Exemple #1
0
 def test_no_draining(self):
     """
     Doesnt fetch feeds if all nodes are ENABLED
     """
     seq = [
         lb_req('loadbalancers', True,
                {'loadBalancers': [{
                    'id': 1
                }, {
                    'id': 2
                }]}),
         parallel_sequence([[nodes_req(1, [node('11', 'a11')])],
                            [nodes_req(2, [node('21', 'a21')])],
                            [lb_hm_req(1, {})], [lb_hm_req(2, {})]]),
         parallel_sequence([])  # No nodes to fetch
     ]
     make_desc = partial(CLBDescription,
                         port=20,
                         weight=2,
                         condition=CLBNodeCondition.ENABLED,
                         type=CLBNodeType.PRIMARY)
     eff = get_clb_contents()
     self.assertEqual(perform_sequence(seq, eff), ([
         CLBNode(
             node_id='11', address='a11', description=make_desc(lb_id='1')),
         CLBNode(
             node_id='21', address='a21', description=make_desc(lb_id='2'))
     ], {
         '1': CLB(False),
         '2': CLB(False)
     }))
Exemple #2
0
 def test_success(self):
     """
     Gets LB contents with drained_at correctly
     """
     node11 = node('11', 'a11', condition='DRAINING')
     node12 = node('12', 'a12')
     node21 = node('21', 'a21', weight=3)
     node22 = node('22', 'a22', weight=None, condition='DRAINING')
     seq = [
         lb_req('loadbalancers', True,
                {'loadBalancers': [{
                    'id': 1
                }, {
                    'id': 2
                }]}),
         parallel_sequence([[nodes_req(1, [node11, node12])],
                            [nodes_req(2, [node21, node22])],
                            [lb_hm_req(1, {"type": "CONNECT"})],
                            [lb_hm_req(2, {})]]),
         parallel_sequence([[node_feed_req('1', '11', '11feed')],
                            [node_feed_req('2', '22', '22feed')]]),
     ]
     eff = get_clb_contents()
     self.assertEqual(perform_sequence(seq, eff), ([
         attr.assoc(CLBNode.from_node_json(1, node11), _drained_at=1.0),
         CLBNode.from_node_json(1, node12),
         CLBNode.from_node_json(2, node21),
         attr.assoc(CLBNode.from_node_json(2, node22), _drained_at=2.0)
     ], {
         '1': CLB(True),
         '2': CLB(False)
     }))
Exemple #3
0
    def test_success(self):
        """
        The data is returned as a tuple of ([NovaServer], [CLBNode/RCv3Node]).
        """
        clb_nodes = [
            CLBNode(node_id='node1',
                    address='ip1',
                    description=CLBDescription(lb_id='lb1', port=80))
        ]
        rcv3_nodes = [
            RCv3Node(node_id='node2',
                     cloud_server_id='a',
                     description=RCv3Description(lb_id='lb2'))
        ]

        eff = get_all_launch_server_data(
            'tid',
            'gid',
            self.now,
            get_scaling_group_servers=_constant_as_eff(
                ('tid', 'gid', self.now), self.servers),
            get_clb_contents=_constant_as_eff((), (clb_nodes, {
                'lb1': CLB(True),
                'lb2': CLB(False)
            })),
            get_rcv3_contents=_constant_as_eff((), rcv3_nodes))

        expected_servers = [
            server('a',
                   ServerState.ACTIVE,
                   servicenet_address='10.0.0.1',
                   links=freeze([{
                       'href': 'link1',
                       'rel': 'self'
                   }]),
                   json=freeze(self.servers[0])),
            server('b',
                   ServerState.ACTIVE,
                   created=1,
                   servicenet_address='10.0.0.2',
                   links=freeze([{
                       'href': 'link2',
                       'rel': 'self'
                   }]),
                   json=freeze(self.servers[1]))
        ]
        self.assertEqual(
            resolve_stubs(eff), {
                'servers': expected_servers,
                'lb_nodes': clb_nodes + rcv3_nodes,
                'lbs': {
                    'lb1': CLB(True),
                    'lb2': CLB(False)
                }
            })
Exemple #4
0
 def test_lb_disappeared_during_feed_fetch(self):
     """
     If a load balancer gets deleted while fetching feeds, no nodes will be
     returned for it.
     """
     node21 = node('21', 'a21', condition='DRAINING', weight=None)
     seq = [
         lb_req('loadbalancers', True,
                {'loadBalancers': [{
                    'id': 1
                }, {
                    'id': 2
                }]}),
         parallel_sequence([[
             nodes_req(1, [
                 node('11', 'a11', condition='DRAINING'),
                 node('12', 'a12')
             ])
         ], [nodes_req(2, [node21])], [lb_hm_req(1, {"type": "CONNECT"})],
                            [lb_hm_req(2, {"type": "CONNECT"})]]),
         parallel_sequence(
             [[node_feed_req('1', '11', CLBNotFoundError(lb_id=u'1'))],
              [node_feed_req('2', '21', '22feed')]]),
     ]
     eff = get_clb_contents()
     self.assertEqual(
         perform_sequence(seq, eff),
         ([attr.assoc(CLBNode.from_node_json(2, node21), _drained_at=2.0)
           ], {
               '2': CLB(True)
           }))
Exemple #5
0
 def test_lb_disappeared_during_node_fetch(self):
     """
     If a load balancer gets deleted while fetching nodes, no nodes will be
     returned for it.
     """
     seq = [
         lb_req('loadbalancers', True,
                {'loadBalancers': [{
                    'id': 1
                }, {
                    'id': 2
                }]}),
         parallel_sequence([[nodes_req(1, [node('11', 'a11')])],
                            [
                                lb_req('loadbalancers/2/nodes', True,
                                       CLBNotFoundError(lb_id=u'2'))
                            ], [lb_hm_req(1, {"type": "CONNECT"})],
                            [
                                lb_req('loadbalancers/2/healthmonitor',
                                       True, CLBNotFoundError(lb_id=u'2'))
                            ]]),
         parallel_sequence([])  # No node feeds to fetch
     ]
     make_desc = partial(CLBDescription,
                         port=20,
                         weight=2,
                         condition=CLBNodeCondition.ENABLED,
                         type=CLBNodeType.PRIMARY)
     eff = get_clb_contents()
     self.assertEqual(perform_sequence(seq, eff), ([
         CLBNode(
             node_id='11', address='a11', description=make_desc(lb_id='1'))
     ], {
         '1': CLB(True)
     }))
Exemple #6
0
 def test_no_nodes(self):
     """
     Return empty if there are LBs but no nodes in them
     """
     seq = [
         lb_req('loadbalancers', True,
                {'loadBalancers': [{
                    'id': 1
                }, {
                    'id': 2
                }]}),
         parallel_sequence([[nodes_req(1, [])], [nodes_req(2, [])],
                            [lb_hm_req(1, {})],
                            [lb_hm_req(2, {"type": "a"})]]),
         parallel_sequence([]),  # No nodes to fetch
     ]
     self.assertEqual(perform_sequence(seq, get_clb_contents()),
                      ([], {
                          '1': CLB(False),
                          '2': CLB(True)
                      }))
Exemple #7
0
    def test_no_group_servers(self):
        """
        If there are no servers in a group, get_all_launch_server_data includes
        an empty list.
        """
        eff = get_all_launch_server_data(
            'tid',
            'gid',
            self.now,
            get_scaling_group_servers=_constant_as_eff(
                ('tid', 'gid', self.now), []),
            get_clb_contents=_constant_as_eff((), ([], {
                'a': CLB(False)
            })),
            get_rcv3_contents=_constant_as_eff((), []))

        self.assertEqual(resolve_stubs(eff), {
            'servers': [],
            'lb_nodes': [],
            'lbs': {
                'a': CLB(False)
            }
        })
Exemple #8
0
def get_clb_contents():
    """
    Get Rackspace Cloud Load Balancer contents as list of `CLBNode`. CLB
    health monitor information is also returned as a pmap of :obj:`CLB` objects
    mapped on LB ID.

    :return: Effect of (``list`` of :obj:`CLBNode`, `pmap` of :obj:`CLB`)
    :rtype: :obj:`Effect`
    """

    # If we get a CLBNotFoundError while fetching feeds, we should throw away
    # all nodes related to that load balancer, because we don't want to act on
    # data that we know is invalid/outdated (for example, if we can't fetch a
    # feed because CLB was deleted, we don't want to say that we have a node in
    # DRAINING with draining time of 0; we should just say that the node is
    # gone).

    def gone(r):
        return catch(CLBNotFoundError, lambda exc: r)

    lb_ids = [lb['id'] for lb in (yield _retry(get_clbs()))]
    node_reqs = [
        _retry(get_clb_nodes(lb_id).on(error=gone([]))) for lb_id in lb_ids
    ]
    healthmon_reqs = [
        _retry(get_clb_health_monitor(lb_id).on(error=gone(None)))
        for lb_id in lb_ids
    ]
    all_nodes_hms = yield parallel(node_reqs + healthmon_reqs)
    all_nodes, hms = all_nodes_hms[:len(lb_ids)], all_nodes_hms[len(lb_ids):]
    lb_nodes = {
        lb_id: [CLBNode.from_node_json(lb_id, node) for node in nodes]
        for lb_id, nodes in zip(lb_ids, all_nodes)
    }
    clbs = {
        str(lb_id): CLB(bool(health_mon))
        for lb_id, health_mon in zip(lb_ids, hms) if health_mon is not None
    }
    draining = [
        n for n in concat(lb_nodes.values())
        if n.description.condition == CLBNodeCondition.DRAINING
    ]
    feeds = yield parallel([
        _retry(
            get_clb_node_feed(n.description.lb_id,
                              n.node_id).on(error=gone(None)))
        for n in draining
    ])
    nodes_to_feeds = dict(zip(draining, feeds))
    deleted_lbs = set([
        node.description.lb_id for (node, feed) in nodes_to_feeds.items()
        if feed is None
    ])

    def update_drained_at(node):
        feed = nodes_to_feeds.get(node)
        if node.description.lb_id in deleted_lbs:
            return None
        if feed is not None:
            node.drained_at = extract_clb_drained_at(feed)
        return node

    nodes = map(update_drained_at, concat(lb_nodes.values()))
    yield do_return((list(filter(bool, nodes)),
                     pmap(keyfilter(lambda k: k not in deleted_lbs, clbs))))