- 25 Jan, 2024 3 commits
-
-
Kirill Smelkov authored
As Amarisoft documentation says in UEsim LTE bandwidth is defined in MHz, nor in RB: https://tech-academy.amarisoft.com/lteue.doc#prop.bandwidth I checked the history and it was like this since 2015-10-28 release. -> Fix emitted bandwidth for LTE cell. Diff for rendered ue-lte.cfg: ``` $ git diff --no-index config/{old,out} ``` ```diff --- a/config/old/ue-lte.cfg +++ b/config/out/ue-lte.cfg @@ -1,5 +1,4 @@ -#define N_RB_DL 50 { log_options: "all.level=error,all.max_size=0,nas.level=debug,nas.max_size=1,rrc.level=debug,rrc.max_size=1,phy.level=info,file.rotate=1G,file.path=/dev/null", @@ -20,7 +19,7 @@ rf_driver: { multi_ue: true, cells: [ { - bandwidth: N_RB_DL, + bandwidth: 10, dl_earfcn: 0, n_antenna_dl: 2, n_antenna_ul: 2, ``` By coincidence this removes last usage of C Preprocessor from ue.jinja2.cfg and, similarly to enb.jinja2.cfg, makes it to be Jinja2-only. /cc @lu.xu, @tomo, @xavier_thompson, @Daetalus /reviewed-by @jhuge /reviewed-on nexedi/slapos!1521
-
Kirill Smelkov authored
To support multiple Radio Units and multiple cells, we will need to loop over them and emit corresponding configuration parts taking RU/Cell parameters into account for each part. We currently handle some such parameters at Jinja2 level (e.g. dl_earfcn), while some other parameters at CPP level (e.g. cell bandwidth) and rely on enb to preprocess generated enb.cfg with CPP on its own. While CPP works ok for simple 1RU-1CELL cases, and CPP is also the tool that Amarisoft itself uses in its examples, it has the limitation that it cannot cooperate with loops. In other words there can be only one global N_RB_DL #define, and it cannot be different for different cells while we are looping over them at Jinja2 level. That means that we cannot use CPP to handle multiple cells. For this reason switch enb.jinja2.cfg to be using Jinja2 only without CPP. While rendered enb.cfg/gnb.cfg change, we can see that they change in expected way, with leaving only blocks that should be active for input parameters. See the Appendix for details. The switch is straightforward but one thing deserves to be mentioned: due to limitation of Jinja2, where macros can return only strings, we use JSON encoding to be able to return arbitrary types - integers, floats, dicts, etc, and use a convention to name such macros with j prefix and wrap their usage with J so that whole invocation does not add much noise. See added slaplte.J documentation for details. /cc @lu.xu, @tomo, @xavier_thompson, @Daetalus /reviewed-by @jhuge /reviewed-on nexedi/slapos!1520 -------- Appendix. Diff for rendered enb.cfg/gnb.cfg before and after this patch ``` $ git diff --no-index config/{old,out} ``` ```diff diff --git a/config/old/enb.cfg b/config/out/enb.cfg index 23e56c9a9..ee2661640 100644 --- a/config/old/enb.cfg +++ b/config/out/enb.cfg @@ -1,14 +1,6 @@ -#define TDD 1 - -#define N_RB_DL 50 - -#define N_ANTENNA_DL 2 - -#define N_ANTENNA_UL 2 - { @@ -44,8 +36,8 @@ cell_list: [ { rf_port: 0, - n_antenna_dl: N_ANTENNA_DL, - n_antenna_ul: N_ANTENNA_UL, + n_antenna_dl: 2, + n_antenna_ul: 2, cell_id: 0x00, tac: 0x0001, @@ -59,83 +51,33 @@ manual_ref_signal_power: true, - -#if TDD == 1 uldl_config: 6, sp_config: 7, -#endif - - n_rb_dl: N_RB_DL, -#if N_RB_DL == 6 - si_coderate: 0.30, -#else - si_coderate: 0.20, -#endif + n_rb_dl: 50, + si_coderate: 0.2, pdsch_dedicated: { -#if N_ANTENNA_DL == 4 - p_a: -6, -#elif N_ANTENNA_DL == 2 p_a: -3, -#else - p_a: 0, -#endif p_b: -1, }, -#if N_RB_DL == 6 - pdcch_format: 1, -#else - pdcch_format: 2, -#endif - -#if N_RB_DL == 6 - prach_config_index: 15, -#else + pdcch_format: 2, prach_config_index: 4, -#endif - -#if N_RB_DL == 6 - initial_cqi: 5, -#else - initial_cqi: 3, -#endif + initial_cqi: 3, pucch_dedicated: { n1_pucch_sr_count: 11, cqi_pucch_n_rb: 1, n1_pucch_an_cs_count: 8, n3_pucch_an_n_rb: 3, -#if TDD == 1 tdd_ack_nack_feedback_mode: "multiplexing", /* TDD only */ -#endif }, - -#if N_ANTENNA_DL >= 2 m_ri: 8, transmission_mode: 3, -#endif srs_dedicated: { -#if N_RB_DL == 6 - srs_bandwidth_config: 7, - srs_bandwidth: 1, -#elif N_RB_DL == 15 - srs_bandwidth_config: 6, - srs_bandwidth: 1, -#elif N_RB_DL == 25 - srs_bandwidth_config: 3, - srs_bandwidth: 1, -#elif N_RB_DL == 50 srs_bandwidth_config: 2, srs_bandwidth: 2, -#elif N_RB_DL == 75 - srs_bandwidth_config: 2, - srs_bandwidth: 2, -#else - srs_bandwidth_config: 2, - srs_bandwidth: 3, -#endif srs_subframe_config: 3, srs_period: 40, srs_hopping_bandwidth: 0, diff --git a/config/old/gnb.cfg b/config/out/gnb.cfg index 5bfd3bb01..0b6a1445c 100644 --- a/config/old/gnb.cfg +++ b/config/out/gnb.cfg @@ -1,13 +1,6 @@ -#define TDD 1 - - -#define N_ANTENNA_DL 2 - -#define N_ANTENNA_UL 2 - { @@ -50,8 +43,8 @@ nr_cell_list: [ { rf_port: 0, - n_antenna_dl: N_ANTENNA_DL, - n_antenna_ul: N_ANTENNA_UL, + n_antenna_dl: 2, + n_antenna_ul: 2, cell_id: 0x01, n_id_cell: 500, @@ -108,29 +101,10 @@ csi_rs: { nzp_csi_rs_resource: [ { -#if N_ANTENNA_DL == 1 - n_ports: 1, - frequency_domain_allocation: "row2", - bitmap: "100000000000", - cdm_type: "no_cdm", -#elif N_ANTENNA_DL == 2 n_ports: 2, frequency_domain_allocation: "other", bitmap: "100000", cdm_type: "fd_cdm2", -#elif N_ANTENNA_DL == 4 - n_ports: 4, - frequency_domain_allocation: "row4", - bitmap: "100", - cdm_type: "fd_cdm2", -#elif N_ANTENNA_DL == 8 - n_ports: 8, - frequency_domain_allocation: "other", - bitmap: "110011", - cdm_type: "fd_cdm2", -#else -#error unsupported number of DL antennas -#endif }, ], @@ -148,22 +122,10 @@ csi_report_config: [ { -#if N_ANTENNA_DL > 1 codebook_config: { codebook_type: "type1", sub_type: "typeI_SinglePanel", -#if N_ANTENNA_DL == 2 -#elif N_ANTENNA_DL == 4 - n1: 2, - n2: 1, - codebook_mode: 1, -#elif N_ANTENNA_DL == 8 - n1: 4, - n2: 1, - codebook_mode: 1, -#endif }, -#endif }, ], }, ```
-
Kirill Smelkov authored
In the next patch we will switch usage of C Preprocessor to Jinja2, and in jinja2 doing set from under if, as e.g. in {%- if ru == 'm2ru' %} {%- set n_antenna_ul = 1 %} {%- endif %} does _not_ have the effect of setting n_antenna_ul=1 outside of the if block. That, however, can be worked around with usage of namespace objects, so the following works as intended: {%- set x = namespace() %} {%- if ru == 'm2ru' %} {%- set x.n_antenna_ul = 1 %} {%- endif %} with x.n_antenna_ul=1 if ru was m2ru. So taking into account this, and that in MultiRU ru will be denoting RadioUnit-related configuration, let's switch ru to be a namespace object with ru.ru_type denoting type of attached radio unit. This both goes as a preparatory step for MultiRU and also allows to switch from CPP to Jinja2 in the next patch. /cc @lu.xu, @tomo, @xavier_thompson, @Daetalus /reviewed-by @jhuge /reviewed-on nexedi/slapos!1520
-
- 24 Jan, 2024 5 commits
-
-
Jérome Perrin authored
-
Jérome Perrin authored
When running resilience tests we have too deep paths: time="2024-01-24T01:32:14+01:00" level=fatal msg="load config" config_path=/srv/slapgrid/slappart22/t/eeq/i/0/tmp/inst/T2/srv/runner/instance/slappart0/etc/gitaly-config.toml error="socket could not be created in /srv/slapgrid/slappart22/t/eeq/i/0/tmp/inst/T2/srv/runner/instance/slappart0/var/gitaly/sockets/internal: listen unix /srv/slapgrid/slappart22/t/eeq/i/0/tmp/inst/T2/srv/runner/instance/slappart0/var/gitaly/sockets/internal/test-0c5c65ff.sock: bind: invalid argument"
-
Jérome Perrin authored
and stop using old version in gitlab
-
Jérome Perrin authored
-
Jérome Perrin authored
-
- 23 Jan, 2024 11 commits
-
-
Titouan Soulard authored
-
Kirill Smelkov authored
software/ors-amarisoft: enb.jinja2.cfg: nr: Move tunable parameters from nr_cell_default to nr_cell_list This patch is similar and has the same rationale as the previous patch (software/ors-amarisoft: enb.jinja2.cfg: lte: Move tunable parameters from cell_default to cell_list). Please see its description for context and details. Like with previous patch I've made sure via json_util that effective gnb configuration stays exactly the same. Also, since for NR case we move more code, and also use enb merging feature(*) I tested that the effective gnb configuration stays exactly the same with both * tdd_config = 3 (5ms 8UL 1DL 2/10 (maximum uplink)), and * tdd_config = 1 (5ms 2UL 7DL 4/6 (default)) In all the cases effective gnb configuration stayed exactly the same before and after this patch which proves that effective configuration for single cell case remains unchanged. (*) enb implements merging process for cell/cell_default and nr_cell/nr_cell_default as demonstrated below: cell={a: 10, d:15} cell_default={a:1, b:2, c:3} -> cell={a:10, b:2, c: 3, d: 15} cell={x: [{}, 2]} cell_default={x: [{a:1}]} -> cell={x: [{a:1}, 2]} cell={x: [{c:11}]} cell_default={x: [{a:1}, {b:2}] -> cell={x: [{a:1, c:11}, {b:2}]} /cc @lu.xu, @tomo, @xavier_thompson, @Daetalus /reviewed-by @jhuge /reviewed-on nexedi/slapos!1515
-
Kirill Smelkov authored
Currently we set some cell tunable parameters on the cell object itself (e.g. dl_earfcn), while other cell tunable parameters on the cell_default object, e.g. cell bandwidth. This works ok when there is only one cell, but with multiple cells it makes a problem because different cells can have e.g. different bandwidth. So as preparatory step for MultiRU move the code, that sets tunable parameters for lte cells, from cell_default to cell object itself. Rendered config changes but we can verify that the configuration, that enb actually uses, stays the same: When enb starts it builds internal configuration for all configured cell objects by merging cell_default + cell's explicit configuration and using the result as the actual configuration for the cell. There is no more cell_default in that actual configuration. And also enb emits that actual runtime configuration in the beginning of enb.log which we can extract and investigate(*) So this way we can run enb with old and new generated enb.cfg and then compare the actual configuration. It turns out to be empty: ~/enb# ./lteenb -n x/old/enb.cfg ... RF0: sample_rate=11.520 MHz dl_freq=1910.000 MHz ul_freq=1910.000 MHz (band 33) dl_ant=2 ul_ant=2 (enb) quit ~/enb# mv log/enb.log log/enb.log.old ~/enb# ./lteenb -n x/out/enb.cfg ... RF0: sample_rate=11.520 MHz dl_freq=1910.000 MHz ul_freq=1910.000 MHz (band 33) dl_ant=2 ul_ant=2 (enb) quit ~/enb# mv log/enb.log log/enb.log.new ~/enb# ../ots/json_util log log/enb.log.old >a ~/enb# ../ots/json_util log log/enb.log.new >b ~/enb# diff -u a b # output is empty which means that effective enb configuration before and after this patch is exactly the same. For the reference, how internal configuration looks like is provided in the appendix. (*) see https://tech-academy.amarisoft.com/ExtractConfigFromLog.html for details. /cc @lu.xu, @tomo, @xavier_thompson, @Daetalus /reviewed-by @jhuge /reviewed-on nexedi/slapos!1515 P.S. for now I do not plan to expose full measurement configuration in the generic MultiRU and so it stays in cell_default with corresponding TODO. -------- Appendix. Dump of internal enb configuration for enb.cfg before and after the patch ``` $ ../ots/json_util log log/enb.log.old ``` ```json { "cell_list": [ { "cell_barred": false, "cell_id": 0, "cipher_algo_pref": [], "cqi_period": 40, "cyclic_prefix": "normal", "dl_256qam": true, "dl_earfcn": 36100, "dpc": true, "dpc_pucch_snr_target": 25, "dpc_pusch_snr_target": 25, "drb_config": [ ... ], # removed for brevity "ho_from_meas": true, "inactivity_timer": 10000, "initial_cqi": 3, "integ_algo_pref": [2, 1], "intra_freq_reselection": true, "m_ri": 8, "mac_config": { "dl_max_harq_tx": 5, "ul_max_harq_tx": 5 }, "manual_ref_signal_power": true, "meas_config_desc": { "a1_hysteresis": 0, "a1_report_type": "rsrp", "a1_rsrp": -70, "a1_time_to_trigger": 640, "a2_hysteresis": 0, "a2_report_type": "rsrp", "a2_rsrp": -80, "a2_time_to_trigger": 640, "a3_hysteresis": 0, "a3_offset": 6, "a3_report_type": "rsrp", "a3_time_to_trigger": 480 }, "meas_gap_config": "gp0", "n_antenna_dl": 2, "n_antenna_ul": 2, "n_id_cell": 0, "n_rb_dl": 50, "n_symb_cch": 0, "pdcch_format": 2, "pdsch_dedicated": { "p_a": -3, "p_b": -1 }, "phich_duration": "normal", "phich_resource": "1", "plmn_list": ["00101"], "prach_config_index": 4, "prach_freq_offset": -1, "pucch_dedicated": { "cqi_pucch_n_rb": 1, "n1_pucch_sr_count": 11, "tdd_ack_nack_feedback_mode": "multiplexing" }, "pusch_dedicated": { "beta_offset_ack_index": 9, "beta_offset_cqi_index": 6, "beta_offset_ri_index": 6 }, "pusch_hopping_offset": -1, "pusch_max_its": 6, "pusch_msg3_mcs": 0, "q_rx_lev_min": -70, "rf_port": 0, "root_sequence_index": 204, "scell_list": [], "si_coderate": 0.2, "si_pdcch_format": 2, "si_value_tag": 0, "si_window_length": 40, "sib_sched_list": [ ... ], # remove for brevity "sp_config": 7, "sr_period": 20, "srb_config": [ { "id": 1, "maxRetxThreshold": 32, "t_PollRetransmit": 60, "t_Reordering": 45 }, { "id": 2, "maxRetxThreshold": 32, "t_PollRetransmit": 60, "t_Reordering": 45 } ], "srs_dedicated": { "srs_bandwidth": 2, "srs_bandwidth_config": 2, "srs_hopping_bandwidth": 0, "srs_period": 40, "srs_subframe_config": 3 }, "tac": 1, "transmission_mode": 3, "ul_64qam": true, "uldl_config": 6 } ], "com_addr": "127.0.1.2:9001", "enb_id": 107216, "gtp_addr": "127.0.1.1", "log_filename": "log/enb.log", "log_options": "all.level=error,all.max_size=0,nas.level=debug,nas.max_size=1,s1ap.level=debug,s1ap.max_size=1,x2ap.level=debug,x2ap.max_size=1,rrc.level=debug,rrc.max_size=1,phy.level=info,file.rotate=1G,file.path=/dev/null", "mme_list": [ { "mme_addr": "127.0.1.100" } ], "rf_driver": { "args": "dev0=/dev/sdr0", "name": "sdr", "realtime": 1, "rx_antenna": "tx_rx", "tdd_tx_mod": 1 }, "rx_gain": 43, "tx_gain": 62 } ```
-
Kirill Smelkov authored
So that it is possible to try running enb on generated configs becuase with previous numbers enb refuses to start: ~/enb# ./lteenb x/old/enb.cfg ... x/old/enb.cfg:50: field 'dl_earfcn': range is [0:262143] (LTE Cell #0) ~/enb# ./lteenb x/old/gnb.cfg ... x/old/gnb.cfg:54: invalid frequency band (NR Cell #1) We need enb to be able to start with generated config because enb dumps in its enb.log the real configuration that it builds from cell_list + cell_default and nr_cell_list + cell_default - which is possible to extract via `json_util` and which we want to check after our changes to enb.jinja2.cfg to see if we really don't introduce semantic mistakes when e.g. moving things in between cell_default to cell_list (see next patch). With new frequencies enb and gnb both start ok. /cc @lu.xu, @tomo, @xavier_thompson, @Daetalus /reviewed-by @jhuge /reviewed-on nexedi/slapos!1515
-
Kirill Smelkov authored
For example there is no slaptap under StandaloneSlapOS and <RU>-netconf-socket promise needs real RU hardware to be around and accepting incoming connections. If we don't wrap such things with `if not testing` running test on testnodes will fail. /cc @lu.xu, @tomo, @xavier_thompson, @Daetalus /reviewed-by @jhuge /reviewed-on nexedi/slapos!1514
-
Kirill Smelkov authored
Less need to keep default synchronized and less noise in the code. We will need to refer to `testing` more in the next patch, so it will help a bit. /cc @lu.xu, @tomo, @xavier_thompson, @Daetalus /reviewed-by @jhuge /reviewed-on nexedi/slapos!1514
-
Kirill Smelkov authored
Similarly to f365a440 (software/ors-amarisoft: Merge gnb.jinja2.cfg into enb.jinja2.cfg) merge LTE and NR configuration files for UEsim into single config as the preparation for MultiRU - there UEsim will be also handling TDD, FDD, LTE and NR cells and UEs all at the same time. In this patch for now we only move code without changing it and wrap parts with `if do_lte` and `if do_nr` correspondingly. The end result of rendered ue-lte.cfg and ue-nr.cfg stays practically the same as shown in the appendix. /cc @lu.xu, @tomo, @xavier_thompson, @Daetalus /reviewed-by @jhuge /reviewed-on nexedi/slapos!1513 -------- Appendix. Diff for rendered ue-*.cfg before and after this patch. ``` $ ./pythonwitheggs slapos-render-config.py && git diff --no-index -w config/old/ config/out/ ``` ```diff diff --git a/config/old/ue-lte.cfg b/config/out/ue-lte.cfg index 7f1530daf..836a95e79 100644 --- a/config/old/ue-lte.cfg +++ b/config/out/ue-lte.cfg @@ -1,5 +1,6 @@ #define N_RB_DL 50 + { log_options: "all.level=error,all.max_size=0,nas.level=debug,nas.max_size=1,rrc.level=debug,rrc.max_size=1,phy.level=info,file.rotate=1G,file.path=/dev/null", log_filename: "log/ue.log", @@ -14,7 +15,8 @@ rf_driver: { }, tx_gain: 60, rx_gain: 40, - cell_groups: [{ + cell_groups: [ + { multi_ue: true, cells: [ { @@ -27,7 +29,8 @@ rf_driver: { ], pdcch_decode_opt: false, pdcch_decode_opt_threshold: 0.1, - }], + }, + ], ue_list: [ { sim_algo: "milenage", @@ -38,8 +41,8 @@ rf_driver: { impi: "", imsi: "001010123456789", K: "00112233445566778899aabbccddeeff", - rue_addr: "host1", ue_category: 12, + rue_addr: "host1", tun_setup_script: "ue-ifup", apn: "internet", } diff --git a/config/old/ue-nr.cfg b/config/out/ue-nr.cfg index 41758ab6f..631e1ab1e 100644 --- a/config/old/ue-nr.cfg +++ b/config/out/ue-nr.cfg @@ -1,3 +1,5 @@ + + { log_options: "all.level=error,all.max_size=0,nas.level=debug,nas.max_size=1,rrc.level=debug,rrc.max_size=1,phy.level=info,file.rotate=1G,file.path=/dev/null", log_filename: "log/ue.log", @@ -12,7 +14,8 @@ rf_driver: { }, tx_gain: 60, rx_gain: 40, - cell_groups: [{ + cell_groups: [ + { group_type: "nr", multi_ue: false, cells: [{ @@ -26,7 +29,8 @@ rf_driver: { n_antenna_ul: 2, } ], - }], + }, + ], ue_list: [ { sim_algo: "milenage", @@ -37,11 +41,11 @@ rf_driver: { impi: "", imsi: "001010123456789", K: "00112233445566778899aabbccddeeff", - rue_addr: "host2", as_release: 15, ue_category: "nr", + rue_addr: "host2", tun_setup_script: "ue-ifup", apn: "internet", } - ] + ], } ```
-
Kirill Smelkov authored
This is useful during development while working on ue-*.jinja2.cfg /cc @lu.xu, @tomo, @xavier_thompson, @Daetalus /reviewed-by @jhuge /reviewed-on nexedi/slapos!1513
-
Kirill Smelkov authored
We are going to generate more and more type of files via slapos-render-config: currently we generate only enb.cfg and gnb.cfg, but soon it will be also ue-*.cfg, drb_*.cfg, asn etc. So it will be handy to easily separate generated files from their source, to make snapshots of generated stuff for comparison, and to also e.g. to be able to copy generated configs to a callbox/simbox for testing. -> Move the place where generated files are emitted from config/ to config/out/ /cc @lu.xu, @tomo, @xavier_thompson, @Daetalus /reviewed-by @jhuge /reviewed-on nexedi/slapos!1513
-
Jérome Perrin authored
Now that we have a more modern firefox, it requires secure context for many things. This fixes `TypeError: crypto.subtle is undefined` test failures for JIO.
-
Alain Takoudjou authored
See merge request nexedi/slapos!1503
-
- 22 Jan, 2024 21 commits
-
-
Alain Takoudjou authored
-
Alain Takoudjou authored
-
Alain Takoudjou authored
-
Alain Takoudjou authored
-
Alain Takoudjou authored
Split command which is used to split pgdump files before push to gitlab backup repository crash during backup process. This problem occurs with version starting from 9.2, older versions doesn't have this problem. The version 9.1 is used for gitlab-backup so. For more details, see: nexedi/slapos!1503 (diffs, comment 197515)
-
Alain Takoudjou authored
-
Ivan Tyagov authored
-
Jérome Perrin authored
See merge request nexedi/slapos!1506
-
Kirill Smelkov authored
While not faulty in itself, f365a440 caused ors-amarisoft testsuite to start failing with ERROR: test_gnb_conf (testTDD.TestGNBParameters1) ---------------------------------------------------------------------- Traceback (most recent call last): File ".../slapos-repository/software/ors-amarisoft/test/testTDD.py", line 298, in test_gnb_conf test_gnb_conf1(self) File ".../slapos-repository/software/ors-amarisoft/test/testTDD.py", line 184, in test_gnb_conf1 self.assertEqual(conf['tx_gain'], gnb_param_dict1['tx_gain']) KeyError: 'tx_gain' ( https://erp5js.nexedi.net/#/test_result_module/20240119-1C2BDD94/45 ) This happens because previously gnb.jinja2.cfg emitted tx_gain/rx_gain and everything else for SDR case when `ru != "m2ru"`: https://lab.nexedi.com/nexedi/slapos/blob/d078060c/software/ors-amarisoft/config/gnb.jinja2.cfg#L22-55 while enb.jinja2.cfg had this only under `if bbu == "ors"`: https://lab.nexedi.com/nexedi/slapos/blob/d078060c/software/ors-amarisoft/config/enb.jinja2.cfg#L44-114 so since bbu != "ors" when tests are run via `testTDD.py` and `testFDD.py` (and `testTDD-ORS.py` is not ran at all as I explained in nexedi/slapos.toolbox!129) this resulted in gnb.cfg not to have tx_gain/rx_gain for bbu != ors case and corresponding test failure. There is no real problem for ORS since for `bbu==ors` tx_gain/rx_gain are emitted. -> Fix testsuite to pass again similarly to how it was done in b32b4a8e (software/ors-amarisoft: general improvement for RU (logs/promises/input parameters) for now). In the future ORS case will be verified by dedicated test_ors.py which will have checks for tx_gain and rx_gain unconditionally applied, while support for all other cases will be handled by generic test.py which will have different logic for how rf_driver section is generated and verified. https://lab.nexedi.com/kirr/slapos/blob/b21d2636/software/ors-amarisoft/test/test_ors.py https://lab.nexedi.com/kirr/slapos/blob/b21d2636/software/ors-amarisoft/test/test.py
-
Jérome Perrin authored
-
Jérome Perrin authored
-
Jérome Perrin authored
-
Jérome Perrin authored
This makes urljoin works as expected and generally makes sense because this is a collection.
-
Jérome Perrin authored
-
Jérome Perrin authored
-
Jérome Perrin authored
-
Jérome Perrin authored
-
Jérome Perrin authored
-
Jérome Perrin authored
See merge request !1500
-
Jérome Perrin authored
Directly expose all passlib.hash supported hashes, using a `passwd-` prefix. For example, to access `sha256_crypt`, use `passwd-sha256-crypt` option name. [secret] recipe = slapos.cookbook:generate.password [config-file] hashed-password = ${secret:passwd-sha256-crypt} This changes the format of storage-path, it used to be the password in plain text, it is now a mapping also containing hashed passwords, to have the same hashed passwords for each buildout run. This needs collaboration from publish_early recipe, because .pop(k) does raised a KeyError with the dict.__missing__ approach.
-
Jérome Perrin authored
-