class Cyclades(livetest.Generic): """Set up a Cyclades test""" def setUp(self): print with open(self['cmpimage', 'details']) as f: self.img_details = eval(f.read()) self.img = self.img_details['id'] with open(self['flavor', 'details']) as f: self._flavor_details = eval(f.read()) self.PROFILES = ('ENABLED', 'DISABLED', 'PROTECTED') self.servers = {} self.now = time.mktime(time.gmtime()) self.servname1 = 'serv' + unicode(self.now) self.servname2 = self.servname1 + '_v2' self.servname1 += '_v1' self.flavorid = self._flavor_details['id'] #servers have to be created at the begining... self.networks = {} self.netname1 = 'net' + unicode(self.now) self.netname2 = 'net' + unicode(self.now) + '_v2' self.cloud = 'cloud.%s' % self['testcloud'] aurl, self.token = self[self.cloud, 'url'], self[self.cloud, 'token'] self.auth_base = AstakosClient(aurl, self.token) curl = self.auth_base.get_service_endpoints('compute')['publicURL'] self.client = CycladesClient(curl, self.token) def tearDown(self): """Destoy servers used in testing""" for net in self.networks.keys(): self._delete_network(net) for server in self.servers.values(): self._delete_server(server['id']) print('DEL VM %s (%s)' % (server['id'], server['name'])) def test_000(self): "Prepare a full Cyclades test scenario" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self.server2 = self._create_server( self.servname2, self.flavorid, self.img) super(self.__class__, self).test_000() def _create_server(self, servername, flavorid, imageid, personality=None): server = self.client.create_server( servername, flavorid, imageid, personality=personality) print('CREATE VM %s (%s)' % (server['id'], server['name'])) self.servers[servername] = server return server def _delete_server(self, servid): try: current_state = self.client.get_server_details(servid) current_state = current_state['status'] if current_state == 'DELETED': return self.client.delete_server(servid) self._wait_for_status(servid, current_state) self.client.delete_server(servid) except: return def _create_network(self, netname, **kwargs): net = self.client.create_network(netname, **kwargs) self.networks[net['id']] = net return net def _delete_network(self, netid): if not netid in self.networks: return None print('Disconnect nics of network %s' % netid) self.client.disconnect_network_nics(netid) def netwait(wait): try: self.client.delete_network(netid) except ClientError: time.sleep(wait) self.do_with_progress_bar( netwait, 'Delete network %s' % netid, self._waits[:7]) return self.networks.pop(netid) def _wait_for_network(self, netid, status): def netwait(wait): r = self.client.get_network_details(netid) if r['status'] == status: return time.sleep(wait) self.do_with_progress_bar( netwait, 'Wait network %s to reach status %s' % (netid, status), self._waits[:5]) def _wait_for_nic(self, netid, servid, in_creation=True): self._wait_for_network(netid, 'ACTIVE') def nicwait(wait): nics = self.client.list_server_nics(servid) for net in nics: found_nic = net['network_id'] == netid if (in_creation and found_nic) or not ( in_creation or found_nic): return time.sleep(wait) self.do_with_progress_bar( nicwait, 'Wait nic-%s-%s to %sconnect' % ( netid, servid, '' if in_creation else 'dis'), self._waits[:5]) for net in self.client.list_server_nics(servid): if netid == net['network_id']: return True return False def _has_status(self, servid, status): r = self.client.get_server_details(servid) #print 'MY ', servid, ' STATUS IS ', r['status'] return r['status'] == status def _wait_for_status(self, servid, status): (wait_bar, wait_cb) = self._safe_progress_bar( 'Server %s in %s' % (servid, status)) self.client.wait_server( servid, status, wait_cb=wait_cb, delay=2, max_wait=198) self._safe_progress_bar_finish(wait_bar) def test_parallel_creation(self): """test create with multiple threads Do not use this in regular livetest """ from kamaki.clients import SilentEvent c = [] for i in range(8): sname = '%s_%s' % (self.servname1, i) c.append(SilentEvent( self._create_server, sname, self.flavorid, self.img)) for i in range(8): c[i].start() def test_create_server(self): """Test create_server""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._wait_for_status(self.server1['id'], 'BUILD') self._test_0010_create_server() def _test_0010_create_server(self): self.assertEqual(self.server1["name"], self.servname1) self.assertEqual(self.server1["flavor"]["id"], self.flavorid) self.assertEqual(self.server1["image"]["id"], self.img) self.assertEqual(self.server1["status"], "BUILD") def test_list_servers(self): """Test list servers""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self.server2 = self._create_server( self.servname2, self.flavorid, self.img) self._test_0020_list_servers() def _test_0020_list_servers(self): servers = self.client.list_servers() dservers = self.client.list_servers(detail=True) """detailed and simple are same size""" self.assertEqual(len(dservers), len(servers)) fields = set([ 'created', 'flavor', 'hostId', 'image', 'progress', 'status', 'updated']) for i, srv in enumerate(servers): self.assertTrue(fields.isdisjoint(srv)) self.assertTrue(fields.issubset(dservers[i])) """detailed and simple contain same names""" names = sorted(map(lambda x: x["name"], servers)) dnames = sorted(map(lambda x: x["name"], dservers)) self.assertEqual(names, dnames) def _test_0030_wait_test_servers_to_build(self): """Pseudo-test to wait for VMs to load""" print('') self._wait_for_status(self.server1['id'], 'BUILD') self._wait_for_status(self.server2['id'], 'BUILD') def test_get_server_details(self): """Test get_server_details""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._wait_for_status(self.server1['id'], 'BUILD') self._test_0040_get_server_details() def _test_0040_get_server_details(self): r = self.client.get_server_details(self.server1['id']) self.assertEqual(r["name"], self.servname1) self.assertEqual(r["flavor"]["id"], self.flavorid) self.assertEqual(r["image"]["id"], self.img) self.assertEqual(r["status"], "ACTIVE") def test_update_server_name(self): """Test update_server_name""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._test_0050_update_server_name() def _test_0050_update_server_name(self): new_name = self.servname1 + '_new_name' self.client.update_server_name(self.server1['id'], new_name) r = self.client.get_server_details( self.server1['id'], success=(200, 400)) self.assertEqual(r['name'], new_name) changed = self.servers.pop(self.servname1) changed['name'] = new_name self.servers[new_name] = changed def test_reboot_server(self): """Test reboot server""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._wait_for_status(self.server1['id'], 'BUILD') self.server2 = self._create_server( self.servname2, self.flavorid + 2, self.img) self._wait_for_status(self.server2['id'], 'BUILD') self._test_0060_reboot_server() self._wait_for_status(self.server1['id'], 'REBOOT') self._wait_for_status(self.server2['id'], 'REBOOT') def _test_0060_reboot_server(self): self.client.reboot_server(self.server1['id']) self.assertTrue(self._has_status(self.server1['id'], 'REBOOT')) self.client.reboot_server(self.server2['id'], hard=True) self.assertTrue(self._has_status(self.server2['id'], 'REBOOT')) def test_resize_server(self): """Modify the flavor of a server""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._test_0065_resize_server() self.delete_server(self.server1['id']) self.server1 = self._create_server( self.servname1, self.flavorid, self.img) def _test_0065_resize_server(self): self.client.resize_server(self.servname1, self.flavorid + 2) srv = self.client.get_flavor_details(self.server1['id']) self.assertEqual(srv['flavor']['id'], self.flavorid + 2) def _test_0070_wait_test_servers_to_reboot(self): """Pseudo-test to wait for VMs to load""" print('') self._wait_for_status(self.server1['id'], 'REBOOT') self._wait_for_status(self.server2['id'], 'REBOOT') def test_create_server_metadata(self): """Test create_server_metadata""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._test_0080_create_server_metadata() def _test_0080_create_server_metadata(self): r1 = self.client.create_server_metadata( self.server1['id'], 'mymeta', 'mymeta val') self.assertTrue('mymeta' in r1) r2 = self.client.get_server_metadata(self.server1['id'], 'mymeta') self.assert_dicts_are_equal(r1, r2) def test_get_server_metadata(self): """Test get server_metadata""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._test_0090_get_server_metadata() def _test_0090_get_server_metadata(self): self.client.update_server_metadata( self.server1['id'], mymeta_0='val_0') r = self.client.get_server_metadata(self.server1['id'], 'mymeta_0') self.assertEqual(r['mymeta_0'], 'val_0') def test_update_server_metadata(self): """Test update_server_metadata""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._test_0100_update_server_metadata() def _test_0100_update_server_metadata(self): r1 = self.client.update_server_metadata( self.server1['id'], mymeta3='val2') self.assertTrue('mymeta3'in r1) r2 = self.client.update_server_metadata( self.server1['id'], mymeta3='val3') self.assertTrue(r2['mymeta3'], 'val3') def test_delete_server_metadata(self): """Test delete_server_metadata""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._test_0110_delete_server_metadata() def _test_0110_delete_server_metadata(self): r1 = self.client.update_server_metadata( self.server1['id'], mymeta='val') self.assertTrue('mymeta' in r1) self.client.delete_server_metadata(self.server1['id'], 'mymeta') try: self.client.get_server_metadata(self.server1['id'], 'mymeta') raise ClientError('Wrong Error', status=100) except ClientError as err: self.assertEqual(err.status, 404) def test_list_flavors(self): """Test flavors_get""" self._test_0120_list_flavors() def _test_0120_list_flavors(self): r = self.client.list_flavors() self.assertTrue(len(r) > 1) r = self.client.list_flavors(detail=True) self.assertTrue('SNF:disk_template' in r[0]) def test_get_flavor_details(self): """Test test_get_flavor_details""" self._test_0130_get_flavor_details() def _test_0130_get_flavor_details(self): r = self.client.get_flavor_details(self.flavorid) self.assert_dicts_are_equal(self._flavor_details, r) #def test_list_images(self): # """Test list_images""" # self._test_0140_list_images() def _test_0140_list_images(self): r = self.client.list_images() self.assertTrue(len(r) > 1) r = self.client.list_images(detail=True) for detailed_img in r: if detailed_img['id'] == self.img: break self.assert_dicts_are_equal(detailed_img, self.img_details) def test_get_image_details(self): """Test image_details""" self._test_0150_get_image_details() def _test_0150_get_image_details(self): r = self.client.get_image_details(self.img) self.assert_dicts_are_equal(r, self.img_details) def test_get_image_metadata(self): """Test get_image_metadata""" self._test_0160_get_image_metadata() def _test_0160_get_image_metadata(self): r = self.client.get_image_metadata(self.img) self.assert_dicts_are_equal( self.img_details['properties'], r) for key, val in self.img_details['properties'].items(): r = self.client.get_image_metadata(self.img, key) self.assertEqual(r[key], val) def test_shutdown_server(self): """Test shutdown_server""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._wait_for_status(self.server1['id'], 'BUILD') self._test_0170_shutdown_server() def _test_0170_shutdown_server(self): self.client.shutdown_server(self.server1['id']) self._wait_for_status(self.server1['id'], 'ACTIVE') r = self.client.get_server_details(self.server1['id']) self.assertEqual(r['status'], 'STOPPED') def test_start_server(self): """Test start_server""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._wait_for_status(self.server1['id'], 'BUILD') self.client.shutdown_server(self.server1['id']) self._wait_for_status(self.server1['id'], 'ACTIVE') self._test_0180_start_server() def _test_0180_start_server(self): self.client.start_server(self.server1['id']) self._wait_for_status(self.server1['id'], 'STOPPED') r = self.client.get_server_details(self.server1['id']) self.assertEqual(r['status'], 'ACTIVE') def test_get_server_console(self): """Test get_server_console""" self.server2 = self._create_server( self.servname2, self.flavorid, self.img) self._wait_for_status(self.server2['id'], 'BUILD') self._test_0190_get_server_console() def _test_0190_get_server_console(self): r = self.client.get_server_console(self.server2['id']) self.assertTrue('host' in r) self.assertTrue('password' in r) self.assertTrue('port' in r) self.assertTrue('type' in r) def test_get_firewall_profile(self): """Test get_firewall_profile""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._test_0200_get_firewall_profile() def _test_0200_get_firewall_profile(self): self._wait_for_status(self.server1['id'], 'BUILD') fprofile = self.client.get_firewall_profile(self.server1['id']) self.assertTrue(fprofile in self.PROFILES) def test_set_firewall_profile(self): """Test set_firewall_profile""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._test_0210_set_firewall_profile() def _test_0210_set_firewall_profile(self): self._wait_for_status(self.server1['id'], 'BUILD') PROFILES = ['DISABLED', 'ENABLED', 'DISABLED', 'PROTECTED'] fprofile = self.client.get_firewall_profile(self.server1['id']) print('') count_success = 0 for counter, fprofile in enumerate(PROFILES): npos = counter + 1 try: nprofile = PROFILES[npos] except IndexError: nprofile = PROFILES[0] print('\tprofile swap %s: %s -> %s' % (npos, fprofile, nprofile)) self.client.set_firewall_profile(self.server1['id'], nprofile) time.sleep(0.5) self.client.reboot_server(self.server1['id'], hard=True) time.sleep(1) self._wait_for_status(self.server1['id'], 'REBOOT') time.sleep(0.5) changed = self.client.get_firewall_profile(self.server1['id']) try: self.assertEqual(changed, nprofile) except AssertionError as err: if count_success: print('\tFAIL in swap #%s' % npos) break else: raise err count_success += 1 def test_get_server_stats(self): self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self._test_0220_get_server_stats() def _test_0220_get_server_stats(self): r = self.client.get_server_stats(self.server1['id']) it = ('cpuBar', 'cpuTimeSeries', 'netBar', 'netTimeSeries', 'refresh') for term in it: self.assertTrue(term in r) def test_create_network(self): """Test create_network""" self._test_0230_create_network() def _test_0230_create_network(self): print('\twith no params') self.network1 = self._create_network(self.netname1) self._wait_for_network(self.network1['id'], 'ACTIVE') n1id = self.network1['id'] self.network1 = self.client.get_network_details(n1id) nets = self.client.list_networks(self.network1['id']) chosen = [net for net in nets if net['id'] == n1id][0] chosen.pop('updated') net1 = dict(self.network1) net1.pop('updated') self.assert_dicts_are_equal(chosen, net1) full_args = dict( cidr='192.168.1.0/24', gateway='192.168.1.1', type='MAC_FILTERED', dhcp=True) try_args = dict(all=True) try_args.update(full_args) for param, val in try_args.items(): print('\tdelete %s to avoid max net limit' % n1id) self._delete_network(n1id) kwargs = full_args if param == 'all' else {param: val} print('\twith %s=%s' % (param, val)) self.network1 = self._create_network(self.netname1, **kwargs) n1id = self.network1['id'] self._wait_for_network(n1id, 'ACTIVE') self.network1 = self.client.get_network_details(n1id) if param == 'all': for p, v in full_args.items(): self.assertEqual(self.network1[p], v) else: self.assertEqual(self.network1[param], val) def test_connect_server(self): """Test connect_server""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self.network1 = self._create_network(self.netname1) self._wait_for_status(self.server1['id'], 'BUILD') self._wait_for_network(self.network1['id'], 'ACTIVE') self._test_0240_connect_server() def _test_0250_connect_server(self): self.client.connect_server(self.server1['id'], self.network1['id']) self.assertTrue( self._wait_for_nic(self.network1['id'], self.server1['id'])) def test_disconnect_server(self): """Test disconnect_server""" self.test_connect_server() self._test_0250_disconnect_server() def _test_0250_disconnect_server(self): self.client.disconnect_server(self.server1['id'], self.network1['id']) self.assertTrue(self._wait_for_nic( self.network1['id'], self.server1['id'], in_creation=False)) def _test_0260_wait_for_second_network(self): self.network2 = self._create_network(self.netname2) self._wait_for_network(self.network2['id'], 'ACTIVE') def test_list_server_nics(self): """Test list_server_nics""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self.network2 = self._create_network(self.netname2) self._wait_for_status(self.server1['id'], 'BUILD') self._wait_for_network(self.network2['id'], 'ACTIVE') self._test_0280_list_server_nics() def _test_0280_list_server_nics(self): r = self.client.list_server_nics(self.server1['id']) len0 = len(r) self.client.connect_server(self.server1['id'], self.network2['id']) self.assertTrue( self._wait_for_nic(self.network2['id'], self.server1['id'])) r = self.client.list_server_nics(self.server1['id']) self.assertTrue(len(r) > len0) def test_list_networks(self): """Test list_network""" self.network1 = self._create_network(self.netname1) self._wait_for_network(self.network1['id'], 'ACTIVE') self._test_0290_list_networks() def _test_0290_list_networks(self): r = self.client.list_networks() self.assertTrue(len(r) > 1) ids = [net['id'] for net in r] names = [net['name'] for net in r] self.assertTrue('1' in ids) #self.assertTrue('public' in names) self.assertTrue(self.network1['id'] in ids) self.assertTrue(self.network1['name'] in names) r = self.client.list_networks(detail=True) ids = [net['id'] for net in r] names = [net['name'] for net in r] for net in r: self.assertTrue(net['id'] in ids) self.assertTrue(net['name'] in names) for term in ('status', 'updated', 'created'): self.assertTrue(term in net.keys()) def test_list_network_nics(self): """Test list_server_nics""" self.server1 = self._create_server( self.servname1, self.flavorid, self.img) self.network1 = self._create_network(self.netname1) self.network2 = self._create_network(self.netname2) self._wait_for_status(self.server1['id'], 'BUILD') self._wait_for_network(self.network1['id'], 'ACTIVE') self._wait_for_network(self.network2['id'], 'ACTIVE') self.client.connect_server(self.server1['id'], self.network1['id']) self.client.connect_server(self.server1['id'], self.network2['id']) self._wait_for_nic(self.network1['id'], self.server1['id']) self._wait_for_nic(self.network2['id'], self.server1['id']) self._test_0293_list_network_nics() def _test_0293_list_network_nics(self): netid1, netid2 = self.network1['id'], self.network2['id'] r = self.client.list_network_nics(netid1) expected = ['nic-%s-1' % self.server1['id']] self.assertEqual(r, expected) r = self.client.list_network_nics(netid2) expected = ['nic-%s-2' % self.server1['id']] self.assertEqual(r, expected) def test_get_network_details(self): """Test get_network_details""" self.network1 = self._create_network(self.netname1) self._test_0300_get_network_details() def _test_0300_get_network_details(self): r = self.client.get_network_details(self.network1['id']) net1 = dict(self.network1) net1.pop('status') net1.pop('updated', None) net1.pop('attachments') r.pop('status') r.pop('updated', None) r.pop('attachments') self.assert_dicts_are_equal(net1, r) def test_update_network_name(self): self.network2 = self._create_network(self.netname2) self._test_0310_update_network_name() def _test_0310_update_network_name(self): updated_name = self.netname2 + '_upd' self.client.update_network_name(self.network2['id'], updated_name) def netwait(wait): r = self.client.get_network_details(self.network2['id']) if r['name'] == updated_name: return time.sleep(wait) self.do_with_progress_bar( netwait, 'Network %s name is changing:' % self.network2['id'], self._waits[:5]) r = self.client.get_network_details(self.network2['id']) self.assertEqual(r['name'], updated_name) """ Don't have auth to test this