def test_get_domain_treshold_distance(self):
     self.director.config["tolerance_distance"] = 1.5
     self.assertEqual(self.director.get_domain(Location(49.81112, 8.70434)),
                      None)
     self.director.config["tolerance_distance"] = 1.6
     self.assertEqual(self.director.get_domain(Location(49.81112, 8.70434)),
                      "domain3")
 def test_domains(self):
     self.assertEqual(
         self.director.get_domain(Location(49.843996, 8.700313)), "domain1")
     self.assertEqual(
         self.director.get_domain(Location(49.859322, 8.754904)), "domain2")
     self.assertEqual(
         self.director.get_domain(Location(49.797885, 8.754848)), "domain3")
     self.assertEqual(
         self.director.get_domain(Location(49.791845, 8.693972)), None)
    def test_migrate_only_vpn(self):
        self.director.config["migrate_only_vpn"] = True
        with open("topologies/topology_independent.json", "r") as idp:
            distribute_nodes_meshviewer_json(idp.read(), True)
            idp.close()
        domain, switch_time = self.director.get_node_domain(
            "c04a00dd692a", location=Location(49.803427592, 8.670616150, 10))
        self.assertEqual(switch_time, 1600000000)

        with open("topologies/topology_fullmesh.json", "r") as idp:
            distribute_nodes_meshviewer_json(idp.read(), True)
            idp.close()
        domain, switch_time = self.director.get_node_domain(
            "c04a00dd692a", location=Location(49.803427592, 8.670616150, 10))
        self.assertEqual(switch_time, -1)
    def test_decision_criteria(self):
        with open("topologies/topology_independent.json", "r") as idp:
            distribute_nodes_meshviewer_json(idp.read(), True)
            idp.close()

        self.director.get_node_domain("c04a00dd692a",
                                      location=Location(
                                          49.795449888, 8.754730225, 10000))
        self.director.get_node_domain("60e3272f92b2",
                                      location=Location(
                                          49.842410779, 8.750610352, 10))
        self.director.get_node_domain("daff61000402")

        self.assertEqual(
            Node.get(node_id="c04a00dd692a").mesh_id.decision_criteria,
            int(DecisionCriteria.USER_LOCATION))
        self.assertEqual(
            Node.get(node_id="60e3272f92b2").mesh_id.decision_criteria,
            int(DecisionCriteria.APPROX_LOCATION))
        self.assertEqual(
            Node.get(node_id="daff61000402").mesh_id.decision_criteria, None)
    def test_topology_update_bridging(self):
        # Test correct handling of topology update when bridging is not active
        with open("topologies/topology_independent.json", "r") as idp:
            distribute_nodes_meshviewer_json(idp.read(), True)
            idp.close()

        dom3_0 = self.director.get_node_domain("daff61000302",
                                               location=Location(
                                                   49.795449888, 8.754730225,
                                                   10))  # Domain 3
        dom2_0 = self.director.get_node_domain("daff61000402",
                                               location=Location(
                                                   49.842410779, 8.750610352,
                                                   10))  # Domain 2
        dom1_0 = self.director.get_node_domain("c04a00dd692a",
                                               location=Location(
                                                   49.840639497, 8.692588806,
                                                   10))  # Domain 1
        domd_0 = self.director.get_node_domain("60e3272f92b2",
                                               location=Location(
                                                   49.803427592, 8.670616150,
                                                   10))  # Default

        self.assertNotEqual(dom3_0, dom2_0)
        self.assertNotEqual(dom2_0, dom1_0)
        self.assertNotEqual(dom1_0, domd_0)
        with open("topologies/topology_fullmesh.json", "r") as idp:
            distribute_nodes_meshviewer_json(idp.read(), True)
            idp.close()

        dom3_1 = self.director.get_node_domain("daff61000302",
                                               location=Location(
                                                   49.795449888, 8.754730225,
                                                   10))  # Domain 3
        dom2_1 = self.director.get_node_domain("daff61000402",
                                               location=Location(
                                                   49.842410779, 8.750610352,
                                                   10))  # Domain 2
        dom1_1 = self.director.get_node_domain("c04a00dd692a",
                                               location=Location(
                                                   49.840639497, 8.692588806,
                                                   10))  # Domain 1
        domd_1 = self.director.get_node_domain("60e3272f92b2",
                                               location=Location(
                                                   49.803427592, 8.670616150,
                                                   10))  # Default

        self.assertEqual(dom3_1, dom2_1)
        self.assertEqual(dom2_1, dom1_1)
        self.assertNotEqual(dom2_1, domd_1)
 def get_location(self, networks):
     try:
         mls_response = query_mls(wifi_networks=[
             WifiNetwork(mac_address=network["bssid"],
                         signalStrength=int(network["signal"]))
             for network in networks
         ],
                                  apikey=self.api_key)
         return Location(mls_response.lat,
                         mls_response.lon,
                         accuracy=mls_response.accuracy,
                         provider=self.provider)
     except MLSException:
         # handle MLS data as optional (it is anyway)
         return None
Exemplo n.º 7
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    def decide_node_domain(self, node_id, location):
        if location is not None and location.accuracy < self.config["max_accuracy"]:
            domain = self.get_domain(location)
            criteria = DecisionCriteria.APPROX_LOCATION
        else:
            criteria = DecisionCriteria.USER_LOCATION
            db_loc = Node.get_location(node_id)
            if db_loc is None or (db_loc["latitude"] is None and db_loc["longitude"] is None):
                # No location supplied by user
                # Can't decide domain
                return None, DecisionCriteria.USER_LOCATION
            domain = self.get_domain(Location(db_loc["latitude"], db_loc["longitude"]))

        # If we do not have decided on a domain yet, we know the nodes location, but it is not covered by a domain
        # nor close enough to one domain. So we are assigning it to the default domain.
        # If no default domain is set, we are returning None here.
        domain = domain or self.config["default_domain"]

        return domain, criteria