# Copyright 2012 Nebula, Inc. # # 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. import copy from oslo_utils import uuidutils from openstack_dashboard.api import base from openstack_dashboard.api import neutron from openstack_dashboard.test.test_data import utils from openstack_dashboard.usage import quotas as usage_quotas def data(TEST): # Data returned by openstack_dashboard.api.neutron wrapper. TEST.agents = utils.TestDataContainer() TEST.networks = utils.TestDataContainer() TEST.subnets = utils.TestDataContainer() TEST.subnetpools = utils.TestDataContainer() TEST.ports = utils.TestDataContainer() TEST.trunks = utils.TestDataContainer() TEST.routers = utils.TestDataContainer() TEST.routers_with_rules = utils.TestDataContainer() TEST.routers_with_routes = utils.TestDataContainer() TEST.floating_ips = utils.TestDataContainer() TEST.security_groups = utils.TestDataContainer() TEST.security_group_rules = utils.TestDataContainer() TEST.providers = utils.TestDataContainer() TEST.pools = utils.TestDataContainer() TEST.vips = utils.TestDataContainer() TEST.members = utils.TestDataContainer() TEST.monitors = utils.TestDataContainer() TEST.neutron_quotas = utils.TestDataContainer() TEST.neutron_quota_usages = utils.TestDataContainer() TEST.ip_availability = utils.TestDataContainer() TEST.qos_policies = utils.TestDataContainer() TEST.tp_ports = utils.TestDataContainer() TEST.neutron_availability_zones = utils.TestDataContainer() # Data return by neutronclient. TEST.api_agents = utils.TestDataContainer() TEST.api_networks = utils.TestDataContainer() TEST.api_subnets = utils.TestDataContainer() TEST.api_subnetpools = utils.TestDataContainer() TEST.api_ports = utils.TestDataContainer() TEST.api_trunks = utils.TestDataContainer() TEST.api_routers = utils.TestDataContainer() TEST.api_routers_with_routes = utils.TestDataContainer() TEST.api_floating_ips = utils.TestDataContainer() TEST.api_security_groups = utils.TestDataContainer() TEST.api_security_group_rules = utils.TestDataContainer() TEST.api_pools = utils.TestDataContainer() TEST.api_vips = utils.TestDataContainer() TEST.api_members = utils.TestDataContainer() TEST.api_monitors = utils.TestDataContainer() TEST.api_extensions = utils.TestDataContainer() TEST.api_ip_availability = utils.TestDataContainer() TEST.api_qos_policies = utils.TestDataContainer() TEST.api_tp_trunks = utils.TestDataContainer() TEST.api_tp_ports = utils.TestDataContainer() # 1st network. network_dict = {'admin_state_up': True, 'id': '82288d84-e0a5-42ac-95be-e6af08727e42', 'name': 'net1', 'status': 'ACTIVE', 'subnets': ['e8abc972-eb0c-41f1-9edd-4bc6e3bcd8c9', '41e53a49-442b-4307-9e9a-88967a6b6657'], 'tenant_id': '1', 'router:external': False, 'shared': False} subnet_dict = {'allocation_pools': [{'end': '10.0.0.254', 'start': '10.0.0.2'}], 'dns_nameservers': [], 'host_routes': [], 'cidr': '10.0.0.0/24', 'enable_dhcp': True, 'gateway_ip': '10.0.0.1', 'id': network_dict['subnets'][0], 'ip_version': 4, 'name': 'mysubnet1', 'network_id': network_dict['id'], 'tenant_id': network_dict['tenant_id']} subnetv6_dict = { 'allocation_pools': [{'start': 'fdb6:b88a:488e::2', 'end': 'fdb6:b88a:488e:0:ffff:ffff:ffff:ffff'}], 'dns_nameservers': [], 'host_routes': [], 'cidr': 'fdb6:b88a:488e::/64', 'enable_dhcp': True, 'gateway_ip': 'fdb6:b88a:488e::1', 'id': network_dict['subnets'][1], 'ip_version': 6, 'name': 'myv6subnet', 'network_id': network_dict['id'], 'tenant_id': network_dict['tenant_id'], 'ipv6_ra_mode': 'slaac', 'ipv6_address_mode': 'slaac' } TEST.api_networks.add(network_dict) TEST.api_subnets.add(subnet_dict) TEST.api_subnets.add(subnetv6_dict) network = copy.deepcopy(network_dict) subnet = neutron.Subnet(subnet_dict) subnetv6 = neutron.Subnet(subnetv6_dict) network['subnets'] = [subnet, subnetv6] TEST.networks.add(neutron.Network(network)) TEST.subnets.add(subnet) TEST.subnets.add(subnetv6) # Ports on 1st network. port_dict = { 'admin_state_up': True, 'device_id': 'af75c8e5-a1cc-4567-8d04-44fcd6922890', 'device_owner': 'network:dhcp', 'fixed_ips': [{'ip_address': '10.0.0.3', 'subnet_id': subnet_dict['id']}], 'id': '063cf7f3-ded1-4297-bc4c-31eae876cc91', 'mac_address': 'fa:16:3e:9c:d5:7e', 'name': '', 'network_id': network_dict['id'], 'status': 'ACTIVE', 'tenant_id': network_dict['tenant_id'], 'binding:vnic_type': 'normal', 'binding:host_id': 'host', 'allowed_address_pairs': [ {'ip_address': '174.0.0.201', 'mac_address': 'fa:16:3e:7a:7b:18'} ], 'port_security_enabled': True, 'security_groups': [], } TEST.api_ports.add(port_dict) TEST.ports.add(neutron.Port(port_dict)) port_dict = { 'admin_state_up': True, 'device_id': '1', 'device_owner': 'compute:nova', 'fixed_ips': [{'ip_address': '10.0.0.4', 'subnet_id': subnet_dict['id']}, {'ip_address': 'fdb6:b88a:488e:0:f816:3eff:fe9d:e62f', 'subnet_id': subnetv6_dict['id']}], 'id': '7e6ce62c-7ea2-44f8-b6b4-769af90a8406', 'mac_address': 'fa:16:3e:9d:e6:2f', 'name': '', 'network_id': network_dict['id'], 'status': 'ACTIVE', 'tenant_id': network_dict['tenant_id'], 'binding:vnic_type': 'normal', 'binding:host_id': 'host', 'port_security_enabled': True, 'security_groups': [ # sec_group_1 ID below 'faad7c80-3b62-4440-967c-13808c37131d', # sec_group_2 ID below '27a5c9a1-bdbb-48ac-833a-2e4b5f54b31d' ], } TEST.api_ports.add(port_dict) TEST.ports.add(neutron.Port(port_dict)) assoc_port = port_dict port_dict = { 'admin_state_up': True, 'device_id': '279989f7-54bb-41d9-ba42-0d61f12fda61', 'device_owner': 'network:router_interface', 'fixed_ips': [{'ip_address': '10.0.0.1', 'subnet_id': subnet_dict['id']}], 'id': '9036eedb-e7fa-458e-bc6e-d9d06d9d1bc4', 'mac_address': 'fa:16:3e:9c:d5:7f', 'name': '', 'network_id': network_dict['id'], 'status': 'ACTIVE', 'tenant_id': network_dict['tenant_id'], 'binding:vnic_type': 'normal', 'binding:host_id': 'host', 'security_groups': [], } TEST.api_ports.add(port_dict) TEST.ports.add(neutron.Port(port_dict)) port_dict = { 'admin_state_up': True, 'device_id': '279989f7-54bb-41d9-ba42-0d61f12fda61', 'device_owner': 'network:router_interface', 'fixed_ips': [{'ip_address': 'fdb6:b88a:488e::1', 'subnet_id': subnetv6_dict['id']}], 'id': '8047e0d5-5ef5-4b6e-a1a7-d3a52ad980f7', 'mac_address': 'fa:16:3e:69:6e:e9', 'name': '', 'network_id': network_dict['id'], 'status': 'ACTIVE', 'tenant_id': network_dict['tenant_id'], 'binding:vnic_type': 'normal', 'binding:host_id': 'host', 'security_groups': [], } TEST.api_ports.add(port_dict) TEST.ports.add(neutron.Port(port_dict)) # 2nd network. network_dict = {'admin_state_up': True, 'id': '72c3ab6c-c80f-4341-9dc5-210fa31ac6c2', 'name': 'net2', 'status': 'ACTIVE', 'subnets': ['3f7c5d79-ee55-47b0-9213-8e669fb03009'], 'tenant_id': '2', 'router:external': False, 'shared': True} subnet_dict = {'allocation_pools': [{'end': '172.16.88.254', 'start': '172.16.88.2'}], 'dns_nameservers': ['10.56.1.20', '10.56.1.21'], 'host_routes': [{'destination': '192.168.20.0/24', 'nexthop': '172.16.88.253'}, {'destination': '192.168.21.0/24', 'nexthop': '172.16.88.252'}], 'cidr': '172.16.88.0/24', 'enable_dhcp': True, 'gateway_ip': '172.16.88.1', 'id': '3f7c5d79-ee55-47b0-9213-8e669fb03009', 'ip_version': 4, 'name': 'aaaa', 'network_id': network_dict['id'], 'tenant_id': network_dict['tenant_id']} TEST.api_networks.add(network_dict) TEST.api_subnets.add(subnet_dict) network = copy.deepcopy(network_dict) subnet = neutron.Subnet(subnet_dict) network['subnets'] = [subnet] TEST.networks.add(neutron.Network(network)) TEST.subnets.add(subnet) port_dict = { 'admin_state_up': True, 'device_id': '2', 'device_owner': 'compute:nova', 'fixed_ips': [{'ip_address': '172.16.88.3', 'subnet_id': subnet_dict['id']}], 'id': '1db2cc37-3553-43fa-b7e2-3fc4eb4f9905', 'mac_address': 'fa:16:3e:56:e6:2f', 'name': '', 'network_id': network_dict['id'], 'status': 'ACTIVE', 'tenant_id': network_dict['tenant_id'], 'binding:vnic_type': 'normal', 'binding:host_id': 'host', 'security_groups': [ # sec_group_1 ID below 'faad7c80-3b62-4440-967c-13808c37131d', ], } TEST.api_ports.add(port_dict) TEST.ports.add(neutron.Port(port_dict)) # External network. network_dict = {'admin_state_up': True, 'id': '9b466b94-213a-4cda-badf-72c102a874da', 'name': 'ext_net', 'status': 'ACTIVE', 'subnets': ['d6bdc71c-7566-4d32-b3ff-36441ce746e8'], 'tenant_id': '3', 'router:external': True, 'shared': False} subnet_dict = {'allocation_pools': [{'start': '172.24.4.226.', 'end': '172.24.4.238'}], 'dns_nameservers': [], 'host_routes': [], 'cidr': '172.24.4.0/28', 'enable_dhcp': False, 'gateway_ip': '172.24.4.225', 'id': 'd6bdc71c-7566-4d32-b3ff-36441ce746e8', 'ip_version': 4, 'name': 'ext_subnet', 'network_id': network_dict['id'], 'tenant_id': network_dict['tenant_id']} ext_net = network_dict TEST.api_networks.add(network_dict) TEST.api_subnets.add(subnet_dict) network = copy.deepcopy(network_dict) subnet = neutron.Subnet(subnet_dict) network['subnets'] = [subnet] TEST.networks.add(neutron.Network(network)) TEST.subnets.add(subnet) # 1st v6 network. network_dict = {'admin_state_up': True, 'id': '96688ea1-ffa5-78ec-22ca-33aaabfaf775', 'name': 'v6_net1', 'status': 'ACTIVE', 'subnets': ['88ddd443-4377-ab1f-87dd-4bc4a662dbb6'], 'tenant_id': '1', 'router:external': False, 'shared': False} subnet_dict = {'allocation_pools': [{'end': 'ff09::ff', 'start': 'ff09::02'}], 'dns_nameservers': [], 'host_routes': [], 'cidr': 'ff09::/64', 'enable_dhcp': True, 'gateway_ip': 'ff09::1', 'id': network_dict['subnets'][0], 'ip_version': 6, 'name': 'v6_subnet1', 'network_id': network_dict['id'], 'tenant_id': network_dict['tenant_id'], 'ipv6_modes': 'none/none'} TEST.api_networks.add(network_dict) TEST.api_subnets.add(subnet_dict) network = copy.deepcopy(network_dict) subnet = neutron.Subnet(subnet_dict) network['subnets'] = [subnet] TEST.networks.add(neutron.Network(network)) TEST.subnets.add(subnet) # 2nd v6 network - slaac. network_dict = {'admin_state_up': True, 'id': 'c62e4bb3-296a-4cd1-8f6b-aaa7a0092326', 'name': 'v6_net2', 'status': 'ACTIVE', 'subnets': ['5d736a21-0036-4779-8f8b-eed5f98077ec'], 'tenant_id': '1', 'router:external': False, 'shared': False} subnet_dict = {'allocation_pools': [{'end': 'ff09::ff', 'start': 'ff09::02'}], 'dns_nameservers': [], 'host_routes': [], 'cidr': 'ff09::/64', 'enable_dhcp': True, 'gateway_ip': 'ff09::1', 'id': network_dict['subnets'][0], 'ip_version': 6, 'name': 'v6_subnet2', 'network_id': network_dict['id'], 'tenant_id': network_dict['tenant_id'], 'ipv6_modes': 'slaac/slaac'} TEST.api_networks.add(network_dict) TEST.api_subnets.add(subnet_dict) network = copy.deepcopy(network_dict) subnet = neutron.Subnet(subnet_dict) network['subnets'] = [subnet] TEST.networks.add(neutron.Network(network)) TEST.subnets.add(subnet) # Set up router data. port_dict = { 'admin_state_up': True, 'device_id': '7180cede-bcd8-4334-b19f-f7ef2f331f53', 'device_owner': 'network:router_gateway', 'fixed_ips': [{'ip_address': '10.0.0.3', 'subnet_id': subnet_dict['id']}], 'id': '44ec6726-4bdc-48c5-94d4-df8d1fbf613b', 'mac_address': 'fa:16:3e:9c:d5:7e', 'name': '', 'network_id': TEST.networks.get(name="ext_net")['id'], 'status': 'ACTIVE', 'tenant_id': '1', 'binding:vnic_type': 'normal', 'binding:host_id': 'host', 'security_groups': [], } TEST.api_ports.add(port_dict) TEST.ports.add(neutron.Port(port_dict)) trunk_dict = {'status': 'UP', 'sub_ports': [], 'name': 'trunk1', 'admin_state_up': True, 'tenant_id': '1', 'project_id': '1', 'port_id': '895d375c-1447-11e7-a52f-f7f280bbc809', 'id': '94fcb9e8-1447-11e7-bed6-8b8c4ac74491'} TEST.api_trunks.add(trunk_dict) TEST.trunks.add(neutron.Trunk(trunk_dict)) router_dict = {'id': '279989f7-54bb-41d9-ba42-0d61f12fda61', 'name': 'router1', 'status': 'ACTIVE', 'admin_state_up': True, 'distributed': True, 'external_gateway_info': {'network_id': ext_net['id']}, 'tenant_id': '1', 'availability_zone_hints': ['nova']} TEST.api_routers.add(router_dict) TEST.routers.add(neutron.Router(router_dict)) router_dict = {'id': '10e3dc42-1ce1-4d48-87cf-7fc333055d6c', 'name': 'router2', 'status': 'ACTIVE', 'admin_state_up': False, 'distributed': False, 'external_gateway_info': None, 'tenant_id': '1'} TEST.api_routers.add(router_dict) TEST.routers.add(neutron.Router(router_dict)) router_dict = {'id': '7180cede-bcd8-4334-b19f-f7ef2f331f53', 'name': 'rulerouter', 'status': 'ACTIVE', 'admin_state_up': True, 'distributed': False, 'external_gateway_info': {'network_id': ext_net['id']}, 'tenant_id': '1', 'router_rules': [{'id': '101', 'action': 'deny', 'source': 'any', 'destination': 'any', 'nexthops': []}, {'id': '102', 'action': 'permit', 'source': 'any', 'destination': '8.8.8.8/32', 'nexthops': ['1.0.0.2', '1.0.0.1']}]} TEST.api_routers.add(router_dict) TEST.routers_with_rules.add(neutron.Router(router_dict)) router_dict_with_route = {'id': '725c24c9-061b-416b-b9d4-012392b32fd9', 'name': 'routerouter', 'status': 'ACTIVE', 'admin_state_up': True, 'distributed': False, 'external_gateway_info': {'network_id': ext_net['id']}, 'tenant_id': '1', 'routes': [{'nexthop': '10.0.0.1', 'destination': '172.0.0.0/24'}, {'nexthop': '10.0.0.2', 'destination': '172.1.0.0/24'}]} TEST.api_routers_with_routes.add(router_dict_with_route) TEST.routers_with_routes.add(neutron.Router(router_dict_with_route)) # Floating IP. # Unassociated. fip_dict = {'tenant_id': '1', 'floating_ip_address': '172.16.88.227', 'floating_network_id': ext_net['id'], 'id': '9012cd70-cfae-4e46-b71e-6a409e9e0063', 'fixed_ip_address': None, 'port_id': None, 'router_id': None} TEST.api_floating_ips.add(fip_dict) fip_with_instance = copy.deepcopy(fip_dict) fip_with_instance.update({'instance_id': None, 'instance_type': None}) TEST.floating_ips.add(neutron.FloatingIp(fip_with_instance)) # Associated (with compute port on 1st network). fip_dict = {'tenant_id': '1', 'floating_ip_address': '172.16.88.228', 'floating_network_id': ext_net['id'], 'id': 'a97af8f2-3149-4b97-abbd-e49ad19510f7', 'fixed_ip_address': assoc_port['fixed_ips'][0]['ip_address'], 'port_id': assoc_port['id'], 'router_id': router_dict['id']} TEST.api_floating_ips.add(fip_dict) fip_with_instance = copy.deepcopy(fip_dict) fip_with_instance.update({'instance_id': '1', 'instance_type': 'compute'}) TEST.floating_ips.add(neutron.FloatingIp(fip_with_instance)) # Security group. sec_group_1 = {'tenant_id': '1', 'description': 'default', 'id': 'faad7c80-3b62-4440-967c-13808c37131d', 'name': 'default'} sec_group_2 = {'tenant_id': '1', 'description': 'NotDefault', 'id': '27a5c9a1-bdbb-48ac-833a-2e4b5f54b31d', 'name': 'other_group'} sec_group_3 = {'tenant_id': '1', 'description': 'NotDefault', 'id': '443a4d7a-4bd2-4474-9a77-02b35c9f8c95', 'name': 'another_group'} def add_rule_to_group(secgroup, default_only=True): rule_egress_ipv4 = { 'id': uuidutils.generate_uuid(), 'direction': u'egress', 'ethertype': u'IPv4', 'port_range_min': None, 'port_range_max': None, 'protocol': None, 'remote_group_id': None, 'remote_ip_prefix': None, 'security_group_id': secgroup['id'], 'tenant_id': secgroup['tenant_id']} rule_egress_ipv6 = { 'id': uuidutils.generate_uuid(), 'direction': u'egress', 'ethertype': u'IPv6', 'port_range_min': None, 'port_range_max': None, 'protocol': None, 'remote_group_id': None, 'remote_ip_prefix': None, 'security_group_id': secgroup['id'], 'tenant_id': secgroup['tenant_id']} rule_tcp_80 = { 'id': uuidutils.generate_uuid(), 'direction': u'ingress', 'ethertype': u'IPv4', 'port_range_min': 80, 'port_range_max': 80, 'protocol': u'tcp', 'remote_group_id': None, 'remote_ip_prefix': u'0.0.0.0/0', 'security_group_id': secgroup['id'], 'tenant_id': secgroup['tenant_id']} rule_icmp = { 'id': uuidutils.generate_uuid(), 'direction': u'ingress', 'ethertype': u'IPv4', 'port_range_min': 5, 'port_range_max': 8, 'protocol': u'icmp', 'remote_group_id': None, 'remote_ip_prefix': u'0.0.0.0/0', 'security_group_id': secgroup['id'], 'tenant_id': secgroup['tenant_id']} rule_group = { 'id': uuidutils.generate_uuid(), 'direction': u'ingress', 'ethertype': u'IPv4', 'port_range_min': 80, 'port_range_max': 80, 'protocol': u'tcp', 'remote_group_id': sec_group_1['id'], 'remote_ip_prefix': None, 'security_group_id': secgroup['id'], 'tenant_id': secgroup['tenant_id']} rule_all_tcp = { 'id': uuidutils.generate_uuid(), 'direction': u'egress', 'ethertype': u'IPv4', 'port_range_min': 1, 'port_range_max': 65535, 'protocol': u'tcp', 'remote_group_id': None, 'remote_ip_prefix': u'0.0.0.0/24', 'security_group_id': secgroup['id'], 'tenant_id': secgroup['tenant_id']} rules = [] if not default_only: rules += [rule_tcp_80, rule_icmp, rule_group, rule_all_tcp] rules += [rule_egress_ipv4, rule_egress_ipv6] secgroup['security_group_rules'] = rules add_rule_to_group(sec_group_1, default_only=False) add_rule_to_group(sec_group_2) add_rule_to_group(sec_group_3) groups = [sec_group_1, sec_group_2, sec_group_3] sg_name_dict = dict([(sg['id'], sg['name']) for sg in groups]) for sg in groups: # Neutron API. TEST.api_security_groups.add(sg) for rule in sg['security_group_rules']: TEST.api_security_group_rules.add(copy.copy(rule)) # OpenStack Dashboard internaly API. TEST.security_groups.add( neutron.SecurityGroup(copy.deepcopy(sg), sg_name_dict)) for rule in sg['security_group_rules']: TEST.security_group_rules.add( neutron.SecurityGroupRule(copy.copy(rule), sg_name_dict)) # Subnetpools # 1st subnetpool subnetpool_dict = {'default_prefixlen': 24, 'default_quota': None, 'id': '419eb314-e244-4088-aed7-851af9d9500d', 'ip_version': 4, 'max_prefixlen': 32, 'min_prefixlen': 12, 'name': 'mysubnetpool1', 'prefixes': ['172.16.0.0/12'], 'shared': False, 'tenant_id': '1'} TEST.api_subnetpools.add(subnetpool_dict) subnetpool = neutron.SubnetPool(subnetpool_dict) TEST.subnetpools.add(subnetpool) # 2nd subnetpool (v6) subnetpool_dict = {'default_prefixlen': 64, 'default_quota': None, 'id': 'dcdad289-46f3-4298-bec6-41d91c942efa', 'ip_version': 6, 'max_prefixlen': 64, 'min_prefixlen': 60, 'name': 'mysubnetpool2', 'prefixes': ['2001:db8:42::/48'], 'shared': False, 'tenant_id': '1'} TEST.api_subnetpools.add(subnetpool_dict) subnetpool = neutron.SubnetPool(subnetpool_dict) TEST.subnetpools.add(subnetpool) # Quotas. quota_data = {'network': '10', 'subnet': '10', 'port': '50', 'router': '10', 'floatingip': '50', 'security_group': '20', 'security_group_rule': '100', } TEST.neutron_quotas.add(base.QuotaSet(quota_data)) # Quota Usages quota_usage_data = {'networks': {'used': 0, 'quota': 5}, 'subnets': {'used': 0, 'quota': 5}, 'ports': {'used': 0, 'quota': 5}, 'routers': {'used': 0, 'quota': 5}, } quota_usage = usage_quotas.QuotaUsage() for k, v in quota_usage_data.items(): quota_usage.add_quota(base.Quota(k, v['quota'])) quota_usage.tally(k, v['used']) TEST.neutron_quota_usages.add(quota_usage) # Extensions. extension_1 = {"name": "security-group", "alias": "security-group", "description": "The security groups extension."} extension_2 = {"name": "Quota management support", "alias": "quotas", "description": "Expose functions for quotas management"} extension_3 = {"name": "Provider network", "alias": "provider", "description": "Provider network extension"} extension_4 = {"name": "Distributed Virtual Router", "alias": "dvr", "description": "Enables configuration of Distributed Virtual Routers."} extension_5 = {"name": "HA Router extension", "alias": "l3-ha", "description": "Add HA capability to routers."} extension_6 = {"name": "Trunks", "alias": "trunk", "description": "Provides support for trunk ports."} TEST.api_extensions.add(extension_1) TEST.api_extensions.add(extension_2) TEST.api_extensions.add(extension_3) TEST.api_extensions.add(extension_4) TEST.api_extensions.add(extension_5) TEST.api_extensions.add(extension_6) # 1st agent. agent_dict = {"binary": "neutron-openvswitch-agent", "description": None, "admin_state_up": True, "heartbeat_timestamp": "2013-07-26 06:51:47", "alive": True, "id": "c876ff05-f440-443e-808c-1d34cda3e88a", "topic": "N/A", "host": "devstack001", "agent_type": "Open vSwitch agent", "started_at": "2013-07-26 05:23:28", "created_at": "2013-07-26 05:23:28", "configurations": {"devices": 2}} TEST.api_agents.add(agent_dict) TEST.agents.add(neutron.Agent(agent_dict)) # 2nd agent. agent_dict = {"binary": "neutron-dhcp-agent", "description": None, "admin_state_up": True, "heartbeat_timestamp": "2013-07-26 06:51:48", "alive": True, "id": "f0d12e3d-1973-41a2-b977-b95693f9a8aa", "topic": "dhcp_agent", "host": "devstack001", "agent_type": "DHCP agent", "started_at": "2013-07-26 05:23:30", "created_at": "2013-07-26 05:23:30", "configurations": { "subnets": 1, "use_namespaces": True, "dhcp_lease_duration": 120, "dhcp_driver": "neutron.agent.linux.dhcp.Dnsmasq", "networks": 1, "ports": 1}} TEST.api_agents.add(agent_dict) TEST.agents.add(neutron.Agent(agent_dict)) # Service providers. provider_1 = {"service_type": "LOADBALANCER", "name": "haproxy", "default": True} TEST.providers.add(provider_1) # ports on 4th network port_dict = { 'admin_state_up': True, 'device_id': '9872faaa-b2b2-eeee-9911-21332eedaa77', 'device_owner': 'network:dhcp', 'fixed_ips': [{'ip_address': '11.10.0.3', 'subnet_id': TEST.subnets.first().id}], 'id': 'a21dcd22-6733-cccc-aa32-22adafaf16a2', 'mac_address': '78:22:ff:1a:ba:23', 'name': 'port5', 'network_id': TEST.networks.first().id, 'status': 'ACTIVE', 'tenant_id': TEST.networks.first().tenant_id, 'binding:vnic_type': 'normal', 'binding:host_id': 'host', 'security_groups': [], } TEST.api_ports.add(port_dict) TEST.ports.add(neutron.Port(port_dict)) availability = {'network_ip_availability': { 'used_ips': 2, 'subnet_ip_availability': [{ 'used_ips': 1, 'subnet_id': '2c90f321-9cc7-41b4-a3cf-88110f120a94', 'subnet_name': 'ipv6-public-subnet', 'ip_version': 6, 'cidr': '2001:db8::/64', 'total_ips': 18446744073709551614}, {'used_ips': 1, 'subnet_id': '4d77d5fb-c26c-4ac5-b2ca-fca2f89b0fc1', 'subnet_name': 'public-subnet', 'ip_version': 4, 'cidr': '172.24.4.0/24', 'total_ips': 253}], 'network_id': 'd87d5be5-cfca-486f-8db5-a446330e4513', 'tenant_id': 'd564b2a4fc0544fb89f8a0434dd96863', 'network_name': 'public', 'total_ips': 18446744073709551867} } TEST.ip_availability.add(availability) TEST.api_ip_availability.add(availability) # qos policies policy_dict = {'id': 'a21dcd22-7189-cccc-aa32-22adafaf16a7', 'name': 'policy 1', 'tenant_id': '1'} TEST.api_qos_policies.add(policy_dict) TEST.qos_policies.add(neutron.QoSPolicy(policy_dict)) policy_dict1 = {'id': 'a21dcd22-7189-ssss-aa32-22adafaf16a7', 'name': 'policy 2', 'tenant_id': '1'} TEST.api_qos_policies.add(policy_dict1) TEST.qos_policies.add(neutron.QoSPolicy(policy_dict1)) # TRUNKPORT # # The test setup was created by the following command sequence: # openstack network create tst # openstack subnet create tstsub --network tst\ # --subnet-range 10.10.16.128/26 # openstack network create tstalt # openstack subnet create tstaltsub --network tstalt\ # --subnet-range 10.10.17.128/26 # openstack port create --network tst plain # openstack port create --network tst parent # openstack port create --network tst child1 # openstack port create --network tstalt child2 # openstack network trunk create --parent-port parent trunk # openstack network trunk set\ # --subport port=child1,segmentation-type=vlan,segmentation-id=100 trunk # openstack network trunk set\ # --subport port=child2,segmentation-type=vlan,segmentation-id=200 trunk # ids/uuids are captured from a live setup. # This collection holds the test setup. tdata = {'tenant_id': '19c9123a944644cb9e923497a018d0b7', 'trunk_id': '920625a3-13de-46b4-b6c9-8b35f29b3cfe', 'security_group': '3fd8c007-9093-4aa3-b475-a0c178d4e1e4', 'tag_1': 100, 'tag_2': 200, 'net': {'tst_id': '5a340332-cc92-42aa-8980-15f47c0d0f3d', 'tstalt_id': '0fb41ffd-3933-4da4-8a83-025d328aedf3'}, 'subnet': {'tst_id': '0b883baf-5a21-4605-ab56-229a24ec585b', 'tstalt_id': '0e184cf2-97dc-4738-b4b3-1871faf5d685'}, 'child1': {'id': '9c151ffb-d7a6-4f15-8eae-d0950999fdfe', 'ip': '10.10.16.140', 'mac': 'fa:16:3e:22:63:6f', 'device_id': '279989f7-54bb-41d9-ba42-0d61f12fda61'}, 'child2': {'id': 'cedb145f-c163-4630-98a3-e1990744bdef', 'ip': '10.10.17.137', 'mac': 'fa:16:3e:0d:ca:eb', 'device_id': '9872faaa-b2b2-eeee-9911-21332eedaa77'}, 'parent': {'id': '5b27429d-048b-40fa-88f9-8e2c4ff7d28b', 'ip': '10.10.16.141', 'mac': 'fa:16:3e:ab:a8:22', 'device_id': 'af75c8e5-a1cc-4567-8d04-44fcd6922890'}, 'plain': {'id': 'bc04da56-d7fc-461e-b95d-a2c66e77ad9a', 'ip': '10.10.16.135', 'mac': 'fa:16:3e:9c:d5:7f', 'device_id': '7180cede-bcd8-4334-b19f-f7ef2f331f53'}} # network tst # trunk tp_trunk_dict = { 'status': 'UP', 'sub_ports': [{'segmentation_type': 'vlan', 'segmentation_id': tdata['tag_1'], 'port_id': tdata['child1']['id']}, {'segmentation_type': u'vlan', 'segmentation_id': tdata['tag_2'], 'port_id': tdata['child2']['id']}], 'name': 'trunk', 'admin_state_up': True, 'tenant_id': tdata['tenant_id'], 'project_id': tdata['tenant_id'], 'port_id': tdata['parent']['id'], 'id': tdata['trunk_id'] } TEST.api_tp_trunks.add(tp_trunk_dict) # port parent parent_port_dict = { 'admin_state_up': True, 'device_id': tdata['parent']['device_id'], 'device_owner': 'compute:nova', 'fixed_ips': [{'ip_address': tdata['parent']['ip'], 'subnet_id': tdata['subnet']['tst_id']}], 'id': tdata['parent']['id'], 'mac_address': tdata['parent']['mac'], 'name': 'parent', 'network_id': tdata['net']['tst_id'], 'status': 'ACTIVE', 'tenant_id': tdata['tenant_id'], 'binding:vnic_type': 'normal', 'binding:host_id': 'host', 'security_groups': [tdata['security_group']], 'trunk_details': { 'sub_ports': [{'segmentation_type': 'vlan', 'mac_address': tdata['child1']['mac'], 'segmentation_id': tdata['tag_1'], 'port_id': tdata['child1']['id']}, {'segmentation_type': 'vlan', 'mac_address': tdata['child2']['mac'], 'segmentation_id': tdata['tag_2'], 'port_id': tdata['child2']['id']}], 'trunk_id': tdata['trunk_id']} } TEST.api_tp_ports.add(parent_port_dict) TEST.tp_ports.add(neutron.PortTrunkParent(parent_port_dict)) # port child1 child1_port_dict = { 'admin_state_up': True, 'device_id': tdata['child1']['device_id'], 'device_owner': 'compute:nova', 'fixed_ips': [{'ip_address': tdata['child1']['ip'], 'subnet_id': tdata['subnet']['tst_id']}], 'id': tdata['child1']['id'], 'mac_address': tdata['child1']['mac'], 'name': 'child1', 'network_id': tdata['net']['tst_id'], 'status': 'ACTIVE', 'tenant_id': tdata['tenant_id'], 'binding:vnic_type': 'normal', 'binding:host_id': 'host', 'security_groups': [tdata['security_group']] } TEST.api_tp_ports.add(child1_port_dict) TEST.tp_ports.add(neutron.PortTrunkSubport( child1_port_dict, {'trunk_id': tdata['trunk_id'], 'segmentation_type': 'vlan', 'segmentation_id': tdata['tag_1']})) # port plain port_dict = { 'admin_state_up': True, 'device_id': tdata['plain']['device_id'], 'device_owner': 'compute:nova', 'fixed_ips': [{'ip_address': tdata['plain']['ip'], 'subnet_id': tdata['subnet']['tst_id']}], 'id': tdata['plain']['id'], 'mac_address': tdata['plain']['mac'], 'name': 'plain', 'network_id': tdata['net']['tst_id'], 'status': 'ACTIVE', 'tenant_id': tdata['tenant_id'], 'binding:vnic_type': 'normal', 'binding:host_id': 'host', 'security_groups': [tdata['security_group']] } TEST.api_tp_ports.add(port_dict) TEST.tp_ports.add(neutron.Port(port_dict)) # network tstalt # port child2 child2_port_dict = { 'admin_state_up': True, 'device_id': tdata['child2']['device_id'], 'device_owner': 'compute:nova', 'fixed_ips': [{'ip_address': tdata['child2']['ip'], 'subnet_id': tdata['subnet']['tstalt_id']}], 'id': tdata['child2']['id'], 'mac_address': tdata['child2']['mac'], 'name': 'child2', 'network_id': tdata['net']['tstalt_id'], 'status': 'ACTIVE', 'tenant_id': tdata['tenant_id'], 'binding:vnic_type': 'normal', 'binding:host_id': 'host', 'security_groups': [tdata['security_group']] } TEST.api_tp_ports.add(child2_port_dict) TEST.tp_ports.add(neutron.PortTrunkSubport( child2_port_dict, {'trunk_id': tdata['trunk_id'], 'segmentation_type': 'vlan', 'segmentation_id': tdata['tag_2']})) # Availability Zones TEST.neutron_availability_zones.add( { 'state': 'available', 'resource': 'router', 'name': 'nova' } )