349 lines
16 KiB
Python
349 lines
16 KiB
Python
# Copyright 2012 United States Government as represented by the
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# Administrator of the National Aeronautics and Space Administration.
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# All Rights Reserved.
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#
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# Copyright 2012 Nebula, Inc.
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# Copyright (c) 2012 X.commerce, a business unit of eBay 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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from django.core.urlresolvers import reverse
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from django import http
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from django.utils.http import urlencode
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from mox3.mox import IsA
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import six
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from openstack_dashboard import api
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from openstack_dashboard.test import helpers as test
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from openstack_dashboard.usage import quotas
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from horizon.workflows import views
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INDEX_URL = reverse('horizon:project:floating_ips:index')
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NAMESPACE = "horizon:project:floating_ips"
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class FloatingIpViewTests(test.TestCase):
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@test.create_stubs({api.neutron: ('floating_ip_target_list',
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'tenant_floating_ip_list',)})
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def test_associate(self):
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api.neutron.floating_ip_target_list(IsA(http.HttpRequest)) \
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.AndReturn(self._get_fip_targets())
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api.neutron.tenant_floating_ip_list(IsA(http.HttpRequest)) \
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.AndReturn(self.floating_ips.list())
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self.mox.ReplayAll()
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url = reverse('%s:associate' % NAMESPACE)
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res = self.client.get(url)
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self.assertTemplateUsed(res, views.WorkflowView.template_name)
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workflow = res.context['workflow']
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choices = dict(workflow.steps[0].action.fields['ip_id'].choices)
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# Verify that our "associated" floating IP isn't in the choices list.
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self.assertNotIn(self.floating_ips.first(), choices)
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@test.create_stubs({api.neutron: ('floating_ip_target_list_by_instance',
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'tenant_floating_ip_list',)})
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def test_associate_with_instance_id(self):
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targets = self._get_fip_targets()
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target = targets[0]
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api.neutron.floating_ip_target_list_by_instance(
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IsA(http.HttpRequest), target.instance_id) \
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.AndReturn([target])
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api.neutron.tenant_floating_ip_list(IsA(http.HttpRequest)) \
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.AndReturn(self.floating_ips.list())
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self.mox.ReplayAll()
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base_url = reverse('%s:associate' % NAMESPACE)
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params = urlencode({'instance_id': target.instance_id})
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url = '?'.join([base_url, params])
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res = self.client.get(url)
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self.assertTemplateUsed(res, views.WorkflowView.template_name)
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workflow = res.context['workflow']
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choices = dict(workflow.steps[0].action.fields['ip_id'].choices)
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# Verify that our "associated" floating IP isn't in the choices list.
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self.assertNotIn(self.floating_ips.first(), choices)
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def _get_compute_ports(self):
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return [p for p in self.ports.list()
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if not p.device_owner.startswith('network:')]
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def _get_fip_targets(self):
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server_dict = dict((s.id, s.name) for s in self.servers.list())
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targets = []
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for p in self._get_compute_ports():
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for ip in p.fixed_ips:
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targets.append(api.neutron.FloatingIpTarget(
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p, ip['ip_address'], server_dict[p.device_id]))
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return targets
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@staticmethod
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def _get_target_id(port):
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return '%s_%s' % (port.id, port.fixed_ips[0]['ip_address'])
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@test.create_stubs({api.neutron: ('floating_ip_target_list',
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'tenant_floating_ip_list',)})
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def test_associate_with_port_id(self):
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compute_port = self._get_compute_ports()[0]
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associated_fips = [fip.id for fip in self.floating_ips.list()
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if fip.port_id]
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api.neutron.floating_ip_target_list(IsA(http.HttpRequest)) \
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.AndReturn(self._get_fip_targets())
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api.neutron.tenant_floating_ip_list(IsA(http.HttpRequest)) \
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.AndReturn(self.floating_ips.list())
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self.mox.ReplayAll()
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base_url = reverse('%s:associate' % NAMESPACE)
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params = urlencode({'port_id': compute_port.id})
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url = '?'.join([base_url, params])
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res = self.client.get(url)
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self.assertTemplateUsed(res, views.WorkflowView.template_name)
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workflow = res.context['workflow']
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choices = dict(workflow.steps[0].action.fields['ip_id'].choices)
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# Verify that our "associated" floating IP isn't in the choices list.
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self.assertFalse(set(associated_fips) & set(choices.keys()))
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@test.create_stubs({api.neutron: ('floating_ip_associate',
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'floating_ip_target_list',
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'tenant_floating_ip_list',)})
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def test_associate_post(self):
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floating_ip = [fip for fip in self.floating_ips.list()
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if not fip.port_id][0]
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compute_port = self._get_compute_ports()[0]
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port_target_id = self._get_target_id(compute_port)
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api.neutron.tenant_floating_ip_list(IsA(http.HttpRequest)) \
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.AndReturn(self.floating_ips.list())
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api.neutron.floating_ip_target_list(IsA(http.HttpRequest)) \
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.AndReturn(self._get_fip_targets())
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api.neutron.floating_ip_associate(IsA(http.HttpRequest),
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floating_ip.id,
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port_target_id)
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self.mox.ReplayAll()
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form_data = {'instance_id': port_target_id,
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'ip_id': floating_ip.id}
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url = reverse('%s:associate' % NAMESPACE)
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res = self.client.post(url, form_data)
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self.assertRedirectsNoFollow(res, INDEX_URL)
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@test.create_stubs({api.neutron: ('floating_ip_associate',
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'floating_ip_target_list',
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'tenant_floating_ip_list',)})
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def test_associate_post_with_redirect(self):
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floating_ip = [fip for fip in self.floating_ips.list()
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if not fip.port_id][0]
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compute_port = self._get_compute_ports()[0]
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port_target_id = self._get_target_id(compute_port)
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api.neutron.tenant_floating_ip_list(IsA(http.HttpRequest)) \
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.AndReturn(self.floating_ips.list())
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api.neutron.floating_ip_target_list(IsA(http.HttpRequest)) \
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.AndReturn(self._get_fip_targets())
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api.neutron.floating_ip_associate(IsA(http.HttpRequest),
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floating_ip.id,
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port_target_id)
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self.mox.ReplayAll()
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next = reverse("horizon:project:instances:index")
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form_data = {'instance_id': port_target_id,
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'next': next,
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'ip_id': floating_ip.id}
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url = reverse('%s:associate' % NAMESPACE)
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res = self.client.post(url, form_data)
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self.assertRedirectsNoFollow(res, next)
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@test.create_stubs({api.neutron: ('floating_ip_associate',
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'floating_ip_target_list',
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'tenant_floating_ip_list',)})
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def test_associate_post_with_exception(self):
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floating_ip = [fip for fip in self.floating_ips.list()
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if not fip.port_id][0]
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compute_port = self._get_compute_ports()[0]
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port_target_id = self._get_target_id(compute_port)
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api.neutron.tenant_floating_ip_list(IsA(http.HttpRequest)) \
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.AndReturn(self.floating_ips.list())
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api.neutron.floating_ip_target_list(IsA(http.HttpRequest)) \
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.AndReturn(self._get_fip_targets())
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api.neutron.floating_ip_associate(IsA(http.HttpRequest),
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floating_ip.id,
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port_target_id) \
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.AndRaise(self.exceptions.nova)
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self.mox.ReplayAll()
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form_data = {'instance_id': port_target_id,
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'ip_id': floating_ip.id}
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url = reverse('%s:associate' % NAMESPACE)
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res = self.client.post(url, form_data)
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self.assertRedirectsNoFollow(res, INDEX_URL)
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@test.create_stubs({api.nova: ('server_list',),
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api.neutron: ('floating_ip_disassociate',
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'floating_ip_pools_list',
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'tenant_floating_ip_get',
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'tenant_floating_ip_list',
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'is_extension_supported',)})
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def test_disassociate_post(self):
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floating_ip = self.floating_ips.first()
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api.nova.server_list(IsA(http.HttpRequest), detailed=False) \
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.AndReturn([self.servers.list(), False])
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api.neutron.tenant_floating_ip_list(IsA(http.HttpRequest)) \
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.AndReturn(self.floating_ips.list())
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api.neutron.floating_ip_pools_list(IsA(http.HttpRequest)) \
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.AndReturn(self.pools.list())
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api.neutron.floating_ip_disassociate(IsA(http.HttpRequest),
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floating_ip.id)
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self.mox.ReplayAll()
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action = "floating_ips__disassociate__%s" % floating_ip.id
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res = self.client.post(INDEX_URL, {"action": action})
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self.assertMessageCount(success=1)
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self.assertRedirectsNoFollow(res, INDEX_URL)
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@test.create_stubs({api.nova: ('server_list',),
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api.neutron: ('floating_ip_disassociate',
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'floating_ip_pools_list',
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'tenant_floating_ip_get',
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'tenant_floating_ip_list',
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'is_extension_supported',)})
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def test_disassociate_post_with_exception(self):
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floating_ip = self.floating_ips.first()
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api.nova.server_list(IsA(http.HttpRequest), detailed=False) \
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.AndReturn([self.servers.list(), False])
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api.neutron.tenant_floating_ip_list(IsA(http.HttpRequest)) \
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.AndReturn(self.floating_ips.list())
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api.neutron.floating_ip_pools_list(IsA(http.HttpRequest)) \
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.AndReturn(self.pools.list())
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api.neutron.floating_ip_disassociate(IsA(http.HttpRequest),
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floating_ip.id) \
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.AndRaise(self.exceptions.nova)
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self.mox.ReplayAll()
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action = "floating_ips__disassociate__%s" % floating_ip.id
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res = self.client.post(INDEX_URL, {"action": action})
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self.assertRedirectsNoFollow(res, INDEX_URL)
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@test.create_stubs({api.neutron: ('tenant_floating_ip_list',
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'floating_ip_pools_list',),
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api.nova: ('server_list',),
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quotas: ('tenant_quota_usages',),
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api.base: ('is_service_enabled',)})
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def test_allocate_button_attributes(self):
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floating_ips = self.floating_ips.list()
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floating_pools = self.pools.list()
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quota_data = self.neutron_quota_usages.first()
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api.neutron.tenant_floating_ip_list(
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IsA(http.HttpRequest)) \
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.AndReturn(floating_ips)
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api.neutron.floating_ip_pools_list(
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IsA(http.HttpRequest)) \
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.AndReturn(floating_pools)
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api.nova.server_list(
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IsA(http.HttpRequest), detailed=False) \
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.AndReturn([self.servers.list(), False])
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quotas.tenant_quota_usages(
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IsA(http.HttpRequest), targets=('floatingip', )).MultipleTimes() \
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.AndReturn(quota_data)
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self.mox.ReplayAll()
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res = self.client.get(INDEX_URL)
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allocate_action = self.getAndAssertTableAction(res, 'floating_ips',
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'allocate')
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self.assertEqual(set(['ajax-modal']), set(allocate_action.classes))
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self.assertEqual('Allocate IP To Project',
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six.text_type(allocate_action.verbose_name))
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self.assertIsNone(allocate_action.policy_rules)
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url = 'horizon:project:floating_ips:allocate'
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self.assertEqual(url, allocate_action.url)
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@test.create_stubs({api.neutron: ('tenant_floating_ip_list',
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'floating_ip_pools_list',),
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api.nova: ('server_list',),
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quotas: ('tenant_quota_usages',),
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api.base: ('is_service_enabled',)})
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def test_allocate_button_disabled_when_quota_exceeded(self):
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floating_ips = self.floating_ips.list()
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floating_pools = self.pools.list()
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quota_data = self.neutron_quota_usages.first()
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quota_data['floatingip']['available'] = 0
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api.neutron.tenant_floating_ip_list(
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IsA(http.HttpRequest)) \
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.AndReturn(floating_ips)
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api.neutron.floating_ip_pools_list(
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IsA(http.HttpRequest)) \
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.AndReturn(floating_pools)
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api.nova.server_list(
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IsA(http.HttpRequest), detailed=False) \
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.AndReturn([self.servers.list(), False])
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quotas.tenant_quota_usages(
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IsA(http.HttpRequest), targets=('floatingip', )).MultipleTimes() \
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.AndReturn(quota_data)
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self.mox.ReplayAll()
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res = self.client.get(INDEX_URL)
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allocate_action = self.getAndAssertTableAction(res, 'floating_ips',
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'allocate')
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self.assertIn('disabled', allocate_action.classes,
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'The create button should be disabled')
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self.assertEqual('Allocate IP To Project (Quota exceeded)',
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six.text_type(allocate_action.verbose_name))
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@test.create_stubs({api.neutron: ('floating_ip_pools_list',
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'floating_ip_supported',
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'tenant_floating_ip_list',
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'is_extension_supported',
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'is_router_enabled',
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'tenant_quota_get'),
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api.base: ('is_service_enabled',),
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api.cinder: ('is_volume_service_enabled',)})
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@test.update_settings(OPENSTACK_NEUTRON_NETWORK={'enable_quotas': True})
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def test_correct_quotas_displayed(self):
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api.cinder.is_volume_service_enabled(IsA(http.HttpRequest)) \
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.AndReturn(False)
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api.base.is_service_enabled(IsA(http.HttpRequest), 'network') \
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.MultipleTimes().AndReturn(True)
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api.base.is_service_enabled(IsA(http.HttpRequest), 'compute') \
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.MultipleTimes().AndReturn(True)
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api.neutron.is_extension_supported(
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IsA(http.HttpRequest), 'security-group').AndReturn(True)
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api.neutron.is_extension_supported(IsA(http.HttpRequest), 'quotas') \
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.AndReturn(True)
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api.neutron.is_router_enabled(IsA(http.HttpRequest)) \
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.AndReturn(True)
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api.neutron.is_extension_supported(IsA(http.HttpRequest),
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'quota_details').AndReturn(False)
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api.neutron.tenant_quota_get(IsA(http.HttpRequest), self.tenant.id) \
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.AndReturn(self.neutron_quotas.first())
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api.neutron.tenant_floating_ip_list(IsA(http.HttpRequest)) \
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.MultipleTimes().AndReturn(self.floating_ips.list())
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api.neutron.floating_ip_pools_list(IsA(http.HttpRequest)) \
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.AndReturn(self.pools.list())
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self.mox.ReplayAll()
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url = reverse('%s:allocate' % NAMESPACE)
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res = self.client.get(url)
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self.assertEqual(res.context['usages']['floatingip']['quota'],
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self.neutron_quotas.first().get('floatingip').limit)
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