X-Git-Url: https://gerrit.opnfv.org/gerrit/gitweb?a=blobdiff_plain;f=yardstick%2Fbenchmark%2Fscenarios%2Fnetworking%2Fvnf_generic.py;h=5ac51cdfc74d44f2a5a33037a1adcf459e6bdf6f;hb=1da538e0382baf0dfcbb397db664b9eff805890f;hp=eb62d6222f351d4705172d695e927f17ab020e82;hpb=01711acbd1a8b9f5bcf20073f33ad6cc83ede970;p=yardstick.git diff --git a/yardstick/benchmark/scenarios/networking/vnf_generic.py b/yardstick/benchmark/scenarios/networking/vnf_generic.py index eb62d6222..5ac51cdfc 100644 --- a/yardstick/benchmark/scenarios/networking/vnf_generic.py +++ b/yardstick/benchmark/scenarios/networking/vnf_generic.py @@ -50,7 +50,7 @@ class NetworkServiceTestCase(scenario_base.Scenario): __scenario_type__ = "NSPerf" - def __init__(self, scenario_cfg, context_cfg): # Yardstick API + def __init__(self, scenario_cfg, context_cfg): # pragma: no cover super(NetworkServiceTestCase, self).__init__() self.scenario_cfg = scenario_cfg self.context_cfg = context_cfg @@ -61,39 +61,42 @@ class NetworkServiceTestCase(scenario_base.Scenario): self.traffic_profile = None self.node_netdevs = {} self.bin_path = get_nsb_option('bin_path', '') + self._mq_ids = [] + + def is_ended(self): + return self.traffic_profile is not None and self.traffic_profile.is_ended() def _get_ip_flow_range(self, ip_start_range): + """Retrieve a CIDR first and last viable IPs - # IP range is specified as 'x.x.x.x-y.y.y.y' + :param ip_start_range: could be the IP range itself or a dictionary + with the host name and the port. + :return: (str) IP range (min, max) with this format "x.x.x.x-y.y.y.y" + """ if isinstance(ip_start_range, six.string_types): return ip_start_range - node_name, range_or_interface = next(iter(ip_start_range.items()), (None, '0.0.0.0')) + node_name, range_or_interface = next(iter(ip_start_range.items()), + (None, '0.0.0.0')) if node_name is None: - # we are manually specifying the range - ip_addr_range = range_or_interface + return range_or_interface + + node = self.context_cfg['nodes'].get(node_name, {}) + interface = node.get('interfaces', {}).get(range_or_interface) + if interface: + ip = interface['local_ip'] + mask = interface['netmask'] else: - node = self.context_cfg["nodes"].get(node_name, {}) - try: - # the ip_range is the interface name - interface = node.get("interfaces", {})[range_or_interface] - except KeyError: - ip = "0.0.0.0" - mask = "255.255.255.0" - else: - ip = interface["local_ip"] - # we can't default these values, they must both exist to be valid - mask = interface["netmask"] - - ipaddr = ipaddress.ip_network(six.text_type('{}/{}'.format(ip, mask)), strict=False) - hosts = list(ipaddr.hosts()) - if len(hosts) > 2: - # skip the first host in case of gateway - ip_addr_range = "{}-{}".format(hosts[1], hosts[-1]) - else: - LOG.warning("Only single IP in range %s", ipaddr) - # fall back to single IP range - ip_addr_range = ip + ip = '0.0.0.0' + mask = '255.255.255.0' + + ipaddr = ipaddress.ip_network( + six.text_type('{}/{}'.format(ip, mask)), strict=False) + if ipaddr.prefixlen + 2 < ipaddr.max_prefixlen: + ip_addr_range = '{}-{}'.format(ipaddr[2], ipaddr[-2]) + else: + LOG.warning('Only single IP in range %s', ipaddr) + ip_addr_range = ip return ip_addr_range def _get_traffic_flow(self): @@ -117,7 +120,15 @@ class NetworkServiceTestCase(scenario_base.Scenario): for index, dst_port in enumerate(fflow.get("dst_port", [])): flow["dst_port_{}".format(index)] = dst_port - flow["count"] = fflow["count"] + if "count" in fflow: + flow["count"] = fflow["count"] + + if "srcseed" in fflow: + flow["srcseed"] = fflow["srcseed"] + + if "dstseed" in fflow: + flow["dstseed"] = fflow["dstseed"] + except KeyError: flow = {} return {"flow": flow} @@ -140,6 +151,26 @@ class NetworkServiceTestCase(scenario_base.Scenario): return options.get('duration', tprofile_base.TrafficProfileConfig.DEFAULT_DURATION) + def _key_list_to_dict(self, key, value_list): + value_dict = {} + try: + for index, count in enumerate(value_list[key]): + value_dict["{}_{}".format(key, index)] = count + except KeyError: + value_dict = {} + + return value_dict + + def _get_simulated_users(self): + users = self.scenario_cfg.get("options", {}).get("simulated_users", {}) + simulated_users = self._key_list_to_dict("uplink", users) + return {"simulated_users": simulated_users} + + def _get_page_object(self): + objects = self.scenario_cfg.get("options", {}).get("page_object", {}) + page_object = self._key_list_to_dict("uplink", objects) + return {"page_object": page_object} + def _fill_traffic_profile(self): tprofile = self._get_traffic_profile() extra_args = self.scenario_cfg.get('extra_args', {}) @@ -149,9 +180,19 @@ class NetworkServiceTestCase(scenario_base.Scenario): tprofile_base.TrafficProfile.UPLINK: {}, tprofile_base.TrafficProfile.DOWNLINK: {}, 'extra_args': extra_args, - 'duration': self._get_duration()} + 'duration': self._get_duration(), + 'page_object': self._get_page_object(), + 'simulated_users': self._get_simulated_users()} traffic_vnfd = vnfdgen.generate_vnfd(tprofile, tprofile_data) - self.traffic_profile = tprofile_base.TrafficProfile.get(traffic_vnfd) + + traffic_config = \ + self.scenario_cfg.get("options", {}).get("traffic_config", {}) + + traffic_vnfd.setdefault("traffic_profile", {}) + traffic_vnfd["traffic_profile"].update(traffic_config) + + self.traffic_profile = \ + tprofile_base.TrafficProfile.get(traffic_vnfd) def _get_topology(self): topology = self.scenario_cfg["topology"] @@ -168,18 +209,18 @@ class NetworkServiceTestCase(scenario_base.Scenario): topology_yaml = vnfdgen.generate_vnfd(topology, topolgy_data) self.topology = topology_yaml["nsd:nsd-catalog"]["nsd"][0] - def _find_vnf_name_from_id(self, vnf_id): + def _find_vnf_name_from_id(self, vnf_id): # pragma: no cover return next((vnfd["vnfd-id-ref"] for vnfd in self.topology["constituent-vnfd"] if vnf_id == vnfd["member-vnf-index"]), None) - def _find_vnfd_from_vnf_idx(self, vnf_id): + def _find_vnfd_from_vnf_idx(self, vnf_id): # pragma: no cover return next((vnfd for vnfd in self.topology["constituent-vnfd"] if vnf_id == vnfd["member-vnf-index"]), None) @staticmethod - def find_node_if(nodes, name, if_name, vld_id): + def find_node_if(nodes, name, if_name, vld_id): # pragma: no cover try: # check for xe0, xe1 intf = nodes[name]["interfaces"][if_name] @@ -272,14 +313,14 @@ class NetworkServiceTestCase(scenario_base.Scenario): node0_if["peer_intf"] = node1_copy node1_if["peer_intf"] = node0_copy - def _update_context_with_topology(self): + def _update_context_with_topology(self): # pragma: no cover for vnfd in self.topology["constituent-vnfd"]: vnf_idx = vnfd["member-vnf-index"] vnf_name = self._find_vnf_name_from_id(vnf_idx) vnfd = self._find_vnfd_from_vnf_idx(vnf_idx) self.context_cfg["nodes"][vnf_name].update(vnfd) - def _generate_pod_yaml(self): + def _generate_pod_yaml(self): # pragma: no cover context_yaml = os.path.join(LOG_DIR, "pod-{}.yaml".format(self.scenario_cfg['task_id'])) # convert OrderedDict to a list # pod.yaml nodes is a list @@ -293,7 +334,7 @@ class NetworkServiceTestCase(scenario_base.Scenario): explicit_start=True) @staticmethod - def _serialize_node(node): + def _serialize_node(node): # pragma: no cover new_node = copy.deepcopy(node) # name field is required # remove context suffix @@ -315,7 +356,7 @@ class NetworkServiceTestCase(scenario_base.Scenario): self._update_context_with_topology() @classmethod - def get_vnf_impl(cls, vnf_model_id): + def get_vnf_impl(cls, vnf_model_id): # pragma: no cover """ Find the implementing class from vnf_model["vnf"]["name"] field :param vnf_model_id: parsed vnfd model ID field @@ -343,7 +384,7 @@ class NetworkServiceTestCase(scenario_base.Scenario): raise exceptions.IncorrectConfig(error_msg=message) @staticmethod - def create_interfaces_from_node(vnfd, node): + def create_interfaces_from_node(vnfd, node): # pragma: no cover ext_intfs = vnfd["vdu"][0]["external-interface"] = [] # have to sort so xe0 goes first for intf_name, intf in sorted(node['interfaces'].items()): @@ -405,17 +446,14 @@ class NetworkServiceTestCase(scenario_base.Scenario): pass self.create_interfaces_from_node(vnfd, node) vnf_impl = self.get_vnf_impl(vnfd['id']) - vnf_instance = vnf_impl(node_name, vnfd) + vnf_instance = vnf_impl(node_name, vnfd, scenario_cfg['task_id']) vnfs.append(vnf_instance) self.vnfs = vnfs return vnfs def setup(self): - """ Setup infrastructure, provission VNFs & start traffic - - :return: - """ + """Setup infrastructure, provission VNFs & start traffic""" # 1. Verify if infrastructure mapping can meet topology self.map_topology_to_infrastructure() # 1a. Load VNF models @@ -457,6 +495,11 @@ class NetworkServiceTestCase(scenario_base.Scenario): for traffic_gen in traffic_runners: LOG.info("Starting traffic on %s", traffic_gen.name) traffic_gen.run_traffic(self.traffic_profile) + self._mq_ids.append(traffic_gen.get_mq_producer_id()) + + def get_mq_ids(self): # pragma: no cover + """Return stored MQ producer IDs""" + return self._mq_ids def run(self, result): # yardstick API """ Yardstick calls run() at intervals defined in the yaml and @@ -495,10 +538,10 @@ class NetworkServiceTestCase(scenario_base.Scenario): LOG.exception("") raise RuntimeError("Error in teardown") - def pre_run_wait_time(self, time_seconds): + def pre_run_wait_time(self, time_seconds): # pragma: no cover """Time waited before executing the run method""" time.sleep(time_seconds) - def post_run_wait_time(self, time_seconds): + def post_run_wait_time(self, time_seconds): # pragma: no cover """Time waited after executing the run method""" pass