549 lines
24 KiB
Python
549 lines
24 KiB
Python
# vim: tabstop=4 shiftwidth=4 softtabstop=4
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# Copyright 2013 Cisco Systems, Inc.
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#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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#
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# @author: Juergen Brendel, Cisco Systems Inc.
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# @author: Abhishek Raut, Cisco Systems Inc.
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# @author: Sourabh Patwardhan, Cisco Systems Inc.
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from mock import patch
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from neutron.api import extensions as neutron_extensions
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from neutron.api.v2 import attributes
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from neutron import context
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import neutron.db.api as db
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from neutron.extensions import portbindings
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from neutron.plugins.cisco.common import cisco_exceptions as c_exc
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from neutron.plugins.cisco.db import n1kv_db_v2
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from neutron.plugins.cisco.db import network_db_v2 as cdb
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from neutron.plugins.cisco import extensions
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from neutron.plugins.cisco.extensions import n1kv
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from neutron.plugins.cisco.extensions import network_profile
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from neutron.plugins.cisco.n1kv import n1kv_client
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from neutron.plugins.cisco.n1kv import n1kv_neutron_plugin
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from neutron.tests.unit import _test_extension_portbindings as test_bindings
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from neutron.tests.unit.cisco.n1kv import fake_client
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from neutron.tests.unit import test_api_v2
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from neutron.tests.unit import test_db_plugin as test_plugin
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PHYS_NET = 'some-phys-net'
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VLAN_MIN = 100
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VLAN_MAX = 110
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class FakeResponse(object):
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"""
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This object is returned by mocked httplib instead of a normal response.
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Initialize it with the status code, content type and buffer contents
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you wish to return.
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"""
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def __init__(self, status, response_text, content_type):
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self.buffer = response_text
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self.status = status
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def __getitem__(cls, val):
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return "application/xml"
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def read(self, *args, **kwargs):
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return self.buffer
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def _fake_setup_vsm(self):
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"""Fake establish Communication with Cisco Nexus1000V VSM."""
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self.agent_vsm = True
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self._poll_policies(event_type="port_profile")
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class NetworkProfileTestExtensionManager(object):
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def get_resources(self):
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# Add the resources to the global attribute map
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# This is done here as the setup process won't
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# initialize the main API router which extends
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# the global attribute map
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attributes.RESOURCE_ATTRIBUTE_MAP.update(
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network_profile.RESOURCE_ATTRIBUTE_MAP)
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return network_profile.Network_profile.get_resources()
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def get_actions(self):
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return []
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def get_request_extensions(self):
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return []
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class N1kvPluginTestCase(test_plugin.NeutronDbPluginV2TestCase):
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_plugin_name = ('neutron.plugins.cisco.n1kv.'
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'n1kv_neutron_plugin.N1kvNeutronPluginV2')
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tenant_id = "some_tenant"
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DEFAULT_RESP_BODY = ""
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DEFAULT_RESP_CODE = 200
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DEFAULT_CONTENT_TYPE = ""
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fmt = "json"
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def _make_test_policy_profile(self, name='service_profile'):
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"""
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Create a policy profile record for testing purpose.
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:param name: string representing the name of the policy profile to
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create. Default argument value chosen to correspond to the
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default name specified in config.py file.
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"""
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uuid = test_api_v2._uuid()
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profile = {'id': uuid,
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'name': name}
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return n1kv_db_v2.create_policy_profile(profile)
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def _make_test_profile(self,
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name='default_network_profile',
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segment_range='386-400'):
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"""
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Create a profile record for testing purposes.
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:param name: string representing the name of the network profile to
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create. Default argument value chosen to correspond to the
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default name specified in config.py file.
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:param segment_range: string representing the segment range for network
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profile.
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"""
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db_session = db.get_session()
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profile = {'name': name,
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'segment_type': 'vlan',
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'physical_network': PHYS_NET,
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'tenant_id': self.tenant_id,
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'segment_range': segment_range}
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net_p = n1kv_db_v2.create_network_profile(db_session, profile)
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n1kv_db_v2.sync_vlan_allocations(db_session, net_p)
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return net_p
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def setUp(self):
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"""
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Setup method for n1kv plugin tests.
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First step is to define an acceptable response from the VSM to
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our requests. This needs to be done BEFORE the setUp() function
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of the super-class is called.
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This default here works for many cases. If you need something
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extra, please define your own setUp() function in your test class,
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and set your DEFAULT_RESPONSE value also BEFORE calling the
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setUp() of the super-function (this one here). If you have set
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a value already, it will not be overwritten by this code.
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"""
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if not self.DEFAULT_RESP_BODY:
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self.DEFAULT_RESP_BODY = (
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"""<?xml version="1.0" encoding="utf-8"?>
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<set name="events_set">
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<instance name="1" url="/api/hyper-v/events/1">
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<properties>
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<cmd>configure terminal ; port-profile type vethernet grizzlyPP
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(SUCCESS)
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</cmd>
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<id>42227269-e348-72ed-bdb7-7ce91cd1423c</id>
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<time>1369223611</time>
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<name>grizzlyPP</name>
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</properties>
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</instance>
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<instance name="2" url="/api/hyper-v/events/2">
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<properties>
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<cmd>configure terminal ; port-profile type vethernet havanaPP
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(SUCCESS)
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</cmd>
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<id>3fc83608-ae36-70e7-9d22-dec745623d06</id>
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<time>1369223661</time>
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<name>havanaPP</name>
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</properties>
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</instance>
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</set>
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""")
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# Creating a mock HTTP connection object for httplib. The N1KV client
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# interacts with the VSM via HTTP. Since we don't have a VSM running
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# in the unit tests, we need to 'fake' it by patching the HTTP library
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# itself. We install a patch for a fake HTTP connection class.
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# Using __name__ to avoid having to enter the full module path.
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http_patcher = patch(n1kv_client.httplib2.__name__ + ".Http")
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FakeHttpConnection = http_patcher.start()
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# Now define the return values for a few functions that may be called
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# on any instance of the fake HTTP connection class.
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instance = FakeHttpConnection.return_value
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instance.getresponse.return_value = (FakeResponse(
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self.DEFAULT_RESP_CODE,
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self.DEFAULT_RESP_BODY,
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'application/xml'))
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instance.request.return_value = (instance.getresponse.return_value,
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self.DEFAULT_RESP_BODY)
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# Patch some internal functions in a few other parts of the system.
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# These help us move along, without having to mock up even more systems
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# in the background.
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# Return a dummy VSM IP address
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get_vsm_hosts_patcher = patch(n1kv_client.__name__ +
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".Client._get_vsm_hosts")
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fake_get_vsm_hosts = get_vsm_hosts_patcher.start()
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fake_get_vsm_hosts.return_value = ["127.0.0.1"]
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# Return dummy user profiles
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get_cred_name_patcher = patch(cdb.__name__ + ".get_credential_name")
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fake_get_cred_name = get_cred_name_patcher.start()
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fake_get_cred_name.return_value = {"user_name": "admin",
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"password": "admin_password"}
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n1kv_neutron_plugin.N1kvNeutronPluginV2._setup_vsm = _fake_setup_vsm
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neutron_extensions.append_api_extensions_path(extensions.__path__)
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ext_mgr = NetworkProfileTestExtensionManager()
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# Save the original RESOURCE_ATTRIBUTE_MAP
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self.saved_attr_map = {}
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for resource, attrs in attributes.RESOURCE_ATTRIBUTE_MAP.items():
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self.saved_attr_map[resource] = attrs.copy()
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# Update the RESOURCE_ATTRIBUTE_MAP with n1kv specific extended attrs.
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attributes.RESOURCE_ATTRIBUTE_MAP["networks"].update(
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n1kv.EXTENDED_ATTRIBUTES_2_0["networks"])
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attributes.RESOURCE_ATTRIBUTE_MAP["ports"].update(
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n1kv.EXTENDED_ATTRIBUTES_2_0["ports"])
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self.addCleanup(self.restore_resource_attribute_map)
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self.addCleanup(db.clear_db)
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super(N1kvPluginTestCase, self).setUp(self._plugin_name,
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ext_mgr=ext_mgr)
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# Create some of the database entries that we require.
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self._make_test_profile()
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self._make_test_policy_profile()
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def restore_resource_attribute_map(self):
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# Restore the original RESOURCE_ATTRIBUTE_MAP
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attributes.RESOURCE_ATTRIBUTE_MAP = self.saved_attr_map
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def test_plugin(self):
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self._make_network('json',
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'some_net',
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True,
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tenant_id=self.tenant_id,
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set_context=True)
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req = self.new_list_request('networks', params="fields=tenant_id")
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req.environ['neutron.context'] = context.Context('', self.tenant_id)
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res = req.get_response(self.api)
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self.assertEqual(res.status_int, 200)
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body = self.deserialize('json', res)
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self.assertIn('tenant_id', body['networks'][0])
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class TestN1kvNetworkProfiles(N1kvPluginTestCase):
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def _prepare_net_profile_data(self, segment_type):
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netp = {'network_profile': {'name': 'netp1',
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'segment_type': segment_type,
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'tenant_id': self.tenant_id}}
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if segment_type == 'vlan':
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netp['network_profile']['segment_range'] = '100-110'
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netp['network_profile']['physical_network'] = PHYS_NET
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elif segment_type == 'overlay':
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netp['network_profile']['segment_range'] = '10000-10010'
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netp['network_profile']['sub_type'] = 'enhanced' or 'native_vxlan'
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netp['network_profile']['multicast_ip_range'] = ("224.1.1.1-"
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"224.1.1.10")
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return netp
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def test_create_network_profile_vlan(self):
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data = self._prepare_net_profile_data('vlan')
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net_p_req = self.new_create_request('network_profiles', data)
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res = net_p_req.get_response(self.ext_api)
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self.assertEqual(res.status_int, 201)
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def test_create_network_profile_overlay(self):
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data = self._prepare_net_profile_data('overlay')
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net_p_req = self.new_create_request('network_profiles', data)
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res = net_p_req.get_response(self.ext_api)
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self.assertEqual(res.status_int, 201)
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def test_create_network_profile_overlay_unreasonable_seg_range(self):
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data = self._prepare_net_profile_data('overlay')
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data['network_profile']['segment_range'] = '10000-100000000001'
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net_p_req = self.new_create_request('network_profiles', data)
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res = net_p_req.get_response(self.ext_api)
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self.assertEqual(res.status_int, 400)
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def test_update_network_profile_plugin(self):
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net_p_dict = self._prepare_net_profile_data('overlay')
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net_p_req = self.new_create_request('network_profiles', net_p_dict)
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net_p = self.deserialize(self.fmt,
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net_p_req.get_response(self.ext_api))
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data = {'network_profile': {'name': 'netp2'}}
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update_req = self.new_update_request('network_profiles',
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data,
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net_p['network_profile']['id'])
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update_res = update_req.get_response(self.ext_api)
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self.assertEqual(update_res.status_int, 200)
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def test_update_network_profile_physical_network_fail(self):
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net_p = self._make_test_profile(name='netp1')
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data = {'network_profile': {'physical_network': PHYS_NET}}
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net_p_req = self.new_update_request('network_profiles',
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data,
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net_p['id'])
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res = net_p_req.get_response(self.ext_api)
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self.assertEqual(res.status_int, 400)
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def test_update_network_profile_segment_type_fail(self):
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net_p = self._make_test_profile(name='netp1')
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data = {'network_profile': {'segment_type': 'overlay'}}
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net_p_req = self.new_update_request('network_profiles',
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data,
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net_p['id'])
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res = net_p_req.get_response(self.ext_api)
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self.assertEqual(res.status_int, 400)
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def test_update_network_profile_sub_type_fail(self):
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net_p_dict = self._prepare_net_profile_data('overlay')
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net_p_req = self.new_create_request('network_profiles', net_p_dict)
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net_p = self.deserialize(self.fmt,
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net_p_req.get_response(self.ext_api))
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data = {'network_profile': {'sub_type': 'vlan'}}
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update_req = self.new_update_request('network_profiles',
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data,
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net_p['network_profile']['id'])
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update_res = update_req.get_response(self.ext_api)
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self.assertEqual(update_res.status_int, 400)
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def test_create_overlay_network_profile_invalid_multicast_fail(self):
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net_p_dict = self._prepare_net_profile_data('overlay')
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data = {'network_profile': {'sub_type': 'native_vxlan',
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'multicast_ip_range': '1.1.1.1'}}
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net_p_req = self.new_create_request('network_profiles', data,
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net_p_dict)
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res = net_p_req.get_response(self.ext_api)
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self.assertEqual(res.status_int, 400)
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def test_create_overlay_network_profile_no_multicast_fail(self):
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net_p_dict = self._prepare_net_profile_data('overlay')
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data = {'network_profile': {'sub_type': 'native_vxlan',
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'multicast_ip_range': ''}}
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net_p_req = self.new_create_request('network_profiles', data,
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net_p_dict)
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res = net_p_req.get_response(self.ext_api)
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self.assertEqual(res.status_int, 400)
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def test_create_overlay_network_profile_wrong_split_multicast_fail(self):
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net_p_dict = self._prepare_net_profile_data('overlay')
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data = {'network_profile': {
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'sub_type': 'native_vxlan',
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'multicast_ip_range': '224.1.1.1.224.1.1.3'}}
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net_p_req = self.new_create_request('network_profiles', data,
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net_p_dict)
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res = net_p_req.get_response(self.ext_api)
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self.assertEqual(res.status_int, 400)
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def test_create_overlay_network_profile_invalid_minip_multicast_fail(self):
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net_p_dict = self._prepare_net_profile_data('overlay')
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data = {'network_profile': {
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'sub_type': 'native_vxlan',
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'multicast_ip_range': '10.0.0.1-224.1.1.3'}}
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net_p_req = self.new_create_request('network_profiles', data,
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net_p_dict)
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res = net_p_req.get_response(self.ext_api)
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self.assertEqual(res.status_int, 400)
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def test_create_overlay_network_profile_invalid_maxip_multicast_fail(self):
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net_p_dict = self._prepare_net_profile_data('overlay')
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data = {'network_profile': {
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'sub_type': 'native_vxlan',
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'multicast_ip_range': '224.1.1.1-20.0.0.1'}}
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net_p_req = self.new_create_request('network_profiles', data,
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net_p_dict)
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res = net_p_req.get_response(self.ext_api)
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self.assertEqual(res.status_int, 400)
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def test_create_overlay_network_profile_correct_multicast_pass(self):
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data = self._prepare_net_profile_data('overlay')
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net_p_req = self.new_create_request('network_profiles', data)
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res = net_p_req.get_response(self.ext_api)
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self.assertEqual(res.status_int, 201)
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def test_create_network_profile_populate_vlan_segment_pool(self):
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db_session = db.get_session()
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net_p_dict = self._prepare_net_profile_data('vlan')
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net_p_req = self.new_create_request('network_profiles', net_p_dict)
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self.deserialize(self.fmt,
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net_p_req.get_response(self.ext_api))
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for vlan in range(VLAN_MIN, VLAN_MAX + 1):
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self.assertIsNotNone(n1kv_db_v2.get_vlan_allocation(db_session,
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PHYS_NET,
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vlan))
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self.assertFalse(n1kv_db_v2.get_vlan_allocation(db_session,
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PHYS_NET,
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vlan).allocated)
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self.assertRaises(c_exc.VlanIDNotFound,
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n1kv_db_v2.get_vlan_allocation,
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db_session,
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PHYS_NET,
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VLAN_MIN - 1)
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self.assertRaises(c_exc.VlanIDNotFound,
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n1kv_db_v2.get_vlan_allocation,
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db_session,
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PHYS_NET,
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VLAN_MAX + 1)
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def test_delete_network_profile_deallocate_vlan_segment_pool(self):
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db_session = db.get_session()
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net_p_dict = self._prepare_net_profile_data('vlan')
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net_p_req = self.new_create_request('network_profiles', net_p_dict)
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net_p = self.deserialize(self.fmt,
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net_p_req.get_response(self.ext_api))
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self.assertIsNotNone(n1kv_db_v2.get_vlan_allocation(db_session,
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PHYS_NET,
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VLAN_MIN))
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self._delete('network_profiles', net_p['network_profile']['id'])
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for vlan in range(VLAN_MIN, VLAN_MAX + 1):
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self.assertRaises(c_exc.VlanIDNotFound,
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n1kv_db_v2.get_vlan_allocation,
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db_session,
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PHYS_NET,
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vlan)
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class TestN1kvBasicGet(test_plugin.TestBasicGet,
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N1kvPluginTestCase):
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pass
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class TestN1kvHTTPResponse(test_plugin.TestV2HTTPResponse,
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N1kvPluginTestCase):
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pass
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class TestN1kvPorts(test_plugin.TestPortsV2,
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N1kvPluginTestCase,
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test_bindings.PortBindingsTestCase):
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VIF_TYPE = portbindings.VIF_TYPE_OVS
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HAS_PORT_FILTER = False
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def test_create_port_with_default_n1kv_policy_profile_id(self):
|
|
"""Test port create without passing policy profile id."""
|
|
with self.port() as port:
|
|
db_session = db.get_session()
|
|
pp = n1kv_db_v2.get_policy_profile(
|
|
db_session, port['port'][n1kv.PROFILE_ID])
|
|
self.assertEqual(pp['name'], 'service_profile')
|
|
|
|
def test_create_port_with_n1kv_policy_profile_id(self):
|
|
"""Test port create with policy profile id."""
|
|
profile_obj = self._make_test_policy_profile(name='test_profile')
|
|
with self.network() as network:
|
|
data = {'port': {n1kv.PROFILE_ID: profile_obj.id,
|
|
'tenant_id': self.tenant_id,
|
|
'network_id': network['network']['id']}}
|
|
port_req = self.new_create_request('ports', data)
|
|
port = self.deserialize(self.fmt,
|
|
port_req.get_response(self.api))
|
|
self.assertEqual(port['port'][n1kv.PROFILE_ID],
|
|
profile_obj.id)
|
|
self._delete('ports', port['port']['id'])
|
|
|
|
def test_update_port_with_n1kv_policy_profile_id(self):
|
|
"""Test port update failure while updating policy profile id."""
|
|
with self.port() as port:
|
|
data = {'port': {n1kv.PROFILE_ID: 'some-profile-uuid'}}
|
|
port_req = self.new_update_request('ports',
|
|
data,
|
|
port['port']['id'])
|
|
res = port_req.get_response(self.api)
|
|
# Port update should fail to update policy profile id.
|
|
self.assertEqual(res.status_int, 400)
|
|
|
|
def test_create_first_port_invalid_parameters_fail(self):
|
|
"""Test parameters for first port create sent to the VSM."""
|
|
profile_obj = self._make_test_policy_profile(name='test_profile')
|
|
with self.network() as network:
|
|
client_patch = patch(n1kv_client.__name__ + ".Client",
|
|
new=fake_client.TestClientInvalidRequest)
|
|
client_patch.start()
|
|
data = {'port': {n1kv.PROFILE_ID: profile_obj.id,
|
|
'tenant_id': self.tenant_id,
|
|
'network_id': network['network']['id'],
|
|
}}
|
|
port_req = self.new_create_request('ports', data)
|
|
res = port_req.get_response(self.api)
|
|
self.assertEqual(res.status_int, 500)
|
|
client_patch.stop()
|
|
|
|
def test_create_next_port_invalid_parameters_fail(self):
|
|
"""Test parameters for subsequent port create sent to the VSM."""
|
|
with self.port() as port:
|
|
client_patch = patch(n1kv_client.__name__ + ".Client",
|
|
new=fake_client.TestClientInvalidRequest)
|
|
client_patch.start()
|
|
data = {'port': {n1kv.PROFILE_ID: port['port']['n1kv:profile_id'],
|
|
'tenant_id': port['port']['tenant_id'],
|
|
'network_id': port['port']['network_id']}}
|
|
port_req = self.new_create_request('ports', data)
|
|
res = port_req.get_response(self.api)
|
|
self.assertEqual(res.status_int, 500)
|
|
client_patch.stop()
|
|
|
|
|
|
class TestN1kvNetworks(test_plugin.TestNetworksV2,
|
|
N1kvPluginTestCase):
|
|
|
|
def _prepare_net_data(self, net_profile_id):
|
|
return {'network': {'name': 'net1',
|
|
n1kv.PROFILE_ID: net_profile_id,
|
|
'tenant_id': self.tenant_id}}
|
|
|
|
def test_create_network_with_default_n1kv_network_profile_id(self):
|
|
"""Test network create without passing network profile id."""
|
|
with self.network() as network:
|
|
db_session = db.get_session()
|
|
np = n1kv_db_v2.get_network_profile(
|
|
db_session, network['network'][n1kv.PROFILE_ID])
|
|
self.assertEqual(np['name'], 'default_network_profile')
|
|
|
|
def test_create_network_with_n1kv_network_profile_id(self):
|
|
"""Test network create with network profile id."""
|
|
profile_obj = self._make_test_profile(name='test_profile')
|
|
data = self._prepare_net_data(profile_obj.id)
|
|
network_req = self.new_create_request('networks', data)
|
|
network = self.deserialize(self.fmt,
|
|
network_req.get_response(self.api))
|
|
self.assertEqual(network['network'][n1kv.PROFILE_ID],
|
|
profile_obj.id)
|
|
|
|
def test_update_network_with_n1kv_network_profile_id(self):
|
|
"""Test network update failure while updating network profile id."""
|
|
with self.network() as network:
|
|
data = {'network': {n1kv.PROFILE_ID: 'some-profile-uuid'}}
|
|
network_req = self.new_update_request('networks',
|
|
data,
|
|
network['network']['id'])
|
|
res = network_req.get_response(self.api)
|
|
# Network update should fail to update network profile id.
|
|
self.assertEqual(res.status_int, 400)
|
|
|
|
|
|
class TestN1kvSubnets(test_plugin.TestSubnetsV2,
|
|
N1kvPluginTestCase):
|
|
|
|
pass
|