", "44.1.1.2"], enb_id: 0x1A2D0, // LTE cells diff --git a/config/old/ors/gnb/enb.cfg b/config/out/ors/gnb/enb.cfg index b401f3513..ac564db6c 100644 --- a/config/old/ors/gnb/enb.cfg +++ b/config/out/ors/gnb/enb.cfg @@ -22,7 +22,7 @@ }, ], gtp_addr: "127.0.1.1", - xn_peers: [], + xn_peers: ["55.1.1.1", "55.1.1.2"], gnb_id_bits: 28, gnb_id: 0x12345, en_dc_support: true, ```
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Kirill Smelkov authored
The procedures to generate those are currently very similar, and that's why we employ a shared `do` function to render them. But enb and ue rendering will become different from each other in the next step. -> Prepare to that by pushing necessary bits of do into do_enb and do_ue insides. No change in rendered files.
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Kirill Smelkov authored
software/ors-amarisoft: slapos-render-config: Retarget currently generated enb.cfg and gnb.cfg to out/ors/ Besides ORS we will soon add other cases to enb.cfg generation. It will be handy to clearly see what is what and to keep ORS case to be also alive and distinguished. Prepare to that by emitting generated enb.cfg and gnb.cfg to out/ors/enb/ and out/ors/gnb instead of just out. Name the file itself enb.cfg always to match what happens for real in the SR. There is no change to generated files - it is only renaming: ``` $ ./pythonwitheggs slapos-render-config.py && xdiff config/{old,out} ``` ```diff diff --git a/config/old/enb.cfg b/config/out/ors/enb/enb.cfg similarity index 100% rename from config/old/enb.cfg rename to config/out/ors/enb/enb.cfg diff --git a/config/old/gnb.cfg b/config/out/ors/gnb/enb.cfg similarity index 100% rename from config/old/gnb.cfg rename to config/out/ors/gnb/enb.cfg ```
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Kirill Smelkov authored
In other words merge enb and gnb into sole enb that can handle both LTE and NR cells at the same time and simultaneously. Previously which type of Radio Access Technology to use - LTE or NR - was static parameter of particular software - it was possible to instantiate cells only with selected RAT for particular template. In MultiRU it is possible to generally instantiate all kind of cells - LTE/NR and TDD/FDD all at the same time and each served by a different kind of Radio Unit. -> Switch cell type to be runtime parameter as the final step to be able to do that. For generic cell definitions are now required to come with cell_type=lte|nr parameter. In schemas cell_list now includes oneOf for lte|nr cell instead of particular cell type. Similar adaption is done for ncell_list and x2_peers/xn_peers are merged into just peers with similar oneOf. Global gnb-specific parameters of went-away gnb are also added as global ones to enb: - gnb_id - gnb_id_bits - amf_list - plmn_list (as plmn_list_5g not to conflict with plmn_list) - nssai They must be present if there are NR cells. Full backward compatibility is preserved for ORS: now it injects cells to generic with particular cell_type annotations and translates ORS-specific x2_peers/xn_peers and gnb/plmn_list to proper generic parameters. In ORS-gnb schema gnb_stats_fetch_period and gnb_drb_stats_enabled had to be renamed to enb_stats_fetch_period and enb_drb_stats_enabled, but once again, full backward compatibility is preserved because ORS mode already had the following in its proxy: {#- backward compatibility: if ORS is running in gnb mode, and gnb_* parameters are present, replace their generic enb_* counterparts with gnb_* ones #} ... The diff for rendered enb.cfg and gnb.cfg, that simulate ORS, before and after hereby patch is also empty.
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Kirill Smelkov authored
As with Radio Units and cells organize a registry of peer cells and start to handle that registry generally everywhere. The registry is still populated with only LTE cells on enb and only NR cells on gnb, but the only place that is aware of that is registry loading routine. In the old code defaults were noticed for tac to be 1 if not provided, and so those defaults are pushed to live in ORS now. ORS schemas are also updated because that defaults were not declared there. Generic switches to use peer/cell/lte directly which means that now it accepts e_cell_id instead of cell_id as the name for full E-UTRAN cell identity. Full backward compatibility is provided for ORS which implements translation of its original schema to the new generic one. Tests will be added later as full tests for generic MultiRU. Rendered enb.cfg and gnb.cfg change a bit, but the changes are mostly due to reordering of fields. The only change with semantic value is - ssb_nr_arfcn: , + ssb_nr_arfcn: 520090, in gnb.cfg . The old configuration was invalid anyway because if it is only ssb_nr_arfcn: , then enb does not start with the following error: # ../lteenb gnb.cfg gnb.cfg:119: unexpected token: ',' Like with many other handover-related fields https://tech-academy.amarisoft.com/lteenb.doc#prop.ncell_list.ssb_nr_arfcn documents that ssb_nr_arfcn "Must be present" for Inter-gNB HO case. The old code was erroneously doing `ncell.get(name, '')` with yielding empty string in case a parameter is missing, which is corrected here. -------- Appendix. Diff for rendered enb.cfg and gnb.cfg before and after this patch: ``` $ ./pythonwitheggs slapos-render-config.py && xdiff -w config/{old,out} ``` ```diff diff --git a/config/old/enb.cfg b/config/out/enb.cfg index 1a2c41b6b..252c2e379 100644 --- a/config/old/enb.cfg +++ b/config/out/enb.cfg @@ -46,9 +46,9 @@ // Inter-ENB HO { rat: "eutra", + cell_id: 0x12345, // -> 1 n_id_cell: 35, dl_earfcn: 700, - cell_id: 0x12345, tac: 123, }, ], diff --git a/config/old/gnb.cfg b/config/out/gnb.cfg index 635c4baf2..b401f3513 100644 --- a/config/old/gnb.cfg +++ b/config/out/gnb.cfg @@ -58,14 +58,14 @@ // Inter-ENB HO { rat: "nr", + nr_cell_id: 0x77712, // -> 1 + gnb_id_bits: 22, + n_id_cell: 75, dl_nr_arfcn: 520000, - ssb_nr_arfcn: , + band: 38, + ssb_nr_arfcn: 520090, ul_nr_arfcn: 520000, - n_id_cell: 75, - gnb_id_bits: 22, - nr_cell_id: 0x77712, tac: 321, - band: 38, ssb_subcarrier_spacing: 30, ssb_period: 20, ssb_offset: 0, ```
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Kirill Smelkov authored
Move schema of peer cells into under peer/cell/lte and peer/cell/nr with keeping in mind that peer/cell will become a separate entity in MultiRU. NR deduplication is straightforward, but for LTE original ncell_list used `cell_id` name for full E-UTRAN cell identity. peer/cell/lte uses e_cell_id name for that and content of that peer/cell/lte cannot be applied directly to ORS's ncell_list and ncell_list in current enb/generic. To keep things working we pickup peer/cell/lte field by field with mapping e_cell_id into cell_id. For the reference for NR both original ncell_list and new peer/cell/nr use nr_cell_id for full 5G cell identity. Backward compatibility: nothing practically changes for ORS and generic.
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Kirill Smelkov authored
Add X2 peers support for symmetry with XN peers. As with Radio Units and cells organize a registry of peers and start to handle that registry generally everywhere. The registry is still populated with only LTE peers on enb and only NR peers on gnb, but the only place that is aware of that is registry loading routine. Tests will be added later as full tests for generic MultiRU. Rendered gnb.cfg stays the same, but there is a small change in rendered enb but the config remains with the previous semantic as before hereby patch: ``` $ ./pythonwitheggs slapos-render-config.py && xdiff -w config/{old,out} ``` ```diff diff --git a/config/old/enb.cfg b/config/out/enb.cfg index 5842dfc22..1a2c41b6b 100644 --- a/config/old/enb.cfg +++ b/config/out/enb.cfg @@ -22,6 +22,7 @@ }, ], gtp_addr: "127.0.1.1", + x2_peers: [], enb_id: 0x1A2D0, // LTE cells ```
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Kirill Smelkov authored
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Kirill Smelkov authored
Use $ref to share definitions taken from either generic enb or cell object.
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Kirill Smelkov authored
software/ors-amarisoft: Add notices to ORS and generic softwares what they do and intended usage area
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Kirill Smelkov authored
Both software.cfg and software-ors.cfg became trivial wrappers over their bases - so move bases to be directly software.
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Kirill Smelkov authored
After previous patch this rendering became unneeded. And after we stop render-templates becomes unneeded too, so say goodbye to it as well.
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Kirill Smelkov authored
software/ors-amarisoft: enb+ue: Switch to JSON schemas as the primary source of defaults; stop rendering them JSON schemas for eNB/gNB and UE specify defaults for many parameters and the software release use those defaults when parameters are not explicitly specified on the instantiation. Some primary defaults - for bandwidth and n_antenna DL/UL - were setup in render-templates and propagated through all places to avoid duplicating them. Defaults for many other parameters were duplicated in both JSON schemas and in the code that handles those parameters. To avoid this duplication we either need to extend render-templates and put defaults for all the other many parameters there, or just switch to JSON schemas to be primary source of those defaults, and use the schemas on instantiation by automatically loading them and extracting defaults for all parameters from there. I decided to go the second way because it avoids additional layer of rendering and the need to keep on remembering not to put raw defaults in the JSON schemas. Evidently this is the same approach that Rapid CDN is going to take (see !1380 for details). In this patch we stop rendering JSON schemas and keep their last rendered result. In the later patches we will handle formed duplication there and go on to further merge enb and gnb. UE is handled brutally for now, because it will be much reworked after. Actually loading JSON schemas is left as TODO as I do not have resources to implement that now. Still this step is needed as precondition for further patches. I hope bit of duplication for enb/gnb parameters is ok, given that they are now centrally maintained and corresponding TODO warning is in place.
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Kirill Smelkov authored
software/ors-amarisoft: enb/generic: Move LTE and NR cell definitions to schemas under cell/lte/ and cell/nr/ And reuse bits from there for ORS cell-related parameters. Preparatory step to handle cell as separate object and a bit less code duplication.
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Kirill Smelkov authored
A bit less duplication.
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Kirill Smelkov authored
For uniformity with NR which already has bandwidth specified as number in MHz. For ORS mode everything stays as is which inputs bandwidth as string with MHz suffix, e.g. "20 MHz" instead of number `20`.
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Kirill Smelkov authored
We currently have 2 kinds of software: - ORS, whose intended usage is small private networks, and - generic, whose intended usage is small-to-medium networks. and currently they both share defaults for their parameters inherited from ORS. But what is appropriate for small private networks, might be not so appropriate for medium networks. For example ORS has default enb_id/gnb_id, but in a network with 100 nodes, it is better to force every node to be explicitly assigned an id and error otherwise. Similarly for cells ORS has defaults for cell_id, but in network with many nodes, cell_id needs to be explicitly assigned. With having a default there is also a chance to misspell the parameter name, and do not notice it because the software will instantiate without an error but work incorrectly. So in this patch we tighten the defaults for generic: - enb_id, mme_list become non-optional for LTE - gnb_id, afm_list become non-optional for NR - plmn_list becomes non-optional for both LTE and NR. The format is different in between RATs and so later we will use plmn_list and plmn_list_5g when merging enb and gnb. - the following parameters of LTE cells now needs to be explicitly configured: rf_mode, dl_earfcn, bandwidth, cell_id, pci, tac. - the following parameters of NR cells now needs to be explicitly configured: rf_mode, dl_nr_arfcn, nr_band, bandwidth, cell_id, pci. We rework ORS mode to translate its own set of parameters and defaults into generic enb/gnb parameters. We similarly pull some global generic defaults into instance-enb.cfg.jinja2 with the idea that they could be maintained in one central place. In the future it would be good to automatically load them from JSON schemas to avoid duplication. This patch should be backward compatible for ORS, but it introduces the change in cell_id and pci in rendered enb.cfg which become 1 instead of 0: --- a/config/old/enb.cfg +++ b/config/out/enb.cfg @@ -33,9 +33,9 @@ n_antenna_dl: 2, n_antenna_ul: 2, - cell_id: 0x00, + cell_id: 0x01, tac: 0x0001, - n_id_cell: 0, + n_id_cell: 1, root_sequence_index: 204, dl_earfcn: 36100, inactivity_timer: 10000, The defaults for those parameters according to instance-enb-input-schema.json are 0x01 and 1. And it looks like enb.jinja2.cfg was changed to emit them starting from 0 instead of 1 in c4d0958e due to probable thinko in that patch because before that patch those parameters were emitted as 0x01 and 1: nexedi/slapos@c4d0958e and, once again, the schema says their defaults should be 0x01 and 1 as well. The rest of the changes in rendered enb.cfg and gnb.cfg should not introduce any semantic difference. Please see the appendix for full details. -------- Appendix. Diff for rendered enb.cfg and gnb.cfg before and after this patch: ``` $ ./pythonwitheggs slapos-render-config.py && xdiff -w config/{old,out} ``` ```diff diff --git a/config/old/enb.cfg b/config/out/enb.cfg index 89862f1d9..5842dfc22 100644 --- a/config/old/enb.cfg +++ b/config/out/enb.cfg @@ -33,9 +33,9 @@ n_antenna_dl: 2, n_antenna_ul: 2, - cell_id: 0x00, + cell_id: 0x01, tac: 0x0001, - n_id_cell: 0, + n_id_cell: 1, root_sequence_index: 204, dl_earfcn: 36100, inactivity_timer: 10000, @@ -102,8 +102,11 @@ ], cell_default: { plmn_list: [ - "00101", - + { + plmn: "00101", + reserved: false, + attach_without_pdn: false, + }, ], cyclic_prefix: "normal", diff --git a/config/old/gnb.cfg b/config/out/gnb.cfg index 1df699a22..635c4baf2 100644 --- a/config/old/gnb.cfg +++ b/config/out/gnb.cfg @@ -22,7 +22,7 @@ }, ], gtp_addr: "127.0.1.1", - + xn_peers: [], gnb_id_bits: 28, gnb_id: 0x12345, en_dc_support: true, @@ -142,6 +142,7 @@ nr_cell_default: { ssb_period: 20, + plmn_list: [ { plmn: "00101", @@ -151,10 +152,10 @@ { sst: 1, }, - ], }, ], + si_window_length: 40, cell_barred: false, intra_freq_reselection: true, ```
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Kirill Smelkov authored
Else enb treats args="" unset and implicitly uses /dev/sdr0 by default. We do not want implicit default behaviour -> we want to see an error.
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Kirill Smelkov authored
We currently have support for a3_offset and a3_time_to_trigger only, while there is also a3_hysteresis plus at least a1_*, a2_* and probably other parameters. Simple A3-only based meas_config tuning might be appropriate for ORS, but for generic enb it is better to expose full control which I do not currently feel good to implement right now. So do not expose it at all on generic to avoid establishing a public API yet. enb.jinja2.cfg already has corresponding comments: {# TODO fully expose lte meas_config_desc in generic SR #} meas_config_desc: { ... {# TODO fully expose nr meas_config_desc in generic SR #} meas_config_desc: {
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Kirill Smelkov authored
- Indicate that it is not for ORS, but for generic case. - Move ue to the end, to where it logically belongs. - Indicate shared instances clearly with clear visually appearing indent. For now it is only about SIM card, but later we will be adding more kinds of shared instances, so it will be needed to clearly see on the UR if an item is a kind of service, or a shared instance of a service.
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Kirill Smelkov authored
There is now only 2 kinds of softwares - ORS and generic, and their cfg.json will diverge with ORS staying as it is now for backward compatibility, and generic gaining more features and more kind of shared instances. That means that it no longer makes sense to render those two from a common source. -> Stop rendering them and leave previous rendered result in place for further manual edits.
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Kirill Smelkov authored
Previously, e.g. for ORS it was: enb index=0 gnb index=1 core-network index=2 core-network-slave index=3 which resulted in the following appearance order on SlapOS Master UI: gnb core-network core-network-slave enb Note that enb comes last instead of being first as originally intended. That happens because SlapOS Master treats index=0 as being unset and puts all items with unset index in the end. -> Fix this by starting explicitly-set indices from 1. Now, for ORS, the order on UI is enb gnb core-network core-network-slave
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