Add basic CTRL test

All the CTRL tests were skipped automatically because they were
inherited from before repo split time. This means that MSC CTRL
interface was not tested at all. Add trivial test which uses generic
rate counter introspection so we at least check that MSC's CTRL
interface is not completely broken.

Change-Id: I784feece666b00752a81f2c126e6f255505445be
changes/93/5093/1
Maxim Suraev 5 years ago
parent 82be67de2b
commit abb24a2725
  1. 395
      tests/ctrl_test_runner.py

@ -148,395 +148,18 @@ class TestCtrlBase(unittest.TestCase):
return responses
class TestCtrlBSC(TestCtrlBase):
def tearDown(self):
TestCtrlBase.tearDown(self)
os.unlink("tmp_dummy_sock")
class TestCtrlMSC(TestCtrlBase):
def ctrl_command(self):
return ["./src/osmo-bsc/osmo-bsc", "-r", "tmp_dummy_sock", "-c",
"doc/examples/osmo-bsc/osmo-bsc.cfg"]
return ["./src/osmo-msc/osmo-msc", "-c",
"doc/examples/osmo-msc/osmo-msc.cfg"]
def ctrl_app(self):
return (4249, "./src/osmo-bsc/osmo-bsc", "OsmoBSC", "bsc")
def testCtrlErrs(self):
r = self.do_get('invalid')
self.assertEquals(r['mtype'], 'ERROR')
self.assertEquals(r['error'], 'Command not found')
r = self.do_set('rf_locked', '999')
self.assertEquals(r['mtype'], 'ERROR')
self.assertEquals(r['error'], 'Value failed verification.')
r = self.do_get('bts')
self.assertEquals(r['mtype'], 'ERROR')
self.assertEquals(r['error'], 'Error while parsing the index.')
r = self.do_get('bts.999')
self.assertEquals(r['mtype'], 'ERROR')
self.assertEquals(r['error'], 'Error while resolving object')
def testBtsLac(self):
r = self.do_get('bts.0.location-area-code')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'bts.0.location-area-code')
self.assertEquals(r['value'], '1')
r = self.do_set('bts.0.location-area-code', '23')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'bts.0.location-area-code')
self.assertEquals(r['value'], '23')
r = self.do_get('bts.0.location-area-code')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'bts.0.location-area-code')
self.assertEquals(r['value'], '23')
r = self.do_set('bts.0.location-area-code', '-1')
self.assertEquals(r['mtype'], 'ERROR')
self.assertEquals(r['error'], 'Input not within the range')
def testBtsCi(self):
r = self.do_get('bts.0.cell-identity')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'bts.0.cell-identity')
self.assertEquals(r['value'], '0')
r = self.do_set('bts.0.cell-identity', '23')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'bts.0.cell-identity')
self.assertEquals(r['value'], '23')
r = self.do_get('bts.0.cell-identity')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'bts.0.cell-identity')
self.assertEquals(r['value'], '23')
r = self.do_set('bts.0.cell-identity', '-1')
self.assertEquals(r['mtype'], 'ERROR')
self.assertEquals(r['error'], 'Input not within the range')
def testBtsGenerateSystemInformation(self):
r = self.do_get('bts.0.send-new-system-informations')
self.assertEquals(r['mtype'], 'ERROR')
self.assertEquals(r['error'], 'Write Only attribute')
# No RSL links so it will fail
r = self.do_set('bts.0.send-new-system-informations', '1')
self.assertEquals(r['mtype'], 'ERROR')
self.assertEquals(r['error'], 'Failed to generate SI')
def testBtsChannelLoad(self):
r = self.do_set('bts.0.channel-load', '1')
self.assertEquals(r['mtype'], 'ERROR')
self.assertEquals(r['error'], 'Read Only attribute')
# No RSL link so everything is 0
r = self.do_get('bts.0.channel-load')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['value'],
'CCCH+SDCCH4,0,0 TCH/F,0,0 TCH/H,0,0 SDCCH8,0,0'
+ ' TCH/F_PDCH,0,0 CCCH+SDCCH4+CBCH,0,0'
+ ' SDCCH8+CBCH,0,0 TCH/F_TCH/H_PDCH,0,0')
def testBtsOmlConnectionState(self):
"""Check OML state. It will not be connected"""
r = self.do_set('bts.0.oml-connection-state', '1')
self.assertEquals(r['mtype'], 'ERROR')
self.assertEquals(r['error'], 'Read Only attribute')
# No RSL link so everything is 0
r = self.do_get('bts.0.oml-connection-state')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['value'], 'disconnected')
def testTrxPowerRed(self):
r = self.do_get('bts.0.trx.0.max-power-reduction')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'bts.0.trx.0.max-power-reduction')
self.assertEquals(r['value'], '20')
r = self.do_set('bts.0.trx.0.max-power-reduction', '22')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'bts.0.trx.0.max-power-reduction')
self.assertEquals(r['value'], '22')
r = self.do_get('bts.0.trx.0.max-power-reduction')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'bts.0.trx.0.max-power-reduction')
self.assertEquals(r['value'], '22')
r = self.do_set('bts.0.trx.0.max-power-reduction', '1')
self.assertEquals(r['mtype'], 'ERROR')
self.assertEquals(r['error'], 'Value must be even')
def testTrxArfcn(self):
r = self.do_get('bts.0.trx.0.arfcn')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'bts.0.trx.0.arfcn')
self.assertEquals(r['value'], '871')
r = self.do_set('bts.0.trx.0.arfcn', '873')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'bts.0.trx.0.arfcn')
self.assertEquals(r['value'], '873')
r = self.do_get('bts.0.trx.0.arfcn')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'bts.0.trx.0.arfcn')
self.assertEquals(r['value'], '873')
r = self.do_set('bts.0.trx.0.arfcn', '2000')
self.assertEquals(r['mtype'], 'ERROR')
self.assertEquals(r['error'], 'Input not within the range')
def testRfLock(self):
r = self.do_get('bts.0.rf_state')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'bts.0.rf_state')
self.assertEquals(r['value'], 'inoperational,unlocked,on')
r = self.do_set('rf_locked', '1')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'rf_locked')
self.assertEquals(r['value'], '1')
time.sleep(1.5)
r = self.do_get('bts.0.rf_state')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'bts.0.rf_state')
self.assertEquals(r['value'], 'inoperational,locked,off')
r = self.do_get('rf_locked')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'rf_locked')
self.assertEquals(r['value'], 'state=off,policy=off')
r = self.do_set('rf_locked', '0')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'rf_locked')
self.assertEquals(r['value'], '0')
time.sleep(1.5)
r = self.do_get('bts.0.rf_state')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'bts.0.rf_state')
self.assertEquals(r['value'], 'inoperational,unlocked,on')
r = self.do_get('rf_locked')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'rf_locked')
self.assertEquals(r['value'], 'state=off,policy=on')
def testTimezone(self):
r = self.do_get('timezone')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'timezone')
self.assertEquals(r['value'], 'off')
r = self.do_set('timezone', '-2,15,2')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'timezone')
self.assertEquals(r['value'], '-2,15,2')
r = self.do_get('timezone')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'timezone')
self.assertEquals(r['value'], '-2,15,2')
# Test invalid input
r = self.do_set('timezone', '-2,15,2,5,6,7')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'timezone')
self.assertEquals(r['value'], '-2,15,2')
r = self.do_set('timezone', '-2,15')
self.assertEquals(r['mtype'], 'ERROR')
r = self.do_set('timezone', '-2')
self.assertEquals(r['mtype'], 'ERROR')
r = self.do_set('timezone', '1')
r = self.do_set('timezone', 'off')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'timezone')
self.assertEquals(r['value'], 'off')
r = self.do_get('timezone')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'timezone')
self.assertEquals(r['value'], 'off')
def testMcc(self):
r = self.do_set('mcc', '23')
r = self.do_get('mcc')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'mcc')
self.assertEquals(r['value'], '23')
r = self.do_set('mcc', '023')
r = self.do_get('mcc')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'mcc')
self.assertEquals(r['value'], '23')
def testMnc(self):
r = self.do_set('mnc', '9')
r = self.do_get('mnc')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'mnc')
self.assertEquals(r['value'], '9')
r = self.do_set('mnc', '09')
r = self.do_get('mnc')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'mnc')
self.assertEquals(r['value'], '9')
def testMccMncApply(self):
# Test some invalid input
r = self.do_set('mcc-mnc-apply', 'WRONG')
self.assertEquals(r['mtype'], 'ERROR')
r = self.do_set('mcc-mnc-apply', '1,')
self.assertEquals(r['mtype'], 'ERROR')
r = self.do_set('mcc-mnc-apply', '200,3')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'mcc-mnc-apply')
self.assertEquals(r['value'], 'Tried to drop the BTS')
# Set it again
r = self.do_set('mcc-mnc-apply', '200,3')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'mcc-mnc-apply')
self.assertEquals(r['value'], 'Nothing changed')
# Change it
r = self.do_set('mcc-mnc-apply', '200,4')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'mcc-mnc-apply')
self.assertEquals(r['value'], 'Tried to drop the BTS')
# Change it
r = self.do_set('mcc-mnc-apply', '201,4')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'mcc-mnc-apply')
self.assertEquals(r['value'], 'Tried to drop the BTS')
# Verify
r = self.do_get('mnc')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'mnc')
self.assertEquals(r['value'], '4')
r = self.do_get('mcc')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'mcc')
self.assertEquals(r['value'], '201')
# Change it
r = self.do_set('mcc-mnc-apply', '202,03')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'mcc-mnc-apply')
self.assertEquals(r['value'], 'Tried to drop the BTS')
r = self.do_get('mnc')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'mnc')
self.assertEquals(r['value'], '3')
r = self.do_get('mcc')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'mcc')
self.assertEquals(r['value'], '202')
class TestCtrlNAT(TestCtrlBase):
def ctrl_command(self):
return ["./src/osmo-bsc_nat/osmo-bsc_nat", "-c",
"doc/examples/osmo-bsc_nat/osmo-bsc_nat.cfg"]
return (4255, "./src/osmo-msc/osmo-msc", "OsmoMSC", "msc")
def ctrl_app(self):
return (4250, "./src/osmo-bsc_nat/osmo-bsc_nat", "OsmoNAT", "nat")
def testAccessList(self):
r = self.do_get('net.0.bsc_cfg.0.access-list-name')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'net')
self.assertEquals(r['value'], None)
r = self.do_set('net.0.bsc_cfg.0.access-list-name', 'bla')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'net')
self.assertEquals(r['value'], 'bla')
r = self.do_get('net.0.bsc_cfg.0.access-list-name')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'net')
self.assertEquals(r['value'], 'bla')
r = self.do_set('net.0.bsc_cfg.0.no-access-list-name', '1')
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'net')
self.assertEquals(r['value'], None)
r = self.do_get('net.0.bsc_cfg.0.access-list-name')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'net')
self.assertEquals(r['value'], None)
def testAccessListManagement(self):
r = self.do_set("net.0.add.allow.access-list.404", "abc")
self.assertEquals(r['mtype'], 'ERROR')
r = self.do_set("net.0.add.allow.access-list.bla", "^234$")
self.assertEquals(r['mtype'], 'SET_REPLY')
self.assertEquals(r['var'], 'net.0.add.allow.access-list.bla')
self.assertEquals(r['value'], 'IMSI allow added to access list')
# TODO.. find a way to actually see if this rule has been
# added. e.g. by implementing a get for the list.
class TestCtrlSGSN(TestCtrlBase):
def ctrl_command(self):
return ["./src/gprs/osmo-sgsn", "-c",
"doc/examples/osmo-sgsn/osmo-sgsn.cfg"]
def testRateCounters(self):
r = self.do_get('rate_ctr.*')
def ctrl_app(self):
return (4251, "./src/gprs/osmo-sgsn", "OsmoSGSN", "sgsn")
def testListSubscribers(self):
# TODO. Add command to mark a subscriber as active
r = self.do_get('subscriber-list-active-v1')
self.assertEquals(r['mtype'], 'GET_REPLY')
self.assertEquals(r['var'], 'subscriber-list-active-v1')
self.assertEquals(r['value'], None)
def add_bsc_test(suite, workdir):
if not os.path.isfile(os.path.join(workdir, "src/osmo-bsc/osmo-bsc")):
print("Skipping the BSC test")
return
test = unittest.TestLoader().loadTestsFromTestCase(TestCtrlBSC)
suite.addTest(test)
def add_nat_test(suite, workdir):
if not os.path.isfile(os.path.join(workdir, "src/osmo-bsc_nat/osmo-bsc_nat")):
print("Skipping the NAT test")
return
test = unittest.TestLoader().loadTestsFromTestCase(TestCtrlNAT)
suite.addTest(test)
def add_sgsn_test(suite, workdir):
if not os.path.isfile(os.path.join(workdir, "src/gprs/osmo-sgsn")):
print("Skipping the SGSN test")
return
test = unittest.TestLoader().loadTestsFromTestCase(TestCtrlSGSN)
suite.addTest(test)
# FIXME: add MSC-specific CTRL test in here
if __name__ == '__main__':
import argparse
@ -568,8 +191,6 @@ if __name__ == '__main__':
os.chdir(workdir)
print "Running tests for specific control commands"
suite = unittest.TestSuite()
add_bsc_test(suite, workdir)
add_nat_test(suite, workdir)
add_sgsn_test(suite, workdir)
suite.addTest(unittest.TestLoader().loadTestsFromTestCase(TestCtrlMSC))
res = unittest.TextTestRunner(verbosity=verbose_level).run(suite)
sys.exit(len(res.errors) + len(res.failures))

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