Files
openairinterface5g/ci-scripts/cls_loganalysis.py
Robert Schmidt 8107939f08 Change OAI license to CSSL v1.0 (and others)
- all RAN code, CI code, configuration files, dockerfiles, in CSSL v1.0
- all deployment code (openshift, charts, ancillary files like shell
  scripts), in MIT
- documentation in CC-BY-4.0
- exceptions might apply and are listed in NOTICE
- there is a new LICENSES folder with all licenses
- CONTRIBUTIONS.md has been updated accordingly

For automated changes based on OAI PL v1.1:

    perl -i~ -0pe 's/\/\*.*Licensed to the OpenAirInterface.*openairinterface.org\n#?/\/*\n * SPDX-License-Identifier: LicenseRef-CSSL-1.0\n/s' **/*.{c,h,cpp}
    perl -i~ -0pe 's/\/\*.*Licensed to the OpenAirInterface.*openairinterface.org\n#?/\/*\n * SPDX-License-Identifier: LicenseRef-CSSL-1.0\n/s' **/*.ts
    perl -i~ -0pe 's/<!--.*Licensed to the OpenAirInterface.*openairinterface.org\n.*-->/<!-- SPDX-License-Identifier: LicenseRef-CSSL-1.0 -->/s' **/*.xml

The rest (cmake, files with missing license, cmake) manually.
2026-03-27 16:36:37 +01:00

142 lines
4.3 KiB
Python

# SPDX-License-Identifier: LicenseRef-CSSL-1.0
import re
import os
import logging
from collections import deque
class Default:
def run(file, opt=None):
success = True
logs = []
with open(file, "r") as f:
for line in f.readlines():
result = re.search('[Aa]ssertion', line)
if result:
logs.append(line)
success = False
return success, "\n".join(logs)
class ContainsString:
def run(file, needle):
with open(file, "r") as f:
for line in f.readlines():
if re.search(needle, line):
return True, ""
return False, f"could not find '{needle}' in logs"
class LastLineContains:
def run(file, string):
with open(file, "r") as f:
last_line = deque(f, maxlen=1).pop()
success = string in last_line
log = "" if success else f"could not find '{string}' in last line"
return success, log
class EndsWithBye:
def run(file, option):
# no option: we ignore any
with open(file, "r") as f:
n = 0
for line in reversed(f.readlines()):
if re.search(r'^Bye.\n', line, re.MULTILINE) is not None:
return True, ""
n = n + 1
if n > 50: # if not found in last 50 lines, assume it does not exist
break
return False, "No Bye. message found, did not stop properly"
class RetxCheck():
def _parseList(s):
if not s:
return []
return [int(n) for n in s.split(",")]
def _get_ul_dl(s):
dl, ul = (None, None)
for o in s.split(";", 1):
if o.startswith("dl="):
dl = o[3:]
elif o.startswith("ul="):
ul = o[3:]
else:
raise ValueError(f"unrecognized option {s}: needs format '[ul=,dl=]X,Y,...[;ul=Z,V,...]'")
return dl, ul
def _parseRetxCheckers(options):
if not "=" in options:
dlul = RetxCheck._parseList(options)
return dlul, dlul
dl, ul = RetxCheck._get_ul_dl(options)
return RetxCheck._parseList(dl), RetxCheck._parseList(ul)
def _analyzeUeRetx(rounds, checkers, regex):
perc = list(0 for i in checkers) # results in %
stats = list(False for i in checkers) # status if succeeded
tmp = re.match(regex, rounds)
if tmp is None:
logging.error('_analyzeUeRetx: did not match regex for DL retx analysis')
return stats
retx_data = [float(x) for x in tmp.groups()]
for i in range(0, len(perc)):
#case where numerator > denumerator with denum ==0 is disregarded, cannot hapen in principle, will lead to 0%
perc[i] = 0 if (retx_data[i] == 0) else 100 * retx_data[i + 1] / retx_data[i]
#treating % > 100 , % > requirement
stats[i] = perc[i] <= 100 and perc[i] <= checkers[i]
return stats
def _filter_retx_rounds(l):
# map to round number if False, else None
l = [i+1 if x is False else None for i, x in enumerate(l)]
# filter out None
return [x for x in l if x is not None]
def run(file, options):
# aggregate statistics per UE
dlsch_ulsch_stats = {}
status = True
with open(file, "r") as f:
for line in f.readlines():
keys = {'dlsch_rounds','ulsch_rounds'}
for k in keys:
result = re.search(k, line)
if result is None:
continue
result = re.search('UE (?:RNTI )?([0-9a-f]{4})', line)
if result is None:
logging.error(f'did not find RNTI while matching key {k}')
status = False
continue
rnti = result.group(1)
if not rnti in dlsch_ulsch_stats:
dlsch_ulsch_stats[rnti] = {}
dlsch_ulsch_stats[rnti][k]=re.sub(r'^.*\]\s+', r'' , line.rstrip())
dl, ul = RetxCheck._parseRetxCheckers(options)
msgs = []
for ue in dlsch_ulsch_stats:
dlulstat = dlsch_ulsch_stats[ue]
for key in dlulstat:
msgs.append(dlulstat[key])
retx_dl = RetxCheck._analyzeUeRetx(dlulstat['dlsch_rounds'], dl, r'^.*dlsch_rounds\s+(\d+)\/(\d+)\/(\d+)\/(\d+),\s+dlsch_errors\s+(\d+)')
retx_ul = RetxCheck._analyzeUeRetx(dlulstat['ulsch_rounds'], ul, r'^.*ulsch_rounds\s+(\d+)\/(\d+)\/(\d+)\/(\d+),\s+ulsch_errors\s+(\d+)')
if False in retx_dl or False in retx_ul:
dlstr = RetxCheck._filter_retx_rounds(retx_dl)
ulstr = RetxCheck._filter_retx_rounds(retx_ul)
msg = f"UE {ue}: retx rounds"
if dlstr:
msg = f"{msg} DL {dlstr}"
if ulstr:
msg = f"{msg} UL {ulstr}"
msg = f"{msg} exceeded threshold"
msgs.append('!!! Failure: ' + msg)
logging.error(f'\u001B[1;37;41m {msg}\u001B[0m')
status = False
else:
msg = f"UE {ue} retransmissions within bounds"
logging.debug(msg)
return status, "\n".join(msgs)