Exemplo n.º 1
0
def build_slices(topo, policy):
    predicates1 = util.build_external_predicate(topo, nc.Header({'dstport': 80}))
    predicates2 = util.build_external_predicate(topo, nc.Header({'dstport': 22}))
    slice1 = slicing.ident_map_slice(topo, predicates1)
    slice2 = slicing.ident_map_slice(topo, predicates2)
    return [(slice1, policy),
            (slice2, policy)]
Exemplo n.º 2
0
def linear_hosts(*linear_nodes):
    """Returns topo, [(slice, policy)]"""
    topo = nxtopo.from_graph(nx.path_graph(4))
    nodes = [set(ns) for ns in linear_nodes]
    for n in topo.nodes():
        h1 = 100 + n*10 + 1
        h2 = 100 + n*10 + 2
        topo.add_host(h1)
        topo.add_host(h2)
        topo.add_link(n, h1)
        topo.add_link(n, h2)
        for ns in nodes:
            if n in ns:
                ns.update([h1, h2])
    topo.finalize()

    edge_policies = []
    for ns in linear_nodes:
        predicates = {}
        for n in ns:
            h1 = 100 + n*10 + 1
            h2 = 100 + n*10 + 2
            h1_port = topo.node[h1]['port'][0]
            h2_port = topo.node[h2]['port'][0]
            predicates[h1_port] = nc.Top()
            predicates[h2_port] = nc.Top()
        edge_policies.append(predicates)

    topos = [topo.subgraph(ns) for ns in nodes]
    slices = [slicing.ident_map_slice(t, pol)
              for t, pol in zip(topos, edge_policies)]
    combined = zip(slices, [policy_gen.flood_observe(t) for t in topos])
    return (topo, combined)
Exemplo n.º 3
0
    def testBasicCompile(self):
        topo, policies = linear((0, 1, 2, 3), (0, 1, 2, 3))
        slices = [slicing.ident_map_slice(topo, {}) for p in policies]
        combined = zip(slices, policies)
        compiled = ec.compile_slices(topo, combined)
        self.assertIsNotNone(sat.shared_io(topo, policies[0], policies[1]))
        self.assertIsNone(sat.shared_io(topo, compiled[0], compiled[1]))
        self.assertTrue(sat.compiled_correctly(topo, policies[0], compiled[0]))
        self.assertTrue(sat.compiled_correctly(topo, policies[1], compiled[1]))

        topo, policies = linear((0, 1, 2), (2, 3))
        slices = [slicing.ident_map_slice(topo, {}) for p in policies]
        combined = zip(slices, policies)
        compiled = ec.compile_slices(topo, combined)
        self.assertIsNone(sat.shared_io(topo, policies[0], policies[1]))
        self.assertIsNone(sat.shared_io(topo, compiled[0], compiled[1]))
        self.assertTrue(sat.compiled_correctly(topo, policies[0], compiled[0]))
        self.assertTrue(sat.compiled_correctly(topo, policies[1], compiled[1]))

        topo, policies = linear((0, 1, 2), (1, 2, 3))
        slices = [slicing.ident_map_slice(topo, {}) for p in policies]
        combined = zip(slices, policies)
        compiled = ec.compile_slices(topo, combined)
        self.assertIsNotNone(sat.shared_io(topo, policies[0], policies[1]))
        self.assertIsNone(sat.shared_io(topo, compiled[0], compiled[1]))
        self.assertTrue(sat.compiled_correctly(topo, policies[0], compiled[0]))
        self.assertTrue(sat.compiled_correctly(topo, policies[1], compiled[1]))

        topo, policies = linear((0, 1), (2, 3))
        slices = [slicing.ident_map_slice(topo, {}) for p in policies]
        combined = zip(slices, policies)
        compiled = ec.compile_slices(topo, combined)
        self.assertIsNone(sat.shared_io(topo, policies[0], policies[1]))
        self.assertIsNone(sat.shared_io(topo, compiled[0], compiled[1]))
        self.assertTrue(sat.compiled_correctly(topo, policies[0], compiled[0]))
        self.assertTrue(sat.compiled_correctly(topo, policies[1], compiled[1]))

        topo, policies = linear_all_ports((0, 1), (2, 3))
        slices = [slicing.ident_map_slice(topo, {}) for p in policies]
        combined = zip(slices, policies)
        compiled = ec.compile_slices(topo, combined)
        self.assertIsNone(sat.shared_io(topo, policies[0], policies[1]))
        self.assertIsNone(sat.shared_io(topo, compiled[0], compiled[1]))
        self.assertTrue(sat.compiled_correctly(topo, policies[0], compiled[0]))
        self.assertTrue(sat.compiled_correctly(topo, policies[1], compiled[1]))
Exemplo n.º 4
0
def k4():
    """K4 complete graph."""
    topo = nxtopo.from_graph(nx.complete_graph(4))
    topo.finalize()

    topos = [topo.subgraph(nodes) for nodes in k4_nodes]
    edge_policies = [{} for t in topos]
    slices = [slicing.ident_map_slice(t, pol)
              for t, pol in zip(topos, edge_policies)]
    combined = zip(slices, [policy_gen.flood_observe(t) for t in topos])
    return (topo, combined)
Exemplo n.º 5
0
 def testBasic(self):
     topo, policies = linear((0, 1, 2, 3), (0, 1, 2, 3))
     slices = [slicing.ident_map_slice(topo, {}) for p in policies]
     combined = zip(slices, policies)
     compiled = cp.compile_slices(combined)
     self.assertTrue(sat.separate(topo, compiled[0], compiled[1]))