Beispiel #1
0
    def test_clean_up_endpoint_status(self):
        self.m_config.REPORT_ENDPOINT_STATUS = True
        ep_id = WloadEndpointId("foo",
                                "openstack",
                                "workloadid",
                                "endpointid")

        empty_dir = Mock()
        empty_dir.key = ("/calico/felix/v1/host/foo/workload/"
                         "openstack/foobar")
        empty_dir.dir = True

        missing_ep = Mock()
        missing_ep.key = ("/calico/felix/v1/host/foo/workload/"
                          "openstack/aworkload/endpoint/anendpoint")

        self.m_client.read.return_value.leaves = [
            empty_dir,
            missing_ep,
        ]
        with patch.object(self.rep, "_mark_endpoint_dirty") as m_mark:
            self.rep.clean_up_endpoint_statuses(async=True)
            self.step_actor(self.rep)

            # Missing endpoint should have been marked for cleanup.
            m_mark.assert_called_once_with(
                WloadEndpointId("foo",
                                "openstack",
                                "aworkload",
                                "anendpoint")
            )
Beispiel #2
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 def test_endpoint_set_invalid(self):
     self.dispatch("/calico/v1/host/h1/workload/o1/w1/endpoint/e1",
                   "set", value="{}")
     self.m_splitter.on_endpoint_update.assert_called_once_with(
         WloadEndpointId("h1", "o1", "w1", "e1"),
         None,
     )
Beispiel #3
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 def test_endpoint_set(self):
     self.dispatch("/calico/v1/host/h1/workload/o1/w1/endpoint/e1",
                   "set", value=ENDPOINT_STR)
     self.m_splitter.on_endpoint_update.assert_called_once_with(
         WloadEndpointId("h1", "o1", "w1", "e1"),
         VALID_ENDPOINT,
     )
Beispiel #4
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 def test_on_endpoint_status_v4_v6(self):
     # Send in endpoint status updates for v4 and v6.
     endpoint_id = WloadEndpointId("foo", "bar", "baz", "biff")
     with patch("gevent.spawn_later", autospec=True) as m_spawn:
         self.rep.on_endpoint_status_changed(endpoint_id, IPV4,
                                             {"status": "up"},
                                             async=True)
         self.rep.on_endpoint_status_changed(endpoint_id, IPV6,
                                             {"status": "down"},
                                             async=True)
         self.step_actor(self.rep)
     # Should record the status.
     self.assertEqual(
         self.rep._endpoint_status,
         {
             IPV4: {endpoint_id: {"status": "up"}},
             IPV6: {endpoint_id: {"status": "down"}},
         }
     )
     # And do a write.
     self.assertEqual(
         self.m_client.set.mock_calls,
         [call("/calico/felix/v1/host/foo/workload/bar/baz/endpoint/biff",
               JSONString({"status": "down"}))]
     )
Beispiel #5
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 def on_endpoint_delete(self, response, hostname, orchestrator, workload_id,
                        endpoint_id):
     """Handler for endpoint deleted, passes the update to the splitter."""
     combined_id = WloadEndpointId(hostname, orchestrator, workload_id,
                                   endpoint_id)
     _log.debug("Endpoint %s deleted", combined_id)
     _stats.increment("Endpoint deleted")
     self.splitter.on_endpoint_update(combined_id, None)
Beispiel #6
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    def test_resync(self):
        endpoint_id = WloadEndpointId("foo", "bar", "baz", "biff")
        self.rep.on_endpoint_status_changed(endpoint_id, IPV4, {"status": "up"}, async=True)
        endpoint_id_2 = WloadEndpointId("foo", "bar", "baz", "boff")
        self.rep.on_endpoint_status_changed(endpoint_id_2, IPV6, {"status": "up"}, async=True)
        with patch("gevent.spawn_later", autospec=True) as m_spawn:
            self.step_actor(self.rep)
            self.rep._on_timer_pop(async=True)
            self.step_actor(self.rep)
        self.assertEqual(self.rep._older_dirty_endpoints, set())
        self.assertEqual(self.rep._newer_dirty_endpoints, set())

        self.rep.resync(async=True)
        self.step_actor(self.rep)

        self.assertEqual(self.rep._older_dirty_endpoints, set())
        self.assertEqual(self.rep._newer_dirty_endpoints, set([endpoint_id, endpoint_id_2]))
Beispiel #7
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 def on_endpoint_set(self, response, hostname, orchestrator, workload_id,
                     endpoint_id):
     """Handler for endpoint updates, passes the update to the splitter."""
     combined_id = WloadEndpointId(hostname, orchestrator, workload_id,
                                   endpoint_id)
     _log.debug("Endpoint %s updated", combined_id)
     _stats.increment("Endpoint created/updated")
     endpoint = parse_endpoint(self._config, combined_id, response.value)
     self.splitter.on_endpoint_update(combined_id, endpoint)
Beispiel #8
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 def test_endpoint_del(self):
     """
     Test endpoint-only deletion.
     """
     self.dispatch("/calico/v1/host/h1/workload/o1/w1/endpoint/e1",
                   action="delete")
     self.m_splitter.on_endpoint_update.assert_called_once_with(
         WloadEndpointId("h1", "o1", "w1", "e1"),
         None,
     )
Beispiel #9
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 def on_wl_endpoint_remove(self, msg):
     """Handler for endpoint updates, passes the update to the splitter.
     :param msg felixbackend_pb2.WorkloadEndpointUpdate"""
     hostname = self._config.HOSTNAME
     orchestrator = msg.id.orchestrator_id
     workload_id = msg.id.workload_id
     endpoint_id = msg.id.endpoint_id
     combined_id = WloadEndpointId(hostname, orchestrator, workload_id,
                                   endpoint_id)
     _log.debug("Endpoint %s removed", combined_id)
     _stats.increment("Endpoint removed")
     self.splitter.on_endpoint_update(combined_id, None)
Beispiel #10
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    def test_on_endpoint_status_changed_disabled(self):
        self.m_config.REPORT_ENDPOINT_STATUS = False
        endpoint_id = WloadEndpointId("foo", "bar", "baz", "biff")

        with patch("gevent.spawn_later", autospec=True) as m_spawn:
            self.rep.on_endpoint_status_changed(endpoint_id,
                                                IPV4, {"status": "up"},
                                                async=True)
            self.step_actor(self.rep)
        self.assertFalse(m_spawn.called)
        self.assertEqual(self.rep._endpoint_status[IPV4], {})
        # Nothing queued.
        self.assertEqual(self.rep._newer_dirty_endpoints, set())
        self.assertEqual(self.rep._older_dirty_endpoints, set())
Beispiel #11
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 def test_on_endpoint_status_failure(self):
     # Send in an endpoint status update.
     endpoint_id = WloadEndpointId("foo", "bar", "baz", "biff")
     self.m_client.set.side_effect = EtcdException()
     with patch("gevent.spawn_later", autospec=True) as m_spawn:
         self.rep.on_endpoint_status_changed(endpoint_id,
                                             IPV4, {"status": "up"},
                                             async=True)
         self.step_actor(self.rep)
     # Should do the write.
     self.assertEqual(self.m_client.set.mock_calls, [
         call("/calico/felix/v1/host/foo/workload/bar/baz/endpoint/biff",
              JSONString({"status": "up"}))
     ])
     # But endpoint should be re-queued in the newer set.
     self.assertEqual(self.rep._newer_dirty_endpoints, set([endpoint_id]))
     self.assertEqual(self.rep._older_dirty_endpoints, set())
Beispiel #12
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 def on_wl_endpoint_update(self, msg):
     """Handler for endpoint updates, passes the update to the splitter.
     :param msg felixbackend_pb2.WorkloadEndpointUpdate"""
     hostname = self._config.HOSTNAME
     orchestrator = msg.id.orchestrator_id
     workload_id = msg.id.workload_id
     endpoint_id = msg.id.endpoint_id
     combined_id = WloadEndpointId(hostname, orchestrator, workload_id,
                                   endpoint_id)
     _log.debug("Endpoint %s updated", combined_id)
     _stats.increment("Endpoint created/updated")
     endpoint = {
         "state": msg.endpoint.state,
         "name": msg.endpoint.name,
         "mac": msg.endpoint.mac or None,
         "profile_ids": msg.endpoint.profile_ids,
         "ipv4_nets": msg.endpoint.ipv4_nets,
         "ipv6_nets": msg.endpoint.ipv6_nets,
         "tiers": convert_pb_tiers(msg.endpoint.tiers),
     }
     self.splitter.on_endpoint_update(combined_id, endpoint)
Beispiel #13
0
from netaddr import IPAddress

from calico.datamodel_v1 import WloadEndpointId, HostEndpointId
from calico.felix.futils import IPV4, FailedSystemCall, CommandOutput, IPV6
from calico.felix.ipsets import (EndpointData, IpsetManager, IpsetActor,
                                 RefCountedIpsetActor, EMPTY_ENDPOINT_DATA,
                                 Ipset, list_ipset_names)
from calico.felix.refcount import CREATED
from calico.felix.test.base import BaseTestCase

# Logger
_log = logging.getLogger(__name__)

patch.object = getattr(patch, "object")  # Keep PyCharm linter happy.

EP_ID_1_1 = WloadEndpointId("host1", "orch", "wl1_1", "ep1_1")
EP_1_1 = {
    "profile_ids": ["prof1", "prof2"],
    "ipv4_nets": ["10.0.0.1/32"],
}
EP_1_1_LABELS = {
    "profile_ids": ["prof1", "prof2"],
    "ipv4_nets": ["10.0.0.1/32"],
    "labels": {
        "a": "a1",
    }
}
EP_1_1_LABELS_NEW_IP = {
    "profile_ids": ["prof1", "prof2"],
    "ipv4_nets": ["10.0.0.2/32"],
    "labels": {
Beispiel #14
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 def create_id(self):
     return WloadEndpointId("localhost", "orchestrator",
                            "workload", "endpoint")
Beispiel #15
0
 def test_mark_endpoint_dirty_already_dirty(self):
     endpoint_id = WloadEndpointId("a", "b", "c", "d")
     self.rep._older_dirty_endpoints.add(endpoint_id)
     self.rep._mark_endpoint_dirty(endpoint_id)
     self.assertFalse(endpoint_id in self.rep._newer_dirty_endpoints)
Beispiel #16
0
    def test_validate_endpoint(self):
        # This test method hit s afew cases that we don't hit above but it's
        # hard to understand.  Please don't add more tests like this!
        combined_id = WloadEndpointId("host", "orchestrator",
                                      "workload", "valid_name-ok.")
        endpoint_dict = {'profile_id': "valid.prof-name",
                         'state': "active",
                         'name': "tapabcdef",
                         'mac': "78:2b:cb:9f:ae:1c",
                         'ipv4_nets': [],
                         'ipv6_nets': []}
        config = Config('tap', 'localhost')
        ep_copy = endpoint_dict.copy()
        self.validate_endpoint(config, combined_id, ep_copy)
        self.assertTrue(ep_copy.get('profile_id') is None)
        self.assertEqual(ep_copy.get('profile_ids'), ["valid.prof-name"])

        # Now break it various ways.
        # Bad endpoint ID.
        for bad_str in ("with spaces", "$stuff", "^%@"):
            bad_id = WloadEndpointId("host", "orchestrator", "workload",
                                     bad_str)
            with self.assertRaisesRegexp(ValidationFailed,
                                         "Invalid endpoint ID"):
                self.validate_endpoint(config, bad_id,
                                         endpoint_dict.copy())

        # Bad dictionary.
        with self.assertRaisesRegexp(ValidationFailed,
                                     "Expected endpoint to be a dict"):
            self.validate_endpoint(config, combined_id, [1, 2, 3])

        # No state, invalid state.
        bad_dict = endpoint_dict.copy()
        del bad_dict['state']
        with self.assertRaisesRegexp(ValidationFailed,
                                     "Missing 'state' field"):
            self.validate_endpoint(config, combined_id, bad_dict)
        bad_dict['state'] = "invalid"
        with self.assertRaisesRegexp(ValidationFailed,
                                     "Expected 'state' to be"):
            self.validate_endpoint(config, combined_id, bad_dict)

        # Missing name.
        bad_dict = endpoint_dict.copy()
        del bad_dict['name']
        with self.assertRaisesRegexp(ValidationFailed,
                                     "Missing 'name' field"):
            self.validate_endpoint(config, combined_id, bad_dict)

        # It's OK to be missing a MAC.
        ok_dict = endpoint_dict.copy()
        del ok_dict['mac']
        self.validate_endpoint(config, combined_id, ok_dict)

        bad_dict['name'] = [1, 2, 3]
        bad_dict['mac'] = 73
        with self.assertRaisesRegexp(ValidationFailed,
                                     "Expected 'name' to be a string.*" +
                                             "Invalid MAC"):
            self.validate_endpoint(config, combined_id, bad_dict)

        # Bad profile ID
        bad_dict = endpoint_dict.copy()
        bad_dict['profile_id'] = "str£ing"
        with self.assertRaisesRegexp(ValidationFailed,
                                     "Invalid profile ID"):
            self.validate_endpoint(config, combined_id, bad_dict)

        bad_dict = endpoint_dict.copy()
        del bad_dict['profile_id']
        bad_dict['profile_ids'] = [1, 2, 3]
        with self.assertRaisesRegexp(ValidationFailed,
                                     "Expected profile IDs to be strings"):
            self.validate_endpoint(config, combined_id, bad_dict)

        # Bad interface name - acceptable if not local.
        bad_dict = endpoint_dict.copy()
        bad_dict['name'] = "vethabcdef"
        self.validate_endpoint(config, combined_id, bad_dict)

        local_id = WloadEndpointId("localhost", "orchestrator",
                                   "workload", "valid_name-ok.")
        with self.assertRaisesRegexp(ValidationFailed,
                                     "does not start with"):
            self.validate_endpoint(config, local_id, bad_dict)

        # Valid networks.
        good_dict = endpoint_dict.copy()
        good_dict['ipv4_nets'] = ["1.2.3.4/32", "172.0.0.0/8", "3.4.5.6"]
        good_dict['ipv6_nets'] = ["::1/128", "::",
                                  "2001:db8:abc:1400::/54"]
        self.validate_endpoint(config, combined_id, good_dict.copy())

        # Invalid networks
        bad_dict = good_dict.copy()
        bad_dict['ipv4_nets'] = ["1.2.3.4/32", "172.0.0.0/8",
                                 "2001:db8:abc:1400::/54"]
        with self.assertRaisesRegexp(ValidationFailed,
                                     "not a valid IPv4 CIDR"):
            self.validate_endpoint(config, combined_id, bad_dict.copy())
        bad_dict['ipv4_nets'] = ["1.2.3.4/32", "172.0.0.0/8", "nonsense"]
        with self.assertRaisesRegexp(ValidationFailed,
                                     "not a valid IPv4 CIDR"):
            self.validate_endpoint(config, combined_id, bad_dict.copy())

        bad_dict = good_dict.copy()
        bad_dict['ipv6_nets'] = ["::1/128", "::", "1.2.3.4/8"]
        with self.assertRaisesRegexp(ValidationFailed,
                                     "not a valid IPv6 CIDR"):
            self.validate_endpoint(config, combined_id, bad_dict.copy())
        bad_dict['ipv6_nets'] = ["::1/128", "::", "nonsense"]
        with self.assertRaisesRegexp(ValidationFailed,
                                     "not a valid IPv6 CIDR"):
            self.validate_endpoint(config, combined_id, bad_dict.copy())

        # Gateway IPs.
        good_dict['ipv4_gateway'] = "1.2.3.4"
        good_dict['ipv6_gateway'] = "2001:db8:abc:1400::"
        self.validate_endpoint(config, combined_id, good_dict.copy())

        bad_dict = good_dict.copy()
        bad_dict['ipv4_gateway'] = "2001:db8:abc:1400::"
        with self.assertRaisesRegexp(ValidationFailed,
                                     "not a valid IPv4 gateway"):
            self.validate_endpoint(config, combined_id, bad_dict.copy())
        bad_dict['ipv4_gateway'] = "nonsense"
        with self.assertRaisesRegexp(ValidationFailed,
                                     "not a valid IPv4 gateway"):
            self.validate_endpoint(config, combined_id, bad_dict.copy())

        bad_dict = good_dict.copy()
        bad_dict['ipv6_gateway'] = "1.2.3.4"
        with self.assertRaisesRegexp(ValidationFailed,
                                     "not a valid IPv6 gateway"):
            self.validate_endpoint(config, combined_id, bad_dict.copy())
        bad_dict['ipv6_gateway'] = "nonsense"
        with self.assertRaisesRegexp(ValidationFailed,
                                     "not a valid IPv6 gateway"):
            self.validate_endpoint(config, combined_id, bad_dict.copy())

        # Labels, empty.
        good_dict["labels"] = {}
        self.validate_endpoint(config, combined_id, good_dict)
        self.assertEqual(good_dict["labels"], {})
        # Labels, valid.
        good_dict["labels"] = {"a": "b"}
        self.validate_endpoint(config, combined_id, good_dict)
        self.assertEqual(good_dict["labels"], {"a": "b"})
        # Labels, bad type.
        bad_dict = good_dict.copy()
        bad_dict["labels"] = []
        with self.assertRaisesRegexp(ValidationFailed,
                                     "Expected labels to be a dict"):
            self.validate_endpoint(config, combined_id, bad_dict.copy())
        # Labels, bad value.
        bad_dict = good_dict.copy()
        bad_dict["labels"] = {"a": {}}
        with self.assertRaisesRegexp(ValidationFailed,
                                     "Invalid label value"):
            self.validate_endpoint(config, combined_id, bad_dict.copy())
        # Labels, bad key.
        bad_dict = good_dict.copy()
        bad_dict["labels"] = {"a+|%": {}}
        with self.assertRaisesRegexp(ValidationFailed,
                                     "Invalid label name 'a+|%'."):
            self.validate_endpoint(config, combined_id, bad_dict.copy())
Beispiel #17
0
    def test_on_endpoint_status_mainline(self):
        # Send in an endpoint status update.
        endpoint_id = WloadEndpointId("foo", "bar", "baz", "biff")
        with patch("gevent.spawn_later", autospec=True) as m_spawn:
            self.rep.on_endpoint_status_changed(endpoint_id, IPV4,
                                                {"status": "up"},
                                                async=True)
            self.step_actor(self.rep)
        # Should record the status.
        self.assertEqual(
            self.rep._endpoint_status[IPV4],
            {
                endpoint_id: {"status": "up"}
            }
        )
        # And do a write.
        self.assertEqual(
            self.m_client.set.mock_calls,
            [call("/calico/felix/v1/host/foo/workload/bar/baz/endpoint/biff",
                  JSONString({"status": "up"}))]
        )
        # Since we did a write, the rate limit timer should be scheduled.
        self.assertEqual(
            m_spawn.mock_calls,
            [call(ANY, self.rep._on_timer_pop, async=True)]
        )
        self.assertTrue(self.rep._timer_scheduled)
        self.assertFalse(self.rep._reporting_allowed)

        # Send in another update, shouldn't get written until we pop the timer.
        self.m_client.reset_mock()
        with patch("gevent.spawn_later", autospec=True) as m_spawn:
            self.rep.on_endpoint_status_changed(endpoint_id,
                                                IPV4,
                                                None,
                                                async=True)
            self.step_actor(self.rep)
        self.assertFalse(self.m_client.set.called)
        # Timer already scheduled, shouldn't get rescheduled.
        self.assertFalse(m_spawn.called)

        # Pop the timer, should trigger write and reschedule.
        with patch("gevent.spawn_later", autospec=True) as m_spawn:
            self.rep._on_timer_pop(async=True)
            self.step_actor(self.rep)
        self.maxDiff = 10000
        self.assertEqual(
            self.m_client.delete.mock_calls,
            [
                call("/calico/felix/v1/host/foo/workload/bar/baz/endpoint/"
                     "biff"),
                call("calico/felix/v1/host/foo/workload/bar/baz/endpoint",
                     dir=True, timeout=5),
                call("calico/felix/v1/host/foo/workload/bar/baz",
                     dir=True, timeout=5),
                call("calico/felix/v1/host/foo/workload/bar",
                     dir=True, timeout=5),
                call("calico/felix/v1/host/foo/workload",
                     dir=True, timeout=5),
             ]
        )
        # Rate limit timer should be scheduled.
        self.assertEqual(
            m_spawn.mock_calls,
            [call(ANY, self.rep._on_timer_pop, async=True)]
        )
        spawn_delay = m_spawn.call_args[0][0]
        self.assertTrue(spawn_delay >= 0.89999)
        self.assertTrue(spawn_delay <= 1.10001)

        self.assertTrue(self.rep._timer_scheduled)
        self.assertFalse(self.rep._reporting_allowed)
        # Cache should be cleaned up.
        self.assertEqual(self.rep._endpoint_status[IPV4], {})
        # Nothing queued.
        self.assertEqual(self.rep._newer_dirty_endpoints, set())
        self.assertEqual(self.rep._older_dirty_endpoints, set())