Commit 7a31af8e authored by Lu Xu's avatar Lu Xu 👀

software/ors-amarisoft: Move lopcomm to private repository

See merge request !1635
parents c3244027 35bc2685
Pipeline #36586 failed with stage
in 0 seconds
......@@ -16,7 +16,7 @@
[template]
filename = instance.cfg
md5sum = 2e30c07c6436895ac0bc6c177cf7013d
md5sum = f096f3cbb414730a9f0d46b0c0f5eb22
[template-ors]
filename = instance-ors.cfg
......@@ -24,7 +24,7 @@ md5sum = f5c76c3443b75569eb18503dce38e783
[slaplte.jinja2]
_update_hash_filename_ = slaplte.jinja2
md5sum = 871ade334f445e22d6cb473e4d4e3522
md5sum = 27c49897c9a3e4c260105534bed0132d
[ru_amarisoft-stats.jinja2.py]
_update_hash_filename_ = ru/amarisoft-stats.jinja2.py
......@@ -36,44 +36,16 @@ md5sum = ab666fdfadbfc7d8a16ace38d295c883
[ru_libinstance.jinja2.cfg]
_update_hash_filename_ = ru/libinstance.jinja2.cfg
md5sum = 2dda7713832be83d94522c7abb4901f9
md5sum = 7613c4decd4468ab5d826421aef955f1
[ru_sdr_libinstance.jinja2.cfg]
_update_hash_filename_ = ru/sdr/libinstance.jinja2.cfg
md5sum = b7906ca3a6b17963f78f680fc0842b74
[ru_lopcomm_libinstance.jinja2.cfg]
_update_hash_filename_ = ru/lopcomm/libinstance.jinja2.cfg
md5sum = c3bd882559ab9cd2a068519ea5d8c92e
[ru_sunwave_libinstance.jinja2.cfg]
_update_hash_filename_ = ru/sunwave/libinstance.jinja2.cfg
md5sum = bc5d82b8737b6990674b280ef2774be7
[ru_lopcomm_ncclient_common.py]
_update_hash_filename_ = ru/lopcomm/ncclient_common.py
md5sum = 8dbe6a48fc0fca4f0cbd0c746be1aeda
[ru_lopcomm_stats.jinja2.py]
_update_hash_filename_ = ru/lopcomm/stats.jinja2.py
md5sum = b7ec0025a92e0947e4ac6abc4b06bf19
[ru_lopcomm_config.jinja2.py]
_update_hash_filename_ = ru/lopcomm/config.jinja2.py
md5sum = 122726666d147447171dcae9ebf8d093
[ru_lopcomm_reset-info.jinja2.py]
_update_hash_filename_ = ru/lopcomm/reset-info.jinja2.py
md5sum = 3d78df1993211efaabd3dc6f2ec8de30
[ru_lopcomm_reset.jinja2.py]
_update_hash_filename_ = ru/lopcomm/reset.jinja2.py
md5sum = 9741fbc99aaf768e9cc3ab48925dfee5
[ru_lopcomm_software.jinja2.py]
_update_hash_filename_ = ru/lopcomm/software.jinja2.py
md5sum = 2b08bb666c5f3ab287cdddbfdb4c9249
[ru_tapsplit]
_update_hash_filename_ = ru/tapsplit
md5sum = 700aab566289619fb83ac6f3b085d983
......@@ -150,14 +122,6 @@ md5sum = f07c85916bcb7e4002c8edc3d087c1be
filename = config/ue.jinja2.cfg
md5sum = 62291a11fd36a42464901cdc81338687
[ru_lopcomm_CreateProcessingEle.jinja2.xml]
_update_hash_filename_ = ru/lopcomm/CreateProcessingEle.jinja2.xml
md5sum = e435990eb0a0d4be41efa9bd16dce09b
[ru_lopcomm_cu_config.jinja2.xml]
_update_hash_filename_ = ru/lopcomm/cu_config.jinja2.xml
md5sum = 346c911e1ac5e5001a39c8926b44c91e
[software.cfg.html]
_update_hash_filename_ = gadget/software.cfg.html
md5sum = 61a2f783fbf683a34aed3d13e00baca2
......
......@@ -105,9 +105,6 @@
{
"$ref": "../ru/sdr/input-schema.json"
},
{
"$ref": "../ru/lopcomm/input-schema.json"
},
{
"$ref": "../ru/sunwave/input-schema.json"
}
......
......@@ -46,7 +46,6 @@ import-list =
rawfile slaplte.jinja2 ${slaplte.jinja2:target}
rawfile ru_libinstance.jinja2.cfg ${ru_libinstance.jinja2.cfg:target}
rawfile ru_sdr_libinstance.jinja2.cfg ${ru_sdr_libinstance.jinja2.cfg:target}
rawfile ru_lopcomm_libinstance.jinja2.cfg ${ru_lopcomm_libinstance.jinja2.cfg:target}
rawfile ru_sunwave_libinstance.jinja2.cfg ${ru_sunwave_libinstance.jinja2.cfg:target}
# activate eggs and modules used in jinja2 templates
......@@ -158,16 +157,6 @@ extra-context =
raw sib23_template ${sib23.jinja2.asn:target}
raw ru_amarisoft_stats_template ${ru_amarisoft-stats.jinja2.py:target}
raw ru_amarisoft_rf_info_template ${ru_amarisoft-rf-info.jinja2.py:target}
raw ru_lopcomm_stats_template ${ru_lopcomm_stats.jinja2.py:target}
raw ru_lopcomm_config_template ${ru_lopcomm_config.jinja2.py:target}
raw ru_lopcomm_software_template ${ru_lopcomm_software.jinja2.py:target}
raw ru_lopcomm_reset_info_template ${ru_lopcomm_reset-info.jinja2.py:target}
raw ru_lopcomm_reset_template ${ru_lopcomm_reset.jinja2.py:target}
raw ru_lopcomm_CreateProcessingEle_template ${ru_lopcomm_CreateProcessingEle.jinja2.xml:target}
raw ru_lopcomm_cu_config_template ${ru_lopcomm_cu_config.jinja2.xml:target}
raw ru_lopcomm_cu_inactive_config_template ${ru_lopcomm_cu_config.jinja2.xml:target}
raw ru_lopcomm_firmware_path ${ru_lopcomm_firmware-dl:target}
raw ru_lopcomm_firmware_filename ${ru_lopcomm_firmware-dl:filename}
raw ru_tapsplit ${ru_tapsplit:target}
raw netcapdo ${netcapdo:exe}
raw openssl_location ${openssl:location}
......@@ -217,16 +206,6 @@ extra-context =
raw ru_amarisoft_stats_template ${ru_amarisoft-stats.jinja2.py:target}
raw ru_amarisoft_rf_info_template ${ru_amarisoft-rf-info.jinja2.py:target}
raw ru_lopcomm_stats_template ${ru_lopcomm_stats.jinja2.py:target}
raw ru_lopcomm_config_template ${ru_lopcomm_config.jinja2.py:target}
raw ru_lopcomm_software_template ${ru_lopcomm_software.jinja2.py:target}
raw ru_lopcomm_reset_info_template ${ru_lopcomm_reset-info.jinja2.py:target}
raw ru_lopcomm_reset_template ${ru_lopcomm_reset.jinja2.py:target}
raw ru_lopcomm_CreateProcessingEle_template ${ru_lopcomm_CreateProcessingEle.jinja2.xml:target}
raw ru_lopcomm_cu_config_template ${ru_lopcomm_cu_config.jinja2.xml:target}
raw ru_lopcomm_cu_inactive_config_template ${ru_lopcomm_cu_config.jinja2.xml:target}
raw ru_lopcomm_firmware_path ${ru_lopcomm_firmware-dl:target}
raw ru_lopcomm_firmware_filename ${ru_lopcomm_firmware-dl:filename}
raw ru_tapsplit ${ru_tapsplit:target}
raw netcapdo ${netcapdo:exe}
raw ru_dnsmasq_template ${ru_dnsmasq.jinja2.cfg:target}
......
......@@ -3,7 +3,6 @@
[buildout]
extends =
sdr/buildout.cfg
lopcomm/buildout.cfg
sunwave/buildout.cfg
parts +=
......
......@@ -6,9 +6,6 @@
{
"$ref": "sdr/input-schema.json"
},
{
"$ref": "lopcomm/input-schema.json"
},
{
"$ref": "sunwave/input-schema.json"
}
......
......@@ -53,10 +53,8 @@ config-stats-period = {{ slapparameter_dict.get("enb_stats_fetch_period", 60) }}
{%- set jcell_ru_ref = slaplte.jcell_ru_ref %}
{%- set ierror = slaplte.ierror %}
{%- import 'ru_sdr_libinstance.jinja2.cfg' as rudrv_sdr with context %}
{%- import 'ru_lopcomm_libinstance.jinja2.cfg' as rudrv_lopcomm with context %}
{%- import 'ru_sunwave_libinstance.jinja2.cfg' as rudrv_sunwave with context %}
{%- set rudrv_dict = namespace(sdr=rudrv_sdr,
lopcomm=rudrv_lopcomm,
sunwave=rudrv_sunwave) %}
{%- set rudrv_init = {} %}
......
<config xmlns="urn:ietf:params:xml:ns:netconf:base:1.0">
<processing-elements xmlns="urn:o-ran:processing-element:1.0">
<transport-session-type>CPRI-INTERFACE</transport-session-type>
<ru-elements>
<name>PE0</name>
<transport-flow>
<interface-name>eth1</interface-name>
</transport-flow>
</ru-elements>
</processing-elements>
</config>
\ No newline at end of file
# ru/lopcomm/buildout.cfg provides software code for handling Lopcomm ORAN Radio Units.
[buildout]
parts +=
ru_lopcomm_ncclient_common.py
[ru_lopcomm_libinstance.jinja2.cfg]
<= download-base
[ru_lopcomm_config.jinja2.py]
<= download-base
[ru_lopcomm_reset-info.jinja2.py]
<= download-base
[ru_lopcomm_reset.jinja2.py]
<= download-base
[ru_lopcomm_stats.jinja2.py]
<= download-base
[ru_lopcomm_software.jinja2.py]
<= download-base
[ru_lopcomm_ncclient_common.py]
<= download-base
destination = ${buildout:directory}/ncclient_common.py
[ru_lopcomm_CreateProcessingEle.jinja2.xml]
<= download-base
[ru_lopcomm_cu_config.jinja2.xml]
<= download-base
[ru_lopcomm_firmware-dl]
recipe = slapos.recipe.build:download
url = https://lab.nexedi.com/nexedi/ors-utils/raw/master/lopcomm-firmware/${:filename}
filename = PR.PRM61C70V1005.005.tar.gz
md5sum = 62281d0be42feac94e843e1850ba6e09
#!{{ python_path }}
import time
import sys
sys.path.append({{ repr(buildout_directory_path) }})
from ncclient_common import LopcommNetconfClient
if __name__ == '__main__':
nc = LopcommNetconfClient(log_file="{{ log_file }}")
while True:
try:
nc.connect("{{ netaddr.IPAddress(vtap.gateway) }}", 830, "oranuser", "oranpassword")
nc.edit_config(["{{ CreateProcessingEle_template }}", "{{ cu_inactive_config_template }}", "{{ cu_config_template }}"])
break
except Exception as e:
nc.logger.debug('Got exception, waiting 10 seconds before reconnecting...')
nc.logger.debug(e)
time.sleep(10)
finally:
nc.close()
<xc:config xmlns:xc="urn:ietf:params:xml:ns:netconf:base:1.0">
<user-plane-configuration xc:operation="replace" xmlns="urn:o-ran:uplane-conf-option8:1.0">
<!-- TX path: eaxcid → TxEndpoint
mod → static TxEndpoint → TxArray
TxCarrier
(static TxEndpoint, TxArray and their association are defined by RU itself)
-->
{%- set TxCarrier = 'TXA0CC00' %}
{%- for ant in range(ru.n_antenna_dl) %}
{%- set port = ant // 2 %}
{%- set chan = ant % 2 %}
{%- set txep = 'TXA0P%02dC%02d' % (port, chan) %}
<!-- TxAntenna{{ ant }} -->
<tx-endpoints>
<name>{{ txep }}</name>
<e-axcid>
<o-du-port-bitmask>61440</o-du-port-bitmask>
<band-sector-bitmask>3968</band-sector-bitmask>
<ccid-bitmask>112</ccid-bitmask>
<ru-port-bitmask>15</ru-port-bitmask>
<eaxc-id>{{ ant }}</eaxc-id>
</e-axcid>
</tx-endpoints>
<tx-links>
<name>{{ txep }}</name>
<processing-element>PE0</processing-element>
<tx-array-carrier>{{ TxCarrier }}</tx-array-carrier>
<tx-endpoint>{{ txep }}</tx-endpoint>
</tx-links>
{%- endfor %}
<!--
RX path: eaxcid ← RxEndpoint
(data ∪ prach)
demod ← static RxEndpoint ← RxArray
RxCarrier
(static RxEndpoint, RxArray and their association are defined by RU itself)
-->
{%- set RxCarrier = 'RXA0CC00' %}
{%- for ant in range(ru.n_antenna_ul) %}
{%- set port = ant // 2 %}
{%- set chan = ant % 2 %}
{%- set rxep = 'RXA0P%02dC%02d' % (port, chan) %}
{%- set prachep = 'PRACH0P%02dC%02d' % (port, chan) %}
<!-- RxAntenna{{ ant }} -->
<rx-endpoints>
<name>{{ rxep }}</name>
<e-axcid>
<o-du-port-bitmask>61440</o-du-port-bitmask>
<band-sector-bitmask>3968</band-sector-bitmask>
<ccid-bitmask>112</ccid-bitmask>
<ru-port-bitmask>15</ru-port-bitmask>
<eaxc-id>{{ ant }}</eaxc-id>
</e-axcid>
</rx-endpoints>
<rx-endpoints>
<name>{{ prachep }}</name>
<e-axcid>
<o-du-port-bitmask>61440</o-du-port-bitmask>
<band-sector-bitmask>3968</band-sector-bitmask>
<ccid-bitmask>112</ccid-bitmask>
<ru-port-bitmask>15</ru-port-bitmask>
<eaxc-id>{{ 16*chan + 8 + port }}</eaxc-id>
</e-axcid>
</rx-endpoints>
<rx-links>
<name>{{ rxep }}</name>
<processing-element>PE0</processing-element>
<rx-array-carrier>{{ RxCarrier }}</rx-array-carrier>
<rx-endpoint>{{ rxep }}</rx-endpoint>
</rx-links>
<rx-links>
<name>{{ prachep }}</name>
<processing-element>PE0</processing-element>
<rx-array-carrier>{{ RxCarrier }}</rx-array-carrier>
<rx-endpoint>{{ prachep }}</rx-endpoint>
</rx-links>
{%- endfor %}
<!-- TX/RX carriers -->
<!-- TODO support multiple cells over 1 RU -->
{%- if cell.cell_type == 'lte' %}
{%- set dl_arfcn = cell.dl_earfcn %}
{%- set ul_arfcn = cell.ul_earfcn %}
{%- set dl_freq = int(xearfcn_module.frequency(dl_arfcn) * 1e6) %}
{%- set ul_freq = int(xearfcn_module.frequency(ul_arfcn) * 1e6) %}
{%- elif cell.cell_type == 'nr' %}
{%- set dl_arfcn = cell.dl_nr_arfcn %}
{%- set ul_arfcn = cell.ul_nr_arfcn %}
{%- set dl_freq = int(xnrarfcn_module.frequency(dl_arfcn) * 1e6) %}
{%- set ul_freq = int(xnrarfcn_module.frequency(ul_arfcn) * 1e6) %}
{%- else %}
{%- do bug('unreachable') %}
{%- endif %}
{%- set bw = int(cell.bandwidth * 1e6) %}
<tx-array-carriers>
<name>{{ TxCarrier }}</name>
<absolute-frequency-center>{{ dl_arfcn }}</absolute-frequency-center>
<center-of-channel-bandwidth>{{ dl_freq }}</center-of-channel-bandwidth>
<channel-bandwidth>{{ bw }}</channel-bandwidth>
<active>{{ ru.txrx_active }}</active>
<rw-type>{{ cell.cell_type | upper }}</rw-type>
<rw-duplex-scheme>{{ cell.rf_mode | upper }}</rw-duplex-scheme>
<gain>{{ ru.tx_gain }}</gain>
<downlink-radio-frame-offset>0</downlink-radio-frame-offset>
<downlink-sfn-offset>0</downlink-sfn-offset>
</tx-array-carriers>
<rx-array-carriers>
<name>{{ RxCarrier }}</name>
<absolute-frequency-center>{{ ul_arfcn }}</absolute-frequency-center>
<center-of-channel-bandwidth>{{ ul_freq }}</center-of-channel-bandwidth>
<channel-bandwidth>{{ bw }}</channel-bandwidth>
<active>{{ ru.txrx_active }}</active>
<downlink-radio-frame-offset>0</downlink-radio-frame-offset>
<downlink-sfn-offset>0</downlink-sfn-offset>
<!-- <gain>{{ ru.rx_gain }}</gain> -->
<!-- TODO(lu.xu): clarify with Lopcomm regaring rx gain -->
<gain-correction>0.0</gain-correction>
<n-ta-offset>0</n-ta-offset>
</rx-array-carriers>
</user-plane-configuration>
</xc:config>
{
"$schema": "https://json-schema.org/draft/2020-12/schema",
"title": "Lopcomm ORAN",
"type": "object",
"required": [
"ru_type",
"ru_link_type",
"n_antenna_dl",
"n_antenna_ul",
"tx_gain",
"rx_gain",
"cpri_link",
"mac_addr"
],
"properties": {
"$ref": "../../ru/common.json#/properties",
"ru_type": {
"$ref": "#/properties/ru_type",
"const": "lopcomm"
},
"ru_link_type": {
"$ref": "#/properties/ru_link_type",
"const": "cpri"
},
"n_antenna_dl": {
"$ref": "#/properties/n_antenna_dl",
"default": 2
},
"n_antenna_ul": {
"$ref": "#/properties/n_antenna_ul",
"default": 2
},
"cpri_link": {
"$ref": "#/properties/cpri_link",
"properties": {
"$ref": "#/properties/cpri_link/properties",
"mapping": {
"$ref": "#/properties/cpri_link/properties/mapping",
"const": "hw",
"enum": [
"hw"
]
},
"rx_delay": {
"$ref": "#/properties/cpri_link/properties/rx_delay",
"default": 25.11
},
"tx_delay": {
"$ref": "#/properties/cpri_link/properties/tx_delay",
"default": 14.71
},
"tx_dbm": {
"$ref": "#/properties/cpri_link/properties/tx_dbm",
"default": 63
}
}
},
"reset_schedule": {
"title": "Cron schedule for RRH reset",
"description": "Refer https://crontab.guru/ to make a reset schedule for RRH, for example, '0 1 * * *' means the RRH will reset every day at 1 am",
"type": "string"
}
}
}
This diff is collapsed.
#!{{ python_path }}
import paramiko
import logging
from logging.handlers import RotatingFileHandler
def get_uptime(hostname, username, password):
client = paramiko.SSHClient()
client.set_missing_host_key_policy(paramiko.AutoAddPolicy())
try:
client.connect(hostname, username=username, password=password)
stdin, stdout, stderr = client.exec_command('uptime')
uptime_output = stdout.read().decode()
return uptime_output
except Exception as e:
logger.info(f"Error: {e}")
finally:
client.close()
# Usage
hostname = "{{ netaddr.IPAddress(vtap.gateway) }}"
username = "oranuser"
password = "oranpassword"
# Initialize logger
log_file = "{{ log_file }}"
logger = logging.getLogger('logger')
logger.setLevel(logging.INFO)
handler = RotatingFileHandler(log_file, maxBytes=30000, backupCount=2)
formatter = logging.Formatter('%(asctime)s - %(levelname)s - %(message)s')
handler.setFormatter(formatter)
logger.addHandler(handler)
if {{ testing }}:
pass
else:
rrh_uptime = get_uptime(hostname, username, password)
logger.info(f"Uptime from RRH: {rrh_uptime}")
#!{{ python_path }}
import time
import sys
sys.path.append({{ repr(buildout_directory_path) }})
from ncclient_common import LopcommNetconfClient
if __name__ == '__main__':
nc = LopcommNetconfClient(log_file="{{ log_file }}")
try:
nc.connect("{{ netaddr.IPAddress(vtap.gateway) }}", 830, "oranuser", "oranpassword")
nc.reset_device()
nc.logger.info("Device reset successful.")
except Exception as e:
nc.logger.debug('Got exception while resetting...')
nc.logger.debug(e)
finally:
nc.close()
#!{{ python_path }}
import time
import json
import xmltodict
import sys
import re
import os
sys.path.append({{ repr(buildout_directory_path) }})
from ncclient_common import LopcommNetconfClient
if __name__ == '__main__':
nc = LopcommNetconfClient(
log_file="{{ log_file }}",
software_reply_json_log_file="{{ software_reply_json_log_file }}"
)
while True:
try:
firmware_check_file= '{{ is_firmware_updated }}'
nc.connect("{{ netaddr.IPAddress(vtap.gateway) }}", 830, "oranuser", "oranpassword")
# Fetch software inventory
inventory_vars = nc.get_inventory()
nonrunning_slot_name = inventory_vars["nonrunning_slot_name"]
running_slot_name = inventory_vars["running_slot_name"]
active_nonrunning_slot_name = inventory_vars["active_nonrunning_slot_name"]
nonrunning_slot_name_build_version = inventory_vars["nonrunning_slot_name_build_version"]
running_slot_name_build_version = inventory_vars["running_slot_name_build_version"]
if running_slot_name and nonrunning_slot_name:
if running_slot_name:
nc.logger.info("One slot is running and one is non-running. Proceeding...")
if running_slot_name_build_version in "{{firmware_name}}":
if not os.path.exists(firmware_check_file):
open(firmware_check_file, "w").write('True')
nc.logger.info("Running slot's build-version %s is already updated. Skipping install." % running_slot_name_build_version)
else:
if os.path.exists(firmware_check_file):
os.remove(firmware_check_file)
nc.logger.info("Current build version: %s" % running_slot_name_build_version)
user_authorized_key ="""{{ slapparameter_dict.get('user-authorized-key', '') }}"""
match = re.match(r'ssh-rsa ([^\s]+)', user_authorized_key)
if match:
extracted_key = match.group(1)
else:
nc.logger.info("No valid key found in user authorized key.")
download_rpc_xml = f"""
<software-download xmlns="urn:o-ran:software-management:1.0">
<remote-file-path>{{remote_file_path}}</remote-file-path>
<server>
<keys>
<algorithm xmlns:ct="urn:ietf:params:xml:ns:yang:ietf-crypto-types">1024</algorithm>
<public-key>{extracted_key}</public-key>
</keys>
</server>
</software-download>
"""
download_reply_xml = nc.custom_rpc_request(download_rpc_xml)
nc.logger.info("Downloading software...")
time.sleep(60)
if download_reply_xml:
nc.logger.info("Download proceed.")
download_data = xmltodict.parse(download_reply_xml)
nc.software_reply_json_logger.info('', extra={'data': json.dumps(download_data)})
install_rpc_xml = f"""
<software-install xmlns="urn:o-ran:software-management:1.0">
<slot-name>{nonrunning_slot_name}</slot-name>
<file-names>{{firmware_name}}</file-names>
</software-install>
"""
install_reply_xml = nc.custom_rpc_request(install_rpc_xml)
nc.logger.info("Installing software...")
time.sleep(60)
if install_reply_xml:
nc.logger.info("Installation proceed.")
install_data = xmltodict.parse(install_reply_xml)
nc.software_reply_json_logger.info('', extra={'data': json.dumps(install_data)})
if nonrunning_slot_name_build_version in "{{firmware_name}}":
activate_rpc_xml = f"""
<software-activate xmlns="urn:o-ran:software-management:1.0">
<slot-name>{nonrunning_slot_name}</slot-name>
</software-activate>
"""
activate_reply_xml = nc.custom_rpc_request(activate_rpc_xml)
nc.logger.info("Activating software...")
time.sleep(60)
if activate_reply_xml:
nc.logger.info("Activation proceed.")
activate_data = xmltodict.parse(activate_reply_xml)
nc.software_reply_json_logger.info('', extra={'data': json.dumps(activate_data)})
nc.get_inventory()
if nonrunning_slot_name_build_version in "{{firmware_name}}" and active_nonrunning_slot_name:
nc.logger.info("Active non-running slot has the updated build version. Resetting device.")
nc.reset_device()
break
except Exception as e:
nc.logger.debug('Got exception, waiting 10 seconds before reconnecting...')
nc.logger.debug(str(e))
time.sleep(10)
finally:
nc.close()
#!{{ python_path }}
import time
import sys
import os
import threading
sys.path.append({{ repr(buildout_directory_path) }})
from ncclient_common import LopcommNetconfClient
# Shared variable to indicate error occurred
error_occurred = False
lock = threading.Lock()
def get_notification_continuously(nc):
global error_occurred
try:
while not error_occurred:
nc.get_notification()
pass
except Exception as e:
with lock:
error_occurred = True
nc.logger.error(f'Error in get_notification_continuously: {e}')
# supervision watchdog keeps on
def run_supervision_reset_continuously(nc):
global error_occurred
netconf_check_file = '{{ is_netconf_connected }}'
interval = 60
margin = 10
try:
while not error_occurred:
t0 = time.time()
replied = nc.supervision_reset(interval, margin)
if replied:
with open(netconf_check_file, "w") as f:
f.write('')
elif os.path.exists(netconf_check_file):
os.remove(netconf_check_file)
t1 = time.time()
time.sleep(interval - (t1 - t0))
except Exception as e:
with lock:
error_occurred = True
nc.logger.error(f'Error in run_supervision_reset_continuously: {e}')
if __name__ == '__main__':
nc = LopcommNetconfClient(
log_file="{{ log_file }}",
json_log_file="{{ json_log_file }}",
cfg_json_log_file="{{ cfg_json_log_file }}",
supervision_json_log_file="{{ supervision_json_log_file }}",
ncsession_json_log_file="{{ ncsession_json_log_file }}",
software_json_log_file="{{ software_json_log_file }}",
supervision_reply_json_log_file="{{ supervision_reply_json_log_file }}"
)
threads = []
try:
nc.connect("{{ netaddr.IPAddress(vtap.gateway) }}", 830, "oranuser", "oranpassword")
nc.subscribe()
notification_thread = threading.Thread(target=get_notification_continuously, args=(nc,))
supervision_thread = threading.Thread(target=run_supervision_reset_continuously, args=(nc,))
threads.append(notification_thread)
threads.append(supervision_thread)
for thread in threads:
thread.start()
for thread in threads:
thread.join()
except Exception as e:
nc.logger.debug('Got exception, waiting 10 seconds before reconnecting...')
nc.logger.debug(e)
time.sleep(10)
finally:
nc.close()
......@@ -34,17 +34,6 @@
'tx_dbm': 0,
},
'ru/lopcomm': {
'n_antenna_dl': 2,
'n_antenna_ul': 2,
},
'ru/lopcomm/cpri_link': {
'mapping': 'hw',
'rx_delay': 25.11,
'tx_delay': 14.71,
'tx_dbm': 63,
},
'ru/sunwave': {
'n_antenna_dl': 2,
'n_antenna_ul': 1,
......
......@@ -502,171 +502,6 @@ class SDR4:
))
# Lopcomm4 is mixin to verify Lopcomm driver wrt all LTE/NR x FDD/TDD modes.
class Lopcomm4:
@classmethod
def RUcfg(cls, i):
return {
'ru_type': 'lopcomm',
'ru_link_type': 'cpri',
'cpri_link': {
'sdr_dev': 0,
'sfp_port': i,
'mult': 4,
'mapping': 'hw',
'rx_delay': 40+i,
'tx_delay': 50+i,
'tx_dbm': 60+i
},
'mac_addr': '00:0A:45:00:00:%02x' % i,
}
# radio units configuration in enb.cfg
def test_rf_cfg_ru(t):
assertMatch(t, t.rf_cfg['rf_driver'], dict(
name='sdr',
args='dev0=/dev/sdr0@1,dev1=/dev/sdr0@2,dev2=/dev/sdr0@3,dev3=/dev/sdr0@4',
cpri_mapping='hw,hw,hw,hw',
cpri_mult='4,4,4,4',
cpri_rx_delay='41,42,43,44',
cpri_tx_delay='51,52,53,54',
cpri_tx_dbm='61,62,63,64',
))
# RU configuration in cu_config.xml
def test_ru_cu_config_xml(t):
def uctx(rf_mode, cell_type, dl_arfcn, ul_arfcn, bw, dl_freq, ul_freq, tx_gain, rx_gain):
return {
'tx-array-carriers': {
'rw-duplex-scheme': rf_mode,
'rw-type': cell_type,
'absolute-frequency-center': '%d' % dl_arfcn,
'center-of-channel-bandwidth': '%d' % dl_freq,
'channel-bandwidth': '%d' % bw,
'gain': '%d' % tx_gain,
'active': 'ACTIVE',
},
'rx-array-carriers': {
'absolute-frequency-center': '%d' % ul_arfcn,
'center-of-channel-bandwidth': '%d' % ul_freq,
'channel-bandwidth': '%d' % bw,
# XXX no rx_gain
'active': 'ACTIVE',
},
}
_ = t._test_ru_cu_config_xml
# rf_mode ctype dl_arfcn ul_arfcn bw dl_freq ul_freq txg rxg
_(1, uctx('FDD', 'LTE', 100, 18100, 5000000, 2120000000, 1930000000, 11, 21))
_(2, uctx('TDD', 'LTE', 40200, 40200, 10000000, 2551000000, 2551000000, 12, 22))
_(3, uctx('FDD', 'NR', 300300, 290700, 15000000, 1501500000, 1453500000, 13, 23))
_(4, uctx('TDD', 'NR', 470400, 470400, 20000000, 2352000000, 2352000000, 14, 24))
def _test_ru_cu_config_xml(t, i, uctx):
cu_xml = t.ipath('etc/%s' % xbuildout.encode('%s-cu_config.xml' % t.ref('RU%d' % i)))
with open(cu_xml, 'r') as f:
cu = f.read()
cu = xmltodict.parse(cu)
assertMatch(t, cu, {
'xc:config': {
'user-plane-configuration': {
'tx-endpoints': [
{'name': 'TXA0P00C00', 'e-axcid': {'eaxc-id': '0'}},
{'name': 'TXA0P00C01', 'e-axcid': {'eaxc-id': '1'}},
{'name': 'TXA0P01C00', 'e-axcid': {'eaxc-id': '2'}},
{'name': 'TXA0P01C01', 'e-axcid': {'eaxc-id': '3'}},
],
'tx-links': [
{'name': 'TXA0P00C00', 'tx-endpoint': 'TXA0P00C00'},
{'name': 'TXA0P00C01', 'tx-endpoint': 'TXA0P00C01'},
{'name': 'TXA0P01C00', 'tx-endpoint': 'TXA0P01C00'},
{'name': 'TXA0P01C01', 'tx-endpoint': 'TXA0P01C01'},
],
'rx-endpoints': [
{'name': 'RXA0P00C00', 'e-axcid': {'eaxc-id': '0'}},
{'name': 'PRACH0P00C00', 'e-axcid': {'eaxc-id': '8'}},
{'name': 'RXA0P00C01', 'e-axcid': {'eaxc-id': '1'}},
{'name': 'PRACH0P00C01', 'e-axcid': {'eaxc-id': '24'}},
],
'rx-links': [
{'name': 'RXA0P00C00', 'rx-endpoint': 'RXA0P00C00'},
{'name': 'PRACH0P00C00', 'rx-endpoint': 'PRACH0P00C00'},
{'name': 'RXA0P00C01', 'rx-endpoint': 'RXA0P00C01'},
{'name': 'PRACH0P00C01', 'rx-endpoint': 'PRACH0P00C01'},
],
} | uctx
}
})
# RU configuration in cu_inactive_config.xml
def test_ru_cu_inactive_config_xml(t):
def uctx(rf_mode, cell_type, dl_arfcn, ul_arfcn, bw, dl_freq, ul_freq, tx_gain, rx_gain):
return {
'tx-array-carriers': {
'rw-duplex-scheme': rf_mode,
'rw-type': cell_type,
'absolute-frequency-center': '%d' % dl_arfcn,
'center-of-channel-bandwidth': '%d' % dl_freq,
'channel-bandwidth': '%d' % bw,
'gain': '%d' % tx_gain,
'active': 'INACTIVE',
},
'rx-array-carriers': {
'absolute-frequency-center': '%d' % ul_arfcn,
'center-of-channel-bandwidth': '%d' % ul_freq,
'channel-bandwidth': '%d' % bw,
# XXX no rx_gain
'active': 'INACTIVE',
},
}
_ = t._test_ru_cu_inactive_config_xml
# rf_mode ctype dl_arfcn ul_arfcn bw dl_freq ul_freq txg rxg
_(1, uctx('FDD', 'LTE', 100, 18100, 5000000, 2120000000, 1930000000, 11, 21))
_(2, uctx('TDD', 'LTE', 40200, 40200, 10000000, 2551000000, 2551000000, 12, 22))
_(3, uctx('FDD', 'NR', 300300, 290700, 15000000, 1501500000, 1453500000, 13, 23))
_(4, uctx('TDD', 'NR', 470400, 470400, 20000000, 2352000000, 2352000000, 14, 24))
def _test_ru_cu_inactive_config_xml(t, i, uctx):
cu_xml = t.ipath('etc/%s' % xbuildout.encode('%s-cu_inactive_config.xml' % t.ref('RU%d' % i)))
with open(cu_xml, 'r') as f:
cu = f.read()
cu = xmltodict.parse(cu)
assertMatch(t, cu, {
'xc:config': {
'user-plane-configuration': {
'tx-endpoints': [
{'name': 'TXA0P00C00', 'e-axcid': {'eaxc-id': '0'}},
{'name': 'TXA0P00C01', 'e-axcid': {'eaxc-id': '1'}},
{'name': 'TXA0P01C00', 'e-axcid': {'eaxc-id': '2'}},
{'name': 'TXA0P01C01', 'e-axcid': {'eaxc-id': '3'}},
],
'tx-links': [
{'name': 'TXA0P00C00', 'tx-endpoint': 'TXA0P00C00'},
{'name': 'TXA0P00C01', 'tx-endpoint': 'TXA0P00C01'},
{'name': 'TXA0P01C00', 'tx-endpoint': 'TXA0P01C00'},
{'name': 'TXA0P01C01', 'tx-endpoint': 'TXA0P01C01'},
],
'rx-endpoints': [
{'name': 'RXA0P00C00', 'e-axcid': {'eaxc-id': '0'}},
{'name': 'PRACH0P00C00', 'e-axcid': {'eaxc-id': '8'}},
{'name': 'RXA0P00C01', 'e-axcid': {'eaxc-id': '1'}},
{'name': 'PRACH0P00C01', 'e-axcid': {'eaxc-id': '24'}},
],
'rx-links': [
{'name': 'RXA0P00C00', 'rx-endpoint': 'RXA0P00C00'},
{'name': 'PRACH0P00C00', 'rx-endpoint': 'PRACH0P00C00'},
{'name': 'RXA0P00C01', 'rx-endpoint': 'RXA0P00C01'},
{'name': 'PRACH0P00C01', 'rx-endpoint': 'PRACH0P00C01'},
],
} | uctx
}
})
# Sunwave4 is mixin to verify Sunwave driver wrt all LTE/NR x FDD/TDD modes.
class Sunwave4:
@classmethod
......@@ -699,35 +534,35 @@ class Sunwave4:
))
# RUMultiType4 is mixin to verify that different RU types can be used at the same time.
class RUMultiType4:
# ENB does not support mixing SDR + CPRI - verify only with CPRI-based units
# see https://support.amarisoft.com/issues/26021 for details
@classmethod
def RUcfg(cls, i):
assert 1 <= i <= 4, i
if i in (1,2):
return Lopcomm4.RUcfg(i)
else:
return Sunwave4.RUcfg(i)
# radio units configuration in enb.cfg
def test_rf_cfg_ru(t):
assertMatch(t, t.rf_cfg['rf_driver'], dict(
name='sdr',
args='dev0=/dev/sdr0@1,dev1=/dev/sdr0@2,dev2=/dev/sdr1@3,dev3=/dev/sdr1@4',
cpri_mapping='hw,hw,bf1,bf1',
cpri_mult='4,4,5,5',
cpri_rx_delay='41,42,143,144',
cpri_tx_delay='51,52,153,154',
cpri_tx_dbm='61,62,163,164',
))
# Due to only one type of RU being supported in the SR, the test is currently not applicable.
#class RUMultiType4:
# # ENB does not support mixing SDR + CPRI - verify only with CPRI-based units
# # see https://support.amarisoft.com/issues/26021 for details
# @classmethod
# def RUcfg(cls, i):
# assert 1 <= i <= 4, i
# if i in (1,2):
# return SDR4.RUcfg(i)
# else:
# return Sunwave4.RUcfg(i)
#
# # radio units configuration in enb.cfg
# def test_rf_cfg_ru(t):
# assertMatch(t, t.rf_cfg['rf_driver'], dict(
# name='sdr',
# args='dev0=/dev/sdr0@1,dev1=/dev/sdr0@2,dev2=/dev/sdr1@3,dev3=/dev/sdr1@4',
# cpri_mapping='hw,hw,bf1,bf1',
# cpri_mult='4,4,5,5',
# cpri_rx_delay='41,42,143,144',
# cpri_tx_delay='51,52,153,154',
# cpri_tx_dbm='61,62,163,164',
# ))
# instantiate eNB tests
class TestENB_SDR4 (ENBTestCase4, SDR4): pass
class TestENB_Lopcomm4 (ENBTestCase4, Lopcomm4): pass
class TestENB_Sunwave4 (ENBTestCase4, Sunwave4): pass
class TestENB_RUMultiType4(ENBTestCase4, RUMultiType4): pass
# class TestENB_RUMultiType4(ENBTestCase4, RUMultiType4): pass
# ---- UEsim ----
......@@ -844,9 +679,8 @@ class UEsimTestCase4(RFTestCase4):
# instantiate UEsim tests
class TestUEsim_SDR4 (UEsimTestCase4, SDR4): pass
class TestUEsim_Lopcomm4 (UEsimTestCase4, Lopcomm4): pass
class TestUEsim_Sunwave4 (UEsimTestCase4, Sunwave4): pass
class TestUEsim_RUMultiType4(UEsimTestCase4, RUMultiType4): pass
# class TestUEsim_RUMultiType4(UEsimTestCase4, RUMultiType4): pass
# ---- misc ----
......
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