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osmo-gsm-tester
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osmo-gsm-tester/src/osmo_gsm_tester/obj/nitb_osmo.py

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# osmo_gsm_tester: specifics for running an osmo-nitb
#
# Copyright (C) 2016-2017 by sysmocom - s.f.m.c. GmbH
#
# Author: Neels Hofmeyr <neels@hofmeyr.de>
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as
# published by the Free Software Foundation, either version 3 of the
# License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import os
import re
import pprint
from ..core import log, util, config, template, process
from . import osmo_ctrl, pcap_recorder, smsc
class OsmoNitb(log.Origin):
def __init__(self, testenv, ip_address):
super().__init__(log.C_RUN, 'osmo-nitb_%s' % ip_address.get('addr'))
self.run_dir = None
self.config_file = None
self.process = None
self.encryption = None
self.testenv = testenv
self.ip_address = ip_address
self.bts = []
self.smsc = smsc.Smsc((ip_address.get('addr'), 2775))
self.ctrl = None
def start(self):
self.log('Starting osmo-nitb')
self.run_dir = util.Dir(self.testenv.test().get_run_dir().new_dir(self.name()))
self.configure()
inst = util.Dir(os.path.abspath(self.testenv.suite().trial().get_inst('osmo-nitb')))
binary = inst.child('bin', 'osmo-nitb')
if not os.path.isfile(binary):
raise RuntimeError('Binary missing: %r' % binary)
lib = inst.child('lib')
if not os.path.isdir(lib):
raise RuntimeError('No lib/ in %r' % inst)
pcap_recorder.PcapRecorder(self.testenv, self.run_dir.new_dir('pcap'), None,
'host %s and port not 22' % self.addr())
env = { 'LD_LIBRARY_PATH': util.prepend_library_path(lib) }
self.dbg(run_dir=self.run_dir, binary=binary, env=env)
self.process = process.Process(self.name(), self.run_dir,
(binary, '-c',
os.path.abspath(self.config_file)),
env=env)
self.testenv.remember_to_stop(self.process)
self.process.launch()
self.ctrl = OsmoNitbCtrl(self)
self.ctrl.connect()
def configure(self):
self.config_file = self.run_dir.new_file('osmo-nitb.cfg')
self.dbg(config_file=self.config_file)
values = dict(nitb=config.get_defaults('nitb'))
config.overlay(values, self.testenv.suite().config())
config.overlay(values, dict(nitb=dict(ip_address=self.ip_address)))
bts_list = []
for bts in self.bts:
bts_list.append(bts.conf_for_bsc())
config.overlay(values, dict(nitb=dict(net=dict(bts_list=bts_list))))
config.overlay(values, self.smsc.get_config())
# runtime parameters:
if self.encryption is not None:
encryption_vty = util.encryption2osmovty(self.encryption)
else:
encryption_vty = util.encryption2osmovty(values['nitb']['net']['encryption'])
config.overlay(values, dict(nitb=dict(net=dict(encryption=encryption_vty))))
self.config = values
self.dbg('NITB CONFIG:\n' + pprint.pformat(values))
with open(self.config_file, 'w') as f:
r = template.render('osmo-nitb.cfg', values)
self.dbg(r)
f.write(r)
def addr(self):
return self.ip_address.get('addr')
def bts_add(self, bts):
self.bts.append(bts)
bts.set_bsc(self)
def set_encryption(self, val):
self.encryption = val
def mcc(self):
return self.config['nitb']['net']['mcc']
def mnc(self):
return self.config['nitb']['net']['mnc']
def mcc_mnc(self):
return (self.mcc(), self.mnc())
def bts_num(self, bts):
'Provide number id used by OsmoNITB to identify configured BTS'
# We take advantage from the fact that VTY code assigns VTY in ascending
# order through the bts nodes found. As we populate the config iterating
# over this list, we have a 1:1 match in indexes.
return self.bts.index(bts)
def subscriber_add(self, modem, msisdn=None, algo=None):
if msisdn is None:
msisdn = modem.msisdn()
if not algo:
alg_str = modem.auth_algo()
if not alg_str or alg_str == 'none':
algo = None
elif alg_str == 'comp128v1':
algo = 'comp128v1'
elif alg_str == 'xor':
algo = 'xor'
if algo is not None and not modem.ki():
raise log.Error("Auth algo %r selected and no KI specified" % algo)
self.log('Add subscriber', msisdn=msisdn, imsi=modem.imsi())
return self.ctrl.subscriber_add(modem.imsi(), msisdn, modem.ki(), algo)
def subscriber_delete(self, modem):
self.log('Delete subscriber', imsi=modem.imsi())
return self.ctrl.subscriber_delete(modem.imsi())
def subscriber_attached(self, *modems):
return self.imsi_attached(*[m.imsi() for m in modems])
def imsi_attached(self, *imsis):
attached = self.imsi_list_attached()
self.dbg('attached:', attached)
return all([(imsi in attached) for imsi in imsis])
def imsi_list_attached(self):
return self.ctrl.subscriber_list_active()
def bts_is_connected(self, bts):
return self.ctrl.bts_is_connected(self.bts_num(bts))
def running(self):
return not self.process.terminated()
def cleanup(self):
if self.ctrl is not None:
self.ctrl.disconnect()
self.ctrl = None
class OsmoNitbCtrl(osmo_ctrl.OsmoCtrl):
def __init__(self, nitb, port=4249):
self.nitb = nitb
super().__init__(nitb.addr(), port)
def subscriber_add(self, imsi, msisdn, ki=None, algo=None):
if algo:
value = '%s,%s,%s,%s' % (imsi,msisdn,algo,ki)
else:
value = '%s,%s' % (imsi, msisdn)
assert self.set_var('subscriber-modify-v1', value) == 'OK'
self.dbg('Created subscriber', imsi=imsi, msisdn=msisdn)
def subscriber_delete(self, imsi):
assert self.set_var('subscriber-delete-v1', imsi) == 'Removed'
self.dbg('Deleted subscriber', imsi=imsi)
def subscriber_list_active(self):
return self.get_var('subscriber-list-active-v1').replace('\n', ' ')
def bts_is_connected(self, bts_num):
return self.get_var('bts.%d.oml-connection-state' % bts_num) == 'connected'
# vim: expandtab tabstop=4 shiftwidth=4
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