-# Copyright 2015-2017 Intel Corporation.
+# Copyright 2015-2018 Intel Corporation, Tieto and others.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
from datetime import datetime as dt
from conf import settings as S
-from conf import get_test_param, merge_spec
+from conf import merge_spec
import core.component_factory as component_factory
from core.loader import Loader
from core.results.results_constants import ResultsConstants
S.setValue('VSWITCH', cfg.get('vSwitch', S.getValue('VSWITCH')))
S.setValue('VNF', cfg.get('VNF', S.getValue('VNF')))
S.setValue('TRAFFICGEN', cfg.get('Trafficgen', S.getValue('TRAFFICGEN')))
+ S.setValue('TUNNEL_TYPE', cfg.get('Tunnel Type', S.getValue('TUNNEL_TYPE')))
test_params = copy.deepcopy(S.getValue('TEST_PARAMS'))
tc_test_params = cfg.get('Parameters', S.getValue('TEST_PARAMS'))
test_params = merge_spec(test_params, tc_test_params)
self.deployment = cfg['Deployment']
self._frame_mod = cfg.get('Frame Modification', None)
- self._tunnel_type = None
- self._tunnel_operation = None
-
- if self.deployment == 'op2p':
- self._tunnel_operation = cfg['Tunnel Operation']
-
- if 'Tunnel Type' in cfg:
- self._tunnel_type = cfg['Tunnel Type']
- self._tunnel_type = get_test_param('TUNNEL_TYPE',
- self._tunnel_type)
+ self._tunnel_operation = cfg.get('Tunnel Operation', None)
# check if test requires background load and which generator it uses
self._load_cfg = cfg.get('Load', None)
# set traffic details, so they can be passed to vswitch and traffic ctls
self._traffic = copy.deepcopy(S.getValue('TRAFFIC'))
- self._traffic.update({'bidir': bidirectional,
- 'tunnel_type': self._tunnel_type,})
-
- self._traffic = functions.check_traffic(self._traffic)
+ self._traffic.update({'bidir': bidirectional})
# Packet Forwarding mode
self._vswitch_none = str(S.getValue('VSWITCH')).strip().lower() == 'none'
# trafficgen configuration required for tests of tunneling protocols
- if self.deployment == "op2p":
+ if self._tunnel_operation:
+ self._traffic.update({'tunnel_type': S.getValue('TUNNEL_TYPE')})
self._traffic['l2'].update({'srcmac':
S.getValue('TRAFFICGEN_PORT1_MAC'),
'dstmac':
S.getValue('TRAFFICGEN_PORT2_IP')})
if self._tunnel_operation == "decapsulation":
- self._traffic['l2'] = S.getValue(self._tunnel_type.upper() + '_FRAME_L2')
- self._traffic['l3'] = S.getValue(self._tunnel_type.upper() + '_FRAME_L3')
- self._traffic['l4'] = S.getValue(self._tunnel_type.upper() + '_FRAME_L4')
+ self._traffic['l2'].update(S.getValue(S.getValue('TUNNEL_TYPE').upper() + '_FRAME_L2'))
+ self._traffic['l3'].update(S.getValue(S.getValue('TUNNEL_TYPE').upper() + '_FRAME_L3'))
+ self._traffic['l4'].update(S.getValue(S.getValue('TUNNEL_TYPE').upper() + '_FRAME_L4'))
self._traffic['l2']['dstmac'] = S.getValue('NICS')[1]['mac']
elif len(S.getValue('NICS')) >= 2 and \
(S.getValue('NICS')[0]['type'] == 'vf' or
else:
self._logger.debug("MAC addresses can not be read")
+ self._traffic = functions.check_traffic(self._traffic)
+
# count how many VNFs are involved in TestSteps
if self.test:
for step in self.test:
loader.get_loadgen_class(),
self._load_cfg)
- self._output_file = os.path.join(self._results_dir, "result_" + self.name +
- "_" + self.deployment + ".csv")
+ self._output_file = os.path.join(self._results_dir, "result_{}_{}_{}.csv".format(
+ str(S.getValue('_TEST_INDEX')), self.name, self.deployment))
self._step_status = {'status' : True, 'details' : ''}
# cleanup any namespaces created
if os.path.isdir('/tmp/namespaces'):
namespace_list = os.listdir('/tmp/namespaces')
- if len(namespace_list):
+ if namespace_list:
self._logger.info('Cleaning up namespaces')
for name in namespace_list:
namespace.delete_namespace(name)
# cleanup any veth ports created
if os.path.isdir('/tmp/veth'):
veth_list = os.listdir('/tmp/veth')
- if len(veth_list):
+ if veth_list:
self._logger.info('Cleaning up veth ports')
for eth in veth_list:
port1, port2 = eth.split('-')
if len(self._tc_results) < len(results):
if len(self._tc_results) > 1:
raise RuntimeError('Testcase results do not match:'
- 'results: {}\n'
- 'trafficgen results: {}\n',
+ 'results: %s\n'
+ 'trafficgen results: %s\n' %
self._tc_results,
results)
else:
self._testcase_run_time = time.strftime("%H:%M:%S",
time.gmtime(self._testcase_stop_time -
self._testcase_start_time))
- logging.info("Testcase execution time: " + self._testcase_run_time)
+ logging.info("Testcase execution time: %s", self._testcase_run_time)
# report test results
self.run_report()
item[ResultsConstants.SCAL_PRE_INSTALLED_FLOWS] = self._traffic['pre_installed_flows']
if self._vnf_ctl.get_vnfs_number():
item[ResultsConstants.GUEST_LOOPBACK] = ' '.join(S.getValue('GUEST_LOOPBACK'))
- if self._tunnel_type:
- item[ResultsConstants.TUNNEL_TYPE] = self._tunnel_type
+ if self._tunnel_operation:
+ item[ResultsConstants.TUNNEL_TYPE] = S.getValue('TUNNEL_TYPE')
return results
def _copy_fwd_tools_for_all_guests(self, vm_count):
"""
with open(output, 'a') as csvfile:
- logging.info("Write results to file: " + output)
+ logging.info("Write results to file: %s", output)
fieldnames = TestCase._get_unique_keys(results)
writer = csv.DictWriter(csvfile, fieldnames)
self._logger.debug("Skipping %s as it isn't a configuration "
"parameter.", '${}'.format(macro[0]))
return param
- elif isinstance(param, list) or isinstance(param, tuple):
+ elif isinstance(param, (list, tuple)):
tmp_list = []
for item in param:
tmp_list.append(self.step_eval_param(item, step_result))
# initialize list with results
self._step_result = [None] * len(self.test)
- # We have to suppress pylint report, because test_object has to be set according
- # to the test step definition
- # pylint: disable=redefined-variable-type
# run test step by step...
for i, step in enumerate(self.test):
step_ok = not self._step_check