# 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. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """TestCase base class """ from collections import OrderedDict import copy import csv import logging import math import os import re import time import subprocess from datetime import datetime as dt from conf import settings as S from conf import merge_spec import core.component_factory as component_factory from core.loader import Loader from core.results.results_constants import ResultsConstants from tools import tasks from tools import hugepages from tools import functions from tools import namespace from tools import veth from tools import extvswitchflctl from tools.teststepstools import TestStepsTools from tools.llc_management import rmd # Validation methods required for integration TCs will have following prefix before the name # of original method. CHECK_PREFIX = 'validate_' # Several parameters can be defined by both TC definition keywords and configuration parameters. # Following mapping table is used to correctly evaluate priority of testcase configuration, where # TC definition keywords (i.e. mapping table keys) have higher priority than appropriate TC # parameters (i.e. mapping table values). TC parameters can be defined within "Parameters" # section, via CLI parameters or within configuration files. MAPPING_TC_CFG2CONF = {'vSwitch':'VSWITCH', 'VNF':'VNF', 'Trafficgen':'TRAFFICGEN', 'Tunnel Type':'TUNNEL_TYPE'} # pylint: disable=too-many-instance-attributes class TestCase(object): """TestCase base class In this basic form runs RFC2544 throughput test """ # pylint: disable=too-many-statements def __init__(self, test_cfg): """Pull out fields from test config :param test_cfg: A dictionary of string-value pairs describing the test configuration. Both the key and values strings use well-known values. :param results_dir: Where the csv formatted results are written. """ # make a local copy of test configuration to avoid modification of # original content used in vsperf main script cfg = copy.deepcopy(test_cfg) self._testcase_start_time = time.time() self._testcase_stop_time = self._testcase_start_time self._hugepages_mounted = False self._traffic_ctl = None self._vnf_ctl = None self._pod_ctl = None self._pod_list = None self._vswitch_ctl = None self._evfctl = None self._collector = None self._loadgen = None self._output_file = None self._tc_results = None self._settings_paths_modified = False self._testcast_run_time = None self._versions = [] self._k8s = False # initialization of step driven specific members self._step_check = False # by default don't check result for step driven testcases self._step_vnf_list = {} self._step_result = [] self._step_result_mapping = {} self._step_status = None self._step_send_traffic = False # indication if send_traffic was called within test steps self._vnf_list = [] self._testcase_run_time = None 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) # ensure that parameters from TC definition have the highest priority, see MAPPING_TC_CFG2CONF for (cfg_param, param) in MAPPING_TC_CFG2CONF.items(): if cfg_param in cfg and param in test_params: del test_params[param] S.setValue('TEST_PARAMS', test_params) S.check_test_params() # override all redefined GUEST_ values to have them expanded correctly tmp_test_params = copy.deepcopy(S.getValue('TEST_PARAMS')) for key in tmp_test_params: if key.startswith('GUEST_'): S.setValue(key, S.getValue(key)) S.getValue('TEST_PARAMS').pop(key) # update global settings functions.settings_update_paths() # set test parameters; CLI options take precedence to testcase settings self._logger = logging.getLogger(__name__) self.name = cfg['Name'] self.desc = cfg.get('Description', 'No description given.') self.test = cfg.get('TestSteps', None) # log testcase name and details tmp_desc = functions.format_description(self.desc, 50) self._logger.info('############################################################') self._logger.info('# Test: %s', self.name) self._logger.info('# Details: %s', tmp_desc[0]) for i in range(1, len(tmp_desc)): self._logger.info('# %s', tmp_desc[i]) self._logger.info('############################################################') bidirectional = S.getValue('TRAFFIC')['bidir'] if not isinstance(S.getValue('TRAFFIC')['bidir'], str): raise TypeError( 'Bi-dir value must be of type string') bidirectional = bidirectional.title() # Keep things consistent self.deployment = cfg['Deployment'] self._frame_mod = cfg.get('Frame Modification', None) 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) if self._frame_mod: self._frame_mod = self._frame_mod.lower() self._results_dir = S.getValue('RESULTS_PATH') # 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}) # Packet Forwarding mode self._vswitch_none = str(S.getValue('VSWITCH')).strip().lower() == 'none' # trafficgen configuration required for tests of tunneling protocols 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_MAC')}) self._traffic['l3'].update({'srcip': S.getValue('TRAFFICGEN_PORT1_IP'), 'dstip': S.getValue('TRAFFICGEN_PORT2_IP')}) if self._tunnel_operation == "decapsulation": 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 S.getValue('NICS')[1]['type'] == 'vf'): mac1 = S.getValue('NICS')[0]['mac'] mac2 = S.getValue('NICS')[1]['mac'] if mac1 and mac2: self._traffic['l2'].update({'srcmac': mac2, 'dstmac': mac1}) 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: if step[0].startswith('vnf'): self._step_vnf_list[step[0]] = None # if llc allocation is required, initialize it. if S.getValue('LLC_ALLOCATION'): self._rmd = rmd.CacheAllocator() # If running in k8s mode. # This value is set in main vsperf file self._k8s = S.getValue('K8S') if self._k8s: if S.getValue('EXT_VSWITCH'): self._evfctl = extvswitchfctl.ExtVswitchFlowCtl() def run_initialize(self): """ Prepare test execution environment """ # mount hugepages if needed self._mount_hugepages() self._logger.debug("Controllers:") loader = Loader() self._traffic_ctl = component_factory.create_traffic( self._traffic['traffic_type'], loader.get_trafficgen_class()) self._vnf_ctl = component_factory.create_vnf( self.deployment, loader.get_vnf_class(), len(self._step_vnf_list)) self._vnf_list = self._vnf_ctl.get_vnfs() self._pod_ctl = component_factory.create_pod( self.deployment, loader.get_pod_class()) if self._k8s: self._pod_list = self._pod_ctl.get_pods() # verify enough hugepages are free to run the testcase if not self._check_for_enough_hugepages(): raise RuntimeError('Not enough hugepages free to run test.') # perform guest related handling tmp_vm_count = self._vnf_ctl.get_vnfs_number() + len(self._step_vnf_list) if tmp_vm_count: # copy sources of l2 forwarding tools into VM shared dir if needed self._copy_fwd_tools_for_all_guests(tmp_vm_count) # in case of multi VM in parallel, set the number of streams to the number of VMs if self.deployment.startswith('pvpv'): # for each VM NIC pair we need an unique stream streams = 0 for vm_nic in S.getValue('GUEST_NICS_NR')[:tmp_vm_count]: streams += int(vm_nic / 2) if vm_nic > 1 else 1 self._logger.debug("VMs with parallel connection were detected. " "Thus Number of streams was set to %s", streams) # update streams if needed; In case of additional VNFs deployed by TestSteps # user can define a proper stream count manually if 'multistream' not in self._traffic or self._traffic['multistream'] < streams: self._traffic.update({'multistream': streams}) # OVS Vanilla requires guest VM MAC address and IPs to work if 'linux_bridge' in S.getValue('GUEST_LOOPBACK'): self._traffic['l2'].update({'srcmac': S.getValue('VANILLA_TGEN_PORT1_MAC'), 'dstmac': S.getValue('VANILLA_TGEN_PORT2_MAC')}) self._traffic['l3'].update({'srcip': S.getValue('VANILLA_TGEN_PORT1_IP'), 'dstip': S.getValue('VANILLA_TGEN_PORT2_IP')}) if self._vswitch_none: self._vswitch_ctl = component_factory.create_pktfwd( self.deployment, loader.get_pktfwd_class()) else: self._vswitch_ctl = component_factory.create_vswitch( self.deployment, loader.get_vswitch_class(), self._traffic, self._tunnel_operation) self._collector = component_factory.create_collector( loader.get_collector_class(), self._results_dir, self.name) self._loadgen = component_factory.create_loadgen( loader.get_loadgen_class(), self._load_cfg) 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' : ''} # Perform LLC-allocations if S.getValue('LLC_ALLOCATION'): self._rmd.setup_llc_allocation() self._logger.debug("Setup:") def run_finalize(self): """ Tear down test execution environment and record test results """ # Stop all VNFs started by TestSteps in case that something went wrong self.step_stop_vnfs() if self._k8s: self._pod_ctl.stop() # Cleanup any LLC-allocations if S.getValue('LLC_ALLOCATION'): self._rmd.cleanup_llc_allocation() # Stop all processes executed by testcase tasks.terminate_all_tasks(self._logger) # umount hugepages if mounted self._umount_hugepages() # cleanup any namespaces created if os.path.isdir('/tmp/namespaces'): namespace_list = os.listdir('/tmp/namespaces') if namespace_list: self._logger.info('Cleaning up namespaces') for name in namespace_list: namespace.delete_namespace(name) os.rmdir('/tmp/namespaces') # cleanup any veth ports created if os.path.isdir('/tmp/veth'): veth_list = os.listdir('/tmp/veth') if veth_list: self._logger.info('Cleaning up veth ports') for eth in veth_list: port1, port2 = eth.split('-') veth.del_veth_port(port1, port2) os.rmdir('/tmp/veth') def run_report(self): """ Report test results """ self._logger.debug("self._collector Results:") self._collector.print_results() results = self._traffic_ctl.get_results() if results: self._logger.debug("Traffic Results:") self._traffic_ctl.print_results() if self._tc_results is None: self._tc_results = self._append_results(results) else: # integration step driven tests have their status and possible # failure details stored inside self._tc_results results = self._append_results(results) if len(self._tc_results) < len(results): if len(self._tc_results) > 1: raise RuntimeError('Testcase results do not match:' 'results: %s\n' 'trafficgen results: %s\n' % self._tc_results, results) else: tmp_results = copy.deepcopy(self._tc_results[0]) self._tc_results = [] for res in results: tmp_res = copy.deepcopy(tmp_results) tmp_res.update(res) self._tc_results.append(tmp_res) else: for i, result in enumerate(results): self._tc_results[i].update(result) TestCase.write_result_to_file(self._tc_results, self._output_file) def run(self): """Run the test All setup and teardown through controllers is included. """ # prepare test execution environment self.run_initialize() try: with self._vswitch_ctl: with self._vnf_ctl, self._pod_ctl, self._collector, self._loadgen: if not self._vswitch_none and not self._k8s: self._add_flows() if self._k8s: self._add_connections() self._versions += self._vswitch_ctl.get_vswitch().get_version() with self._traffic_ctl: # execute test based on TestSteps definition if needed... if self.step_run(): # ...and continue with traffic generation, but keep # in mind, that clean deployment does not configure # OVS nor executes the traffic if self.deployment != 'clean' and not self._step_send_traffic: self._traffic_ctl.send_traffic(self._traffic) # dump vswitch flows before they are affected by VNF termination if not self._vswitch_none: self._vswitch_ctl.dump_vswitch_connections() # garbage collection for case that TestSteps modify existing deployment self.step_stop_vnfs() finally: # tear down test execution environment and log results self.run_finalize() self._testcase_stop_time = time.time() self._testcase_run_time = time.strftime("%H:%M:%S", time.gmtime(self._testcase_stop_time - self._testcase_start_time)) logging.info("Testcase execution time: %s", self._testcase_run_time) # report test results self.run_report() def _append_results(self, results): """ Method appends mandatory Test Case results to list of dictionaries. :param results: list of dictionaries which contains results from traffic generator. :returns: modified list of dictionaries. """ for item in results: item[ResultsConstants.ID] = self.name item[ResultsConstants.DEPLOYMENT] = self.deployment item[ResultsConstants.VSWITCH] = S.getValue('VSWITCH') item[ResultsConstants.TRAFFIC_TYPE] = self._traffic['l3']['proto'] item[ResultsConstants.TEST_RUN_TIME] = self._testcase_run_time # convert timestamps to human readable format item[ResultsConstants.TEST_START_TIME] = dt.fromtimestamp( self._testcase_start_time).strftime('%Y-%m-%d %H:%M:%S') item[ResultsConstants.TEST_STOP_TIME] = dt.fromtimestamp( self._testcase_stop_time).strftime('%Y-%m-%d %H:%M:%S') if self._traffic['multistream']: item[ResultsConstants.SCAL_STREAM_COUNT] = self._traffic['multistream'] item[ResultsConstants.SCAL_STREAM_TYPE] = self._traffic['stream_type'] 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_operation: item[ResultsConstants.TUNNEL_TYPE] = S.getValue('TUNNEL_TYPE') return results def _copy_fwd_tools_for_all_guests(self, vm_count): """Copy dpdk and l2fwd code to GUEST_SHARE_DIR[s] based on selected deployment. """ # consider only VNFs involved in the test for guest_dir in set(S.getValue('GUEST_SHARE_DIR')[:vm_count]): self._copy_fwd_tools_for_guest(guest_dir) def _copy_fwd_tools_for_guest(self, guest_dir): """Copy dpdk and l2fwd code to GUEST_SHARE_DIR of VM :param index: Index of VM starting from 1 (i.e. 1st VM has index 1) """ # remove shared dir if it exists to avoid issues with file consistency if os.path.exists(guest_dir): tasks.run_task(['rm', '-f', '-r', guest_dir], self._logger, 'Removing content of shared directory...', True) # directory to share files between host and guest os.makedirs(guest_dir) # copy sources into shared dir only if neccessary guest_loopback = set(S.getValue('GUEST_LOOPBACK')) if 'testpmd' in guest_loopback: try: # exclude whole .git/ subdirectory and all o-files; # It is assumed, that the same RTE_TARGET is used in both host # and VMs; This simplification significantly speeds up testpmd # build. If we will need a different RTE_TARGET in VM, # then we have to build whole DPDK from the scratch in VM. # In that case we can copy just DPDK sources (e.g. by excluding # all items obtained by git status -unormal --porcelain). # NOTE: Excluding RTE_TARGET directory won't help on systems, # where DPDK is built for multiple targets (e.g. for gcc & icc) exclude = [] exclude.append(r'--exclude=.git/') exclude.append(r'--exclude=*.o') tasks.run_task(['rsync', '-a', '-r', '-l'] + exclude + [os.path.join(S.getValue('TOOLS')['dpdk_src'], ''), os.path.join(guest_dir, 'DPDK')], self._logger, 'Copying DPDK to shared directory...', True) except subprocess.CalledProcessError: self._logger.error('Unable to copy DPDK to shared directory') raise if 'l2fwd' in guest_loopback: try: tasks.run_task(['rsync', '-a', '-r', '-l', os.path.join(S.getValue('ROOT_DIR'), 'src/l2fwd/'), os.path.join(guest_dir, 'l2fwd')], self._logger, 'Copying l2fwd to shared directory...', True) except subprocess.CalledProcessError: self._logger.error('Unable to copy l2fwd to shared directory') raise def _mount_hugepages(self): """Mount hugepages if usage of DPDK or Qemu is detected """ # pylint: disable=too-many-boolean-expressions # hugepages are needed by DPDK and Qemu if not self._hugepages_mounted and \ (self.deployment.count('v') or \ str(S.getValue('VSWITCH')).lower().count('dpdk') or \ self._vswitch_none or \ self.test and 'vnf' in [step[0][0:3] for step in self.test]): hugepages.mount_hugepages() self._hugepages_mounted = True def _umount_hugepages(self): """Umount hugepages if they were mounted before """ if self._hugepages_mounted: hugepages.umount_hugepages() self._hugepages_mounted = False def _check_for_enough_hugepages(self): """Check to make sure enough hugepages are free to satisfy the test environment. """ hugepages_needed = 0 hugepage_size = hugepages.get_hugepage_size() # get hugepage amounts per guest involved in the test for guest in range(self._vnf_ctl.get_vnfs_number()): hugepages_needed += math.ceil((int(S.getValue( 'GUEST_MEMORY')[guest]) * 1000) / hugepage_size) # get hugepage amounts for each socket on dpdk sock0_mem, sock1_mem = 0, 0 if str(S.getValue('VSWITCH')).lower().count('dpdk'): sock_mem = S.getValue('DPDK_SOCKET_MEM') sock0_mem, sock1_mem = (int(sock_mem[0]) * 1024 / hugepage_size, int(sock_mem[1]) * 1024 / hugepage_size) # If hugepages needed, verify the amounts are free if any([hugepages_needed, sock0_mem, sock1_mem]): free_hugepages = hugepages.get_free_hugepages() if hugepages_needed: logging.info('Need %s hugepages free for guests', hugepages_needed) result1 = free_hugepages >= hugepages_needed free_hugepages -= hugepages_needed else: result1 = True if sock0_mem: logging.info('Need %s hugepages free for dpdk socket 0', sock0_mem) result2 = hugepages.get_free_hugepages('0') >= sock0_mem free_hugepages -= sock0_mem else: result2 = True if sock1_mem: logging.info('Need %s hugepages free for dpdk socket 1', sock1_mem) result3 = hugepages.get_free_hugepages('1') >= sock1_mem free_hugepages -= sock1_mem else: result3 = True logging.info('Need a total of %s total hugepages', hugepages_needed + sock1_mem + sock0_mem) # The only drawback here is sometimes dpdk doesn't release # its hugepages on a test failure. This could cause a test # to fail when dpdk would be OK to start because it will just # use the previously allocated hugepages. result4 = True if free_hugepages >= 0 else False return all([result1, result2, result3, result4]) else: return True @staticmethod def write_result_to_file(results, output): """Write list of dictionaries to a CSV file. Each element on list will create separate row in output file. If output file already exists, data will be appended at the end, otherwise it will be created. :param results: list of dictionaries. :param output: path to output file. """ with open(output, 'a') as csvfile: logging.info("Write results to file: %s", output) fieldnames = TestCase._get_unique_keys(results) writer = csv.DictWriter(csvfile, fieldnames) if not csvfile.tell(): # file is now empty writer.writeheader() for result in results: writer.writerow(result) @staticmethod def _get_unique_keys(list_of_dicts): """Gets unique key values as ordered list of strings in given dicts :param list_of_dicts: list of dictionaries. :returns: list of unique keys(strings). """ result = OrderedDict() for item in list_of_dicts: for key in item.keys(): result[key] = '' return list(result.keys()) def _add_connections(self): """ Add connections for Kubernetes Usecases """ logging.info("Kubernetes: Adding Connections") if self._evfctl: self._evfctl.add_connections() return if self._vswitch_none: logging.info("Vswitch cannot be None when switch is not external") return vswitch = self._vswitch_ctl.get_vswitch() bridge = S.getValue('VSWITCH_BRIDGE_NAME') if S.getValue('K8S') and 'sriov' not in S.getValue('PLUGIN'): if 'Ovs' in S.getValue('VSWITCH'): # Add OVS Flows logging.info("Kubernetes: Adding OVS Connections") flow = {'table':'0', 'in_port':'1', 'idle_timeout':'0', 'actions': ['output:3']} vswitch.add_flow(bridge, flow) flow = {'table':'0', 'in_port':'3', 'idle_timeout':'0', 'actions': ['output:1']} vswitch.add_flow(bridge, flow) flow = {'table':'0', 'in_port':'2', 'idle_timeout':'0', 'actions': ['output:4']} vswitch.add_flow(bridge, flow) flow = {'table':'0', 'in_port':'4', 'idle_timeout':'0', 'actions': ['output:2']} vswitch.add_flow(bridge, flow) elif 'vpp' in S.getValue('VSWITCH'): phy_ports = vswitch.get_ports() virt_port0 = 'memif1/0' virt_port1 = 'memif2/0' vswitch.add_connection(bridge, phy_ports[0], virt_port0, None) vswitch.add_connection(bridge, virt_port0, phy_ports[0], None) vswitch.add_connection(bridge, phy_ports[1], virt_port1, None) vswitch.add_connection(bridge, virt_port1, phy_ports[1], None) def _add_flows(self): """Add flows to the vswitch """ vswitch = self._vswitch_ctl.get_vswitch() # NOTE BOM 15-08-07 the frame mod code assumes that the # physical ports are ports 1 & 2. The actual numbers # need to be retrived from the vSwitch and the metadata value # updated accordingly. bridge = S.getValue('VSWITCH_BRIDGE_NAME') if self._frame_mod == "vlan": # 0x8100 => VLAN ethertype self._logger.debug(" **** VLAN ***** ") flow = {'table':'2', 'priority':'1000', 'metadata':'2', 'actions': ['push_vlan:0x8100', 'goto_table:3']} vswitch.add_flow(bridge, flow) flow = {'table':'2', 'priority':'1000', 'metadata':'1', 'actions': ['push_vlan:0x8100', 'goto_table:3']} vswitch.add_flow(bridge, flow) elif self._frame_mod == "mpls": # 0x8847 => MPLS unicast ethertype self._logger.debug(" **** MPLS ***** ") flow = {'table':'2', 'priority':'1000', 'metadata':'2', 'actions': ['push_mpls:0x8847', 'goto_table:3']} vswitch.add_flow(bridge, flow) flow = {'table':'2', 'priority':'1000', 'metadata':'1', 'actions': ['push_mpls:0x8847', 'goto_table:3']} vswitch.add_flow(bridge, flow) elif self._frame_mod == "mac": flow = {'table':'2', 'priority':'1000', 'metadata':'2', 'actions': ['mod_dl_src:22:22:22:22:22:22', 'goto_table:3']} vswitch.add_flow(bridge, flow) flow = {'table':'2', 'priority':'1000', 'metadata':'1', 'actions': ['mod_dl_src:11:11:11:11:11:11', 'goto_table:3']} vswitch.add_flow(bridge, flow) elif self._frame_mod == "dscp": # DSCP 184d == 0x4E<<2 => 'Expedited Forwarding' flow = {'table':'2', 'priority':'1000', 'metadata':'2', 'dl_type':'0x0800', 'actions': ['mod_nw_tos:184', 'goto_table:3']} vswitch.add_flow(bridge, flow) flow = {'table':'2', 'priority':'1000', 'metadata':'1', 'dl_type':'0x0800', 'actions': ['mod_nw_tos:184', 'goto_table:3']} vswitch.add_flow(bridge, flow) elif self._frame_mod == "ttl": # 251 and 241 are the highest prime numbers < 255 flow = {'table':'2', 'priority':'1000', 'metadata':'2', 'dl_type':'0x0800', 'actions': ['mod_nw_ttl:251', 'goto_table:3']} vswitch.add_flow(bridge, flow) flow = {'table':'2', 'priority':'1000', 'metadata':'1', 'dl_type':'0x0800', 'actions': ['mod_nw_ttl:241', 'goto_table:3']} vswitch.add_flow(bridge, flow) elif self._frame_mod == "ip_addr": flow = {'table':'2', 'priority':'1000', 'metadata':'2', 'dl_type':'0x0800', 'actions': ['mod_nw_src:10.10.10.10', 'mod_nw_dst:20.20.20.20', 'goto_table:3']} vswitch.add_flow(bridge, flow) flow = {'table':'2', 'priority':'1000', 'metadata':'1', 'dl_type':'0x0800', 'actions': ['mod_nw_src:20.20.20.20', 'mod_nw_dst:10.10.10.10', 'goto_table:3']} vswitch.add_flow(bridge, flow) elif self._frame_mod == "ip_port": # NOTE BOM 15-08-27 The traffic generated is assumed # to be UDP (nw_proto 17d) which is the default case but # we will need to pick up the actual traffic params in use. flow = {'table':'2', 'priority':'1000', 'metadata':'2', 'dl_type':'0x0800', 'nw_proto':'17', 'actions': ['mod_tp_src:44444', 'mod_tp_dst:44444', 'goto_table:3']} vswitch.add_flow(bridge, flow) flow = {'table':'2', 'priority':'1000', 'metadata':'1', 'dl_type':'0x0800', 'nw_proto':'17', 'actions': ['mod_tp_src:44444', 'mod_tp_dst:44444', 'goto_table:3']} vswitch.add_flow(bridge, flow) else: pass # # TestSteps realted methods # def step_report_status(self, label, status): """ Log status of test step """ self._logger.info("%s ... %s", label, 'OK' if status else 'FAILED') def step_stop_vnfs(self): """ Stop all VNFs started by TestSteps """ for vnf in self._step_vnf_list: if self._step_vnf_list[vnf]: self._step_vnf_list[vnf].stop() def step_eval_param(self, param, step_result): """ Helper function for #STEP macro evaluation """ if isinstance(param, str): # evaluate every #STEP reference inside parameter itself macros = re.findall(r'(#STEP\[([\w\-:]+)\]((\[[\w\-\'\"]+\])*))', param) if macros: for macro in macros: if macro[1] in self._step_result_mapping: key = self._step_result_mapping[macro[1]] else: key = macro[1] # pylint: disable=eval-used tmp_val = str(eval('step_result[{}]{}'.format(key, macro[2]))) param = param.replace(macro[0], tmp_val) # evaluate references to vsperf configuration options macros = re.findall(r'\$(([\w\-]+)(\[[\w\[\]\-\'\"]+\])*)', param) if macros: for macro in macros: # pylint: disable=eval-used try: tmp_val = str(eval("S.getValue('{}'){}".format(macro[1], macro[2]))) param = param.replace('${}'.format(macro[0]), tmp_val) # ignore that required option can't be evaluated except (IndexError, KeyError, AttributeError): self._logger.debug("Skipping %s as it isn't a configuration " "parameter.", '${}'.format(macro[0])) return param elif isinstance(param, (list, tuple)): tmp_list = [] for item in param: tmp_list.append(self.step_eval_param(item, step_result)) return tmp_list elif isinstance(param, dict): tmp_dict = {} for (key, value) in param.items(): tmp_dict[key] = self.step_eval_param(value, step_result) return tmp_dict else: return param def step_eval_params(self, params, step_result): """ Evaluates referrences to results from previous steps """ eval_params = [] # evaluate all parameters if needed for param in params: eval_params.append(self.step_eval_param(param, step_result)) return eval_params # pylint: disable=too-many-locals, too-many-branches, too-many-statements def step_run(self): """ Execute actions specified by TestSteps list :return: False if any error was detected True otherwise """ # anything to do? if not self.test: return True # required for VNFs initialization loader = Loader() # initialize list with results self._step_result = [None] * len(self.test) # run test step by step... for i, step in enumerate(self.test): step_ok = not self._step_check step_check = self._step_check regex = None # configure step result mapping if step alias/label is detected if step[0].startswith('#'): key = step[0][1:] if key.isdigit(): raise RuntimeError('Step alias can\'t be an integer value {}'.format(key)) if key in self._step_result_mapping: raise RuntimeError('Step alias {} has been used already for step ' '{}'.format(key, self._step_result_mapping[key])) self._step_result_mapping[step[0][1:]] = i step = step[1:] # store regex filter if it is specified if isinstance(step[-1], str) and step[-1].startswith('|'): # evalute macros and variables used in regex regex = self.step_eval_params([step[-1][1:]], self._step_result[:i])[0] step = step[:-1] # check if step verification should be suppressed if step[0].startswith('!'): step_check = False step_ok = True step[0] = step[0][1:] if step[0] == 'vswitch': test_object = self._vswitch_ctl.get_vswitch() elif step[0] == 'namespace': test_object = namespace elif step[0] == 'veth': test_object = veth elif step[0] == 'settings': test_object = S elif step[0] == 'tools': test_object = TestStepsTools() step[1] = step[1].title() elif step[0] == 'trafficgen': test_object = self._traffic_ctl # in case of send_traffic or send_traffic_async methods, ensure # that specified traffic values are merged with existing self._traffic if step[1].startswith('send_traffic'): tmp_traffic = copy.deepcopy(self._traffic) tmp_traffic.update(step[2]) step[2] = tmp_traffic # store indication that traffic has been sent # so it is not sent again after the execution of teststeps self._step_send_traffic = True elif step[0].startswith('vnf'): # use vnf started within TestSteps if not self._step_vnf_list[step[0]]: # initialize new VM self._step_vnf_list[step[0]] = loader.get_vnf_class()() test_object = self._step_vnf_list[step[0]] elif step[0].startswith('VNF'): if step[1] in ('start', 'stop'): raise RuntimeError("Cannot execute start() or stop() method of " "VNF deployed automatically by scenario.") # use vnf started by scenario deployment (e.g. pvp) vnf_index = int(step[0][3:]) try: test_object = self._vnf_list[vnf_index] except IndexError: raise RuntimeError("VNF with index {} is not running.".format(vnf_index)) elif step[0] == 'wait': input(os.linesep + "Step {}: Press Enter to continue with " "the next step...".format(i) + os.linesep + os.linesep) continue elif step[0] == 'sleep': self._logger.debug("Sleep %s seconds", step[1]) time.sleep(int(step[1])) continue elif step[0] == 'log': test_object = self._logger # there isn't a need for validation of log entry step_check = False step_ok = True elif step[0] == 'pdb': import pdb pdb.set_trace() continue else: self._logger.error("Unsupported test object %s", step[0]) self._step_status = {'status' : False, 'details' : ' '.join(step)} self.step_report_status("Step '{}'".format(' '.join(step)), self._step_status['status']) return False test_method = getattr(test_object, step[1]) if step_check: test_method_check = getattr(test_object, CHECK_PREFIX + step[1]) else: test_method_check = None step_params = [] try: # eval parameters, but use only valid step_results # to support negative indexes step_params = self.step_eval_params(step[2:], self._step_result[:i]) step_log = '{} {}'.format(' '.join(step[:2]), step_params) step_log += ' filter "{}"'.format(regex) if regex else '' self._logger.debug("Step %s '%s' start", i, step_log) self._step_result[i] = test_method(*step_params) if regex: # apply regex to step output self._step_result[i] = functions.filter_output( self._step_result[i], regex) self._logger.debug("Step %s '%s' results '%s'", i, step_log, self._step_result[i]) time.sleep(S.getValue('TEST_STEP_DELAY')) if step_check: step_ok = test_method_check(self._step_result[i], *step_params) except (AssertionError, AttributeError, IndexError) as ex: step_ok = False self._logger.error("Step %s raised %s", i, type(ex).__name__) if step_check: self.step_report_status("Step {} - '{}'".format(i, step_log), step_ok) if not step_ok: self._step_status = {'status' : False, 'details' : step_log} # Stop all VNFs started by TestSteps self.step_stop_vnfs() return False # all steps processed without any issue return True # # get methods for TestCase members, which needs to be publicly available # def get_output_file(self): """Return content of self._output_file member """ return self._output_file def get_desc(self): """Return content of self.desc member """ return self.desc def get_versions(self): """Return content of self.versions member """ return self._versions def get_traffic(self): """Return content of self._traffic member """ return self._traffic def get_tc_results(self): """Return content of self._tc_results member """ return self._tc_results def get_collector(self): """Return content of self._collector member """ return self._collector