def testConvergenceEventBGPOnly(self): if active_tests['testConvergenceEventBGPOnly']: print "Running testConvergenceEventBGPOnly ..." for (a,b) in itertools.permutations([1,2]): parent = '10.0.0.0/22' child = '10.0.0.0/24' bgp_topology = nx.DiGraph() ## Edge (1,2) bgp_topology.add_edge(1, 2, type = 2) bgp_topology.add_edge(2, 1, type = 2) ## Edge (2,3) bgp_topology.add_edge(2, 3, type = 1) bgp_topology.add_edge(3, 2, type = 3) ## Edge (1,5) bgp_topology.add_edge(1, 5, type = 1) bgp_topology.add_edge(5, 1, type = 3) ## Edge (3,4) bgp_topology.add_edge(3, 4, type = 1) bgp_topology.add_edge(4, 3, type = 3) ## Edge (4,6) bgp_topology.add_edge(4, 6, type = 1) bgp_topology.add_edge(6, 4, type = 3) ## Edge (5,6) bgp_topology.add_edge(5, 6, type = 1) bgp_topology.add_edge(6, 5, type = 3) ## Edge (4,1) bgp_topology.add_edge(1, 4, type = 1) bgp_topology.add_edge(4, 1, type = 3) sim_config = output_configuration(bgp_topology) bgp_sim.init(output="simulation_output") bgp_sim.DRAGON_ACTIVATED = False bgp_sim.loadConfig(sim_config) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(a)), ['4.1', parent], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(b)), ['6.1', child], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(9.00), None, bgp_sim.EVENT_RESET_COUNTERS)) #bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(45.00), None, bgp_sim.EVENT_SHOW_ALL_RIBS)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(60.00), ['5.1', '1.1'], bgp_sim.EVENT_LINK_DOWN)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(90.00), ['5.1', '1.1'], bgp_sim.EVENT_LINK_UP)) #bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(120.00), ['5.1', '1.1'], bgp_sim.EVENT_SHOW_ALL_RIBS)) bgp_sim.run()
def testSimpleTriangle(self): if active_tests['testSimpleTriangle']: print "Running testSimpleTriangle ..." for (a,b) in itertools.permutations([1,2]): parent = '1.0.0.0/22' child = '1.0.0.0/24' bgp_topology = nx.DiGraph() ## Edge (1,2) bgp_topology.add_edge(1, 2, type = 2) bgp_topology.add_edge(2, 1, type = 2) ## Edge (2,3) bgp_topology.add_edge(2, 3, type = 1) bgp_topology.add_edge(3, 2, type = 3) ## Edge (1,3) bgp_topology.add_edge(1, 3, type = 1) bgp_topology.add_edge(3, 1, type = 3) sim_config = output_configuration(bgp_topology) bgp_sim.init() bgp_sim.DRAGON_FILTERING_MODE = bgp_sim.DRAGON_ROUTE_CONSISTENCY bgp_sim.loadConfig(sim_config) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(a)), ['2.1', parent], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(b)), ['3.1', child], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim.run() # Everybody can reach the child for router_id in bgp_sim._router_list: self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(child) is not None) # Everybody can reach the parent for router_id in bgp_sim._router_list: self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(parent) is not None) self.assertEquals(bgp_sim._router_list['1.1'].loc_rib.search_exact(parent).data['best_path'].aspath, (2,)) self.assertEquals(bgp_sim._router_list['1.1'].loc_rib.search_exact(child).data['best_path'].aspath, (3,)) self.assertEquals(bgp_sim._router_list['2.1'].loc_rib.search_exact(child).data['best_path'].aspath, (3,))
def testSimpleTriangleForAggregates(self): if active_tests['testSimpleTriangleForAggregates']: print "Running testSimpleTriangleForAggregates ..." #for (a,b) in itertools.permutations([1,2]): for (a,b) in [(1,2)]: child1 = '1.0.0.0/24' child2 = '1.0.1.0/24' bgp_topology = nx.DiGraph() ## Edge (3,1) bgp_topology.add_edge(3, 1, type = 1) bgp_topology.add_edge(1, 3, type = 3) ## Edge (3,2) bgp_topology.add_edge(3, 2, type = 1) bgp_topology.add_edge(2, 3, type = 3) ## Edge (4,3) bgp_topology.add_edge(4, 3, type = 1) bgp_topology.add_edge(3, 4, type = 3) sim_config = output_configuration(bgp_topology) bgp_sim.init() bgp_sim.DRAGON_FILTERING_MODE = bgp_sim.DRAGON_ROUTE_CONSISTENCY bgp_sim.loadConfig(sim_config) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(a)), ['1.1', child1], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(b)), ['2.1', child2], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim.run()
def testSimpleChainWithOneASAnnouncingParentChild(self): if active_tests['testSimpleChainWithOneASAnnouncingParentChild']: print "Running testSimpleChainWithOneASAnnouncingParentChild ..." for (a,b) in itertools.permutations([1,2]): parent = '1.0.0.0/22' child = '1.0.0.0/24' bgp_topology = nx.DiGraph() ## Edge (1,2) bgp_topology.add_edge(1, 2, type = 1) bgp_topology.add_edge(2, 1, type = 3) ## Edge (2,3) bgp_topology.add_edge(2, 3, type = 1) bgp_topology.add_edge(3, 2, type = 3) ## Edge (3,4) bgp_topology.add_edge(3, 4, type = 1) bgp_topology.add_edge(4, 3, type = 3) sim_config = output_configuration(bgp_topology) bgp_sim.init() bgp_sim.DRAGON_FILTERING_MODE = bgp_sim.DRAGON_ROUTE_CONSISTENCY bgp_sim.loadConfig(sim_config) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(a)), ['4.1', parent], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(b)), ['4.1', child], bgp_sim.EVENT_ANNOUNCE_PREFIX)) #bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(0.9), None, bgp_sim.EVENT_SHOW_ALL_RIBS)) bgp_sim.run()
def testGenerateAggregatesForNonCoveredPrefixesWithFailureAndBack(self): if active_tests['testGenerateAggregatesForNonCoveredPrefixesWithFailureAndBack']: bgp_sim.RESTRICT_AGGREGATES_TO_PARENTLESS_PREFIXES = False print "Running testGenerateAggregatesForNonCoveredPrefixesWithFailureAndBack ..." for (a,b) in itertools.permutations([1,2]): child1 = '10.0.0.0/24' child2 = '10.0.1.0/24' bgp_topology = nx.DiGraph() ## Edge (0,1) bgp_topology.add_edge(0, 1, type = 1) bgp_topology.add_edge(1, 0, type = 3) ## Edge (1,3) bgp_topology.add_edge(1, 3, type = 1) bgp_topology.add_edge(3, 1, type = 3) ## Edge (1,4) bgp_topology.add_edge(1, 4, type = 1) bgp_topology.add_edge(4, 1, type = 3) ## Edge (1,2) bgp_topology.add_edge(1, 2, type = 1) bgp_topology.add_edge(2, 1, type = 3) ## Edge (2,3) bgp_topology.add_edge(2, 3, type = 1) bgp_topology.add_edge(3, 2, type = 3) ## Edge (2,4) bgp_topology.add_edge(2, 4, type = 1) bgp_topology.add_edge(4, 2, type = 3) sim_config = output_configuration(bgp_topology) bgp_sim.init() bgp_sim.DRAGON_FILTERING_MODE = bgp_sim.DRAGON_ROUTE_CONSISTENCY bgp_sim.loadConfig(sim_config) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(a)), ['3.1', child1], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(b)), ['4.1', child2], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(10)), ['1.1', '2.1'], bgp_sim.EVENT_LINK_DOWN)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(20)), ['1.1', '2.1'], bgp_sim.EVENT_LINK_UP)) bgp_sim.run() # Everybody can reach the parent for router_id in bgp_sim._router_list: self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact('10.0.0.0/23') is not None) # Everybody except 2.1 can reach the parent with the 2 routes for router_id in set(bgp_sim._router_list) - set(['2.1']): self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact('10.0.0.0/23').data['best_path'].aspath[-1] == 2) # These guys can filter all the children for router_id in ['0.1', '1.1']: for pfx in [child1, child2]: self.assertTrue((bgp_sim._router_list[router_id].loc_rib.search_exact(pfx) is None) or \ pfx in bgp_sim._router_list[router_id].filtered_prefixes) # These guys can filter the other childs for router_id in ['3.1']: for pfx in [child2]: self.assertTrue((bgp_sim._router_list[router_id].loc_rib.search_exact(pfx) is None) or \ pfx in bgp_sim._router_list[router_id].filtered_prefixes) # These guys can filter the other childs for router_id in ['4.1']: for pfx in [child1]: self.assertTrue((bgp_sim._router_list[router_id].loc_rib.search_exact(pfx) is None) or \ pfx in bgp_sim._router_list[router_id].filtered_prefixes)
def testConvergenceEvent(self): if active_tests['testConvergenceEvent']: print "Running testConvergenceEvent ..." #for (a,b) in itertools.permutations([1,2]): for (a,b) in [(1,2)]: parent = '10.0.0.0/22' deaggregated_prefixes = ['10.0.2.0/23', '10.0.1.0/24'] child = '10.0.0.0/24' bgp_topology = nx.DiGraph() ## Edge (1,2) bgp_topology.add_edge(1, 2, type = 2) bgp_topology.add_edge(2, 1, type = 2) ## Edge (2,3) bgp_topology.add_edge(2, 3, type = 1) bgp_topology.add_edge(3, 2, type = 3) ## Edge (1,5) bgp_topology.add_edge(1, 5, type = 1) bgp_topology.add_edge(5, 1, type = 3) ## Edge (3,4) bgp_topology.add_edge(3, 4, type = 1) bgp_topology.add_edge(4, 3, type = 3) ## Edge (4,6) bgp_topology.add_edge(4, 6, type = 1) bgp_topology.add_edge(6, 4, type = 3) ## Edge (5,6) bgp_topology.add_edge(5, 6, type = 1) bgp_topology.add_edge(6, 5, type = 3) ## Edge (4,1) bgp_topology.add_edge(1, 4, type = 1) bgp_topology.add_edge(4, 1, type = 3) sim_config = output_configuration(bgp_topology) bgp_sim.init() bgp_sim.DRAGON_FILTERING_MODE = bgp_sim.DRAGON_ROUTE_CONSISTENCY bgp_sim.loadConfig(sim_config) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(a)), ['4.1', parent], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(b)), ['6.1', child], bgp_sim.EVENT_ANNOUNCE_PREFIX)) #bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(100.00), None, bgp_sim.EVENT_SHOW_ALL_RIBS)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(199.00), None, bgp_sim.EVENT_ACTIVATE_DEAGGREGATES)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(200.00), ['4.1', '6.1'], bgp_sim.EVENT_LINK_DOWN)) bgp_sim.run() # Everybody can reach the parent for router_id in bgp_sim._router_list: self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(parent) is not None) # 1 cannot filter anything self.assertTrue(len(bgp_sim._router_list['1.1'].filtered_prefixes) == 0) # 1 advertises the parent as aggregate self.assertTrue(bgp_sim._router_list['1.1'].aggregated_prefixes == [parent]) # 2, 3, 4 can filter 10.0.0.0/24 for router_id in ['2.1', '3.1', '4.1']: self.assertTrue((bgp_sim._router_list[router_id].loc_rib.search_exact(child) is None) or \ child in bgp_sim._router_list[router_id].filtered_prefixes) # 1, 2, 3 reaches the de-aggregates via 4 for router_id in ['2.1', '3.1']: for pfx in deaggregated_prefixes: self.assertTrue((bgp_sim._router_list[router_id].loc_rib.search_exact(pfx).data['best_path'].aspath[-1] == 4)) # 5 and 6 filter the de-aggregates from 4 for router_id in ['5.1', '6.1']: for pfx in deaggregated_prefixes: self.assertTrue((bgp_sim._router_list['5.1'].loc_rib.search_exact(pfx) is None) or \ pfx in bgp_sim._router_list['5.1'].filtered_prefixes)
def testMultipleConvergenceEvent(self): if active_tests['testMultipleConvergenceEvent']: print "Running testMultipleConvergenceEvent ..." for (a,b) in itertools.permutations([1,2]): parent = '10.0.0.0/22' deaggregated_prefixes = ['10.0.2.0/23', '10.0.1.0/24'] child = '10.0.0.0/24' bgp_topology = nx.DiGraph() ## Edge (1,2) bgp_topology.add_edge(1, 2, type = 2) bgp_topology.add_edge(2, 1, type = 2) ## Edge (2,3) bgp_topology.add_edge(2, 3, type = 1) bgp_topology.add_edge(3, 2, type = 3) ## Edge (1,5) bgp_topology.add_edge(1, 5, type = 1) bgp_topology.add_edge(5, 1, type = 3) ## Edge (3,4) bgp_topology.add_edge(3, 4, type = 1) bgp_topology.add_edge(4, 3, type = 3) ## Edge (4,6) bgp_topology.add_edge(4, 6, type = 1) bgp_topology.add_edge(6, 4, type = 3) ## Edge (5,6) bgp_topology.add_edge(5, 6, type = 1) bgp_topology.add_edge(6, 5, type = 3) ## Edge (4,1) bgp_topology.add_edge(1, 4, type = 1) bgp_topology.add_edge(4, 1, type = 3) sim_config = output_configuration(bgp_topology) bgp_sim.init() bgp_sim.DRAGON_FILTERING_MODE = bgp_sim.DRAGON_ROUTE_CONSISTENCY bgp_sim.loadConfig(sim_config) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(a)), ['4.1', parent], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(b)), ['6.1', child], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(90.00), None, bgp_sim.EVENT_ACTIVATE_DEAGGREGATES)) y = 100.00 links = [ ('4.1', '6.1'), ('3.1', '4.1'), ('2.1', '3.1'), ('1.1', '2.1'), ('1.1', '4.1'), ('1.1', '5.1'), ('5.1', '6.1') ] i = 2 while (i>0): link_to_fail = random.choice(links) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(y), [link_to_fail[0], link_to_fail[1]], bgp_sim.EVENT_LINK_DOWN)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(y + 200.00), [link_to_fail[0], link_to_fail[1]], bgp_sim.EVENT_LINK_UP)) y += 200.00 i -= 1 bgp_sim.run() # Everybody can reach the grandparent for router_id in bgp_sim._router_list: self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(parent) is not None) # filter the prefix for router_id in ['1.1', '3.1']: self.assertTrue(child in bgp_sim._router_list[router_id].filtered_prefixes) for router_id in ['1.1']: self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(parent).data['fwd_neighbors'] == set(['4.1'])) self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(child).data['fwd_neighbors'] == set(['4.1', '5.1'])) # Routers 3 and 4 can reach the parent via 1 and 2 for router_id in ['3.1']: self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(child).data['fwd_neighbors'] == set(['4.1'])) self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(parent).data['fwd_neighbors'] == set(['4.1'])) # become oblivious to the prefix for router_id in ['2.1']: self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(child) is None) self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(parent).data['fwd_neighbors'] == set(['3.1'])) # cannot filter for router_id in ['4.1', '5.1', '6.1']: self.assertFalse((bgp_sim._router_list[router_id].loc_rib.search_exact(child) is None) or \ child in bgp_sim._router_list[router_id].filtered_prefixes) self.assertFalse((bgp_sim._router_list[router_id].loc_rib.search_exact(parent) is None) or \ parent in bgp_sim._router_list[router_id].filtered_prefixes) for router_id in ['5.1']: self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(parent).data['fwd_neighbors'] == set(['1.1'])) self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(child).data['fwd_neighbors'] == set(['6.1'])) for router_id in ['6.1']: self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(parent).data['fwd_neighbors'] == set(['5.1', '4.1']))
def testSimpleTriangleWithFailedLink(self): if active_tests['testSimpleTriangleWithFailedLink']: print "Running testSimpleTriangleWithFailedLink ..." for (a,b) in itertools.permutations([1,2]): parent = '1.0.0.0/22' deaggregated_parent1 = '1.0.2.0/23' deaggregated_parent2 = '1.0.1.0/24' child = '1.0.0.0/24' bgp_topology = nx.DiGraph() ## Edge (1,2) bgp_topology.add_edge(1, 2, type = 2) bgp_topology.add_edge(2, 1, type = 2) ## Edge (2,3) bgp_topology.add_edge(2, 3, type = 1) bgp_topology.add_edge(3, 2, type = 3) ## Edge (1,3) bgp_topology.add_edge(1, 3, type = 1) bgp_topology.add_edge(3, 1, type = 3) sim_config = output_configuration(bgp_topology) bgp_sim.init() bgp_sim.DRAGON_FILTERING_MODE = bgp_sim.DRAGON_ROUTE_CONSISTENCY bgp_sim.loadConfig(sim_config) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(a)), ['2.1', parent], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(b)), ['3.1', child], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(10)), ['2.1', '3.1'], bgp_sim.EVENT_LINK_DOWN)) #bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(100)), None, bgp_sim.EVENT_SHOW_ALL_RIBS)) bgp_sim.run() # Everybody can reach the child for router_id in bgp_sim._router_list: self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(child) is not None) # No one can filter anything for router_id in bgp_sim._router_list: self.assertTrue(len(bgp_sim._router_list[router_id].filtered_prefixes) == 0) # No one can reach the parent (because of the link failure) for router_id in bgp_sim._router_list: self.assertTrue(bgp_sim._router_list[router_id].loc_rib.search_exact(parent) is None, msg=router_id + " can reach the parent " + str(parent)) self.assertEquals(bgp_sim._router_list['1.1'].loc_rib.search_exact(child).data['type'], 1) self.assertEquals(bgp_sim._router_list['1.1'].loc_rib.search_exact(deaggregated_parent1).data['type'], 2) self.assertEquals(bgp_sim._router_list['1.1'].loc_rib.search_exact(deaggregated_parent2).data['type'], 2) self.assertEquals(bgp_sim._router_list['2.1'].loc_rib.search_exact(child).data['type'], 2) self.assertEquals(bgp_sim._router_list['2.1'].loc_rib.search_exact(deaggregated_parent1).data['type'], 0) self.assertEquals(bgp_sim._router_list['2.1'].loc_rib.search_exact(deaggregated_parent2).data['type'], 0) self.assertEquals(bgp_sim._router_list['3.1'].loc_rib.search_exact(child).data['type'], 0) self.assertEquals(bgp_sim._router_list['3.1'].loc_rib.search_exact(deaggregated_parent1).data['type'], 3) self.assertEquals(bgp_sim._router_list['3.1'].loc_rib.search_exact(deaggregated_parent2).data['type'], 3) self.assertEquals(bgp_sim._router_list['3.1'].loc_rib.search_exact(child).data['fwd_neighbors'], set([None])) self.assertEquals(bgp_sim._router_list['3.1'].loc_rib.search_exact(deaggregated_parent1).data['fwd_neighbors'], set(['1.1'])) self.assertEquals(bgp_sim._router_list['3.1'].loc_rib.search_exact(deaggregated_parent2).data['fwd_neighbors'], set(['1.1'])) self.assertEquals(bgp_sim._router_list['1.1'].loc_rib.search_exact(child).data['best_path'].aspath, (3,)) self.assertEquals(bgp_sim._router_list['2.1'].loc_rib.search_exact(child).data['best_path'].aspath, (1,3,)) for pfx in [deaggregated_parent1, deaggregated_parent2]: self.assertEquals(bgp_sim._router_list['1.1'].loc_rib.search_exact(pfx).data['best_path'].aspath, (2,))
def testAnycastAnnouncementOfAggregate(self): if active_tests['testAnycastAnnouncementOfAggregate']: print "Running testAnycastAnnouncementOfAggregate ..." bgp_sim.RESTRICT_AGGREGATES_TO_PARENTLESS_PREFIXES = False for (a,b,c) in itertools.permutations([1,2,3]): child1 = '10.0.0.0/23' child2 = '10.0.2.0/24' child3 = '10.0.3.0/24' bgp_topology = nx.DiGraph() ## Edge (1,2) bgp_topology.add_edge(1, 2, type = 2) bgp_topology.add_edge(2, 1, type = 2) ## Edge (1,3) bgp_topology.add_edge(1, 3, type = 1) bgp_topology.add_edge(3, 1, type = 3) ## Edge (2,4) bgp_topology.add_edge(2, 4, type = 1) bgp_topology.add_edge(4, 2, type = 3) ## Edge (5,3) bgp_topology.add_edge(3, 5, type = 1) bgp_topology.add_edge(5, 3, type = 3) ## Edge (5,4) bgp_topology.add_edge(4, 5, type = 1) bgp_topology.add_edge(5, 4, type = 3) ## Edge (6,3) bgp_topology.add_edge(3, 6, type = 1) bgp_topology.add_edge(6, 3, type = 3) ## Edge (6,4) bgp_topology.add_edge(4, 6, type = 1) bgp_topology.add_edge(6, 4, type = 3) ## Edge (7,3) bgp_topology.add_edge(3, 7, type = 1) bgp_topology.add_edge(7, 3, type = 3) ## Edge (7,4) bgp_topology.add_edge(4, 7, type = 1) bgp_topology.add_edge(7, 4, type = 3) sim_config = output_configuration(bgp_topology) bgp_sim.init() bgp_sim.DRAGON_FILTERING_MODE = bgp_sim.DRAGON_ROUTE_CONSISTENCY bgp_sim.loadConfig(sim_config) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(a)), ['5.1', child1], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(b)), ['6.1', child2], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim._event_Scheduler.add(bgp_sim.CEvent(bgp_sim.toSystemTime(float(c)), ['7.1', child3], bgp_sim.EVENT_ANNOUNCE_PREFIX)) bgp_sim.run() # These guys can filter the other childs for router_id in ['1.1', '2.1']: for pfx in [child1, child2, child3]: self.assertTrue((bgp_sim._router_list[router_id].loc_rib.search_exact(pfx) is None) or \ pfx in bgp_sim._router_list[router_id].filtered_prefixes) for router_id in ['5.1']: for pfx in [child2, child3]: self.assertTrue((bgp_sim._router_list[router_id].loc_rib.search_exact(pfx) is None) or \ pfx in bgp_sim._router_list[router_id].filtered_prefixes) for router_id in ['6.1']: for pfx in [child1, child3]: self.assertTrue((bgp_sim._router_list[router_id].loc_rib.search_exact(pfx) is None) or \ pfx in bgp_sim._router_list[router_id].filtered_prefixes) for router_id in ['7.1']: for pfx in [child1, child2]: self.assertTrue((bgp_sim._router_list[router_id].loc_rib.search_exact(pfx) is None) or \ pfx in bgp_sim._router_list[router_id].filtered_prefixes) self.assertTrue(bgp_sim._router_list['3.1'].aggregated_prefixes == ['10.0.0.0/22']) self.assertTrue(bgp_sim._router_list['4.1'].aggregated_prefixes == ['10.0.0.0/22'])