congress/congress_tempest_tests/tests/scenario/manager_congress.py

# Copyright 2012 OpenStack Foundation
# Copyright 2013 Hewlett-Packard Development Company, L.P.
# All Rights Reserved.
#
#    Licensed under the Apache License, Version 2.0 (the "License"); you may
#    not use this file except in compliance with the License. You may obtain
#    a copy of the License at
#
#         http://www.apache.org/licenses/LICENSE-2.0
#
#    Unless required by applicable law or agreed to in writing, software
#    distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
#    WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
#    License for the specific language governing permissions and limitations
#    under the License.
import collections
import re

from oslo_log import log as logging
from tempest.common import credentials_factory as credentials
from tempest import config
from tempest.lib.common.utils import data_utils
from tempest.lib import exceptions
from tempest import manager as tempestmanager
from tempest.scenario import manager
from tempest import test

from congress_tempest_tests.services.policy import policy_client

CONF = config.CONF
LOG = logging.getLogger(__name__)

Floating_IP_tuple = collections.namedtuple('Floating_IP_tuple',
                                           ['floating_ip', 'server'])


def get_datasource_id(client, name):
    datasources = client.list_datasources()
    for datasource in datasources['results']:
        if datasource['name'] == name:
            return datasource['id']
    raise Exception("Datasource %s not found." % name)


# Note: these tests all use neutron today so we mix with that.
class ScenarioPolicyBase(manager.NetworkScenarioTest):
    @classmethod
    def setUpClass(cls):
        super(ScenarioPolicyBase, cls).setUpClass()
        # auth provider for admin credentials
        creds = credentials.get_configured_admin_credentials('identity_admin')
        auth_prov = tempestmanager.get_auth_provider(creds)

        cls.admin_manager.congress_client = policy_client.PolicyClient(
            auth_prov, "policy", CONF.identity.region)

        if getattr(CONF.service_available, 'ceilometer', False):
            import ceilometer.tests.tempest.service.client as telemetry_client
            cls.admin_manager.telemetry_client = (
                telemetry_client.TelemetryClient(
                    auth_prov, CONF.telemetry.catalog_type,
                    CONF.identity.region,
                    endpoint_type=CONF.telemetry.endpoint_type))

    def _setup_network_and_servers(self):
        self.security_group = (self._create_security_group
                               (tenant_id=self.tenant_id))
        self.network, self.subnet, self.router = self.create_networks()
        self.check_networks()

        name = data_utils.rand_name('server-smoke')
        server = self._create_server(name, self.network)
        self._check_tenant_network_connectivity()

        floating_ip = self.create_floating_ip(server)
        self.floating_ip_tuple = Floating_IP_tuple(floating_ip, server)

    def check_networks(self):
        """Check for newly created network/subnet/router.

        Checks that we see the newly created network/subnet/router via
        checking the result of list_[networks,routers,subnets].
        """

        seen_nets = self._list_networks()
        seen_names = [n['name'] for n in seen_nets]
        seen_ids = [n['id'] for n in seen_nets]
        self.assertIn(self.network['name'], seen_names)
        self.assertIn(self.network['id'], seen_ids)

        if self.subnet:
            seen_subnets = self._list_subnets()
            seen_net_ids = [n['network_id'] for n in seen_subnets]
            seen_subnet_ids = [n['id'] for n in seen_subnets]
            self.assertIn(self.network['id'], seen_net_ids)
            self.assertIn(self.subnet['id'], seen_subnet_ids)

        if self.router:
            seen_routers = self._list_routers()
            seen_router_ids = [n['id'] for n in seen_routers]
            seen_router_names = [n['name'] for n in seen_routers]
            self.assertIn(self.router['name'],
                          seen_router_names)
            self.assertIn(self.router['id'],
                          seen_router_ids)

    def _create_server(self, name, network):
        keypair = self.create_keypair()
        self.keypairs[keypair['name']] = keypair
        security_groups = [{'name': self.security_group['name']}]
        create_kwargs = {
            'networks': [
                {'uuid': network['id']},
            ],
            'key_name': keypair['name'],
            'security_groups': security_groups,
        }
        server = self.create_server(name=name, wait_until='ACTIVE',
                                    **create_kwargs)
        self.servers.append(server)
        return server

    def _get_server_key(self, server):
        return self.keypairs[server['key_name']]['private_key']

    def _check_tenant_network_connectivity(self):
        ssh_login = CONF.validation.image_ssh_user
        for server in self.servers:
            # call the common method in the parent class
            super(ScenarioPolicyBase, self)._check_tenant_network_connectivity(
                server, ssh_login, self._get_server_key(server),
                servers_for_debug=self.servers)

    def _create_and_associate_floating_ips(self, server):
        public_network_id = CONF.network.public_network_id
        floating_ip = self._create_floating_ip(server, public_network_id)
        self.floating_ip_tuple = Floating_IP_tuple(floating_ip, server)

    def _check_public_network_connectivity(self, should_connect=True,
                                           msg=None):
        ssh_login = CONF.compute.image_ssh_user
        floating_ip, server = self.floating_ip_tuple
        ip_address = floating_ip.floating_ip_address
        private_key = None
        if should_connect:
            private_key = self._get_server_key(server)
        # call the common method in the parent class
        super(ScenarioPolicyBase, self)._check_public_network_connectivity(
            ip_address, ssh_login, private_key, should_connect, msg,
            self.servers)

    def _disassociate_floating_ips(self):
        floating_ip, server = self.floating_ip_tuple
        self._disassociate_floating_ip(floating_ip)
        self.floating_ip_tuple = Floating_IP_tuple(
            floating_ip, None)

    def _reassociate_floating_ips(self):
        floating_ip, server = self.floating_ip_tuple
        name = data_utils.rand_name('new_server-smoke-')
        # create a new server for the floating ip
        server = self._create_server(name, self.network)
        self._associate_floating_ip(floating_ip, server)
        self.floating_ip_tuple = Floating_IP_tuple(
            floating_ip, server)

    def _create_new_network(self):
        self.new_net = self._create_network(tenant_id=self.tenant_id)
        self.new_subnet = self._create_subnet(
            network=self.new_net,
            gateway_ip=None)

    def _hotplug_server(self):
        old_floating_ip, server = self.floating_ip_tuple
        ip_address = old_floating_ip.floating_ip_address
        private_key = self._get_server_key(server)
        ssh_client = self.get_remote_client(ip_address,
                                            private_key=private_key)
        old_nic_list = self._get_server_nics(ssh_client)
        # get a port from a list of one item
        port_list = self._list_ports(device_id=server['id'])
        self.assertEqual(1, len(port_list))
        old_port = port_list[0]
        _, interface = self.interface_client.create_interface(
            server=server['id'],
            network_id=self.new_net.id)
        self.addCleanup(self.ports_client.wait_for_resource_deletion,
                        interface['port_id'])
        self.addCleanup(self.delete_wrapper,
                        self.interface_client.delete_interface,
                        server['id'], interface['port_id'])

        def check_ports():
            self.new_port_list = [port for port in
                                  self._list_ports(device_id=server['id'])
                                  if port != old_port]
            return len(self.new_port_list) == 1

        if not test.call_until_true(check_ports, CONF.network.build_timeout,
                                    CONF.network.build_interval):
            raise exceptions.TimeoutException("No new port attached to the "
                                              "server in time (%s sec) !"
                                              % CONF.network.build_timeout)
        new_port = self.ports_client.delete_port(self.new_port_list[0])

        def check_new_nic():
            new_nic_list = self._get_server_nics(ssh_client)
            self.diff_list = [n for n in new_nic_list if n not in old_nic_list]
            return len(self.diff_list) == 1

        if not test.call_until_true(check_new_nic, CONF.network.build_timeout,
                                    CONF.network.build_interval):
            raise exceptions.TimeoutException("Interface not visible on the "
                                              "guest after %s sec"
                                              % CONF.network.build_timeout)

        num, new_nic = self.diff_list[0]
        ssh_client.assign_static_ip(nic=new_nic,
                                    addr=new_port.fixed_ips[0]['ip_address'])
        ssh_client.turn_nic_on(nic=new_nic)

    def _get_server_nics(self, ssh_client):
        reg = re.compile(r'(?P<num>\d+): (?P<nic_name>\w+):')
        ipatxt = ssh_client.get_ip_list()
        return reg.findall(ipatxt)

    def _check_network_internal_connectivity(self, network):
        """via ssh check VM internal connectivity:

        - ping internal gateway and DHCP port, implying in-tenant connectivity
        pinging both, because L3 and DHCP agents might be on different nodes.
        """
        floating_ip, server = self.floating_ip_tuple
        # get internal ports' ips:
        # get all network ports in the new network
        internal_ips = (p['fixed_ips'][0]['ip_address'] for p in
                        self._list_ports(tenant_id=server['tenant_id'],
                                         network_id=network.id)
                        if p['device_owner'].startswith('network'))

        self._check_server_connectivity(floating_ip, internal_ips)

    def _check_network_external_connectivity(self):
        """ping public network default gateway to imply external conn."""
        if not CONF.network.public_network_id:
            msg = 'public network not defined.'
            LOG.info(msg)
            return

        subnet = self._list_subnets(
            network_id=CONF.network.public_network_id)
        self.assertEqual(1, len(subnet), "Found %d subnets" % len(subnet))

        external_ips = [subnet[0]['gateway_ip']]
        self._check_server_connectivity(self.floating_ip_tuple.floating_ip,
                                        external_ips)

    def _check_server_connectivity(self, floating_ip, address_list):
        ip_address = floating_ip.floating_ip_address
        private_key = self._get_server_key(self.floating_ip_tuple.server)
        ssh_source = self._ssh_to_server(ip_address, private_key)

        for remote_ip in address_list:
            try:
                self.assertTrue(self._check_remote_connectivity(ssh_source,
                                                                remote_ip),
                                "Timed out waiting for %s to become "
                                "reachable" % remote_ip)
            except Exception:
                LOG.exception("Unable to access {dest} via ssh to "
                              "floating-ip {src}".format(dest=remote_ip,
                                                         src=floating_ip))
                raise