def test_quotaset_add_doesnt_override_existing_quota(self):
quota_dict = {'foo': 1, 'bar': 10}
quota_set = api_base.QuotaSet(quota_dict)
other_quota_set = api_base.QuotaSet({'foo': 12})
quota_set += other_quota_set
self.assertEqual(2, len(quota_set))
for q in quota_set:
self.assertEqual(quota_dict[q.name], q.limit)
def test_quotaset_add_with_plus(self):
quota_dict = {'foo': 1, 'bar': 10}
other_quota_dict = {'my_test': 12}
quota_set = api_base.QuotaSet(quota_dict)
other_quota_set = api_base.QuotaSet(other_quota_dict)
quota_set += other_quota_set
self.assertEqual(len(quota_set), 3)
quota_dict.update(other_quota_dict)
for q in quota_set:
self.assertEqual(q.limit, quota_dict[q.name])
def test_quotaset_add_method(self):
quota_dict = {'foo': 1, 'bar': 10}
other_quota_dict = {'my_test': 12}
quota_set = api_base.QuotaSet(quota_dict)
other_quota_set = api_base.QuotaSet(other_quota_dict)
quota_set.add(other_quota_set)
self.assertEqual(3, len(quota_set))
quota_dict.update(other_quota_dict)
for q in quota_set:
self.assertEqual(quota_dict[q.name], q.limit)
def data(TEST):
TEST.cinder_quotas = TestDataContainer()
TEST.cinder_quota_usages = TestDataContainer()
# Quota Sets
quota_data = dict(volumes='1', snapshots='1', gigabytes='1000')
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
#TEST.quotas.cinder = QuotaSetWrapper(quota)
TEST.cinder_quotas.add(base.QuotaSet(quota))
# Quota Usages
quota_usage_data = {
'gigabytes': {
'used': 0,
'quota': 1000
},
'instances': {
'used': 0,
'quota': 10
},
'snapshots': {
'used': 0,
'quota': 10
}
}
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.cinder_quota_usages.add(quota_usage)
def _get_quota_data(request,
method_name,
disabled_quotas=None,
tenant_id=None):
quotasets = []
if not tenant_id:
tenant_id = request.user.tenant_id
#quotasets.append(getattr(nova, method_name)(request, tenant_id))
if is_m1_user_admin(request):
quotasets.append(tenant_quota_get_nova(request, tenant_id))
else:
quotasets.append(getattr(nova, method_name)(request, tenant_id))
qs = base.QuotaSet()
if disabled_quotas is None:
disabled_quotas = get_disabled_quotas(request)
if 'volumes' not in disabled_quotas:
try:
#quotasets.append(getattr(cinder, method_name)(request, tenant_id))
if is_m1_user_admin(request):
quotasets.append(tenant_quota_get_cinder(request, tenant_id))
else:
quotasets.append(
getattr(cinder, method_name)(request, tenant_id))
except cinder.ClientException:
disabled_quotas.extend(CINDER_QUOTA_FIELDS)
msg = _("Unable to retrieve volume limit information.")
exceptions.handle(request, msg)
for quota in itertools.chain(*quotasets):
if quota.name not in disabled_quotas:
qs[quota.name] = quota.limit
return qs
def get_default_quota_data(request, disabled_quotas=None, tenant_id=None):
quotasets = []
if not tenant_id:
tenant_id = request.user.tenant_id
if disabled_quotas is None:
disabled_quotas = get_disabled_quotas(request)
if NOVA_QUOTA_FIELDS - disabled_quotas:
quotasets.append(nova.default_quota_get(request, tenant_id))
if CINDER_QUOTA_FIELDS - disabled_quotas:
try:
quotasets.append(cinder.default_quota_get(request, tenant_id))
except cinder.cinder_exception.ClientException:
disabled_quotas.update(CINDER_QUOTA_FIELDS)
msg = _("Unable to retrieve volume quota information.")
exceptions.handle(request, msg)
if NEUTRON_QUOTA_FIELDS - disabled_quotas:
# TODO(jpichon): There is no API to access the Neutron default quotas
# (LP#1204956). For now, use the values from the current project.
try:
quotasets.append(
neutron.tenant_quota_get(request, tenant_id=tenant_id))
except Exception:
disabled_quotas.update(NEUTRON_QUOTA_FIELDS)
msg = _('Unable to retrieve Neutron quota information.')
exceptions.handle(request, msg)
qs = base.QuotaSet()
for quota in itertools.chain(*quotasets):
if quota.name not in disabled_quotas and quota.name in QUOTA_FIELDS:
qs[quota.name] = quota.limit
return qs
def _get_quota_data(request,
tenant_mode=True,
disabled_quotas=None,
tenant_id=None):
quotasets = []
if not tenant_id:
tenant_id = request.user.tenant_id
if disabled_quotas is None:
disabled_quotas = get_disabled_quotas(request)
qs = base.QuotaSet()
if NOVA_QUOTA_FIELDS - disabled_quotas:
if tenant_mode:
quotasets.append(nova.tenant_quota_get(request, tenant_id))
else:
quotasets.append(nova.default_quota_get(request, tenant_id))
if CINDER_QUOTA_FIELDS - disabled_quotas:
try:
if tenant_mode:
quotasets.append(cinder.tenant_quota_get(request, tenant_id))
else:
quotasets.append(cinder.default_quota_get(request, tenant_id))
except cinder.cinder_exception.ClientException:
disabled_quotas.update(CINDER_QUOTA_FIELDS)
msg = _("Unable to retrieve volume limit information.")
exceptions.handle(request, msg)
for quota in itertools.chain(*quotasets):
if quota.name not in disabled_quotas:
qs[quota.name] = quota.limit
return qs
def _get_tenant_network_usages_legacy(request, usages, disabled_quotas,
tenant_id):
qs = base.QuotaSet()
_get_neutron_quota_data(request, qs, disabled_quotas, tenant_id)
for quota in qs:
usages.add_quota(quota)
# TODO(amotoki): Add security_group_rule?
resource_lister = {
'network': (neutron.network_list, {
'tenant_id': tenant_id
}),
'subnet': (neutron.subnet_list, {
'tenant_id': tenant_id
}),
'port': (neutron.port_list, {
'tenant_id': tenant_id
}),
'router': (neutron.router_list, {
'tenant_id': tenant_id
}),
'floatingip': (neutron.tenant_floating_ip_list, {}),
'security_group': (neutron.security_group_list, {}),
}
for quota_name, lister_info in resource_lister.items():
if quota_name not in disabled_quotas:
lister = lister_info[0]
kwargs = lister_info[1]
try:
resources = lister(request, **kwargs)
except Exception:
resources = []
usages.tally(quota_name, len(resources))
def _get_tenant_network_usages_legacy(request, usages, disabled_quotas,
tenant_id):
warnings.warn(
"The legacy way to retrieve neutron resource usage is deprecated "
"in Ussuri release. Horizon will depend on 'quota_details' "
"neutron extension added in Pike release in future.",
DeprecationWarning)
qs = base.QuotaSet()
_get_neutron_quota_data(request, qs, disabled_quotas, tenant_id)
for quota in qs:
usages.add_quota(quota)
resource_lister = {
'network': (neutron.network_list, {
'tenant_id': tenant_id
}),
'subnet': (neutron.subnet_list, {
'tenant_id': tenant_id
}),
'port': (neutron.port_list, {
'tenant_id': tenant_id
}),
'router': (neutron.router_list, {
'tenant_id': tenant_id
}),
'floatingip': (neutron.tenant_floating_ip_list, {}),
}
for quota_name, lister_info in resource_lister.items():
if quota_name not in disabled_quotas:
lister = lister_info[0]
kwargs = lister_info[1]
try:
resources = lister(request, **kwargs)
except Exception:
resources = []
usages.tally(quota_name, len(resources))
# Security groups have to be processed separately so that rules may be
# processed in the same api call and in a single pass
add_sg = 'security_group' not in disabled_quotas
add_sgr = 'security_group_rule' not in disabled_quotas
if add_sg or add_sgr:
try:
security_groups = neutron.security_group_list(request)
num_rules = sum(
len(group['security_group_rules'])
for group in security_groups)
except Exception:
security_groups = []
num_rules = 0
if add_sg:
usages.tally('security_group', len(security_groups))
if add_sgr:
usages.tally('security_group_rule', num_rules)
def get_tenant_quota_data(request, disabled_quotas=None, tenant_id=None):
qs = _get_quota_data(request,
tenant_mode=True,
disabled_quotas=disabled_quotas,
tenant_id=tenant_id)
if not disabled_quotas:
return qs
# Check if neutron is enabled by looking for network
if 'network' not in disabled_quotas:
# mj - another quota hack. This is fixed properly in Queens.
#tenant_id = tenant_id or request.user.tenant_id
neutron_quotas = neutron.tenant_quota_get(request, tenant_id)
if 'floating_ips' in disabled_quotas:
# Neutron with quota extension disabled
if 'floatingip' in disabled_quotas:
qs.add(base.QuotaSet({'floating_ips': -1}))
# Neutron with quota extension enabled
else:
# Rename floatingip to floating_ips since that's how it's
# expected in some places (e.g. Security & Access' Floating IPs)
fips_quota = neutron_quotas.get('floatingip').limit
qs.add(base.QuotaSet({'floating_ips': fips_quota}))
if 'security_groups' in disabled_quotas:
if 'security_group' in disabled_quotas:
qs.add(base.QuotaSet({'security_groups': -1}))
# Neutron with quota extension enabled
else:
# Rename security_group to security_groups since that's how it's
# expected in some places (e.g. Security & Access' Security Groups)
sec_quota = neutron_quotas.get('security_group').limit
qs.add(base.QuotaSet({'security_groups': sec_quota}))
if 'network' in disabled_quotas:
for item in qs.items:
if item.name == 'networks':
qs.items.remove(item)
break
else:
net_quota = neutron_quotas.get('network').limit
qs.add(base.QuotaSet({'networks': net_quota}))
if 'subnet' in disabled_quotas:
for item in qs.items:
if item.name == 'subnets':
qs.items.remove(item)
break
else:
net_quota = neutron_quotas.get('subnet').limit
qs.add(base.QuotaSet({'subnets': net_quota}))
if 'router' in disabled_quotas:
for item in qs.items:
if item.name == 'routers':
qs.items.remove(item)
break
else:
router_quota = neutron_quotas.get('router').limit
qs.add(base.QuotaSet({'routers': router_quota}))
return qs
def data(TEST):
TEST.cinder_quotas = utils.TestDataContainer()
TEST.cinder_quota_usages = utils.TestDataContainer()
TEST.cinder_availability_zones = utils.TestDataContainer()
# Quota Sets
quota_data = dict(volumes='1', snapshots='1', gigabytes='1000')
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
#TEST.quotas.cinder = QuotaSetWrapper(quota)
TEST.cinder_quotas.add(base.QuotaSet(quota))
# Quota Usages
quota_usage_data = {
'gigabytes': {
'used': 0,
'quota': 1000
},
'instances': {
'used': 0,
'quota': 10
},
'snapshots': {
'used': 0,
'quota': 10
}
}
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.cinder_quota_usages.add(quota_usage)
# Availability Zones
# Cinder returns the following structure from os-availability-zone
# {"availabilityZoneInfo":
# [{"zoneState": {"available": true}, "zoneName": "nova"}]}
# Note that the default zone is still "nova" even though this is cinder
TEST.cinder_availability_zones.add(
availability_zones.AvailabilityZone(
availability_zones.AvailabilityZoneManager(None), {
'zoneName': 'nova',
'zoneState': {
'available': True
}
}))
# Cinder Limits
limits = {
"absolute": {
"totalVolumesUsed": 1,
"totalGigabytesUsed": 5,
"maxTotalVolumeGigabytes": 1000,
"maxTotalVolumes": 10
}
}
TEST.cinder_limits = limits
def _get_mock_share_quota_data(self):
quota_data = {
'shares': 24,
'gigabytes': 333,
'snapshots': 14,
'snapshot_gigabytes': 444,
'share_networks': 14
}
return base.QuotaSet(quota_data)
def _get_neutron_quota_data(request, qs, disabled_quotas, tenant_id):
tenant_id = tenant_id or request.user.tenant_id
neutron_quotas = neutron.tenant_quota_get(request, tenant_id)
for quota_name in NEUTRON_QUOTA_FIELDS:
if quota_name not in disabled_quotas:
quota_data = neutron_quotas.get(quota_name).limit
qs.add(base.QuotaSet({quota_name: quota_data}))
return qs
def _get_tenant_network_usages_legacy(request, usages, disabled_quotas,
tenant_id):
qs = base.QuotaSet()
_get_neutron_quota_data(request, qs, disabled_quotas, tenant_id)
for quota in qs:
usages.add_quota(quota)
resource_lister = {
'network': (neutron.network_list, {
'tenant_id': tenant_id
}),
'subnet': (neutron.subnet_list, {
'tenant_id': tenant_id
}),
'port': (neutron.port_list, {
'tenant_id': tenant_id
}),
'router': (neutron.router_list, {
'tenant_id': tenant_id
}),
'floatingip': (neutron.tenant_floating_ip_list, {}),
}
for quota_name, lister_info in resource_lister.items():
if quota_name not in disabled_quotas:
lister = lister_info[0]
kwargs = lister_info[1]
try:
resources = lister(request, **kwargs)
except Exception:
resources = []
usages.tally(quota_name, len(resources))
# Security groups have to be processed separately so that rules may be
# processed in the same api call and in a single pass
add_sg = 'security_group' not in disabled_quotas
add_sgr = 'security_group_rule' not in disabled_quotas
if add_sg or add_sgr:
try:
security_groups = neutron.security_group_list(request)
num_rules = sum(
len(group['security_group_rules'])
for group in security_groups)
except Exception:
security_groups = []
num_rules = 0
if add_sg:
usages.tally('security_group', len(security_groups))
if add_sgr:
usages.tally('security_group_rule', num_rules)
def get_tenant_quota_data(request, disabled_quotas=None, tenant_id=None):
qs = _get_quota_data(request,
"tenant_quota_get",
disabled_quotas=disabled_quotas,
tenant_id=tenant_id)
# TODO(jpichon): There is no API to get the default system quotas
# in Neutron (cf. LP#1204956), so for now handle tenant quotas here.
# This should be handled in _get_quota_data() eventually.
if disabled_quotas and 'floating_ips' in disabled_quotas:
# Neutron with quota extension disabled
if 'floatingip' in disabled_quotas:
qs.add(base.QuotaSet({'floating_ips': -1}))
# Neutron with quota extension enabled
else:
tenant_id = tenant_id or request.user.tenant_id
neutron_quotas = neutron.tenant_quota_get(request, tenant_id)
# Rename floatingip to floating_ips since that's how it's
# expected in some places (e.g. Security & Access' Floating IPs)
fips_quota = neutron_quotas.get('floatingip').limit
qs.add(base.QuotaSet({'floating_ips': fips_quota}))
return qs
def _get_quota_data(request, method_name, disabled_quotas=None,
tenant_id=None):
quotasets = []
if not tenant_id:
tenant_id = request.user.tenant_id
quotasets.append(getattr(nova, method_name)(request, tenant_id))
qs = base.QuotaSet()
if disabled_quotas is None:
disabled_quotas = get_disabled_quotas(request)
if 'volumes' not in disabled_quotas:
quotasets.append(getattr(cinder, method_name)(request, tenant_id))
for quota in itertools.chain(*quotasets):
if quota.name not in disabled_quotas:
qs[quota.name] = quota.limit
return qs
def get_tenant_quota_data(request, disabled_quotas=None, tenant_id=None):
qs = _get_quota_data(request,
tenant_mode=True,
disabled_quotas=disabled_quotas,
tenant_id=tenant_id)
# TODO(jpichon): There is no API to get the default system quotas
# in Neutron (cf. LP#1204956), so for now handle tenant quotas here.
# This should be handled in _get_quota_data() eventually.
# TODO(amotoki): Purge this tricky usage.
# openstack_dashboard/dashboards/identity/projects/views.py
# calls get_tenant_quota_data directly and it expects
# neutron data is not returned.
if not disabled_quotas:
return qs
# Check if neutron is enabled by looking for network
if not (NEUTRON_QUOTA_FIELDS - disabled_quotas):
return qs
tenant_id = tenant_id or request.user.tenant_id
neutron_quotas = neutron.tenant_quota_get(request, tenant_id)
if 'floating_ips' in disabled_quotas:
if 'floatingip' not in disabled_quotas:
# Rename floatingip to floating_ips since that's how it's
# expected in some places (e.g. Security & Access' Floating IPs)
fips_quota = neutron_quotas.get('floatingip').limit
qs.add(base.QuotaSet({'floating_ips': fips_quota}))
if 'security_groups' in disabled_quotas:
if 'security_group' not in disabled_quotas:
# Rename security_group to security_groups since that's how it's
# expected in some places (e.g. Security & Access' Security Groups)
sec_quota = neutron_quotas.get('security_group').limit
qs.add(base.QuotaSet({'security_groups': sec_quota}))
if 'network' not in disabled_quotas:
net_quota = neutron_quotas.get('network').limit
qs.add(base.QuotaSet({'networks': net_quota}))
if 'subnet' not in disabled_quotas:
net_quota = neutron_quotas.get('subnet').limit
qs.add(base.QuotaSet({'subnets': net_quota}))
if 'port' not in disabled_quotas:
net_quota = neutron_quotas.get('port').limit
qs.add(base.QuotaSet({'ports': net_quota}))
if 'router' not in disabled_quotas:
router_quota = neutron_quotas.get('router').limit
qs.add(base.QuotaSet({'routers': router_quota}))
return qs
def _get_quota_data(request,
tenant_mode=True,
disabled_quotas=None,
tenant_id=None):
quotasets = []
if not tenant_id:
tenant_id = request.user.tenant_id
if disabled_quotas is None:
disabled_quotas = get_disabled_quotas(request)
qs = base.QuotaSet()
if 'instances' not in disabled_quotas:
if tenant_mode:
quotasets.append(nova.tenant_quota_get(request, tenant_id))
else:
quotasets.append(nova.default_quota_get(request, tenant_id))
if 'volumes' not in disabled_quotas:
try:
if tenant_mode:
quotasets.append(cinder.tenant_quota_get(request, tenant_id))
else:
quotasets.append(cinder.default_quota_get(request, tenant_id))
except cinder.cinder_exception.ClientException:
disabled_quotas.update(CINDER_QUOTA_FIELDS)
msg = _("Unable to retrieve volume limit information.")
exceptions.handle(request, msg)
#mj - add the tenant_quota info from neutron - this is replaced in Queens
if 'network' not in disabled_quotas:
try:
if tenant_mode:
quotasets.append(
neutron.tenant_quota_get(request, tenant_id=tenant_id))
else:
quotasets.append(neutron.default_quota_get(request, tenant_id))
except Exception:
disabled_quotas.update(NEUTRON_QUOTA_FIELDS)
msg = _('Unable to retrieve Neutron quota information.')
for quota in itertools.chain(*quotasets):
if quota.name not in disabled_quotas:
qs[quota.name] = quota.limit
return qs
def get_tenant_quota_data(request, disabled_quotas=None, tenant_id=None):
qs = _get_quota_data(request,
"tenant_quota_get",
disabled_quotas=disabled_quotas,
tenant_id=tenant_id)
# TODO(jpichon): There is no API to get the default system quotas
# in Neutron (cf. LP#1204956), so for now handle tenant quotas here.
# This should be handled in _get_quota_data() eventually.
if not disabled_quotas:
return qs
# Check if neutron is enabled by looking for network and router
if 'network' and 'router' not in disabled_quotas:
tenant_id = tenant_id or request.user.tenant_id
neutron_quotas = neutron.tenant_quota_get(request, tenant_id)
if 'floating_ips' in disabled_quotas:
# Neutron with quota extension disabled
if 'floatingip' in disabled_quotas:
qs.add(base.QuotaSet({'floating_ips': -1}))
# Neutron with quota extension enabled
else:
# Rename floatingip to floating_ips since that's how it's
# expected in some places (e.g. Security & Access' Floating IPs)
fips_quota = neutron_quotas.get('floatingip').limit
qs.add(base.QuotaSet({'floating_ips': fips_quota}))
if 'security_groups' in disabled_quotas:
if 'security_group' in disabled_quotas:
qs.add(base.QuotaSet({'security_groups': -1}))
# Neutron with quota extension enabled
else:
# Rename security_group to security_groups since that's how it's
# expected in some places (e.g. Security & Access' Security Groups)
sec_quota = neutron_quotas.get('security_group').limit
qs.add(base.QuotaSet({'security_groups': sec_quota}))
if 'network' in disabled_quotas:
for item in qs.items:
if item.name == 'networks':
qs.items.remove(item)
break
else:
net_quota = neutron_quotas.get('network').limit
qs.add(base.QuotaSet({'networks': net_quota}))
if 'router' in disabled_quotas:
for item in qs.items:
if item.name == 'routers':
qs.items.remove(item)
break
else:
router_quota = neutron_quotas.get('router').limit
qs.add(base.QuotaSet({'routers': router_quota}))
return qs
def get_default_quota_data(request, disabled_quotas=None, tenant_id=None):
quotasets = []
if not tenant_id:
tenant_id = request.user.tenant_id
if disabled_quotas is None:
disabled_quotas = get_disabled_quotas(request)
if NOVA_QUOTA_FIELDS - disabled_quotas:
try:
quotasets.append(nova.default_quota_get(request, tenant_id))
except Exception:
disabled_quotas.update(NOVA_QUOTA_FIELDS)
msg = _('Unable to retrieve Nova quota information.')
exceptions.handle(request, msg)
if CINDER_QUOTA_FIELDS - disabled_quotas:
try:
quotasets.append(cinder.default_quota_get(request, tenant_id))
except cinder.cinder_exception.ClientException:
disabled_quotas.update(CINDER_QUOTA_FIELDS)
msg = _("Unable to retrieve volume quota information.")
exceptions.handle(request, msg)
if NEUTRON_QUOTA_FIELDS - disabled_quotas:
try:
quotasets.append(neutron.default_quota_get(request,
tenant_id=tenant_id))
except Exception:
disabled_quotas.update(NEUTRON_QUOTA_FIELDS)
msg = _('Unable to retrieve Neutron quota information.')
exceptions.handle(request, msg)
qs = base.QuotaSet()
for quota in itertools.chain(*quotasets):
if quota.name not in disabled_quotas and quota.name in QUOTA_FIELDS:
qs[quota.name] = quota.limit
return qs
def data(TEST):
TEST.servers = utils.TestDataContainer()
TEST.flavors = utils.TestDataContainer()
TEST.flavor_access = utils.TestDataContainer()
TEST.keypairs = utils.TestDataContainer()
TEST.security_groups = utils.TestDataContainer()
TEST.security_groups_uuid = utils.TestDataContainer()
TEST.security_group_rules = utils.TestDataContainer()
TEST.security_group_rules_uuid = utils.TestDataContainer()
TEST.volumes = utils.TestDataContainer()
TEST.quotas = utils.TestDataContainer()
TEST.quota_usages = utils.TestDataContainer()
TEST.disabled_quotas = utils.TestDataContainer()
TEST.floating_ips = utils.TestDataContainer()
TEST.floating_ips_uuid = utils.TestDataContainer()
TEST.usages = utils.TestDataContainer()
TEST.certs = utils.TestDataContainer()
TEST.volume_snapshots = utils.TestDataContainer()
TEST.volume_types = utils.TestDataContainer()
TEST.availability_zones = utils.TestDataContainer()
TEST.hypervisors = utils.TestDataContainer()
TEST.services = utils.TestDataContainer()
TEST.aggregates = utils.TestDataContainer()
TEST.hosts = utils.TestDataContainer()
# Data return by novaclient.
# It is used if API layer does data conversion.
TEST.api_floating_ips = utils.TestDataContainer()
TEST.api_floating_ips_uuid = utils.TestDataContainer()
# Volumes
volume = volumes.Volume(
volumes.VolumeManager(None),
dict(id="41023e92-8008-4c8b-8059-7f2293ff3775",
name='test_volume',
status='available',
size=40,
display_name='Volume name',
created_at='2012-04-01 10:30:00',
volume_type=None,
attachments=[]))
nameless_volume = volumes.Volume(
volumes.VolumeManager(None),
dict(id="3b189ac8-9166-ac7f-90c9-16c8bf9e01ac",
name='',
status='in-use',
size=10,
display_name='',
display_description='',
device="/dev/hda",
created_at='2010-11-21 18:34:25',
volume_type='vol_type_1',
attachments=[{
"id": "1",
"server_id": '1',
"device": "/dev/hda"
}]))
attached_volume = volumes.Volume(
volumes.VolumeManager(None),
dict(id="8cba67c1-2741-6c79-5ab6-9c2bf8c96ab0",
name='my_volume',
status='in-use',
size=30,
display_name='My Volume',
display_description='',
device="/dev/hdk",
created_at='2011-05-01 11:54:33',
volume_type='vol_type_2',
attachments=[{
"id": "2",
"server_id": '1',
"device": "/dev/hdk"
}]))
non_bootable_volume = volumes.Volume(
volumes.VolumeManager(None),
dict(id="41023e92-8008-4c8b-8059-7f2293ff3771",
name='non_bootable_volume',
status='available',
size=40,
display_name='Non Bootable Volume',
created_at='2012-04-01 10:30:00',
volume_type=None,
attachments=[]))
volume.bootable = 'true'
nameless_volume.bootable = 'true'
attached_volume.bootable = 'true'
non_bootable_volume.bootable = 'false'
TEST.volumes.add(volume)
TEST.volumes.add(nameless_volume)
TEST.volumes.add(attached_volume)
TEST.volumes.add(non_bootable_volume)
vol_type1 = volume_types.VolumeType(volume_types.VolumeTypeManager(None), {
'id': 1,
'name': 'vol_type_1'
})
vol_type2 = volume_types.VolumeType(volume_types.VolumeTypeManager(None), {
'id': 2,
'name': 'vol_type_2'
})
TEST.volume_types.add(vol_type1, vol_type2)
# Flavors
flavor_1 = flavors.Flavor(
flavors.FlavorManager(None), {
'id': "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa",
'name': 'm1.tiny',
'vcpus': 1,
'disk': 0,
'ram': 512,
'swap': 0,
'extra_specs': {},
'os-flavor-access:is_public': True,
'OS-FLV-EXT-DATA:ephemeral': 0
})
flavor_2 = flavors.Flavor(
flavors.FlavorManager(None), {
'id': "bbbbbbbb-bbbb-bbbb-bbbb-bbbbbbbbbbbb",
'name': 'm1.massive',
'vcpus': 1000,
'disk': 1024,
'ram': 10000,
'swap': 0,
'extra_specs': {
'Trusted': True,
'foo': 'bar'
},
'os-flavor-access:is_public': True,
'OS-FLV-EXT-DATA:ephemeral': 2048
})
flavor_3 = flavors.Flavor(
flavors.FlavorManager(None), {
'id': "dddddddd-dddd-dddd-dddd-dddddddddddd",
'name': 'm1.secret',
'vcpus': 1000,
'disk': 1024,
'ram': 10000,
'swap': 0,
'extra_specs': {},
'os-flavor-access:is_public': False,
'OS-FLV-EXT-DATA:ephemeral': 2048
})
flavor_4 = flavors.Flavor(
flavors.FlavorManager(None), {
'id':
"eeeeeeee-eeee-eeee-eeee-eeeeeeeeeeee",
'name':
'm1.metadata',
'vcpus':
1000,
'disk':
1024,
'ram':
10000,
'swap':
0,
'extra_specs':
FlavorExtraSpecs({
'key': 'key_mock',
'value': 'value_mock'
}),
'os-flavor-access:is_public':
False,
'OS-FLV-EXT-DATA:ephemeral':
2048
})
TEST.flavors.add(flavor_1, flavor_2, flavor_3, flavor_4)
flavor_access_manager = flavor_access.FlavorAccessManager(None)
flavor_access_1 = flavor_access.FlavorAccess(
flavor_access_manager, {
"tenant_id": "1",
"flavor_id": "dddddddd-dddd-dddd-dddd-dddddddddddd"
})
flavor_access_2 = flavor_access.FlavorAccess(
flavor_access_manager, {
"tenant_id": "2",
"flavor_id": "dddddddd-dddd-dddd-dddd-dddddddddddd"
})
TEST.flavor_access.add(flavor_access_1, flavor_access_2)
# Key pairs
keypair = keypairs.Keypair(keypairs.KeypairManager(None),
dict(name='keyName'))
TEST.keypairs.add(keypair)
# Security Groups and Rules
def generate_security_groups(is_uuid=False):
def get_id(is_uuid):
global current_int_id
if is_uuid:
return str(uuid.uuid4())
else:
get_id.current_int_id += 1
return get_id.current_int_id
get_id.current_int_id = 0
sg_manager = sec_groups.SecurityGroupManager(None)
rule_manager = rules.SecurityGroupRuleManager(None)
sec_group_1 = sec_groups.SecurityGroup(
sg_manager, {
"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"default",
"description": u"default"
})
sec_group_2 = sec_groups.SecurityGroup(
sg_manager, {
"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"other_group",
"description": u"NotDefault."
})
sec_group_3 = sec_groups.SecurityGroup(
sg_manager, {
"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"another_group",
"description": u"NotDefault."
})
rule = {
'id': get_id(is_uuid),
'group': {},
'ip_protocol': u"tcp",
'from_port': u"80",
'to_port': u"80",
'parent_group_id': sec_group_1.id,
'ip_range': {
'cidr': u"0.0.0.0/32"
}
}
icmp_rule = {
'id': get_id(is_uuid),
'group': {},
'ip_protocol': u"icmp",
'from_port': u"9",
'to_port': u"5",
'parent_group_id': sec_group_1.id,
'ip_range': {
'cidr': u"0.0.0.0/32"
}
}
group_rule = {
'id': 3,
'group': {},
'ip_protocol': u"tcp",
'from_port': u"80",
'to_port': u"80",
'parent_group_id': sec_group_1.id,
'source_group_id': sec_group_1.id
}
rule_obj = rules.SecurityGroupRule(rule_manager, rule)
rule_obj2 = rules.SecurityGroupRule(rule_manager, icmp_rule)
rule_obj3 = rules.SecurityGroupRule(rule_manager, group_rule)
sec_group_1.rules = [rule_obj]
sec_group_2.rules = [rule_obj]
return {
"rules": [rule_obj, rule_obj2, rule_obj3],
"groups": [sec_group_1, sec_group_2, sec_group_3]
}
sg_data = generate_security_groups()
TEST.security_group_rules.add(*sg_data["rules"])
TEST.security_groups.add(*sg_data["groups"])
sg_uuid_data = generate_security_groups(is_uuid=True)
TEST.security_group_rules_uuid.add(*sg_uuid_data["rules"])
TEST.security_groups_uuid.add(*sg_uuid_data["groups"])
# Quota Sets
quota_data = dict(metadata_items='1',
injected_file_content_bytes='1',
volumes='1',
gigabytes='1000',
ram=10000,
floating_ips='1',
fixed_ips='10',
instances='10',
injected_files='1',
cores='10',
security_groups='10',
security_group_rules='20')
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
TEST.quotas.nova = base.QuotaSet(quota)
TEST.quotas.add(base.QuotaSet(quota))
# nova quotas disabled when neutron is enabled
disabled_quotas_nova = [
'floating_ips', 'fixed_ips', 'security_groups', 'security_group_rules'
]
TEST.disabled_quotas.add(disabled_quotas_nova)
# Quota Usages
quota_usage_data = {
'gigabytes': {
'used': 0,
'quota': 1000
},
'instances': {
'used': 0,
'quota': 10
},
'ram': {
'used': 0,
'quota': 10000
},
'cores': {
'used': 0,
'quota': 20
},
'floating_ips': {
'used': 0,
'quota': 10
},
'volumes': {
'used': 0,
'quota': 10
}
}
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.quota_usages.add(quota_usage)
# Limits
limits = {
"absolute": {
"maxImageMeta": 128,
"maxPersonality": 5,
"maxPersonalitySize": 10240,
"maxSecurityGroupRules": 20,
"maxSecurityGroups": 10,
"maxServerMeta": 128,
"maxTotalCores": 20,
"maxTotalFloatingIps": 10,
"maxTotalInstances": 10,
"maxTotalKeypairs": 100,
"maxTotalRAMSize": 10000,
"totalCoresUsed": 0,
"totalInstancesUsed": 0,
"totalKeyPairsUsed": 0,
"totalRAMUsed": 0,
"totalSecurityGroupsUsed": 0
}
}
TEST.limits = limits
# Servers
tenant3 = TEST.tenants.list()[2]
vals = {
"host": "http://nova.example.com:8774",
"name": "server_1",
"status": "ACTIVE",
"tenant_id": TEST.tenants.first().id,
"user_id": TEST.user.id,
"server_id": "1",
"flavor_id": flavor_1.id,
"image_id": TEST.images.first().id,
"key_name": keypair.name
}
server_1 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
vals.update({"name": "server_2", "status": "BUILD", "server_id": "2"})
server_2 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
vals.update({
"name": u'\u4e91\u89c4\u5219',
"status": "ACTIVE",
"tenant_id": tenant3.id,
"server_id": "3"
})
server_3 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
TEST.servers.add(server_1, server_2, server_3)
# VNC Console Data
console = {
u'console': {
u'url': u'http://example.com:6080/vnc_auto.html',
u'type': u'novnc'
}
}
TEST.servers.vnc_console_data = console
# SPICE Console Data
console = {
u'console': {
u'url': u'http://example.com:6080/spice_auto.html',
u'type': u'spice'
}
}
TEST.servers.spice_console_data = console
# RDP Console Data
console = {
u'console': {
u'url': u'http://example.com:6080/rdp_auto.html',
u'type': u'rdp'
}
}
TEST.servers.rdp_console_data = console
# Floating IPs
def generate_fip(conf):
return floating_ips.FloatingIP(floating_ips.FloatingIPManager(None),
conf)
fip_1 = {
'id': 1,
'fixed_ip': '10.0.0.4',
'instance_id': server_1.id,
'ip': '58.58.58.58',
'pool': 'pool1'
}
fip_2 = {
'id': 2,
'fixed_ip': None,
'instance_id': None,
'ip': '58.58.58.58',
'pool': 'pool2'
}
TEST.api_floating_ips.add(generate_fip(fip_1), generate_fip(fip_2))
TEST.floating_ips.add(nova.FloatingIp(generate_fip(fip_1)),
nova.FloatingIp(generate_fip(fip_2)))
# Floating IP with UUID id (for Floating IP with Neutron Proxy)
fip_3 = {
'id': str(uuid.uuid4()),
'fixed_ip': '10.0.0.4',
'instance_id': server_1.id,
'ip': '58.58.58.58',
'pool': 'pool1'
}
fip_4 = {
'id': str(uuid.uuid4()),
'fixed_ip': None,
'instance_id': None,
'ip': '58.58.58.58',
'pool': 'pool2'
}
TEST.api_floating_ips_uuid.add(generate_fip(fip_3), generate_fip(fip_4))
TEST.floating_ips_uuid.add(nova.FloatingIp(generate_fip(fip_3)),
nova.FloatingIp(generate_fip(fip_4)))
# Usage
usage_vals = {
"tenant_id": TEST.tenant.id,
"instance_name": server_1.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram
}
usage_obj = usage.Usage(usage.UsageManager(None),
json.loads(USAGE_DATA % usage_vals))
TEST.usages.add(usage_obj)
usage_2_vals = {
"tenant_id": tenant3.id,
"instance_name": server_3.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram
}
usage_obj_2 = usage.Usage(usage.UsageManager(None),
json.loads(USAGE_DATA % usage_2_vals))
TEST.usages.add(usage_obj_2)
volume_snapshot = vol_snaps.Snapshot(
vol_snaps.SnapshotManager(None), {
'id': '40f3fabf-3613-4f5e-90e5-6c9a08333fc3',
'display_name': 'test snapshot',
'display_description': 'vol snap!',
'size': 40,
'status': 'available',
'volume_id': '41023e92-8008-4c8b-8059-7f2293ff3775'
})
volume_snapshot2 = vol_snaps.Snapshot(
vol_snaps.SnapshotManager(None), {
'id': 'a374cbb8-3f99-4c3f-a2ef-3edbec842e31',
'display_name': '',
'display_description': 'vol snap 2!',
'size': 80,
'status': 'available',
'volume_id': '3b189ac8-9166-ac7f-90c9-16c8bf9e01ac'
})
TEST.volume_snapshots.add(volume_snapshot)
TEST.volume_snapshots.add(volume_snapshot2)
cert_data = {'private_key': 'private', 'data': 'certificate_data'}
certificate = certs.Certificate(certs.CertificateManager(None), cert_data)
TEST.certs.add(certificate)
# Availability Zones
TEST.availability_zones.add(
availability_zones.AvailabilityZone(
availability_zones.AvailabilityZoneManager(None),
{
'zoneName': 'nova',
'zoneState': {
'available': True
},
'hosts': {
"host001": {
"nova-network": {
"active": True,
"available": True,
},
},
},
},
))
# hypervisors
hypervisor_1 = hypervisors.Hypervisor(
hypervisors.HypervisorManager(None),
{
"service": {
"host": "devstack001",
"id": 3
},
"vcpus_used":
1,
"hypervisor_type":
"QEMU",
"local_gb_used":
20,
"hypervisor_hostname":
"devstack001",
"memory_mb_used":
1500,
"memory_mb":
2000,
"current_workload":
0,
"vcpus":
1,
"cpu_info":
'{"vendor": "Intel", "model": "core2duo",'
'"arch": "x86_64", "features": ["lahf_lm"'
', "rdtscp"], "topology": {"cores": 1, "t'
'hreads": 1, "sockets": 1}}',
"running_vms":
1,
"free_disk_gb":
9,
"hypervisor_version":
1002000,
"disk_available_least":
6,
"local_gb":
29,
"free_ram_mb":
500,
"id":
1,
},
)
hypervisor_2 = hypervisors.Hypervisor(
hypervisors.HypervisorManager(None),
{
"service": {
"host": "devstack002",
"id": 4
},
"vcpus_used":
1,
"hypervisor_type":
"QEMU",
"local_gb_used":
20,
"hypervisor_hostname":
"devstack002",
"memory_mb_used":
1500,
"memory_mb":
2000,
"current_workload":
0,
"vcpus":
1,
"cpu_info":
'{"vendor": "Intel", "model": "core2duo",'
'"arch": "x86_64", "features": ["lahf_lm"'
', "rdtscp"], "topology": {"cores": 1, "t'
'hreads": 1, "sockets": 1}}',
"running_vms":
1,
"free_disk_gb":
9,
"hypervisor_version":
1002000,
"disk_available_least":
6,
"local_gb":
29,
"free_ram_mb":
500,
"id":
2,
},
)
hypervisor_3 = hypervisors.Hypervisor(
hypervisors.HypervisorManager(None),
{
"service": {
"host": "instance-host",
"id": 5
},
"vcpus_used":
1,
"hypervisor_type":
"QEMU",
"local_gb_used":
20,
"hypervisor_hostname":
"devstack003",
"memory_mb_used":
1500,
"memory_mb":
2000,
"current_workload":
0,
"vcpus":
1,
"cpu_info":
'{"vendor": "Intel", "model": "core2duo",'
'"arch": "x86_64", "features": ["lahf_lm"'
', "rdtscp"], "topology": {"cores": 1, "t'
'hreads": 1, "sockets": 1}}',
"running_vms":
1,
"free_disk_gb":
9,
"hypervisor_version":
1002000,
"disk_available_least":
6,
"local_gb":
29,
"free_ram_mb":
500,
"id":
3,
},
)
TEST.hypervisors.add(hypervisor_1)
TEST.hypervisors.add(hypervisor_2)
TEST.hypervisors.add(hypervisor_3)
TEST.hypervisors.stats = {
"hypervisor_statistics": {
"count": 5,
"vcpus_used": 3,
"local_gb_used": 15,
"memory_mb": 483310,
"current_workload": 0,
"vcpus": 160,
"running_vms": 3,
"free_disk_gb": 12548,
"disk_available_least": 12556,
"local_gb": 12563,
"free_ram_mb": 428014,
"memory_mb_used": 55296,
}
}
# Services
service_1 = services.Service(
services.ServiceManager(None), {
"status": "enabled",
"binary": "nova-conductor",
"zone": "internal",
"state": "up",
"updated_at": "2013-07-08T05:21:00.000000",
"host": "devstack001",
"disabled_reason": None,
})
service_2 = services.Service(
services.ServiceManager(None), {
"status": "enabled",
"binary": "nova-compute",
"zone": "nova",
"state": "up",
"updated_at": "2013-07-08T05:20:51.000000",
"host": "devstack001",
"disabled_reason": None,
})
service_3 = services.Service(
services.ServiceManager(None), {
"status": "enabled",
"binary": "nova-compute",
"zone": "nova",
"state": "down",
"updated_at": "2013-07-08T04:20:51.000000",
"host": "devstack002",
"disabled_reason": None,
})
TEST.services.add(service_1)
TEST.services.add(service_2)
TEST.services.add(service_3)
# Aggregates
aggregate_1 = aggregates.Aggregate(
aggregates.AggregateManager(None), {
"name": "foo",
"availability_zone": "testing",
"deleted": 0,
"created_at": "2013-07-04T13:34:38.000000",
"updated_at": None,
"hosts": ["foo", "bar"],
"deleted_at": None,
"id": 1,
"metadata": {
"foo": "testing",
"bar": "testing"
},
})
aggregate_2 = aggregates.Aggregate(
aggregates.AggregateManager(None), {
"name": "bar",
"availability_zone": "testing",
"deleted": 0,
"created_at": "2013-07-04T13:34:38.000000",
"updated_at": None,
"hosts": ["foo", "bar"],
"deleted_at": None,
"id": 2,
"metadata": {
"foo": "testing",
"bar": "testing"
},
})
TEST.aggregates.add(aggregate_1)
TEST.aggregates.add(aggregate_2)
host1 = hosts.Host(hosts.HostManager(None), {
"host_name": "devstack001",
"service": "compute",
"zone": "testing",
})
host2 = hosts.Host(
hosts.HostManager(None), {
"host_name": "devstack002",
"service": "nova-conductor",
"zone": "testing",
})
host3 = hosts.Host(hosts.HostManager(None), {
"host_name": "devstack003",
"service": "compute",
"zone": "testing",
})
host4 = hosts.Host(hosts.HostManager(None), {
"host_name": "devstack004",
"service": "compute",
"zone": "testing",
})
TEST.hosts.add(host1)
TEST.hosts.add(host2)
TEST.hosts.add(host3)
TEST.hosts.add(host4)
def tenant_quota_get(request, tenant_id):
return base.QuotaSet(neutronclient(request).show_quota(tenant_id)['quota'])
def default_quota_get(request, tenant_id):
return base.QuotaSet(novaclient(request).quotas.defaults(tenant_id))
def tenant_quota_get(request, tenant_id):
return base.QuotaSet(novaclient(request).quotas.get(tenant_id))
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'
})
def tenant_quota_get(request, tenant_id):
c_client = cinderclient(request)
if c_client is None:
return base.QuotaSet()
return base.QuotaSet(c_client.quotas.get(tenant_id))
def tenant_quota_get(request, tenant_id, region=None):
return base.QuotaSet(novaclient(request, region=region).quotas.get(tenant_id))
def data(TEST):
TEST.servers = utils.TestDataContainer()
TEST.flavors = utils.TestDataContainer()
TEST.flavor_access = utils.TestDataContainer()
TEST.keypairs = utils.TestDataContainer()
TEST.volumes = utils.TestDataContainer()
TEST.quotas = utils.TestDataContainer()
TEST.quota_usages = utils.TestDataContainer()
TEST.usages = utils.TestDataContainer()
TEST.availability_zones = utils.TestDataContainer()
TEST.hypervisors = utils.TestDataContainer()
TEST.services = utils.TestDataContainer()
TEST.aggregates = utils.TestDataContainer()
TEST.server_groups = utils.TestDataContainer()
# Volumes
volume = volumes.Volume(
volumes.VolumeManager(None),
{"id": "41023e92-8008-4c8b-8059-7f2293ff3775",
"name": 'test_volume',
"status": 'available',
"size": 40,
"display_name": 'Volume name',
"created_at": '2012-04-01 10:30:00',
"volume_type": None,
"attachments": []})
nameless_volume = volumes.Volume(
volumes.VolumeManager(None),
{"id": "3b189ac8-9166-ac7f-90c9-16c8bf9e01ac",
"name": '',
"status": 'in-use',
"size": 10,
"display_name": '',
"display_description": '',
"device": "/dev/hda",
"created_at": '2010-11-21 18:34:25',
"volume_type": 'vol_type_1',
"attachments": [{"id": "1", "server_id": '1',
"device": "/dev/hda"}]})
attached_volume = volumes.Volume(
volumes.VolumeManager(None),
{"id": "8cba67c1-2741-6c79-5ab6-9c2bf8c96ab0",
"name": 'my_volume',
"status": 'in-use',
"size": 30,
"display_name": 'My Volume',
"display_description": '',
"device": "/dev/hdk",
"created_at": '2011-05-01 11:54:33',
"volume_type": 'vol_type_2',
"attachments": [{"id": "2", "server_id": '1',
"device": "/dev/hdk"}]})
non_bootable_volume = volumes.Volume(
volumes.VolumeManager(None),
{"id": "41023e92-8008-4c8b-8059-7f2293ff3771",
"name": 'non_bootable_volume',
"status": 'available',
"size": 40,
"display_name": 'Non Bootable Volume',
"created_at": '2012-04-01 10:30:00',
"volume_type": None,
"attachments": []})
volume.bootable = 'true'
nameless_volume.bootable = 'true'
attached_volume.bootable = 'true'
non_bootable_volume.bootable = 'false'
TEST.volumes.add(volume)
TEST.volumes.add(nameless_volume)
TEST.volumes.add(attached_volume)
TEST.volumes.add(non_bootable_volume)
# Flavors
flavor_1 = flavors.Flavor(flavors.FlavorManager(None),
{'id': "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa",
'name': 'm1.tiny',
'vcpus': 1,
'disk': 0,
'ram': 512,
'swap': 0,
'rxtx_factor': 1,
'extra_specs': {},
'os-flavor-access:is_public': True,
'OS-FLV-EXT-DATA:ephemeral': 0})
flavor_2 = flavors.Flavor(flavors.FlavorManager(None),
{'id': "bbbbbbbb-bbbb-bbbb-bbbb-bbbbbbbbbbbb",
'name': 'm1.massive',
'vcpus': 1000,
'disk': 1024,
'ram': 10000,
'swap': 0,
'rxtx_factor': 1,
'extra_specs': {'Trusted': True, 'foo': 'bar'},
'os-flavor-access:is_public': True,
'OS-FLV-EXT-DATA:ephemeral': 2048})
flavor_3 = flavors.Flavor(flavors.FlavorManager(None),
{'id': "dddddddd-dddd-dddd-dddd-dddddddddddd",
'name': 'm1.secret',
'vcpus': 1000,
'disk': 1024,
'ram': 10000,
'swap': 0,
'rxtx_factor': 1,
'extra_specs': {},
'os-flavor-access:is_public': False,
'OS-FLV-EXT-DATA:ephemeral': 2048})
flavor_4 = flavors.Flavor(flavors.FlavorManager(None),
{'id': "eeeeeeee-eeee-eeee-eeee-eeeeeeeeeeee",
'name': 'm1.metadata',
'vcpus': 1000,
'disk': 1024,
'ram': 10000,
'swap': 0,
'rxtx_factor': 1,
'extra_specs': FlavorExtraSpecs(
{'key': 'key_mock',
'value': 'value_mock'}),
'os-flavor-access:is_public': False,
'OS-FLV-EXT-DATA:ephemeral': 2048})
TEST.flavors.add(flavor_1, flavor_2, flavor_3, flavor_4)
flavor_access_manager = flavor_access.FlavorAccessManager(None)
flavor_access_1 = flavor_access.FlavorAccess(
flavor_access_manager,
{"tenant_id": "1",
"flavor_id": "dddddddd-dddd-dddd-dddd-dddddddddddd"})
flavor_access_2 = flavor_access.FlavorAccess(
flavor_access_manager,
{"tenant_id": "2",
"flavor_id": "dddddddd-dddd-dddd-dddd-dddddddddddd"})
TEST.flavor_access.add(flavor_access_1, flavor_access_2)
# Key pairs
keypair = keypairs.Keypair(keypairs.KeypairManager(None),
dict(name='keyName'))
TEST.keypairs.add(keypair)
# Quota Sets
quota_data = {
'metadata_items': '1',
'injected_file_content_bytes': '1',
'ram': 10000,
'instances': '10',
'injected_files': '1',
'cores': '10',
'key_pairs': 100,
'server_groups': 10,
'server_group_members': 10,
'injected_file_path_bytes': 255,
}
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
TEST.quotas.nova = base.QuotaSet(quota)
TEST.quotas.add(base.QuotaSet(quota))
# Quota Usages
quota_usage_data = {'gigabytes': {'used': 0,
'quota': 1000},
'instances': {'used': 0,
'quota': 10},
'ram': {'used': 0,
'quota': 10000},
'cores': {'used': 0,
'quota': 20},
'volumes': {'used': 0,
'quota': 10}}
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.quota_usages.add(quota_usage)
# Limits
limits = {"absolute": {"maxImageMeta": 128,
"maxPersonality": 5,
"maxPersonalitySize": 10240,
"maxSecurityGroupRules": 20,
"maxSecurityGroups": 10,
"maxServerMeta": 128,
"maxTotalCores": 20,
"maxTotalFloatingIps": 10,
"maxTotalInstances": 10,
"maxTotalKeypairs": 100,
"maxTotalRAMSize": 10000,
"totalCoresUsed": 2,
"totalInstancesUsed": 2,
"totalKeyPairsUsed": 0,
"totalRAMUsed": 1024,
"totalSecurityGroupsUsed": 0}}
TEST.limits = limits
# Servers
tenant3 = TEST.tenants.list()[2]
vals = {"host": "http://nova.example.com:8774",
"name": "server_1",
"status": "ACTIVE",
"tenant_id": TEST.tenants.first().id,
"user_id": TEST.user.id,
"server_id": "1",
"flavor_id": flavor_1.id,
"image_id": TEST.images.first().id,
"key_name": keypair.name}
server_1 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
vals.update({"name": "server_2",
"status": "BUILD",
"server_id": "2"})
server_2 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
vals.update({"name": u'\u4e91\u89c4\u5219',
"status": "ACTIVE",
"tenant_id": tenant3.id,
"server_id": "3"})
server_3 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
vals.update({"name": "server_4",
"status": "PAUSED",
"server_id": "4"})
server_4 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
TEST.servers.add(server_1, server_2, server_3, server_4)
# VNC Console Data
console = {
u'console': {
u'url': u'http://example.com:6080/vnc_auto.html',
u'type': u'novnc'
}
}
TEST.servers.vnc_console_data = console
# SPICE Console Data
console = {
u'console': {
u'url': u'http://example.com:6080/spice_auto.html',
u'type': u'spice'
}
}
TEST.servers.spice_console_data = console
# RDP Console Data
console = {
u'console': {
u'url': u'http://example.com:6080/rdp_auto.html',
u'type': u'rdp'
}
}
TEST.servers.rdp_console_data = console
# MKS Console Data
console = {
u'remote_console': {
u'url': u'http://example.com:6080/mks_auto.html',
u'type': u'mks'
}
}
TEST.servers.mks_console_data = console
# Usage
usage_vals = {"tenant_id": TEST.tenant.id,
"instance_name": server_1.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram}
usage_obj = usage.Usage(usage.UsageManager(None),
json.loads(USAGE_DATA % usage_vals))
TEST.usages.add(usage_obj)
usage_2_vals = {"tenant_id": tenant3.id,
"instance_name": server_3.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram}
usage_obj_2 = usage.Usage(usage.UsageManager(None),
json.loads(USAGE_DATA % usage_2_vals))
TEST.usages.add(usage_obj_2)
# Availability Zones
TEST.availability_zones.add(availability_zones.AvailabilityZone(
availability_zones.AvailabilityZoneManager(None),
{
'zoneName': 'nova',
'zoneState': {'available': True},
'hosts': {
"host001": {
"nova-network": {
"active": True,
"available": True,
},
},
},
},
))
# hypervisors
hypervisor_1 = hypervisors.Hypervisor(
hypervisors.HypervisorManager(None),
{
"service": {"host": "devstack001", "id": 3},
"vcpus_used": 1,
"hypervisor_type": "QEMU",
"local_gb_used": 20,
"hypervisor_hostname": "devstack001",
"memory_mb_used": 1500,
"memory_mb": 2000,
"current_workload": 0,
"vcpus": 1,
"cpu_info": '{"vendor": "Intel", "model": "core2duo",'
'"arch": "x86_64", "features": ["lahf_lm"'
', "rdtscp"], "topology": {"cores": 1, "t'
'hreads": 1, "sockets": 1}}',
"running_vms": 1,
"free_disk_gb": 9,
"hypervisor_version": 1002000,
"disk_available_least": 6,
"local_gb": 29,
"free_ram_mb": 500,
"id": 1,
"servers": [{"name": "test_name", "uuid": "test_uuid"}]
},
)
hypervisor_2 = hypervisors.Hypervisor(
hypervisors.HypervisorManager(None),
{
"service": {"host": "devstack002", "id": 4},
"vcpus_used": 1,
"hypervisor_type": "QEMU",
"local_gb_used": 20,
"hypervisor_hostname": "devstack002",
"memory_mb_used": 1500,
"memory_mb": 2000,
"current_workload": 0,
"vcpus": 1,
"cpu_info": '{"vendor": "Intel", "model": "core2duo",'
'"arch": "x86_64", "features": ["lahf_lm"'
', "rdtscp"], "topology": {"cores": 1, "t'
'hreads": 1, "sockets": 1}}',
"running_vms": 1,
"free_disk_gb": 9,
"hypervisor_version": 1002000,
"disk_available_least": 6,
"local_gb": 29,
"free_ram_mb": 500,
"id": 2,
"servers": [{"name": "test_name_2", "uuid": "test_uuid_2"}]
},
)
hypervisor_3 = hypervisors.Hypervisor(
hypervisors.HypervisorManager(None),
{
"service": {"host": "instance-host", "id": 5},
"vcpus_used": 1,
"hypervisor_type": "QEMU",
"local_gb_used": 20,
"hypervisor_hostname": "instance-host",
"memory_mb_used": 1500,
"memory_mb": 2000,
"current_workload": 0,
"vcpus": 1,
"cpu_info": '{"vendor": "Intel", "model": "core2duo",'
'"arch": "x86_64", "features": ["lahf_lm"'
', "rdtscp"], "topology": {"cores": 1, "t'
'hreads": 1, "sockets": 1}}',
"running_vms": 1,
"free_disk_gb": 9,
"hypervisor_version": 1002000,
"disk_available_least": 6,
"local_gb": 29,
"free_ram_mb": 500,
"id": 3,
},
)
TEST.hypervisors.add(hypervisor_1)
TEST.hypervisors.add(hypervisor_2)
TEST.hypervisors.add(hypervisor_3)
TEST.hypervisors.stats = {
"hypervisor_statistics": {
"count": 5,
"vcpus_used": 3,
"local_gb_used": 15,
"memory_mb": 483310,
"current_workload": 0,
"vcpus": 160,
"running_vms": 3,
"free_disk_gb": 12548,
"disk_available_least": 12556,
"local_gb": 12563,
"free_ram_mb": 428014,
"memory_mb_used": 55296,
}
}
# Services
service_1 = services.Service(services.ServiceManager(None), {
"status": "enabled",
"binary": "nova-conductor",
"zone": "internal",
"state": "up",
"updated_at": "2013-07-08T05:21:00.000000",
"host": "devstack001",
"disabled_reason": None,
})
service_2 = services.Service(services.ServiceManager(None), {
"status": "enabled",
"binary": "nova-compute",
"zone": "nova",
"state": "up",
"updated_at": "2013-07-08T05:20:51.000000",
"host": "devstack001",
"disabled_reason": None,
})
service_3 = services.Service(services.ServiceManager(None), {
"status": "enabled",
"binary": "nova-compute",
"zone": "nova",
"state": "down",
"updated_at": "2013-07-08T04:20:51.000000",
"host": "devstack002",
"disabled_reason": None,
})
service_4 = services.Service(services.ServiceManager(None), {
"status": "disabled",
"binary": "nova-compute",
"zone": "nova",
"state": "up",
"updated_at": "2013-07-08T04:20:51.000000",
"host": "devstack003",
"disabled_reason": None,
})
TEST.services.add(service_1)
TEST.services.add(service_2)
TEST.services.add(service_3)
TEST.services.add(service_4)
# Aggregates
aggregate_1 = aggregates.Aggregate(aggregates.AggregateManager(None), {
"name": "foo",
"availability_zone": "testing",
"deleted": 0,
"created_at": "2013-07-04T13:34:38.000000",
"updated_at": None,
"hosts": ["foo", "bar"],
"deleted_at": None,
"id": 1,
"metadata": {"foo": "testing", "bar": "testing"},
})
aggregate_2 = aggregates.Aggregate(aggregates.AggregateManager(None), {
"name": "bar",
"availability_zone": "testing",
"deleted": 0,
"created_at": "2013-07-04T13:34:38.000000",
"updated_at": None,
"hosts": ["foo", "bar"],
"deleted_at": None,
"id": 2,
"metadata": {"foo": "testing", "bar": "testing"},
})
TEST.aggregates.add(aggregate_1)
TEST.aggregates.add(aggregate_2)
server_group_1 = server_groups.ServerGroup(
server_groups.ServerGroupsManager(None),
{
"id": "1",
"name": "server_group_1",
"policies": [],
},
)
server_group_2 = server_groups.ServerGroup(
server_groups.ServerGroupsManager(None),
{
"id": "2",
"name": "server_group_2",
"policies": ["affinity", "some_other_policy"],
},
)
server_group_3 = server_groups.ServerGroup(
server_groups.ServerGroupsManager(None),
{
"id": "3",
"name": "server_group_3",
"policies": ["anti-affinity", "some_other_policy"],
},
)
TEST.server_groups.add(server_group_1)
TEST.server_groups.add(server_group_2)
TEST.server_groups.add(server_group_3)
def data(TEST):
# data returned by openstack_dashboard.api.neutron wrapper
TEST.agents = utils.TestDataContainer()
TEST.networks = utils.TestDataContainer()
TEST.subnets = utils.TestDataContainer()
TEST.ports = utils.TestDataContainer()
TEST.routers = utils.TestDataContainer()
TEST.routers_with_rules = utils.TestDataContainer()
TEST.q_floating_ips = utils.TestDataContainer()
TEST.q_secgroups = utils.TestDataContainer()
TEST.q_secgroup_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.net_profiles = utils.TestDataContainer()
TEST.policy_profiles = utils.TestDataContainer()
TEST.network_profile_binding = utils.TestDataContainer()
TEST.policy_profile_binding = utils.TestDataContainer()
TEST.vpnservices = utils.TestDataContainer()
TEST.ikepolicies = utils.TestDataContainer()
TEST.ipsecpolicies = utils.TestDataContainer()
TEST.ipsecsiteconnections = utils.TestDataContainer()
TEST.firewalls = utils.TestDataContainer()
TEST.fw_policies = utils.TestDataContainer()
TEST.fw_rules = utils.TestDataContainer()
# data return by neutronclient
TEST.api_agents = utils.TestDataContainer()
TEST.api_networks = utils.TestDataContainer()
TEST.api_subnets = utils.TestDataContainer()
TEST.api_ports = utils.TestDataContainer()
TEST.api_routers = utils.TestDataContainer()
TEST.api_q_floating_ips = utils.TestDataContainer()
TEST.api_q_secgroups = utils.TestDataContainer()
TEST.api_q_secgroup_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_net_profiles = utils.TestDataContainer()
TEST.api_policy_profiles = utils.TestDataContainer()
TEST.api_network_profile_binding = utils.TestDataContainer()
TEST.api_policy_profile_binding = utils.TestDataContainer()
TEST.api_vpnservices = utils.TestDataContainer()
TEST.api_ikepolicies = utils.TestDataContainer()
TEST.api_ipsecpolicies = utils.TestDataContainer()
TEST.api_ipsecsiteconnections = utils.TestDataContainer()
TEST.api_firewalls = utils.TestDataContainer()
TEST.api_fw_policies = utils.TestDataContainer()
TEST.api_fw_rules = 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'],
'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']
}
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)
# network profile for network when using the cisco n1k plugin
net_profile_dict = {
'name': 'net_profile_test1',
'segment_type': 'vlan',
'physical_network': 'phys1',
'segment_range': '3000-3100',
'id': '00000000-1111-1111-1111-000000000000',
'project': network_dict['tenant_id']
}
TEST.api_net_profiles.add(net_profile_dict)
TEST.net_profiles.add(neutron.Profile(net_profile_dict))
# policy profile for port when using the cisco n1k plugin
policy_profile_dict = {
'name': 'policy_profile_test1',
'id': '00000000-9999-9999-9999-000000000000'
}
TEST.api_policy_profiles.add(policy_profile_dict)
TEST.policy_profiles.add(neutron.Profile(policy_profile_dict))
# network profile binding
network_profile_binding_dict = {
'profile_id': '00000000-1111-1111-1111-000000000000',
'tenant_id': network_dict['tenant_id']
}
TEST.api_network_profile_binding.add(network_profile_binding_dict)
TEST.network_profile_binding.add(
neutron.Profile(network_profile_binding_dict))
# policy profile binding
policy_profile_binding_dict = {
'profile_id': '00000000-9999-9999-9999-000000000000',
'tenant_id': network_dict['tenant_id']
}
TEST.api_policy_profile_binding.add(policy_profile_binding_dict)
TEST.policy_profile_binding.add(
neutron.Profile(policy_profile_binding_dict))
# 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']
}
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']
}],
'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']
}
TEST.api_ports.add(port_dict)
TEST.ports.add(neutron.Port(port_dict))
assoc_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']
}
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)
#------------------------------------------------------------
# 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': network_dict['id'],
'status': 'ACTIVE',
'tenant_id': '1'
}
TEST.api_ports.add(port_dict)
TEST.ports.add(neutron.Port(port_dict))
router_dict = {
'id': '279989f7-54bb-41d9-ba42-0d61f12fda61',
'name': 'router1',
'external_gateway_info': {
'network_id': ext_net['id']
},
'tenant_id': '1'
}
TEST.api_routers.add(router_dict)
TEST.routers.add(neutron.Router(router_dict))
router_dict = {
'id': '10e3dc42-1ce1-4d48-87cf-7fc333055d6c',
'name': 'router2',
'external_gateway_info': {
'network_id': ext_net['id']
},
'tenant_id': '1'
}
TEST.api_routers.add(router_dict)
TEST.routers.add(neutron.Router(router_dict))
router_dict = {
'id':
'71fb25e9-cd9f-4a44-a780-85ec3bd8bdd7',
'name':
'rulerouter',
'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))
#------------------------------------------------------------
# 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_q_floating_ips.add(fip_dict)
TEST.q_floating_ips.add(neutron.FloatingIp(fip_dict))
# 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_q_floating_ips.add(fip_dict)
TEST.q_floating_ips.add(neutron.FloatingIp(fip_dict))
#------------------------------------------------------------
# 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': str(uuid.uuid4()),
'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': str(uuid.uuid4()),
'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': str(uuid.uuid4()),
'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': str(uuid.uuid4()),
'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': str(uuid.uuid4()),
'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': str(uuid.uuid4()),
'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_q_secgroups.add(sg)
for rule in sg['security_group_rules']:
TEST.api_q_secgroup_rules.add(copy.copy(rule))
# OpenStack Dashboard internaly API
TEST.q_secgroups.add(
neutron.SecurityGroup(copy.deepcopy(sg), sg_name_dict))
for rule in sg['security_group_rules']:
TEST.q_secgroup_rules.add(
neutron.SecurityGroupRule(copy.copy(rule), sg_name_dict))
#------------------------------------------------------------
# LBaaS
# 1st pool
pool_dict = {
'id': '8913dde8-4915-4b90-8d3e-b95eeedb0d49',
'tenant_id': '1',
'vip_id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'name': 'pool1',
'description': 'pool description',
'subnet_id': TEST.subnets.first().id,
'protocol': 'HTTP',
'lb_method': 'ROUND_ROBIN',
'health_monitors': ['d4a0500f-db2b-4cc4-afcf-ec026febff96'],
'admin_state_up': True,
'status': 'ACTIVE',
'provider': 'haproxy'
}
TEST.api_pools.add(pool_dict)
TEST.pools.add(lbaas.Pool(pool_dict))
# 2nd pool
pool_dict = {
'id': '8913dde8-4915-4b90-8d3e-b95eeedb0d50',
'tenant_id': '1',
'vip_id': 'f0881d38-c3eb-4fee-9763-12de3338041d',
'name': 'pool2',
'description': 'pool description',
'subnet_id': TEST.subnets.first().id,
'protocol': 'HTTPS',
'lb_method': 'ROUND_ROBIN',
'health_monitors': ['d4a0500f-db2b-4cc4-afcf-ec026febff97'],
'status': 'PENDING_CREATE',
'admin_state_up': True
}
TEST.api_pools.add(pool_dict)
TEST.pools.add(lbaas.Pool(pool_dict))
# 1st vip
vip_dict = {
'id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'name': 'vip1',
'address': '10.0.0.100',
'floatip_address': '',
'other_address': '10.0.0.100',
'description': 'vip description',
'subnet_id': TEST.subnets.first().id,
'subnet': TEST.subnets.first().cidr,
'protocol_port': 80,
'protocol': pool_dict['protocol'],
'pool_id': pool_dict['id'],
'session_persistence': {
'type': 'APP_COOKIE',
'cookie_name': 'jssessionid'
},
'connection_limit': 10,
'admin_state_up': True
}
TEST.api_vips.add(vip_dict)
TEST.vips.add(lbaas.Vip(vip_dict))
# 2nd vip
vip_dict = {
'id': 'f0881d38-c3eb-4fee-9763-12de3338041d',
'name': 'vip2',
'address': '10.0.0.110',
'floatip_address': '',
'other_address': '10.0.0.110',
'description': 'vip description',
'subnet_id': TEST.subnets.first().id,
'subnet': TEST.subnets.first().cidr,
'protocol_port': 80,
'protocol': pool_dict['protocol'],
'pool_id': pool_dict['id'],
'session_persistence': {
'type': 'APP_COOKIE',
'cookie_name': 'jssessionid'
},
'connection_limit': 10,
'admin_state_up': True
}
TEST.api_vips.add(vip_dict)
TEST.vips.add(lbaas.Vip(vip_dict))
# 1st member
member_dict = {
'id': '78a46e5e-eb1a-418a-88c7-0e3f5968b08',
'tenant_id': '1',
'pool_id': pool_dict['id'],
'address': '10.0.0.11',
'protocol_port': 80,
'weight': 10,
'status': 'ACTIVE',
'admin_state_up': True
}
TEST.api_members.add(member_dict)
TEST.members.add(lbaas.Member(member_dict))
# 2nd member
member_dict = {
'id': '41ac1f8d-6d9c-49a4-a1bf-41955e651f91',
'tenant_id': '1',
'pool_id': pool_dict['id'],
'address': '10.0.0.12',
'protocol_port': 80,
'weight': 10,
'status': 'ACTIVE',
'admin_state_up': True
}
TEST.api_members.add(member_dict)
TEST.members.add(lbaas.Member(member_dict))
# 1st monitor
monitor_dict = {
'id': 'd4a0500f-db2b-4cc4-afcf-ec026febff96',
'type': 'ping',
'delay': 10,
'timeout': 10,
'max_retries': 10,
'http_method': 'GET',
'url_path': '/',
'expected_codes': '200',
'admin_state_up': True
}
TEST.api_monitors.add(monitor_dict)
TEST.monitors.add(lbaas.PoolMonitor(monitor_dict))
# 2nd monitor
monitor_dict = {
'id': 'd4a0500f-db2b-4cc4-afcf-ec026febff97',
'type': 'ping',
'delay': 10,
'timeout': 10,
'max_retries': 10,
'http_method': 'GET',
'url_path': '/',
'expected_codes': '200',
'admin_state_up': True
}
TEST.api_monitors.add(monitor_dict)
TEST.monitors.add(lbaas.PoolMonitor(monitor_dict))
#------------------------------------------------------------
# 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))
#------------------------------------------------------------
# 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"
}
TEST.api_extensions.add(extension_1)
TEST.api_extensions.add(extension_2)
#------------------------------------------------------------
# 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)
#------------------------------------------------------------
# VPNaaS
# 1st VPNService
vpnservice_dict = {
'id': '09a26949-6231-4f72-942a-0c8c0ddd4d61',
'tenant_id': '1',
'name': 'cloud_vpn1',
'description': 'vpn description',
'subnet_id': TEST.subnets.first().id,
'router_id': TEST.routers.first().id,
'vpn_type': 'ipsec',
'ipsecsiteconnections': [],
'admin_state_up': True,
'status': 'Active',
'ipsecsiteconns': TEST.ipsecsiteconnections.list()
}
TEST.api_vpnservices.add(vpnservice_dict)
TEST.vpnservices.add(vpn.VPNService(vpnservice_dict))
# 2nd VPNService
vpnservice_dict = {
'id': '09a26949-6231-4f72-942a-0c8c0ddd4d62',
'tenant_id': '1',
'name': 'cloud_vpn2',
'description': 'vpn description',
'subnet_id': TEST.subnets.first().id,
'router_id': TEST.routers.first().id,
'vpn_type': 'ipsec',
'ipsecsiteconnections': [],
'admin_state_up': True,
'status': 'Active',
'ipsecsiteconns': []
}
TEST.api_vpnservices.add(vpnservice_dict)
TEST.vpnservices.add(vpn.VPNService(vpnservice_dict))
# 1st IKEPolicy
ikepolicy_dict = {
'id': 'a1f009b7-0ffa-43a7-ba19-dcabb0b4c981',
'tenant_id': '1',
'name': 'ikepolicy_1',
'description': 'ikepolicy description',
'auth_algorithm': 'sha1',
'encryption_algorithm': 'aes-256',
'ike_version': 'v1',
'lifetime': {
'units': 'seconds',
'value': 3600
},
'phase1_negotiation_mode': 'main',
'pfs': 'group5',
'ipsecsiteconns': TEST.ipsecsiteconnections.list()
}
TEST.api_ikepolicies.add(ikepolicy_dict)
TEST.ikepolicies.add(vpn.IKEPolicy(ikepolicy_dict))
# 2nd IKEPolicy
ikepolicy_dict = {
'id': 'a1f009b7-0ffa-43a7-ba19-dcabb0b4c982',
'tenant_id': '1',
'name': 'ikepolicy_2',
'description': 'ikepolicy description',
'auth_algorithm': 'sha1',
'encryption_algorithm': 'aes-256',
'ike_version': 'v1',
'lifetime': {
'units': 'seconds',
'value': 3600
},
'phase1_negotiation_mode': 'main',
'pfs': 'group5',
'ipsecsiteconns': []
}
TEST.api_ikepolicies.add(ikepolicy_dict)
TEST.ikepolicies.add(vpn.IKEPolicy(ikepolicy_dict))
# 1st IPSecPolicy
ipsecpolicy_dict = {
'id': '8376e1dd-2b1c-4346-b23c-6989e75ecdb8',
'tenant_id': '1',
'name': 'ipsecpolicy_1',
'description': 'ipsecpolicy description',
'auth_algorithm': 'sha1',
'encapsulation_mode': 'tunnel',
'encryption_algorithm': '3des',
'lifetime': {
'units': 'seconds',
'value': 3600
},
'pfs': 'group5',
'transform_protocol': 'esp',
'ipsecsiteconns': TEST.ipsecsiteconnections.list()
}
TEST.api_ipsecpolicies.add(ipsecpolicy_dict)
TEST.ipsecpolicies.add(vpn.IPSecPolicy(ipsecpolicy_dict))
# 2nd IPSecPolicy
ipsecpolicy_dict = {
'id': '8376e1dd-2b1c-4346-b23c-6989e75ecdb9',
'tenant_id': '1',
'name': 'ipsecpolicy_2',
'description': 'ipsecpolicy description',
'auth_algorithm': 'sha1',
'encapsulation_mode': 'tunnel',
'encryption_algorithm': '3des',
'lifetime': {
'units': 'seconds',
'value': 3600
},
'pfs': 'group5',
'transform_protocol': 'esp',
'ipsecsiteconns': []
}
TEST.api_ipsecpolicies.add(ipsecpolicy_dict)
TEST.ipsecpolicies.add(vpn.IPSecPolicy(ipsecpolicy_dict))
# 1st IPSecSiteConnection
ipsecsiteconnection_dict = {
'id': 'dd1dd3a0-f349-49be-b013-245e147763d6',
'tenant_id': '1',
'name': 'ipsec_connection_1',
'description': 'vpn connection description',
'dpd': {
'action': 'hold',
'interval': 30,
'timeout': 120
},
'ikepolicy_id': ikepolicy_dict['id'],
'initiator': 'bi-directional',
'ipsecpolicy_id': ipsecpolicy_dict['id'],
'mtu': 1500,
'peer_address': '2607:f0d0:4545:3:200:f8ff:fe21:67cf',
'peer_cidrs': ['20.1.0.0/24', '21.1.0.0/24'],
'peer_id': '2607:f0d0:4545:3:200:f8ff:fe21:67cf',
'psk': 'secret',
'vpnservice_id': vpnservice_dict['id'],
'admin_state_up': True,
'status': 'Active'
}
TEST.api_ipsecsiteconnections.add(ipsecsiteconnection_dict)
TEST.ipsecsiteconnections.add(
vpn.IPSecSiteConnection(ipsecsiteconnection_dict))
# 2nd IPSecSiteConnection
ipsecsiteconnection_dict = {
'id': 'dd1dd3a0-f349-49be-b013-245e147763d7',
'tenant_id': '1',
'name': 'ipsec_connection_2',
'description': 'vpn connection description',
'dpd': {
'action': 'hold',
'interval': 30,
'timeout': 120
},
'ikepolicy_id': ikepolicy_dict['id'],
'initiator': 'bi-directional',
'ipsecpolicy_id': ipsecpolicy_dict['id'],
'mtu': 1500,
'peer_address': '172.0.0.2',
'peer_cidrs': ['20.1.0.0/24'],
'peer_id': '172.0.0.2',
'psk': 'secret',
'vpnservice_id': vpnservice_dict['id'],
'admin_state_up': True,
'status': 'Active'
}
TEST.api_ipsecsiteconnections.add(ipsecsiteconnection_dict)
TEST.ipsecsiteconnections.add(
vpn.IPSecSiteConnection(ipsecsiteconnection_dict))
# FWaaS
# 1st rule (used by 1st policy)
rule1_dict = {
'id': 'f0881d38-c3eb-4fee-9763-12de3338041d',
'tenant_id': '1',
'name': 'rule1',
'description': 'rule1 description',
'protocol': 'tcp',
'action': 'allow',
'source_ip_address': '1.2.3.0/24',
'source_port': '80',
'destination_ip_address': '4.5.6.7/32',
'destination_port': '1:65535',
'firewall_policy_id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'position': 1,
'shared': True,
'enabled': True
}
TEST.api_fw_rules.add(rule1_dict)
rule1 = fwaas.Rule(copy.deepcopy(rule1_dict))
# NOTE: rule1['policy'] is set below
TEST.fw_rules.add(rule1)
# 2nd rule (used by 2nd policy; no name)
rule2_dict = {
'id': 'c6298a93-850f-4f64-b78a-959fd4f1e5df',
'tenant_id': '1',
'name': '',
'description': '',
'protocol': 'udp',
'action': 'deny',
'source_ip_address': '1.2.3.0/24',
'source_port': '80',
'destination_ip_address': '4.5.6.7/32',
'destination_port': '1:65535',
'firewall_policy_id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'position': 2,
'shared': True,
'enabled': True
}
TEST.api_fw_rules.add(rule2_dict)
rule2 = fwaas.Rule(copy.deepcopy(rule2_dict))
# NOTE: rule2['policy'] is set below
TEST.fw_rules.add(rule2)
# 3rd rule (not used by any policy)
rule3_dict = {
'id': 'h0881d38-c3eb-4fee-9763-12de3338041d',
'tenant_id': '1',
'name': 'rule3',
'description': 'rule3 description',
'protocol': 'icmp',
'action': 'allow',
'source_ip_address': '1.2.3.0/24',
'source_port': '80',
'destination_ip_address': '4.5.6.7/32',
'destination_port': '1:65535',
'firewall_policy_id': None,
'position': None,
'shared': True,
'enabled': True
}
TEST.api_fw_rules.add(rule3_dict)
rule3 = fwaas.Rule(copy.deepcopy(rule3_dict))
# rule3 is not associated with any rules
rule3._apidict['policy'] = None
TEST.fw_rules.add(rule3)
# 1st policy (associated with 2 rules)
policy1_dict = {
'id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'tenant_id': '1',
'name': 'policy1',
'description': 'policy with two rules',
'firewall_rules': [rule1_dict['id'], rule2_dict['id']],
'audited': True,
'shared': True
}
TEST.api_fw_policies.add(policy1_dict)
policy1 = fwaas.Policy(copy.deepcopy(policy1_dict))
policy1._apidict['rules'] = [rule1, rule2]
TEST.fw_policies.add(policy1)
# Reverse relations (rule -> policy)
rule1._apidict['policy'] = policy1
rule2._apidict['policy'] = policy1
# 2nd policy (associated with no rules; no name)
policy2_dict = {
'id': 'cf50b331-787a-4623-825e-da794c918d6a',
'tenant_id': '1',
'name': '',
'description': '',
'firewall_rules': [],
'audited': False,
'shared': False
}
TEST.api_fw_policies.add(policy2_dict)
policy2 = fwaas.Policy(copy.deepcopy(policy2_dict))
policy2._apidict['rules'] = []
TEST.fw_policies.add(policy2)
# 1st firewall
fw1_dict = {
'id': '8913dde8-4915-4b90-8d3e-b95eeedb0d49',
'tenant_id': '1',
'firewall_policy_id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'name': 'firewall1',
'description': 'firewall description',
'status': 'PENDING_CREATE',
'shared': True,
'admin_state_up': True
}
TEST.api_firewalls.add(fw1_dict)
fw1 = fwaas.Firewall(copy.deepcopy(fw1_dict))
fw1._apidict['policy'] = policy1
TEST.firewalls.add(fw1)
# 2nd firewall (no name)
fw2_dict = {
'id': '1aa75150-415f-458e-bae5-5a362a4fb1f7',
'tenant_id': '1',
'firewall_policy_id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'name': '',
'description': '',
'status': 'PENDING_CREATE',
'shared': True,
'admin_state_up': True
}
TEST.api_firewalls.add(fw1_dict)
fw2 = fwaas.Firewall(copy.deepcopy(fw2_dict))
fw2._apidict['policy'] = policy1
TEST.firewalls.add(fw1)
#------------------------------------------------------------
# Additional Cisco N1K profiles
# 2nd network profile for network when using the cisco n1k plugin
# Profile applied on 1st network
net_profile_dict = {
'name': 'net_profile_test2',
'segment_type': 'overlay',
'sub_type': 'native_vxlan',
'segment_range': '10000-10100',
'multicast_ip_range': '144.0.0.0-144.0.0.100',
'id': '00000000-2222-2222-2222-000000000000',
'project': '1'
}
TEST.api_net_profiles.add(net_profile_dict)
TEST.net_profiles.add(neutron.Profile(net_profile_dict))
# 2nd network profile binding
network_profile_binding_dict = {
'profile_id': '00000000-2222-2222-2222-000000000000',
'tenant_id': '1'
}
TEST.api_network_profile_binding.add(network_profile_binding_dict)
TEST.network_profile_binding.add(
neutron.Profile(network_profile_binding_dict))
# 3rd network profile for network when using the cisco n1k plugin
# Profile applied on 1st network
net_profile_dict = {
'name': 'net_profile_test3',
'segment_type': 'overlay',
'sub_type': 'other',
'other_subtype': 'GRE',
'segment_range': '11000-11100',
'id': '00000000-3333-3333-3333-000000000000',
'project': '1'
}
TEST.api_net_profiles.add(net_profile_dict)
TEST.net_profiles.add(neutron.Profile(net_profile_dict))
# 3rd network profile binding
network_profile_binding_dict = {
'profile_id': '00000000-3333-3333-3333-000000000000',
'tenant_id': '1'
}
TEST.api_network_profile_binding.add(network_profile_binding_dict)
TEST.network_profile_binding.add(
neutron.Profile(network_profile_binding_dict))
# 4th network profile for network when using the cisco n1k plugin
# Profile applied on 1st network
net_profile_dict = {
'name': 'net_profile_test4',
'segment_type': 'trunk',
'sub_type_trunk': 'vlan',
'id': '00000000-4444-4444-4444-000000000000',
'project': '1'
}
TEST.api_net_profiles.add(net_profile_dict)
TEST.net_profiles.add(neutron.Profile(net_profile_dict))
# 4th network profile binding
network_profile_binding_dict = {
'profile_id': '00000000-4444-4444-4444-000000000000',
'tenant_id': '1'
}
TEST.api_network_profile_binding.add(network_profile_binding_dict)
TEST.network_profile_binding.add(
neutron.Profile(network_profile_binding_dict))
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.routers = utils.TestDataContainer()
TEST.routers_with_rules = utils.TestDataContainer()
TEST.routers_with_routes = utils.TestDataContainer()
TEST.q_floating_ips = utils.TestDataContainer()
TEST.q_secgroups = utils.TestDataContainer()
TEST.q_secgroup_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.vpnservices = utils.TestDataContainer()
TEST.ikepolicies = utils.TestDataContainer()
TEST.ipsecpolicies = utils.TestDataContainer()
TEST.ipsecsiteconnections = utils.TestDataContainer()
TEST.firewalls = utils.TestDataContainer()
TEST.fw_policies = utils.TestDataContainer()
TEST.fw_rules = utils.TestDataContainer()
TEST.ip_availability = 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_routers = utils.TestDataContainer()
TEST.api_routers_with_routes = utils.TestDataContainer()
TEST.api_q_floating_ips = utils.TestDataContainer()
TEST.api_q_secgroups = utils.TestDataContainer()
TEST.api_q_secgroup_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_vpnservices = utils.TestDataContainer()
TEST.api_ikepolicies = utils.TestDataContainer()
TEST.api_ipsecpolicies = utils.TestDataContainer()
TEST.api_ipsecsiteconnections = utils.TestDataContainer()
TEST.api_firewalls = utils.TestDataContainer()
TEST.api_fw_policies = utils.TestDataContainer()
TEST.api_fw_rules = utils.TestDataContainer()
TEST.api_ip_availability = 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'],
'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']}
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)
# 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'}]
}
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']}],
'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'}
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'}
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'}
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'}
TEST.api_ports.add(port_dict)
TEST.ports.add(neutron.Port(port_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'}
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_q_floating_ips.add(fip_dict)
fip_with_instance = copy.deepcopy(fip_dict)
fip_with_instance.update({'instance_id': None,
'instance_type': None})
TEST.q_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_q_floating_ips.add(fip_dict)
fip_with_instance = copy.deepcopy(fip_dict)
fip_with_instance.update({'instance_id': '1',
'instance_type': 'compute'})
TEST.q_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_q_secgroups.add(sg)
for rule in sg['security_group_rules']:
TEST.api_q_secgroup_rules.add(copy.copy(rule))
# OpenStack Dashboard internaly API.
TEST.q_secgroups.add(
neutron.SecurityGroup(copy.deepcopy(sg), sg_name_dict))
for rule in sg['security_group_rules']:
TEST.q_secgroup_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},
'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."}
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)
# 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)
# VPNaaS.
# 1st VPNService.
vpnservice_dict = {'id': '09a26949-6231-4f72-942a-0c8c0ddd4d61',
'tenant_id': '1',
'name': 'cloud_vpn1',
'description': 'vpn description',
'subnet_id': TEST.subnets.first().id,
'router_id': TEST.routers.first().id,
'vpn_type': 'ipsec',
'ipsecsiteconnections': [],
'admin_state_up': True,
'status': 'Active',
'ipsecsiteconns': TEST.ipsecsiteconnections.list()
}
TEST.api_vpnservices.add(vpnservice_dict)
TEST.vpnservices.add(vpn.VPNService(vpnservice_dict))
# 2nd VPNService.
vpnservice_dict = {'id': '09a26949-6231-4f72-942a-0c8c0ddd4d62',
'tenant_id': '1',
'name': 'cloud_vpn2',
'description': 'vpn description',
'subnet_id': TEST.subnets.first().id,
'router_id': TEST.routers.first().id,
'vpn_type': 'ipsec',
'ipsecsiteconnections': [],
'admin_state_up': True,
'status': 'Active',
'ipsecsiteconns': [],
'external_v4_ip': '10.0.0.0/24',
'external_v6_ip': 'fd4c:a535:831c::/64'
}
TEST.api_vpnservices.add(vpnservice_dict)
TEST.vpnservices.add(vpn.VPNService(vpnservice_dict))
# 1st IKEPolicy
ikepolicy_dict = {'id': 'a1f009b7-0ffa-43a7-ba19-dcabb0b4c981',
'tenant_id': '1',
'name': 'ikepolicy_1',
'description': 'ikepolicy description',
'auth_algorithm': 'sha1',
'encryption_algorithm': 'aes-256',
'ike_version': 'v1',
'lifetime': {'units': 'seconds', 'value': 3600},
'phase1_negotiation_mode': 'main',
'pfs': 'group5',
'ipsecsiteconns': TEST.ipsecsiteconnections.list()}
TEST.api_ikepolicies.add(ikepolicy_dict)
TEST.ikepolicies.add(vpn.IKEPolicy(ikepolicy_dict))
# 2nd IKEPolicy
ikepolicy_dict = {'id': 'a1f009b7-0ffa-43a7-ba19-dcabb0b4c982',
'tenant_id': '1',
'name': 'ikepolicy_2',
'description': 'ikepolicy description',
'auth_algorithm': 'sha1',
'encryption_algorithm': 'aes-256',
'ike_version': 'v1',
'lifetime': {'units': 'seconds', 'value': 3600},
'phase1_negotiation_mode': 'main',
'pfs': 'group5',
'ipsecsiteconns': []}
TEST.api_ikepolicies.add(ikepolicy_dict)
TEST.ikepolicies.add(vpn.IKEPolicy(ikepolicy_dict))
# 1st IPSecPolicy
ipsecpolicy_dict = {'id': '8376e1dd-2b1c-4346-b23c-6989e75ecdb8',
'tenant_id': '1',
'name': 'ipsecpolicy_1',
'description': 'ipsecpolicy description',
'auth_algorithm': 'sha1',
'encapsulation_mode': 'tunnel',
'encryption_algorithm': '3des',
'lifetime': {'units': 'seconds', 'value': 3600},
'pfs': 'group5',
'transform_protocol': 'esp',
'ipsecsiteconns': TEST.ipsecsiteconnections.list()}
TEST.api_ipsecpolicies.add(ipsecpolicy_dict)
TEST.ipsecpolicies.add(vpn.IPSecPolicy(ipsecpolicy_dict))
# 2nd IPSecPolicy
ipsecpolicy_dict = {'id': '8376e1dd-2b1c-4346-b23c-6989e75ecdb9',
'tenant_id': '1',
'name': 'ipsecpolicy_2',
'description': 'ipsecpolicy description',
'auth_algorithm': 'sha1',
'encapsulation_mode': 'tunnel',
'encryption_algorithm': '3des',
'lifetime': {'units': 'seconds', 'value': 3600},
'pfs': 'group5',
'transform_protocol': 'esp',
'ipsecsiteconns': []}
TEST.api_ipsecpolicies.add(ipsecpolicy_dict)
TEST.ipsecpolicies.add(vpn.IPSecPolicy(ipsecpolicy_dict))
# 1st IPSecSiteConnection
ipsecsiteconnection_dict = {'id': 'dd1dd3a0-f349-49be-b013-245e147763d6',
'tenant_id': '1',
'name': 'ipsec_connection_1',
'description': 'vpn connection description',
'dpd': {'action': 'hold',
'interval': 30,
'timeout': 120},
'ikepolicy_id': ikepolicy_dict['id'],
'initiator': 'bi-directional',
'ipsecpolicy_id': ipsecpolicy_dict['id'],
'mtu': 1500,
'peer_address':
'2607:f0d0:4545:3:200:f8ff:fe21:67cf',
'peer_cidrs': ['20.1.0.0/24', '21.1.0.0/24'],
'peer_id':
'2607:f0d0:4545:3:200:f8ff:fe21:67cf',
'psk': 'secret',
'vpnservice_id': vpnservice_dict['id'],
'admin_state_up': True,
'status': 'Active'}
TEST.api_ipsecsiteconnections.add(ipsecsiteconnection_dict)
TEST.ipsecsiteconnections.add(
vpn.IPSecSiteConnection(ipsecsiteconnection_dict))
# 2nd IPSecSiteConnection
ipsecsiteconnection_dict = {'id': 'dd1dd3a0-f349-49be-b013-245e147763d7',
'tenant_id': '1',
'name': 'ipsec_connection_2',
'description': 'vpn connection description',
'dpd': {'action': 'hold',
'interval': 30,
'timeout': 120},
'ikepolicy_id': ikepolicy_dict['id'],
'initiator': 'bi-directional',
'ipsecpolicy_id': ipsecpolicy_dict['id'],
'mtu': 1500,
'peer_address': '172.0.0.2',
'peer_cidrs': ['20.1.0.0/24'],
'peer_id': '172.0.0.2',
'psk': 'secret',
'vpnservice_id': vpnservice_dict['id'],
'admin_state_up': True,
'status': 'Active'}
TEST.api_ipsecsiteconnections.add(ipsecsiteconnection_dict)
TEST.ipsecsiteconnections.add(
vpn.IPSecSiteConnection(ipsecsiteconnection_dict))
# FWaaS
# 1st rule (used by 1st policy)
rule1_dict = {'id': 'f0881d38-c3eb-4fee-9763-12de3338041d',
'tenant_id': '1',
'name': 'rule1',
'description': 'rule1 description',
'protocol': 'tcp',
'action': 'allow',
'source_ip_address': '1.2.3.0/24',
'source_port': '80',
'destination_ip_address': '4.5.6.7/32',
'destination_port': '1:65535',
'firewall_policy_id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'position': 1,
'shared': True,
'enabled': True,
'ip_version': '4'}
TEST.api_fw_rules.add(rule1_dict)
rule1 = fwaas.Rule(copy.deepcopy(rule1_dict))
# NOTE: rule1['policy'] is set below
TEST.fw_rules.add(rule1)
# 2nd rule (used by 2nd policy; no name)
rule2_dict = {'id': 'c6298a93-850f-4f64-b78a-959fd4f1e5df',
'tenant_id': '1',
'name': '',
'description': '',
'protocol': 'udp',
'action': 'deny',
'source_ip_address': '1.2.3.0/24',
'source_port': '80',
'destination_ip_address': '4.5.6.7/32',
'destination_port': '1:65535',
'firewall_policy_id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'position': 2,
'shared': True,
'enabled': True,
'ip_version': '6'}
TEST.api_fw_rules.add(rule2_dict)
rule2 = fwaas.Rule(copy.deepcopy(rule2_dict))
# NOTE: rule2['policy'] is set below
TEST.fw_rules.add(rule2)
# 3rd rule (not used by any policy)
rule3_dict = {'id': 'h0881d38-c3eb-4fee-9763-12de3338041d',
'tenant_id': '1',
'name': 'rule3',
'description': 'rule3 description',
'protocol': None,
'action': 'allow',
'source_ip_address': '1.2.3.0/24',
'source_port': '80',
'destination_ip_address': '4.5.6.7/32',
'destination_port': '1:65535',
'firewall_policy_id': None,
'position': None,
'shared': True,
'enabled': True,
'ip_version': '4'}
TEST.api_fw_rules.add(rule3_dict)
rule3 = fwaas.Rule(copy.deepcopy(rule3_dict))
# rule3 is not associated with any rules
rule3._apidict['policy'] = None
TEST.fw_rules.add(rule3)
# 1st policy (associated with 2 rules)
policy1_dict = {'id': 'abcdef-c3eb-4fee-9763-12de3338041e',
'tenant_id': '1',
'name': 'policy1',
'description': 'policy with two rules',
'firewall_rules': [rule1_dict['id'], rule2_dict['id']],
'audited': True,
'shared': True}
TEST.api_fw_policies.add(policy1_dict)
policy1 = fwaas.Policy(copy.deepcopy(policy1_dict))
policy1._apidict['rules'] = [rule1, rule2]
TEST.fw_policies.add(policy1)
# Reverse relations (rule -> policy)
rule1._apidict['policy'] = policy1
rule2._apidict['policy'] = policy1
# 2nd policy (associated with no rules; no name)
policy2_dict = {'id': 'cf50b331-787a-4623-825e-da794c918d6a',
'tenant_id': '1',
'name': '',
'description': '',
'firewall_rules': [],
'audited': False,
'shared': False}
TEST.api_fw_policies.add(policy2_dict)
policy2 = fwaas.Policy(copy.deepcopy(policy2_dict))
policy2._apidict['rules'] = []
TEST.fw_policies.add(policy2)
# 1st firewall
fw1_dict = {'id': '8913dde8-4915-4b90-8d3e-b95eeedb0d49',
'tenant_id': '1',
'firewall_policy_id':
'abcdef-c3eb-4fee-9763-12de3338041e',
'name': 'firewall1',
'router_ids': [TEST.routers.first().id],
'description': 'firewall description',
'status': 'PENDING_CREATE',
'admin_state_up': True}
TEST.api_firewalls.add(fw1_dict)
fw1 = fwaas.Firewall(copy.deepcopy(fw1_dict))
fw1._apidict['policy'] = policy1
fw1._apidict['routers'] = [TEST.routers.first()]
TEST.firewalls.add(fw1)
# 2nd firewall (no name)
fw2_dict = {'id': '1aa75150-415f-458e-bae5-5a362a4fb1f7',
'tenant_id': '1',
'firewall_policy_id':
'abcdef-c3eb-4fee-9763-12de3338041e',
'name': '',
'router_ids': [],
'description': '',
'status': 'PENDING_CREATE',
'admin_state_up': True}
TEST.api_firewalls.add(fw2_dict)
fw2 = fwaas.Firewall(copy.deepcopy(fw2_dict))
fw2._apidict['policy'] = policy1
TEST.firewalls.add(fw2)
# 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'}
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)
