class TestShowSubnet(TestSubnet): # The subnets to be shown _subnet = network_fakes.FakeSubnet.create_one_subnet() columns = ( 'allocation_pools', 'cidr', 'dns_nameservers', 'enable_dhcp', 'gateway_ip', 'host_routes', 'id', 'ip_version', 'ipv6_address_mode', 'ipv6_ra_mode', 'name', 'network_id', 'project_id', 'subnetpool_id', ) data = ( subnet_v2._format_allocation_pools(_subnet.allocation_pools), _subnet.cidr, utils.format_list(_subnet.dns_nameservers), _subnet.enable_dhcp, _subnet.gateway_ip, utils.format_list(_subnet.host_routes), _subnet.id, _subnet.ip_version, _subnet.ipv6_address_mode, _subnet.ipv6_ra_mode, _subnet.name, _subnet.network_id, _subnet.tenant_id, _subnet.subnetpool_id, ) def setUp(self): super(TestShowSubnet, self).setUp() # Get the command object to test self.cmd = subnet_v2.ShowSubnet(self.app, self.namespace) self.network.find_subnet = mock.Mock(return_value=self._subnet) def test_show_no_options(self): arglist = [] verifylist = [] # Testing that a call without the required argument will fail and # throw a "ParserExecption" self.assertRaises(tests_utils.ParserException, self.check_parser, self.cmd, arglist, verifylist) def test_show_all_options(self): arglist = [ self._subnet.name, ] verifylist = [ ('subnet', self._subnet.name), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.find_subnet.assert_called_with(self._subnet.name, ignore_missing=False) self.assertEqual(self.columns, columns) self.assertEqual(list(self.data), list(data))
class TestListSubnet(TestSubnet): # The subnets going to be listed up. _subnet = network_fakes.FakeSubnet.create_subnets(count=3) columns = ( 'ID', 'Name', 'Network', 'Subnet', ) columns_long = columns + ( 'Project', 'DHCP', 'Name Servers', 'Allocation Pools', 'Host Routes', 'IP Version', 'Gateway', ) data = [] for subnet in _subnet: data.append(( subnet.id, subnet.name, subnet.network_id, subnet.cidr, )) data_long = [] for subnet in _subnet: data_long.append(( subnet.id, subnet.name, subnet.network_id, subnet.cidr, subnet.tenant_id, subnet.enable_dhcp, utils.format_list(subnet.dns_nameservers), subnet_v2._format_allocation_pools(subnet.allocation_pools), utils.format_list(subnet.host_routes), subnet.ip_version, subnet.gateway_ip, )) def setUp(self): super(TestListSubnet, self).setUp() # Get the command object to test self.cmd = subnet_v2.ListSubnet(self.app, self.namespace) self.network.subnets = mock.Mock(return_value=self._subnet) def test_subnet_list_no_options(self): arglist = [] verifylist = [ ('long', False), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.subnets.assert_called_with() self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_subnet_list_long(self): arglist = [ '--long', ] verifylist = [ ('long', True), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.subnets.assert_called_with() self.assertEqual(self.columns_long, columns) self.assertEqual(self.data_long, list(data))
class TestCreateSubnet(TestSubnet): # An IPv4 subnet to be created with mostly default values _subnet = network_fakes.FakeSubnet.create_one_subnet( attrs={ 'tenant_id': identity_fakes_v3.project_id, } ) # Subnet pool to be used to create a subnet from a pool _subnet_pool = network_fakes.FakeSubnetPool.create_one_subnet_pool() # An IPv4 subnet to be created using a specific subnet pool _subnet_from_pool = network_fakes.FakeSubnet.create_one_subnet( attrs={ 'tenant_id': identity_fakes_v3.project_id, 'subnetpool_id': _subnet_pool.id, 'dns_nameservers': ['8.8.8.8', '8.8.4.4'], 'host_routes': [{'destination': '10.20.20.0/24', 'nexthop': '10.20.20.1'}, {'destination': '10.30.30.0/24', 'nexthop': '10.30.30.1'}], } ) # An IPv6 subnet to be created with most options specified _subnet_ipv6 = network_fakes.FakeSubnet.create_one_subnet( attrs={ 'tenant_id': identity_fakes_v3.project_id, 'cidr': 'fe80:0:0:a00a::/64', 'enable_dhcp': True, 'dns_nameservers': ['fe80:27ff:a00a:f00f::ffff', 'fe80:37ff:a00a:f00f::ffff'], 'allocation_pools': [{'start': 'fe80::a00a:0:c0de:0:100', 'end': 'fe80::a00a:0:c0de:0:f000'}, {'start': 'fe80::a00a:0:c0de:1:100', 'end': 'fe80::a00a:0:c0de:1:f000'}], 'host_routes': [{'destination': 'fe80:27ff:a00a:f00f::/64', 'nexthop': 'fe80:27ff:a00a:f00f::1'}, {'destination': 'fe80:37ff:a00a:f00f::/64', 'nexthop': 'fe80:37ff:a00a:f00f::1'}], 'ip_version': 6, 'gateway_ip': 'fe80::a00a:0:c0de:0:1', 'ipv6_address_mode': 'slaac', 'ipv6_ra_mode': 'slaac', 'subnetpool_id': 'None', } ) # The network to be returned from find_network _network = network_fakes.FakeNetwork.create_one_network( attrs={ 'id': _subnet.network_id, } ) columns = ( 'allocation_pools', 'cidr', 'dns_nameservers', 'enable_dhcp', 'gateway_ip', 'host_routes', 'id', 'ip_version', 'ipv6_address_mode', 'ipv6_ra_mode', 'name', 'network_id', 'project_id', 'subnetpool_id', ) data = ( subnet_v2._format_allocation_pools(_subnet.allocation_pools), _subnet.cidr, utils.format_list(_subnet.dns_nameservers), _subnet.enable_dhcp, _subnet.gateway_ip, subnet_v2._format_host_routes(_subnet.host_routes), _subnet.id, _subnet.ip_version, _subnet.ipv6_address_mode, _subnet.ipv6_ra_mode, _subnet.name, _subnet.network_id, _subnet.project_id, _subnet.subnetpool_id, ) data_subnet_pool = ( subnet_v2._format_allocation_pools(_subnet_from_pool.allocation_pools), _subnet_from_pool.cidr, utils.format_list(_subnet_from_pool.dns_nameservers), _subnet_from_pool.enable_dhcp, _subnet_from_pool.gateway_ip, subnet_v2._format_host_routes(_subnet_from_pool.host_routes), _subnet_from_pool.id, _subnet_from_pool.ip_version, _subnet_from_pool.ipv6_address_mode, _subnet_from_pool.ipv6_ra_mode, _subnet_from_pool.name, _subnet_from_pool.network_id, _subnet_from_pool.project_id, _subnet_from_pool.subnetpool_id, ) data_ipv6 = ( subnet_v2._format_allocation_pools(_subnet_ipv6.allocation_pools), _subnet_ipv6.cidr, utils.format_list(_subnet_ipv6.dns_nameservers), _subnet_ipv6.enable_dhcp, _subnet_ipv6.gateway_ip, subnet_v2._format_host_routes(_subnet_ipv6.host_routes), _subnet_ipv6.id, _subnet_ipv6.ip_version, _subnet_ipv6.ipv6_address_mode, _subnet_ipv6.ipv6_ra_mode, _subnet_ipv6.name, _subnet_ipv6.network_id, _subnet_ipv6.project_id, _subnet_ipv6.subnetpool_id, ) def setUp(self): super(TestCreateSubnet, self).setUp() # Get the command object to test self.cmd = subnet_v2.CreateSubnet(self.app, self.namespace) # Set identity client v3. And get a shortcut to Identity client. identity_client = identity_fakes_v3.FakeIdentityv3Client( endpoint=fakes.AUTH_URL, token=fakes.AUTH_TOKEN, ) self.app.client_manager.identity = identity_client self.identity = self.app.client_manager.identity # Get a shortcut to the ProjectManager Mock self.projects_mock = self.identity.projects self.projects_mock.get.return_value = fakes.FakeResource( None, copy.deepcopy(identity_fakes_v3.PROJECT), loaded=True, ) # Get a shortcut to the DomainManager Mock self.domains_mock = self.identity.domains self.domains_mock.get.return_value = fakes.FakeResource( None, copy.deepcopy(identity_fakes_v3.DOMAIN), loaded=True, ) def test_create_no_options(self): arglist = [] verifylist = [] # Testing that a call without the required argument will fail and # throw a "ParserExecption" self.assertRaises(tests_utils.ParserException, self.check_parser, self.cmd, arglist, verifylist) def test_create_default_options(self): # Mock create_subnet and find_network sdk calls to return the # values we want for this test self.network.create_subnet = mock.Mock(return_value=self._subnet) self._network.id = self._subnet.network_id self.network.find_network = mock.Mock(return_value=self._network) arglist = [ self._subnet.name, "--subnet-range", self._subnet.cidr, "--network", self._subnet.network_id, ] verifylist = [ ('name', self._subnet.name), ('subnet_range', self._subnet.cidr), ('network', self._subnet.network_id), ('ip_version', self._subnet.ip_version), ('gateway', 'auto'), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.create_subnet.assert_called_with(**{ 'cidr': self._subnet.cidr, 'enable_dhcp': self._subnet.enable_dhcp, 'ip_version': self._subnet.ip_version, 'name': self._subnet.name, 'network_id': self._subnet.network_id, }) self.assertEqual(self.columns, columns) self.assertEqual(self.data, data) def test_create_from_subnet_pool_options(self): # Mock create_subnet, find_subnet_pool, and find_network sdk calls # to return the values we want for this test self.network.create_subnet = \ mock.Mock(return_value=self._subnet_from_pool) self._network.id = self._subnet_from_pool.network_id self.network.find_network = mock.Mock(return_value=self._network) self.network.find_subnet_pool = \ mock.Mock(return_value=self._subnet_pool) arglist = [ self._subnet_from_pool.name, "--subnet-pool", self._subnet_from_pool.subnetpool_id, "--prefix-length", '24', "--network", self._subnet_from_pool.network_id, "--ip-version", str(self._subnet_from_pool.ip_version), "--gateway", self._subnet_from_pool.gateway_ip, "--dhcp", ] for dns_addr in self._subnet_from_pool.dns_nameservers: arglist.append('--dns-nameserver') arglist.append(dns_addr) for host_route in self._subnet_from_pool.host_routes: arglist.append('--host-route') value = 'gateway=' + host_route.get('nexthop', '') + \ ',destination=' + host_route.get('destination', '') arglist.append(value) verifylist = [ ('name', self._subnet_from_pool.name), ('prefix_length', '24'), ('network', self._subnet_from_pool.network_id), ('ip_version', self._subnet_from_pool.ip_version), ('gateway', self._subnet_from_pool.gateway_ip), ('dns_nameservers', self._subnet_from_pool.dns_nameservers), ('enable_dhcp', self._subnet_from_pool.enable_dhcp), ('host_routes', subnet_v2.convert_entries_to_gateway( self._subnet_from_pool.host_routes)), ('subnet_pool', self._subnet_from_pool.subnetpool_id), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.create_subnet.assert_called_with(**{ 'dns_nameservers': self._subnet_from_pool.dns_nameservers, 'enable_dhcp': self._subnet_from_pool.enable_dhcp, 'gateway_ip': self._subnet_from_pool.gateway_ip, 'host_routes': self._subnet_from_pool.host_routes, 'ip_version': self._subnet_from_pool.ip_version, 'name': self._subnet_from_pool.name, 'network_id': self._subnet_from_pool.network_id, 'prefixlen': '24', 'subnetpool_id': self._subnet_from_pool.subnetpool_id, }) self.assertEqual(self.columns, columns) self.assertEqual(self.data_subnet_pool, data) def test_create_options_subnet_range_ipv6(self): # Mock create_subnet and find_network sdk calls to return the # values we want for this test self.network.create_subnet = mock.Mock(return_value=self._subnet_ipv6) self._network.id = self._subnet_ipv6.network_id self.network.find_network = mock.Mock(return_value=self._network) arglist = [ self._subnet_ipv6.name, "--subnet-range", self._subnet_ipv6.cidr, "--network", self._subnet_ipv6.network_id, "--ip-version", str(self._subnet_ipv6.ip_version), "--ipv6-ra-mode", self._subnet_ipv6.ipv6_ra_mode, "--ipv6-address-mode", self._subnet_ipv6.ipv6_address_mode, "--gateway", self._subnet_ipv6.gateway_ip, "--dhcp", ] for dns_addr in self._subnet_ipv6.dns_nameservers: arglist.append('--dns-nameserver') arglist.append(dns_addr) for host_route in self._subnet_ipv6.host_routes: arglist.append('--host-route') value = 'gateway=' + host_route.get('nexthop', '') + \ ',destination=' + host_route.get('destination', '') arglist.append(value) for pool in self._subnet_ipv6.allocation_pools: arglist.append('--allocation-pool') value = 'start=' + pool.get('start', '') + \ ',end=' + pool.get('end', '') arglist.append(value) verifylist = [ ('name', self._subnet_ipv6.name), ('subnet_range', self._subnet_ipv6.cidr), ('network', self._subnet_ipv6.network_id), ('ip_version', self._subnet_ipv6.ip_version), ('ipv6_ra_mode', self._subnet_ipv6.ipv6_ra_mode), ('ipv6_address_mode', self._subnet_ipv6.ipv6_address_mode), ('gateway', self._subnet_ipv6.gateway_ip), ('dns_nameservers', self._subnet_ipv6.dns_nameservers), ('enable_dhcp', self._subnet_ipv6.enable_dhcp), ('host_routes', subnet_v2.convert_entries_to_gateway( self._subnet_ipv6.host_routes)), ('allocation_pools', self._subnet_ipv6.allocation_pools), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.create_subnet.assert_called_with(**{ 'cidr': self._subnet_ipv6.cidr, 'dns_nameservers': self._subnet_ipv6.dns_nameservers, 'enable_dhcp': self._subnet_ipv6.enable_dhcp, 'gateway_ip': self._subnet_ipv6.gateway_ip, 'host_routes': self._subnet_ipv6.host_routes, 'ip_version': self._subnet_ipv6.ip_version, 'ipv6_address_mode': self._subnet_ipv6.ipv6_address_mode, 'ipv6_ra_mode': self._subnet_ipv6.ipv6_ra_mode, 'name': self._subnet_ipv6.name, 'network_id': self._subnet_ipv6.network_id, 'allocation_pools': self._subnet_ipv6.allocation_pools, }) self.assertEqual(self.columns, columns) self.assertEqual(self.data_ipv6, data)
class TestListSubnet(TestSubnet): # The subnets going to be listed up. _subnet = network_fakes.FakeSubnet.create_subnets(count=3) columns = ( 'ID', 'Name', 'Network', 'Subnet', ) columns_long = columns + ( 'Project', 'DHCP', 'Name Servers', 'Allocation Pools', 'Host Routes', 'IP Version', 'Gateway', 'Service Types', 'Tags', ) data = [] for subnet in _subnet: data.append(( subnet.id, subnet.name, subnet.network_id, subnet.cidr, )) data_long = [] for subnet in _subnet: data_long.append(( subnet.id, subnet.name, subnet.network_id, subnet.cidr, subnet.tenant_id, subnet.enable_dhcp, utils.format_list(subnet.dns_nameservers), subnet_v2._format_allocation_pools(subnet.allocation_pools), utils.format_list(subnet.host_routes), subnet.ip_version, subnet.gateway_ip, utils.format_list(subnet.service_types), utils.format_list(subnet.tags), )) def setUp(self): super(TestListSubnet, self).setUp() # Get the command object to test self.cmd = subnet_v2.ListSubnet(self.app, self.namespace) self.network.subnets = mock.Mock(return_value=self._subnet) def test_subnet_list_no_options(self): arglist = [] verifylist = [ ('long', False), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.subnets.assert_called_once_with() self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_subnet_list_long(self): arglist = [ '--long', ] verifylist = [ ('long', True), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.subnets.assert_called_once_with() self.assertEqual(self.columns_long, columns) self.assertEqual(self.data_long, list(data)) def test_subnet_list_ip_version(self): arglist = [ '--ip-version', str(4), ] verifylist = [ ('ip_version', 4), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) filters = {'ip_version': 4} self.network.subnets.assert_called_once_with(**filters) self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_subnet_list_dhcp(self): arglist = [ '--dhcp', ] verifylist = [ ('dhcp', True), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) filters = {'enable_dhcp': True, 'is_dhcp_enabled': True} self.network.subnets.assert_called_once_with(**filters) self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_subnet_list_no_dhcp(self): arglist = [ '--no-dhcp', ] verifylist = [ ('no_dhcp', True), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) filters = {'enable_dhcp': False, 'is_dhcp_enabled': False} self.network.subnets.assert_called_once_with(**filters) self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_subnet_list_service_type(self): arglist = [ '--service-type', 'network:router_gateway', ] verifylist = [ ('service_types', ['network:router_gateway']), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) filters = {'service_types': ['network:router_gateway']} self.network.subnets.assert_called_once_with(**filters) self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_subnet_list_project(self): project = identity_fakes_v3.FakeProject.create_one_project() self.projects_mock.get.return_value = project arglist = [ '--project', project.id, ] verifylist = [ ('project', project.id), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) filters = {'tenant_id': project.id, 'project_id': project.id} self.network.subnets.assert_called_once_with(**filters) self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_subnet_list_service_type_multiple(self): arglist = [ '--service-type', 'network:router_gateway', '--service-type', 'network:floatingip_agent_gateway', ] verifylist = [ ('service_types', ['network:router_gateway', 'network:floatingip_agent_gateway']), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) filters = {'service_types': ['network:router_gateway', 'network:floatingip_agent_gateway']} self.network.subnets.assert_called_once_with(**filters) self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_subnet_list_project_domain(self): project = identity_fakes_v3.FakeProject.create_one_project() self.projects_mock.get.return_value = project arglist = [ '--project', project.id, '--project-domain', project.domain_id, ] verifylist = [ ('project', project.id), ('project_domain', project.domain_id), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) filters = {'tenant_id': project.id, 'project_id': project.id} self.network.subnets.assert_called_once_with(**filters) self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_subnet_list_network(self): network = network_fakes.FakeNetwork.create_one_network() self.network.find_network = mock.Mock(return_value=network) arglist = [ '--network', network.id, ] verifylist = [ ('network', network.id), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) filters = {'network_id': network.id} self.network.subnets.assert_called_once_with(**filters) self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_subnet_list_gateway(self): subnet = network_fakes.FakeSubnet.create_one_subnet() self.network.find_network = mock.Mock(return_value=subnet) arglist = [ '--gateway', subnet.gateway_ip, ] verifylist = [ ('gateway', subnet.gateway_ip), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) filters = {'gateway_ip': subnet.gateway_ip} self.network.subnets.assert_called_once_with(**filters) self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_subnet_list_name(self): subnet = network_fakes.FakeSubnet.create_one_subnet() self.network.find_network = mock.Mock(return_value=subnet) arglist = [ '--name', subnet.name, ] verifylist = [ ('name', subnet.name), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) filters = {'name': subnet.name} self.network.subnets.assert_called_once_with(**filters) self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_subnet_list_subnet_range(self): subnet = network_fakes.FakeSubnet.create_one_subnet() self.network.find_network = mock.Mock(return_value=subnet) arglist = [ '--subnet-range', subnet.cidr, ] verifylist = [ ('subnet_range', subnet.cidr), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) filters = {'cidr': subnet.cidr} self.network.subnets.assert_called_once_with(**filters) self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data)) def test_list_with_tag_options(self): arglist = [ '--tags', 'red,blue', '--any-tags', 'red,green', '--not-tags', 'orange,yellow', '--not-any-tags', 'black,white', ] verifylist = [ ('tags', ['red', 'blue']), ('any_tags', ['red', 'green']), ('not_tags', ['orange', 'yellow']), ('not_any_tags', ['black', 'white']), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.subnets.assert_called_once_with( **{'tags': 'red,blue', 'any_tags': 'red,green', 'not_tags': 'orange,yellow', 'not_any_tags': 'black,white'} ) self.assertEqual(self.columns, columns) self.assertEqual(self.data, list(data))
def _init_subnet_variables(self): self.project = identity_fakes_v3.FakeProject.create_one_project() self.domain = identity_fakes_v3.FakeDomain.create_one_domain() # An IPv4 subnet to be created with mostly default values self._subnet = network_fakes.FakeSubnet.create_one_subnet( attrs={ 'tenant_id': self.project.id, } ) # Subnet pool to be used to create a subnet from a pool self._subnet_pool = \ network_fakes.FakeSubnetPool.create_one_subnet_pool() # An IPv4 subnet to be created using a specific subnet pool self._subnet_from_pool = network_fakes.FakeSubnet.create_one_subnet( attrs={ 'tenant_id': self.project.id, 'subnetpool_id': self._subnet_pool.id, 'dns_nameservers': ['8.8.8.8', '8.8.4.4'], 'host_routes': [{'destination': '10.20.20.0/24', 'nexthop': '10.20.20.1'}, {'destination': '10.30.30.0/24', 'nexthop': '10.30.30.1'}], 'service_types': ['network:router_gateway', 'network:floatingip_agent_gateway'], } ) # An IPv6 subnet to be created with most options specified self._subnet_ipv6 = network_fakes.FakeSubnet.create_one_subnet( attrs={ 'tenant_id': self.project.id, 'cidr': 'fe80:0:0:a00a::/64', 'enable_dhcp': True, 'dns_nameservers': ['fe80:27ff:a00a:f00f::ffff', 'fe80:37ff:a00a:f00f::ffff'], 'allocation_pools': [{'start': 'fe80::a00a:0:c0de:0:100', 'end': 'fe80::a00a:0:c0de:0:f000'}, {'start': 'fe80::a00a:0:c0de:1:100', 'end': 'fe80::a00a:0:c0de:1:f000'}], 'host_routes': [{'destination': 'fe80:27ff:a00a:f00f::/64', 'nexthop': 'fe80:27ff:a00a:f00f::1'}, {'destination': 'fe80:37ff:a00a:f00f::/64', 'nexthop': 'fe80:37ff:a00a:f00f::1'}], 'ip_version': 6, 'gateway_ip': 'fe80::a00a:0:c0de:0:1', 'ipv6_address_mode': 'slaac', 'ipv6_ra_mode': 'slaac', 'subnetpool_id': 'None', 'service_types': ['network:router_gateway', 'network:floatingip_agent_gateway'], } ) # The network to be returned from find_network self._network = network_fakes.FakeNetwork.create_one_network( attrs={ 'id': self._subnet.network_id, } ) # The network segment to be returned from find_segment self._network_segment = \ network_fakes.FakeNetworkSegment.create_one_network_segment( attrs={ 'network_id': self._subnet.network_id, } ) self.columns = ( 'allocation_pools', 'cidr', 'description', 'dns_nameservers', 'enable_dhcp', 'gateway_ip', 'host_routes', 'id', 'ip_version', 'ipv6_address_mode', 'ipv6_ra_mode', 'name', 'network_id', 'project_id', 'segment_id', 'service_types', 'subnetpool_id', 'tags', ) self.data = ( subnet_v2._format_allocation_pools(self._subnet.allocation_pools), self._subnet.cidr, self._subnet.description, utils.format_list(self._subnet.dns_nameservers), self._subnet.enable_dhcp, self._subnet.gateway_ip, subnet_v2._format_host_routes(self._subnet.host_routes), self._subnet.id, self._subnet.ip_version, self._subnet.ipv6_address_mode, self._subnet.ipv6_ra_mode, self._subnet.name, self._subnet.network_id, self._subnet.project_id, self._subnet.segment_id, utils.format_list(self._subnet.service_types), self._subnet.subnetpool_id, utils.format_list(self._subnet.tags), ) self.data_subnet_pool = ( subnet_v2._format_allocation_pools( self._subnet_from_pool.allocation_pools), self._subnet_from_pool.cidr, self._subnet_from_pool.description, utils.format_list(self._subnet_from_pool.dns_nameservers), self._subnet_from_pool.enable_dhcp, self._subnet_from_pool.gateway_ip, subnet_v2._format_host_routes(self._subnet_from_pool.host_routes), self._subnet_from_pool.id, self._subnet_from_pool.ip_version, self._subnet_from_pool.ipv6_address_mode, self._subnet_from_pool.ipv6_ra_mode, self._subnet_from_pool.name, self._subnet_from_pool.network_id, self._subnet_from_pool.project_id, self._subnet_from_pool.segment_id, utils.format_list(self._subnet_from_pool.service_types), self._subnet_from_pool.subnetpool_id, utils.format_list(self._subnet.tags), ) self.data_ipv6 = ( subnet_v2._format_allocation_pools( self._subnet_ipv6.allocation_pools), self._subnet_ipv6.cidr, self._subnet_ipv6.description, utils.format_list(self._subnet_ipv6.dns_nameservers), self._subnet_ipv6.enable_dhcp, self._subnet_ipv6.gateway_ip, subnet_v2._format_host_routes(self._subnet_ipv6.host_routes), self._subnet_ipv6.id, self._subnet_ipv6.ip_version, self._subnet_ipv6.ipv6_address_mode, self._subnet_ipv6.ipv6_ra_mode, self._subnet_ipv6.name, self._subnet_ipv6.network_id, self._subnet_ipv6.project_id, self._subnet_ipv6.segment_id, utils.format_list(self._subnet_ipv6.service_types), self._subnet_ipv6.subnetpool_id, utils.format_list(self._subnet.tags), )
class TestCreateSubnet(TestSubnet): project = identity_fakes_v3.FakeProject.create_one_project() domain = identity_fakes_v3.FakeDomain.create_one_domain() # An IPv4 subnet to be created with mostly default values _subnet = network_fakes.FakeSubnet.create_one_subnet( attrs={ 'tenant_id': project.id, }) # Subnet pool to be used to create a subnet from a pool _subnet_pool = network_fakes.FakeSubnetPool.create_one_subnet_pool() # An IPv4 subnet to be created using a specific subnet pool _subnet_from_pool = network_fakes.FakeSubnet.create_one_subnet( attrs={ 'tenant_id': project.id, 'subnetpool_id': _subnet_pool.id, 'dns_nameservers': ['8.8.8.8', '8.8.4.4'], 'host_routes': [{ 'destination': '10.20.20.0/24', 'nexthop': '10.20.20.1' }, { 'destination': '10.30.30.0/24', 'nexthop': '10.30.30.1' }], 'service_types': ['network:router_gateway', 'network:floatingip_agent_gateway'], }) # An IPv6 subnet to be created with most options specified _subnet_ipv6 = network_fakes.FakeSubnet.create_one_subnet( attrs={ 'tenant_id': project.id, 'cidr': 'fe80:0:0:a00a::/64', 'enable_dhcp': True, 'dns_nameservers': ['fe80:27ff:a00a:f00f::ffff', 'fe80:37ff:a00a:f00f::ffff'], 'allocation_pools': [{ 'start': 'fe80::a00a:0:c0de:0:100', 'end': 'fe80::a00a:0:c0de:0:f000' }, { 'start': 'fe80::a00a:0:c0de:1:100', 'end': 'fe80::a00a:0:c0de:1:f000' }], 'host_routes': [{ 'destination': 'fe80:27ff:a00a:f00f::/64', 'nexthop': 'fe80:27ff:a00a:f00f::1' }, { 'destination': 'fe80:37ff:a00a:f00f::/64', 'nexthop': 'fe80:37ff:a00a:f00f::1' }], 'ip_version': 6, 'gateway_ip': 'fe80::a00a:0:c0de:0:1', 'ipv6_address_mode': 'slaac', 'ipv6_ra_mode': 'slaac', 'subnetpool_id': 'None', 'service_types': ['network:router_gateway', 'network:floatingip_agent_gateway'], }) # The network to be returned from find_network _network = network_fakes.FakeNetwork.create_one_network( attrs={ 'id': _subnet.network_id, }) # The network segment to be returned from find_segment _network_segment = \ network_fakes.FakeNetworkSegment.create_one_network_segment( attrs={ 'network_id': _subnet.network_id, } ) columns = ( 'allocation_pools', 'cidr', 'description', 'dns_nameservers', 'enable_dhcp', 'gateway_ip', 'host_routes', 'id', 'ip_version', 'ipv6_address_mode', 'ipv6_ra_mode', 'name', 'network_id', 'project_id', 'segment_id', 'service_types', 'subnetpool_id', 'tags', 'wrs-net:vlan_id', ) data = ( subnet_v2._format_allocation_pools(_subnet.allocation_pools), _subnet.cidr, _subnet.description, utils.format_list(_subnet.dns_nameservers), _subnet.enable_dhcp, _subnet.gateway_ip, subnet_v2._format_host_routes(_subnet.host_routes), _subnet.id, _subnet.ip_version, _subnet.ipv6_address_mode, _subnet.ipv6_ra_mode, _subnet.name, _subnet.network_id, _subnet.project_id, _subnet.segment_id, utils.format_list(_subnet.service_types), _subnet.subnetpool_id, utils.format_list(_subnet.tags), getattr(_subnet, 'wrs-net:vlan_id', ''), ) data_subnet_pool = ( subnet_v2._format_allocation_pools(_subnet_from_pool.allocation_pools), _subnet_from_pool.cidr, _subnet_from_pool.description, utils.format_list(_subnet_from_pool.dns_nameservers), _subnet_from_pool.enable_dhcp, _subnet_from_pool.gateway_ip, subnet_v2._format_host_routes(_subnet_from_pool.host_routes), _subnet_from_pool.id, _subnet_from_pool.ip_version, _subnet_from_pool.ipv6_address_mode, _subnet_from_pool.ipv6_ra_mode, _subnet_from_pool.name, _subnet_from_pool.network_id, _subnet_from_pool.project_id, _subnet_from_pool.segment_id, utils.format_list(_subnet_from_pool.service_types), _subnet_from_pool.subnetpool_id, utils.format_list(_subnet.tags), getattr(_subnet_from_pool, 'wrs-net:vlan_id', ''), ) data_ipv6 = ( subnet_v2._format_allocation_pools(_subnet_ipv6.allocation_pools), _subnet_ipv6.cidr, _subnet_ipv6.description, utils.format_list(_subnet_ipv6.dns_nameservers), _subnet_ipv6.enable_dhcp, _subnet_ipv6.gateway_ip, subnet_v2._format_host_routes(_subnet_ipv6.host_routes), _subnet_ipv6.id, _subnet_ipv6.ip_version, _subnet_ipv6.ipv6_address_mode, _subnet_ipv6.ipv6_ra_mode, _subnet_ipv6.name, _subnet_ipv6.network_id, _subnet_ipv6.project_id, _subnet_ipv6.segment_id, utils.format_list(_subnet_ipv6.service_types), _subnet_ipv6.subnetpool_id, utils.format_list(_subnet.tags), getattr(_subnet_ipv6, 'wrs-net:vlan_id', ''), ) def setUp(self): super(TestCreateSubnet, self).setUp() # Get the command object to test self.cmd = subnet_v2.CreateSubnet(self.app, self.namespace) self.projects_mock.get.return_value = self.project self.domains_mock.get.return_value = self.domain # Mock SDK calls for all tests. self.network.create_subnet = mock.Mock(return_value=self._subnet) self.network.set_tags = mock.Mock(return_value=None) self.network.find_network = mock.Mock(return_value=self._network) self.network.find_segment = mock.Mock( return_value=self._network_segment) self.network.find_subnet_pool = mock.Mock( return_value=self._subnet_pool) def test_create_no_options(self): arglist = [] verifylist = [] # Testing that a call without the required argument will fail and # throw a "ParserExecption" self.assertRaises(tests_utils.ParserException, self.check_parser, self.cmd, arglist, verifylist) self.assertFalse(self.network.create_subnet.called) self.assertFalse(self.network.set_tags.called) def test_create_default_options(self): # Mock SDK calls for this test. self._network.id = self._subnet.network_id arglist = [ "--subnet-range", self._subnet.cidr, "--network", self._subnet.network_id, self._subnet.name, ] verifylist = [ ('name', self._subnet.name), ('subnet_range', self._subnet.cidr), ('network', self._subnet.network_id), ('ip_version', self._subnet.ip_version), ('gateway', 'auto'), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.create_subnet.assert_called_once_with( **{ 'cidr': self._subnet.cidr, 'ip_version': self._subnet.ip_version, 'name': self._subnet.name, 'network_id': self._subnet.network_id, }) self.assertFalse(self.network.set_tags.called) self.assertEqual(self.columns, columns) self.assertEqual(self.data, data) def test_create_from_subnet_pool_options(self): # Mock SDK calls for this test. self.network.create_subnet.return_value = self._subnet_from_pool self.network.set_tags = mock.Mock(return_value=None) self._network.id = self._subnet_from_pool.network_id arglist = [ self._subnet_from_pool.name, "--subnet-pool", self._subnet_from_pool.subnetpool_id, "--prefix-length", '24', "--network", self._subnet_from_pool.network_id, "--ip-version", str(self._subnet_from_pool.ip_version), "--gateway", self._subnet_from_pool.gateway_ip, "--dhcp", ] for dns_addr in self._subnet_from_pool.dns_nameservers: arglist.append('--dns-nameserver') arglist.append(dns_addr) for host_route in self._subnet_from_pool.host_routes: arglist.append('--host-route') value = 'gateway=' + host_route.get('nexthop', '') + \ ',destination=' + host_route.get('destination', '') arglist.append(value) for service_type in self._subnet_from_pool.service_types: arglist.append('--service-type') arglist.append(service_type) verifylist = [ ('name', self._subnet_from_pool.name), ('prefix_length', '24'), ('network', self._subnet_from_pool.network_id), ('ip_version', self._subnet_from_pool.ip_version), ('gateway', self._subnet_from_pool.gateway_ip), ('dns_nameservers', self._subnet_from_pool.dns_nameservers), ('dhcp', self._subnet_from_pool.enable_dhcp), ('host_routes', subnet_v2.convert_entries_to_gateway( self._subnet_from_pool.host_routes)), ('subnet_pool', self._subnet_from_pool.subnetpool_id), ('service_types', self._subnet_from_pool.service_types), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.create_subnet.assert_called_once_with( **{ 'dns_nameservers': self._subnet_from_pool.dns_nameservers, 'enable_dhcp': self._subnet_from_pool.enable_dhcp, 'gateway_ip': self._subnet_from_pool.gateway_ip, 'host_routes': self._subnet_from_pool.host_routes, 'ip_version': self._subnet_from_pool.ip_version, 'name': self._subnet_from_pool.name, 'network_id': self._subnet_from_pool.network_id, 'prefixlen': '24', 'subnetpool_id': self._subnet_from_pool.subnetpool_id, 'service_types': self._subnet_from_pool.service_types, }) self.assertEqual(self.columns, columns) self.assertEqual(self.data_subnet_pool, data) def test_create_options_subnet_range_ipv6(self): # Mock SDK calls for this test. self.network.create_subnet.return_value = self._subnet_ipv6 self._network.id = self._subnet_ipv6.network_id arglist = [ self._subnet_ipv6.name, "--subnet-range", self._subnet_ipv6.cidr, "--network", self._subnet_ipv6.network_id, "--ip-version", str(self._subnet_ipv6.ip_version), "--ipv6-ra-mode", self._subnet_ipv6.ipv6_ra_mode, "--ipv6-address-mode", self._subnet_ipv6.ipv6_address_mode, "--gateway", self._subnet_ipv6.gateway_ip, "--dhcp", ] for dns_addr in self._subnet_ipv6.dns_nameservers: arglist.append('--dns-nameserver') arglist.append(dns_addr) for host_route in self._subnet_ipv6.host_routes: arglist.append('--host-route') value = 'gateway=' + host_route.get('nexthop', '') + \ ',destination=' + host_route.get('destination', '') arglist.append(value) for pool in self._subnet_ipv6.allocation_pools: arglist.append('--allocation-pool') value = 'start=' + pool.get('start', '') + \ ',end=' + pool.get('end', '') arglist.append(value) for service_type in self._subnet_ipv6.service_types: arglist.append('--service-type') arglist.append(service_type) verifylist = [ ('name', self._subnet_ipv6.name), ('subnet_range', self._subnet_ipv6.cidr), ('network', self._subnet_ipv6.network_id), ('ip_version', self._subnet_ipv6.ip_version), ('ipv6_ra_mode', self._subnet_ipv6.ipv6_ra_mode), ('ipv6_address_mode', self._subnet_ipv6.ipv6_address_mode), ('gateway', self._subnet_ipv6.gateway_ip), ('dns_nameservers', self._subnet_ipv6.dns_nameservers), ('dhcp', self._subnet_ipv6.enable_dhcp), ('host_routes', subnet_v2.convert_entries_to_gateway( self._subnet_ipv6.host_routes)), ('allocation_pools', self._subnet_ipv6.allocation_pools), ('service_types', self._subnet_ipv6.service_types), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.create_subnet.assert_called_once_with( **{ 'cidr': self._subnet_ipv6.cidr, 'dns_nameservers': self._subnet_ipv6.dns_nameservers, 'enable_dhcp': self._subnet_ipv6.enable_dhcp, 'gateway_ip': self._subnet_ipv6.gateway_ip, 'host_routes': self._subnet_ipv6.host_routes, 'ip_version': self._subnet_ipv6.ip_version, 'ipv6_address_mode': self._subnet_ipv6.ipv6_address_mode, 'ipv6_ra_mode': self._subnet_ipv6.ipv6_ra_mode, 'name': self._subnet_ipv6.name, 'network_id': self._subnet_ipv6.network_id, 'allocation_pools': self._subnet_ipv6.allocation_pools, 'service_types': self._subnet_ipv6.service_types, }) self.assertFalse(self.network.set_tags.called) self.assertEqual(self.columns, columns) self.assertEqual(self.data_ipv6, data) def test_create_with_network_segment(self): # Mock SDK calls for this test. self._network.id = self._subnet.network_id arglist = [ "--subnet-range", self._subnet.cidr, "--network-segment", self._network_segment.id, "--network", self._subnet.network_id, self._subnet.name, ] verifylist = [ ('name', self._subnet.name), ('subnet_range', self._subnet.cidr), ('network_segment', self._network_segment.id), ('network', self._subnet.network_id), ('ip_version', self._subnet.ip_version), ('gateway', 'auto'), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.create_subnet.assert_called_once_with( **{ 'cidr': self._subnet.cidr, 'ip_version': self._subnet.ip_version, 'name': self._subnet.name, 'network_id': self._subnet.network_id, 'segment_id': self._network_segment.id, }) self.assertFalse(self.network.set_tags.called) self.assertEqual(self.columns, columns) self.assertEqual(self.data, data) def test_create_with_description(self): # Mock SDK calls for this test. self._network.id = self._subnet.network_id arglist = [ "--subnet-range", self._subnet.cidr, "--network", self._subnet.network_id, "--description", self._subnet.description, self._subnet.name, ] verifylist = [ ('name', self._subnet.name), ('description', self._subnet.description), ('subnet_range', self._subnet.cidr), ('network', self._subnet.network_id), ('ip_version', self._subnet.ip_version), ('gateway', 'auto'), ] parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = self.cmd.take_action(parsed_args) self.network.create_subnet.assert_called_once_with( **{ 'cidr': self._subnet.cidr, 'ip_version': self._subnet.ip_version, 'name': self._subnet.name, 'network_id': self._subnet.network_id, 'description': self._subnet.description, }) self.assertFalse(self.network.set_tags.called) self.assertEqual(self.columns, columns) self.assertEqual(self.data, data) def _test_create_with_tag(self, add_tags=True): arglist = [ "--subnet-range", self._subnet.cidr, "--network", self._subnet.network_id, self._subnet.name, ] if add_tags: arglist += ['--tag', 'red', '--tag', 'blue'] else: arglist += ['--no-tag'] verifylist = [ ('name', self._subnet.name), ('subnet_range', self._subnet.cidr), ('network', self._subnet.network_id), ('ip_version', self._subnet.ip_version), ('gateway', 'auto'), ] if add_tags: verifylist.append(('tags', ['red', 'blue'])) else: verifylist.append(('no_tag', True)) parsed_args = self.check_parser(self.cmd, arglist, verifylist) columns, data = (self.cmd.take_action(parsed_args)) self.network.create_subnet.assert_called_once_with( cidr=self._subnet.cidr, ip_version=self._subnet.ip_version, name=self._subnet.name, network_id=self._subnet.network_id) if add_tags: self.network.set_tags.assert_called_once_with( self._subnet, tests_utils.CompareBySet(['red', 'blue'])) else: self.assertFalse(self.network.set_tags.called) self.assertEqual(self.columns, columns) self.assertEqual(self.data, data) def test_create_with_tags(self): self._test_create_with_tag(add_tags=True) def test_create_with_no_tag(self): self._test_create_with_tag(add_tags=False)