# This file is part of cloud-init. See LICENSE file for license information. from copy import copy, deepcopy import json import os from cloudinit import helpers from cloudinit.net import eni from cloudinit.net import network_state from cloudinit import settings from cloudinit.sources import DataSourceConfigDrive as ds from cloudinit.sources.helpers import openstack from cloudinit import util from cloudinit.tests.helpers import CiTestCase, ExitStack, mock, populate_dir PUBKEY = u'ssh-rsa AAAAB3NzaC1....sIkJhq8wdX+4I3A4cYbYP ubuntu@server-460\n' EC2_META = { 'ami-id': 'ami-00000001', 'ami-launch-index': 0, 'ami-manifest-path': 'FIXME', 'block-device-mapping': { 'ami': 'sda1', 'ephemeral0': 'sda2', 'root': '/dev/sda1', 'swap': 'sda3'}, 'hostname': 'sm-foo-test.novalocal', 'instance-action': 'none', 'instance-id': 'i-00000001', 'instance-type': 'm1.tiny', 'local-hostname': 'sm-foo-test.novalocal', 'local-ipv4': None, 'placement': {'availability-zone': 'nova'}, 'public-hostname': 'sm-foo-test.novalocal', 'public-ipv4': '', 'public-keys': {'0': {'openssh-key': PUBKEY}}, 'reservation-id': 'r-iru5qm4m', 'security-groups': ['default'] } USER_DATA = b'#!/bin/sh\necho This is user data\n' OSTACK_META = { 'availability_zone': 'nova', 'files': [{'content_path': '/content/0000', 'path': '/etc/foo.cfg'}, {'content_path': '/content/0001', 'path': '/etc/bar/bar.cfg'}], 'hostname': 'sm-foo-test.novalocal', 'meta': {'dsmode': 'local', 'my-meta': 'my-value'}, 'name': 'sm-foo-test', 'public_keys': {'mykey': PUBKEY}, 'uuid': 'b0fa911b-69d4-4476-bbe2-1c92bff6535c'} CONTENT_0 = b'This is contents of /etc/foo.cfg\n' CONTENT_1 = b'# this is /etc/bar/bar.cfg\n' NETWORK_DATA = { 'services': [ {'type': 'dns', 'address': '199.204.44.24'}, {'type': 'dns', 'address': '199.204.47.54'} ], 'links': [ {'vif_id': '2ecc7709-b3f7-4448-9580-e1ec32d75bbd', 'ethernet_mac_address': 'fa:16:3e:69:b0:58', 'type': 'ovs', 'mtu': None, 'id': 'tap2ecc7709-b3'}, {'vif_id': '2f88d109-5b57-40e6-af32-2472df09dc33', 'ethernet_mac_address': 'fa:16:3e:d4:57:ad', 'type': 'ovs', 'mtu': None, 'id': 'tap2f88d109-5b'}, {'vif_id': '1a5382f8-04c5-4d75-ab98-d666c1ef52cc', 'ethernet_mac_address': 'fa:16:3e:05:30:fe', 'type': 'ovs', 'mtu': None, 'id': 'tap1a5382f8-04', 'name': 'nic0'} ], 'networks': [ {'link': 'tap2ecc7709-b3', 'type': 'ipv4_dhcp', 'network_id': '6d6357ac-0f70-4afa-8bd7-c274cc4ea235', 'id': 'network0'}, {'link': 'tap2f88d109-5b', 'type': 'ipv4_dhcp', 'network_id': 'd227a9b3-6960-4d94-8976-ee5788b44f54', 'id': 'network1'}, {'link': 'tap1a5382f8-04', 'type': 'ipv4_dhcp', 'network_id': 'dab2ba57-cae2-4311-a5ed-010b263891f5', 'id': 'network2'} ] } NETWORK_DATA_2 = { "services": [ {"type": "dns", "address": "1.1.1.191"}, {"type": "dns", "address": "1.1.1.4"}], "networks": [ {"network_id": "d94bbe94-7abc-48d4-9c82-4628ea26164a", "type": "ipv4", "netmask": "255.255.255.248", "link": "eth0", "routes": [{"netmask": "0.0.0.0", "network": "0.0.0.0", "gateway": "2.2.2.9"}], "ip_address": "2.2.2.10", "id": "network0-ipv4"}, {"network_id": "ca447c83-6409-499b-aaef-6ad1ae995348", "type": "ipv4", "netmask": "255.255.255.224", "link": "eth1", "routes": [], "ip_address": "3.3.3.24", "id": "network1-ipv4"}], "links": [ {"ethernet_mac_address": "fa:16:3e:dd:50:9a", "mtu": 1500, "type": "vif", "id": "eth0", "vif_id": "vif-foo1"}, {"ethernet_mac_address": "fa:16:3e:a8:14:69", "mtu": 1500, "type": "vif", "id": "eth1", "vif_id": "vif-foo2"}] } # This network data ha 'tap' or null type for a link. NETWORK_DATA_3 = { "services": [{"type": "dns", "address": "172.16.36.11"}, {"type": "dns", "address": "172.16.36.12"}], "networks": [ {"network_id": "7c41450c-ba44-401a-9ab1-1604bb2da51e", "type": "ipv4", "netmask": "255.255.255.128", "link": "tap77a0dc5b-72", "ip_address": "172.17.48.18", "id": "network0", "routes": [{"netmask": "0.0.0.0", "network": "0.0.0.0", "gateway": "172.17.48.1"}]}, {"network_id": "7c41450c-ba44-401a-9ab1-1604bb2da51e", "type": "ipv6", "netmask": "ffff:ffff:ffff:ffff::", "link": "tap77a0dc5b-72", "ip_address": "fdb8:52d0:9d14:0:f816:3eff:fe9f:70d", "id": "network1", "routes": [{"netmask": "::", "network": "::", "gateway": "fdb8:52d0:9d14::1"}]}, {"network_id": "1f53cb0e-72d3-47c7-94b9-ff4397c5fe54", "type": "ipv4", "netmask": "255.255.255.128", "link": "tap7d6b7bec-93", "ip_address": "172.16.48.13", "id": "network2", "routes": [{"netmask": "0.0.0.0", "network": "0.0.0.0", "gateway": "172.16.48.1"}, {"netmask": "255.255.0.0", "network": "172.16.0.0", "gateway": "172.16.48.1"}]}], "links": [ {"ethernet_mac_address": "fa:16:3e:dd:50:9a", "mtu": None, "type": "tap", "id": "tap77a0dc5b-72", "vif_id": "77a0dc5b-720e-41b7-bfa7-1b2ff62e0d48"}, {"ethernet_mac_address": "fa:16:3e:a8:14:69", "mtu": None, "type": None, "id": "tap7d6b7bec-93", "vif_id": "7d6b7bec-93e6-4c03-869a-ddc5014892d5"} ] } NETWORK_DATA_BOND = { "services": [ {"type": "dns", "address": "1.1.1.191"}, {"type": "dns", "address": "1.1.1.4"}, ], "networks": [ {"id": "network2-ipv4", "ip_address": "2.2.2.13", "link": "vlan2", "netmask": "255.255.255.248", "network_id": "4daf5ce8-38cf-4240-9f1a-04e86d7c6117", "type": "ipv4", "routes": [{"netmask": "0.0.0.0", "network": "0.0.0.0", "gateway": "2.2.2.9"}]}, {"id": "network3-ipv4", "ip_address": "10.0.1.5", "link": "vlan3", "netmask": "255.255.255.248", "network_id": "a9e2f47c-3c43-4782-94d0-e1eeef1c8c9d", "type": "ipv4", "routes": [{"netmask": "255.255.255.255", "network": "192.168.1.0", "gateway": "10.0.1.1"}]} ], "links": [ {"ethernet_mac_address": "0c:c4:7a:34:6e:3c", "id": "eth0", "mtu": 1500, "type": "phy"}, {"ethernet_mac_address": "0c:c4:7a:34:6e:3d", "id": "eth1", "mtu": 1500, "type": "phy"}, {"bond_links": ["eth0", "eth1"], "bond_miimon": 100, "bond_mode": "4", "bond_xmit_hash_policy": "layer3+4", "ethernet_mac_address": "0c:c4:7a:34:6e:3c", "id": "bond0", "type": "bond"}, {"ethernet_mac_address": "fa:16:3e:b3:72:30", "id": "vlan2", "type": "vlan", "vlan_id": 602, "vlan_link": "bond0", "vlan_mac_address": "fa:16:3e:b3:72:30"}, {"ethernet_mac_address": "fa:16:3e:66:ab:a6", "id": "vlan3", "type": "vlan", "vlan_id": 612, "vlan_link": "bond0", "vlan_mac_address": "fa:16:3e:66:ab:a6"} ] } NETWORK_DATA_VLAN = { "services": [{"type": "dns", "address": "1.1.1.191"}], "networks": [ {"id": "network1-ipv4", "ip_address": "10.0.1.5", "link": "vlan1", "netmask": "255.255.255.248", "network_id": "a9e2f47c-3c43-4782-94d0-e1eeef1c8c9d", "type": "ipv4", "routes": [{"netmask": "255.255.255.255", "network": "192.168.1.0", "gateway": "10.0.1.1"}]} ], "links": [ {"ethernet_mac_address": "fa:16:3e:69:b0:58", "id": "eth0", "mtu": 1500, "type": "phy"}, {"ethernet_mac_address": "fa:16:3e:b3:72:30", "id": "vlan1", "type": "vlan", "vlan_id": 602, "vlan_link": "eth0", "vlan_mac_address": "fa:16:3e:b3:72:30"}, ] } KNOWN_MACS = { 'fa:16:3e:69:b0:58': 'enp0s1', 'fa:16:3e:d4:57:ad': 'enp0s2', 'fa:16:3e:dd:50:9a': 'foo1', 'fa:16:3e:a8:14:69': 'foo2', 'fa:16:3e:ed:9a:59': 'foo3', '0c:c4:7a:34:6e:3d': 'oeth1', '0c:c4:7a:34:6e:3c': 'oeth0', } CFG_DRIVE_FILES_V2 = { 'ec2/2009-04-04/meta-data.json': json.dumps(EC2_META), 'ec2/2009-04-04/user-data': USER_DATA, 'ec2/latest/meta-data.json': json.dumps(EC2_META), 'ec2/latest/user-data': USER_DATA, 'openstack/2012-08-10/meta_data.json': json.dumps(OSTACK_META), 'openstack/2012-08-10/user_data': USER_DATA, 'openstack/content/0000': CONTENT_0, 'openstack/content/0001': CONTENT_1, 'openstack/latest/meta_data.json': json.dumps(OSTACK_META), 'openstack/latest/user_data': USER_DATA, 'openstack/latest/network_data.json': json.dumps(NETWORK_DATA), 'openstack/2015-10-15/meta_data.json': json.dumps(OSTACK_META), 'openstack/2015-10-15/user_data': USER_DATA, 'openstack/2015-10-15/network_data.json': json.dumps(NETWORK_DATA)} class TestConfigDriveDataSource(CiTestCase): def setUp(self): super(TestConfigDriveDataSource, self).setUp() self.tmp = self.tmp_dir() def test_ec2_metadata(self): populate_dir(self.tmp, CFG_DRIVE_FILES_V2) found = ds.read_config_drive(self.tmp) self.assertTrue('ec2-metadata' in found) ec2_md = found['ec2-metadata'] self.assertEqual(EC2_META, ec2_md) def test_dev_os_remap(self): populate_dir(self.tmp, CFG_DRIVE_FILES_V2) cfg_ds = ds.DataSourceConfigDrive(settings.CFG_BUILTIN, None, helpers.Paths({})) found = ds.read_config_drive(self.tmp) cfg_ds.metadata = found['metadata'] name_tests = { 'ami': '/dev/vda1', 'root': '/dev/vda1', 'ephemeral0': '/dev/vda2', 'swap': '/dev/vda3', } for name, dev_name in name_tests.items(): with ExitStack() as mocks: provided_name = dev_name[len('/dev/'):] provided_name = "s" + provided_name[1:] find_mock = mocks.enter_context( mock.patch.object(util, 'find_devs_with', return_value=[provided_name])) # We want os.path.exists() to return False on its first call, # and True on its second call. We use a handy generator as # the mock side effect for this. The mocked function returns # what the side effect returns. def exists_side_effect(): yield False yield True exists_mock = mocks.enter_context( mock.patch.object(os.path, 'exists', side_effect=exists_side_effect())) device = cfg_ds.device_name_to_device(name) self.assertEqual(dev_name, device) find_mock.assert_called_once_with(mock.ANY) self.assertEqual(exists_mock.call_count, 2) def test_dev_os_map(self): populate_dir(self.tmp, CFG_DRIVE_FILES_V2) cfg_ds = ds.DataSourceConfigDrive(settings.CFG_BUILTIN, None, helpers.Paths({})) found = ds.read_config_drive(self.tmp) os_md = found['metadata'] cfg_ds.metadata = os_md name_tests = { 'ami': '/dev/vda1', 'root': '/dev/vda1', 'ephemeral0': '/dev/vda2', 'swap': '/dev/vda3', } for name, dev_name in name_tests.items(): with ExitStack() as mocks: find_mock = mocks.enter_context( mock.patch.object(util, 'find_devs_with', return_value=[dev_name])) exists_mock = mocks.enter_context( mock.patch.object(os.path, 'exists', return_value=True)) device = cfg_ds.device_name_to_device(name) self.assertEqual(dev_name, device) find_mock.assert_called_once_with(mock.ANY) exists_mock.assert_called_once_with(mock.ANY) def test_dev_ec2_remap(self): populate_dir(self.tmp, CFG_DRIVE_FILES_V2) cfg_ds = ds.DataSourceConfigDrive(settings.CFG_BUILTIN, None, helpers.Paths({})) found = ds.read_config_drive(self.tmp) ec2_md = found['ec2-metadata'] os_md = found['metadata'] cfg_ds.ec2_metadata = ec2_md cfg_ds.metadata = os_md name_tests = { 'ami': '/dev/vda1', 'root': '/dev/vda1', 'ephemeral0': '/dev/vda2', 'swap': '/dev/vda3', None: None, 'bob': None, 'root2k': None, } for name, dev_name in name_tests.items(): # We want os.path.exists() to return False on its first call, # and True on its second call. We use a handy generator as # the mock side effect for this. The mocked function returns # what the side effect returns. def exists_side_effect(): yield False yield True with mock.patch.object(os.path, 'exists', side_effect=exists_side_effect()): device = cfg_ds.device_name_to_device(name) self.assertEqual(dev_name, device) # We don't assert the call count for os.path.exists() because # not all of the entries in name_tests results in two calls to # that function. Specifically, 'root2k' doesn't seem to call # it at all. def test_dev_ec2_map(self): populate_dir(self.tmp, CFG_DRIVE_FILES_V2) cfg_ds = ds.DataSourceConfigDrive(settings.CFG_BUILTIN, None, helpers.Paths({})) found = ds.read_config_drive(self.tmp) ec2_md = found['ec2-metadata'] os_md = found['metadata'] cfg_ds.ec2_metadata = ec2_md cfg_ds.metadata = os_md name_tests = { 'ami': '/dev/sda1', 'root': '/dev/sda1', 'ephemeral0': '/dev/sda2', 'swap': '/dev/sda3', None: None, 'bob': None, 'root2k': None, } for name, dev_name in name_tests.items(): with mock.patch.object(os.path, 'exists', return_value=True): device = cfg_ds.device_name_to_device(name) self.assertEqual(dev_name, device) def test_dir_valid(self): """Verify a dir is read as such.""" populate_dir(self.tmp, CFG_DRIVE_FILES_V2) found = ds.read_config_drive(self.tmp) expected_md = copy(OSTACK_META) expected_md['instance-id'] = expected_md['uuid'] expected_md['local-hostname'] = expected_md['hostname'] self.assertEqual(USER_DATA, found['userdata']) self.assertEqual(expected_md, found['metadata']) self.assertEqual(NETWORK_DATA, found['networkdata']) self.assertEqual(found['files']['/etc/foo.cfg'], CONTENT_0) self.assertEqual(found['files']['/etc/bar/bar.cfg'], CONTENT_1) def test_seed_dir_valid_extra(self): """Verify extra files do not affect datasource validity.""" data = copy(CFG_DRIVE_FILES_V2) data["myfoofile.txt"] = "myfoocontent" data["openstack/latest/random-file.txt"] = "random-content" populate_dir(self.tmp, data) found = ds.read_config_drive(self.tmp) expected_md = copy(OSTACK_META) expected_md['instance-id'] = expected_md['uuid'] expected_md['local-hostname'] = expected_md['hostname'] self.assertEqual(expected_md, found['metadata']) def test_seed_dir_bad_json_metadata(self): """Verify that bad json in metadata raises BrokenConfigDriveDir.""" data = copy(CFG_DRIVE_FILES_V2) data["openstack/2012-08-10/meta_data.json"] = "non-json garbage {}" data["openstack/2015-10-15/meta_data.json"] = "non-json garbage {}" data["openstack/latest/meta_data.json"] = "non-json garbage {}" populate_dir(self.tmp, data) self.assertRaises(openstack.BrokenMetadata, ds.read_config_drive, self.tmp) def test_seed_dir_no_configdrive(self): """Verify that no metadata raises NonConfigDriveDir.""" my_d = os.path.join(self.tmp, "non-configdrive") data = copy(CFG_DRIVE_FILES_V2) data["myfoofile.txt"] = "myfoocontent" data["openstack/latest/random-file.txt"] = "random-content" data["content/foo"] = "foocontent" self.assertRaises(openstack.NonReadable, ds.read_config_drive, my_d) def test_seed_dir_missing(self): """Verify that missing seed_dir raises NonConfigDriveDir.""" my_d = os.path.join(self.tmp, "nonexistantdirectory") self.assertRaises(openstack.NonReadable, ds.read_config_drive, my_d) def test_find_candidates(self): devs_with_answers = {} def my_devs_with(*args, **kwargs): criteria = args[0] if len(args) else kwargs.pop('criteria', None) return devs_with_answers.get(criteria, []) def my_is_partition(dev): return dev[-1] in "0123456789" and not dev.startswith("sr") try: orig_find_devs_with = util.find_devs_with util.find_devs_with = my_devs_with orig_is_partition = util.is_partition util.is_partition = my_is_partition devs_with_answers = {"TYPE=vfat": [], "TYPE=iso9660": ["/dev/vdb"], "LABEL=config-2": ["/dev/vdb"]} self.assertEqual(["/dev/vdb"], ds.find_candidate_devs()) # add a vfat item # zdd reverse sorts after vdb, but config-2 label is preferred devs_with_answers['TYPE=vfat'] = ["/dev/zdd"] self.assertEqual(["/dev/vdb", "/dev/zdd"], ds.find_candidate_devs()) # verify that partitions are considered, that have correct label. devs_with_answers = {"TYPE=vfat": ["/dev/sda1"], "TYPE=iso9660": [], "LABEL=config-2": ["/dev/vdb3"]} self.assertEqual(["/dev/vdb3"], ds.find_candidate_devs()) # Verify that uppercase labels are also found. devs_with_answers = {"TYPE=vfat": [], "TYPE=iso9660": ["/dev/vdb"], "LABEL=CONFIG-2": ["/dev/vdb"]} self.assertEqual(["/dev/vdb"], ds.find_candidate_devs()) finally: util.find_devs_with = orig_find_devs_with util.is_partition = orig_is_partition @mock.patch('cloudinit.sources.DataSourceConfigDrive.on_first_boot') def test_pubkeys_v2(self, on_first_boot): """Verify that public-keys work in config-drive-v2.""" myds = cfg_ds_from_dir(self.tmp, files=CFG_DRIVE_FILES_V2) self.assertEqual(myds.get_public_ssh_keys(), [OSTACK_META['public_keys']['mykey']]) class TestNetJson(CiTestCase): def setUp(self): super(TestNetJson, self).setUp() self.tmp = self.tmp_dir() self.maxDiff = None @mock.patch('cloudinit.sources.DataSourceConfigDrive.on_first_boot') def test_network_data_is_found(self, on_first_boot): """Verify that network_data is present in ds in config-drive-v2.""" myds = cfg_ds_from_dir(self.tmp, files=CFG_DRIVE_FILES_V2) self.assertIsNotNone(myds.network_json) @mock.patch('cloudinit.sources.DataSourceConfigDrive.on_first_boot') def test_network_config_is_converted(self, on_first_boot): """Verify that network_data is converted and present on ds object.""" myds = cfg_ds_from_dir(self.tmp, files=CFG_DRIVE_FILES_V2) network_config = openstack.convert_net_json(NETWORK_DATA, known_macs=KNOWN_MACS) self.assertEqual(myds.network_config, network_config) def test_network_config_conversions(self): """Tests a bunch of input network json and checks the expected conversions.""" in_datas = [ NETWORK_DATA, { 'services': [{'type': 'dns', 'address': '172.19.0.12'}], 'networks': [{ 'network_id': 'dacd568d-5be6-4786-91fe-750c374b78b4', 'type': 'ipv4', 'netmask': '255.255.252.0', 'link': 'tap1a81968a-79', 'routes': [{ 'netmask': '0.0.0.0', 'network': '0.0.0.0', 'gateway': '172.19.3.254', }], 'ip_address': '172.19.1.34', 'id': 'network0', }], 'links': [{ 'type': 'bridge', 'vif_id': '1a81968a-797a-400f-8a80-567f997eb93f', 'ethernet_mac_address': 'fa:16:3e:ed:9a:59', 'id': 'tap1a81968a-79', 'mtu': None, }], }, ] out_datas = [ { 'version': 1, 'config': [ { 'subnets': [{'type': 'dhcp4'}], 'type': 'physical', 'mac_address': 'fa:16:3e:69:b0:58', 'name': 'enp0s1', 'mtu': None, }, { 'subnets': [{'type': 'dhcp4'}], 'type': 'physical', 'mac_address': 'fa:16:3e:d4:57:ad', 'name': 'enp0s2', 'mtu': None, }, { 'subnets': [{'type': 'dhcp4'}], 'type': 'physical', 'mac_address': 'fa:16:3e:05:30:fe', 'name': 'nic0', 'mtu': None, }, { 'type': 'nameserver', 'address': '199.204.44.24', }, { 'type': 'nameserver', 'address': '199.204.47.54', } ], }, { 'version': 1, 'config': [ { 'name': 'foo3', 'mac_address': 'fa:16:3e:ed:9a:59', 'mtu': None, 'type': 'physical', 'subnets': [ { 'address': '172.19.1.34', 'netmask': '255.255.252.0', 'type': 'static', 'ipv4': True, 'routes': [{ 'gateway': '172.19.3.254', 'netmask': '0.0.0.0', 'network': '0.0.0.0', }], } ] }, { 'type': 'nameserver', 'address': '172.19.0.12', } ], }, ] for in_data, out_data in zip(in_datas, out_datas): conv_data = openstack.convert_net_json(in_data, known_macs=KNOWN_MACS) self.assertEqual(out_data, conv_data) class TestConvertNetworkData(CiTestCase): def setUp(self): super(TestConvertNetworkData, self).setUp() self.tmp = self.tmp_dir() def _getnames_in_config(self, ncfg): return set([n['name'] for n in ncfg['config'] if n['type'] == 'physical']) def test_conversion_fills_names(self): ncfg = openstack.convert_net_json(NETWORK_DATA, known_macs=KNOWN_MACS) expected = set(['nic0', 'enp0s1', 'enp0s2']) found = self._getnames_in_config(ncfg) self.assertEqual(found, expected) @mock.patch('cloudinit.net.get_interfaces_by_mac') def test_convert_reads_system_prefers_name(self, get_interfaces_by_mac): macs = KNOWN_MACS.copy() macs.update({'fa:16:3e:05:30:fe': 'foonic1', 'fa:16:3e:69:b0:58': 'ens1'}) get_interfaces_by_mac.return_value = macs ncfg = openstack.convert_net_json(NETWORK_DATA) expected = set(['nic0', 'ens1', 'enp0s2']) found = self._getnames_in_config(ncfg) self.assertEqual(found, expected) def test_convert_raises_value_error_on_missing_name(self): macs = {'aa:aa:aa:aa:aa:00': 'ens1'} self.assertRaises(ValueError, openstack.convert_net_json, NETWORK_DATA, known_macs=macs) def test_conversion_with_route(self): ncfg = openstack.convert_net_json(NETWORK_DATA_2, known_macs=KNOWN_MACS) # not the best test, but see that we get a route in the # network config and that it gets rendered to an ENI file routes = [] for n in ncfg['config']: for s in n.get('subnets', []): routes.extend(s.get('routes', [])) self.assertIn( {'network': '0.0.0.0', 'netmask': '0.0.0.0', 'gateway': '2.2.2.9'}, routes) eni_renderer = eni.Renderer() eni_renderer.render_network_state( network_state.parse_net_config_data(ncfg), self.tmp) with open(os.path.join(self.tmp, "etc", "network", "interfaces"), 'r') as f: eni_rendering = f.read() self.assertIn("route add default gw 2.2.2.9", eni_rendering) def test_conversion_with_tap(self): ncfg = openstack.convert_net_json(NETWORK_DATA_3, known_macs=KNOWN_MACS) physicals = set() for i in ncfg['config']: if i.get('type') == "physical": physicals.add(i['name']) self.assertEqual(physicals, set(('foo1', 'foo2'))) def test_bond_conversion(self): # light testing of bond conversion and eni rendering of bond ncfg = openstack.convert_net_json(NETWORK_DATA_BOND, known_macs=KNOWN_MACS) eni_renderer = eni.Renderer() eni_renderer.render_network_state( network_state.parse_net_config_data(ncfg), self.tmp) with open(os.path.join(self.tmp, "etc", "network", "interfaces"), 'r') as f: eni_rendering = f.read() # Verify there are expected interfaces in the net config. interfaces = sorted( [i['name'] for i in ncfg['config'] if i['type'] in ('vlan', 'bond', 'physical')]) self.assertEqual( sorted(["oeth0", "oeth1", "bond0", "bond0.602", "bond0.612"]), interfaces) words = eni_rendering.split() # 'eth0' and 'eth1' are the ids. because their mac adresses # map to other names, we should not see them in the ENI self.assertNotIn('eth0', words) self.assertNotIn('eth1', words) # oeth0 and oeth1 are the interface names for eni. # bond0 will be generated for the bond. Each should be auto. self.assertIn("auto oeth0", eni_rendering) self.assertIn("auto oeth1", eni_rendering) self.assertIn("auto bond0", eni_rendering) def test_vlan(self): # light testing of vlan config conversion and eni rendering ncfg = openstack.convert_net_json(NETWORK_DATA_VLAN, known_macs=KNOWN_MACS) eni_renderer = eni.Renderer() eni_renderer.render_network_state( network_state.parse_net_config_data(ncfg), self.tmp) with open(os.path.join(self.tmp, "etc", "network", "interfaces"), 'r') as f: eni_rendering = f.read() self.assertIn("iface enp0s1", eni_rendering) self.assertIn("address 10.0.1.5", eni_rendering) self.assertIn("auto enp0s1.602", eni_rendering) def test_mac_addrs_can_be_upper_case(self): # input mac addresses on rackspace may be upper case my_netdata = deepcopy(NETWORK_DATA) for link in my_netdata['links']: link['ethernet_mac_address'] = link['ethernet_mac_address'].upper() ncfg = openstack.convert_net_json(my_netdata, known_macs=KNOWN_MACS) config_name2mac = {} for n in ncfg['config']: if n['type'] == 'physical': config_name2mac[n['name']] = n['mac_address'] expected = {'nic0': 'fa:16:3e:05:30:fe', 'enp0s1': 'fa:16:3e:69:b0:58', 'enp0s2': 'fa:16:3e:d4:57:ad'} self.assertEqual(expected, config_name2mac) def cfg_ds_from_dir(base_d, files=None): run = os.path.join(base_d, "run") os.mkdir(run) cfg_ds = ds.DataSourceConfigDrive( settings.CFG_BUILTIN, None, helpers.Paths({'run_dir': run})) cfg_ds.seed_dir = os.path.join(base_d, "seed") if files: populate_dir(cfg_ds.seed_dir, files) cfg_ds.known_macs = KNOWN_MACS.copy() if not cfg_ds.get_data(): raise RuntimeError("Data source did not extract itself from" " seed directory %s" % cfg_ds.seed_dir) return cfg_ds def populate_ds_from_read_config(cfg_ds, source, results): """Patch the DataSourceConfigDrive from the results of read_config_drive_dir hopefully in line with what it would have if cfg_ds.get_data had been successfully called""" cfg_ds.source = source cfg_ds.metadata = results.get('metadata') cfg_ds.ec2_metadata = results.get('ec2-metadata') cfg_ds.userdata_raw = results.get('userdata') cfg_ds.version = results.get('version') cfg_ds.network_json = results.get('networkdata') cfg_ds._network_config = openstack.convert_net_json( cfg_ds.network_json, known_macs=KNOWN_MACS) # vi: ts=4 expandtab