# Copyright (C) 2014,2015 Nippon Telegraph and Telephone Corporation. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or # implied. # See the License for the specific language governing permissions and # limitations under the License. import time import sys import nose import quagga_access as qaccess import docker_control as fab from noseplugin import OptionParser from noseplugin import parser_option from gobgp_test import GoBGPTestBase from constant import * from fabric.api import local class GoBGPTest(GoBGPTestBase): quagga_num = 3 retry_count_common = 2 initial_wait_time = 5 def __init__(self, *args, **kwargs): super(GoBGPTest, self).__init__(*args, **kwargs) def setUp(self): self.quagga_configs = [] self.use_ipv6_gobgp = False self.use_exa_bgp = False self.retry_count_common = 2 self.initial_wait_time = 5 def initialize(self, policy_pattern=None): use_local = parser_option.use_local go_path = parser_option.go_path log_debug = parser_option.gobgp_log_debug fab.init_policy_test_env_executor(self.quagga_num, use_local, go_path, log_debug, policy=policy_pattern, use_ipv6=self.use_ipv6_gobgp, use_exabgp=self.use_exa_bgp) print "please wait " + str(self.initial_wait_time) + " second" time.sleep(self.initial_wait_time) self.assertTrue(self.check_load_config()) """ import-policy test --------------------------------------- peer2 ->(192.168.2.0/24)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | ->x peer3-rib | --------------------------------------- """ def test_01_import_policy_initial(self): # initialize test environment # policy_pattern:p1 attaches a policy to reject route 192.168.0.0/16 (16...24) # coming from peer2(10.0.0.2) to peer3(10.0.0.3)'s import-policy. self.initialize(policy_pattern="test_01_import_policy_initial") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" peer3 = "10.0.0.3" prefix1 = "192.168.2.0/24" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_adj_rib_in(peer2, prefix1, retry=self.retry_count_common) # print path self.assertIsNotNone(path) path = self.get_paths_in_localrib(peer3, prefix1,retry=0) # print path self.assertIsNone(path) # check show ip bgp on peer1(quagga3) qpath = self.get_route(peer3,prefix1, retry=self.retry_count_common) # print qpath self.assertIsNone(qpath) """ export-policy test --------------------------------------- peer2 ->(192.168.2.0/24)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | -> peer3-rib ->x peer3-adj-rib-out | --------------------------------------- """ def test_02_export_policy_initial(self): # initialize test environment # policy_pattern:p1 attaches a policy to reject route 192.168.0.0/16 (16...24) # coming from peer2(10.0.0.2) to peer3(10.0.0.3)'s export-policy. self.initialize(policy_pattern="test_02_export_policy_initial") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" peer3 = "10.0.0.3" prefix1 = "192.168.2.0/24" paths = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) # print paths self.assertIsNotNone(paths) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1, prefix1, retry=self.retry_count_common) # print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_adj_rib_in(peer2, prefix1, retry=1) # print path self.assertIsNotNone(path) path = self.get_paths_in_localrib(peer3, prefix1) # print path self.assertIsNotNone(path) path = self.get_adj_rib_out(peer3, prefix1, retry=1) # print path self.assertIsNone(path) # check show ip bgp on peer1(quagga3) qpath = self.get_route(peer3,prefix1, retry=self.retry_count_common) # print qpath self.assertIsNone(qpath) """ import-policy test r1:192.168.2.0 r2:192.168.20.0 r3:192.168.200.0 ------------------------------------------------- |peer1 | peer2 ->(r1,r2,r3)-> | ->(r1,r2,r3)-> rib ->(r1,r2,r3)-> adj-rib-out | ->(r1,r2,r3)-> peer1 | | |peer3 | | ->(r1)-> rib ->(r1)-> adj-rib-out | ->(r1)-> peer3 ------------------------------------------------- | update gobgp.conf | V ------------------------------------------------- |peer1 | peer2 ->(r1,r2,r3)-> | ->(r1,r2,r3)-> rib ->(r1,r2,r3)-> adj-rib-out | ->(r1,r2,r3)-> peer1 | | |peer3 | | ->(r1,r3)-> rib ->(r1,r3)-> adj-rib-out | ->(r1,r3)-> peer3 ------------------------------------------------- """ def test_03_import_policy_update(self): # initialize test environment # policy_pattern:p3 attaches a policy to reject route # 192.168.2.0/24, 192.168.20.0/24, 192.168.200.0/24 # coming from peer2(10.0.0.2) to peer3(10.0.0.3)'s import-policy. self.initialize(policy_pattern="test_03_import_policy_update") peer1 = "10.0.0.1" peer2 = "10.0.0.2" peer3 = "10.0.0.3" prefix1 = "192.168.2.0/24" prefix2 = "192.168.20.0/24" prefix3 = "192.168.200.0/24" # add other network tn = qaccess.login(peer2) print "add network 192.168.20.0/24" qaccess.add_network(tn, 65002, prefix2) print "add network 192.168.200.0/24" qaccess.add_network(tn, 65002, prefix3) qaccess.logout(tn) addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") time.sleep(self.initial_wait_time) def path_exists_in_localrib(peer, prefix,r=10): paths = self.get_paths_in_localrib(peer, prefix, retry=r) return paths is not None def path_exists_in_routing_table(peer, prefix,r=10): qpath = self.get_route(peer, prefix, retry=r) return qpath is not None def path_exists_in_adj_rib_in(peer, prefix,r=10): path = self.get_adj_rib_in(peer, prefix, retry=r) return path is not None self.assertTrue(path_exists_in_localrib(peer1,prefix1)) self.assertTrue(path_exists_in_localrib(peer1,prefix2)) self.assertTrue(path_exists_in_localrib(peer1,prefix3)) self.assertTrue(path_exists_in_localrib(peer3,prefix1)) self.assertFalse(path_exists_in_localrib(peer3,prefix2,r=3)) self.assertFalse(path_exists_in_localrib(peer3,prefix3,r=0)) # check show ip bgp on peer1(quagga1) self.assertTrue(path_exists_in_routing_table(peer1, prefix1)) self.assertTrue(path_exists_in_routing_table(peer1, prefix2)) self.assertTrue(path_exists_in_routing_table(peer1, prefix3)) # check show ip bgp on peer3(quagga3) self.assertTrue(path_exists_in_routing_table(peer3, prefix1)) self.assertFalse(path_exists_in_routing_table(peer3, prefix2,r=3)) self.assertFalse(path_exists_in_routing_table(peer3, prefix3,r=0)) # check adj-rib-out in peer2 self.assertTrue(path_exists_in_adj_rib_in(peer2, prefix1)) self.assertTrue(path_exists_in_adj_rib_in(peer2, prefix2)) self.assertTrue(path_exists_in_adj_rib_in(peer2, prefix3)) # update policy print "update_policy_config" fab.update_policy_config(parser_option.go_path, policy_pattern="test_03_import_policy_update") time.sleep(self.initial_wait_time) # soft reset print "soft_reset" self.soft_reset(peer2, IPv4) # check local-rib self.assertTrue(path_exists_in_localrib(peer3,prefix1)) self.assertFalse(path_exists_in_localrib(peer3,prefix2,r=3)) self.assertTrue(path_exists_in_localrib(peer3,prefix3)) # check show ip bgp on peer3(quagga3) self.assertTrue(path_exists_in_routing_table(peer3, prefix1)) self.assertFalse(path_exists_in_routing_table(peer3, prefix2,r=0)) self.assertTrue(path_exists_in_routing_table(peer3, prefix3)) """ export-policy test r1:192.168.2.0 r2:192.168.20.0 r3:192.168.200.0 ------------------------------------------------- |peer1 | peer2 ->(r1,r2,r3)-> | ->(r1,r2,r3)-> rib ->(r1,r2,r3)-> adj-rib-out | ->(r1,r2,r3)-> peer1 | | |peer3 | | ->(r1,r2,r3)-> rib ->(r1)-> adj-rib-out | ->(r1)-> peer3 ------------------------------------------------- | update gobgp.conf | V ------------------------------------------------- |peer1 | peer2 ->(r1,r2,r3)-> | ->(r1,r2,r3)-> rib ->(r1,r2,r3)-> adj-rib-out | ->(r1,r2,r3)-> peer1 | | |peer3 | | ->(r1,r2,r3)-> rib ->(r1,r3)-> adj-rib-out | ->(r1,r3)-> peer3 ------------------------------------------------- """ @nose.tools.nottest def test_04_export_policy_update(self): # initialize test environment # policy_pattern:p4 attaches a policy to reject route # 192.168.2.0/24, 192.168.20.0/24, 192.168.200.0/24 # coming from peer2(10.0.0.2) to peer3(10.0.0.3)'s export-policy. self.initialize(policy_pattern="test_04_export_policy_update") peer1 = "10.0.0.1" peer2 = "10.0.0.2" peer3 = "10.0.0.3" prefix1 = "192.168.2.0/24" prefix2 = "192.168.20.0/24" prefix3 = "192.168.200.0/24" # add other network tn = qaccess.login(peer2) print "add network 192.168.20.0/24" qaccess.add_network(tn, 65002, prefix2) print "add network 192.168.200.0/24" qaccess.add_network(tn, 65002, prefix3) qaccess.logout(tn) addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") time.sleep(self.initial_wait_time) def path_exists_in_localrib(peer, prefix,r=10): paths = self.get_paths_in_localrib(peer, prefix, retry=r) return paths is not None def path_exists_in_routing_table(peer, prefix,r=10): qpath = self.get_route(peer, prefix, retry=r) return qpath is not None def path_exists_in_adj_rib_in(peer, prefix,r=10): path = self.get_adj_rib_in(peer, prefix, retry=r) return path is not None def path_exists_in_adj_rib_out(peer, prefix,r=10): path = self.get_adj_rib_out(peer, prefix, retry=r) return path is not None self.assertTrue(path_exists_in_localrib(peer1,prefix1)) self.assertTrue(path_exists_in_localrib(peer1,prefix2)) self.assertTrue(path_exists_in_localrib(peer1,prefix3)) # check peer3 local-rib self.assertTrue(path_exists_in_localrib(peer3,prefix1)) self.assertTrue(path_exists_in_localrib(peer3,prefix2)) self.assertTrue(path_exists_in_localrib(peer3,prefix3)) # check peer3 rib-out self.assertTrue(path_exists_in_adj_rib_out(peer3,prefix1)) self.assertFalse(path_exists_in_adj_rib_out(peer3,prefix2,r=3)) self.assertFalse(path_exists_in_adj_rib_out(peer3,prefix3,r=3)) # check show ip bgp on peer1(quagga1) self.assertTrue(path_exists_in_routing_table(peer1, prefix1)) self.assertTrue(path_exists_in_routing_table(peer1, prefix2)) self.assertTrue(path_exists_in_routing_table(peer1, prefix3)) # check show ip bgp on peer3(quagga3) self.assertTrue(path_exists_in_routing_table(peer3, prefix1)) self.assertFalse(path_exists_in_routing_table(peer3, prefix2,r=3)) self.assertFalse(path_exists_in_routing_table(peer3, prefix3,r=0)) # check adj-rib-out in peer2 peer2 = "10.0.0.2" self.assertTrue(path_exists_in_adj_rib_in(peer2, prefix1)) self.assertTrue(path_exists_in_adj_rib_in(peer2, prefix2)) self.assertTrue(path_exists_in_adj_rib_in(peer2, prefix3)) # update policy print "update_policy_config" fab.update_policy_config(parser_option.go_path, policy_pattern="test_04_export_policy_update") time.sleep(self.initial_wait_time) # soft reset print "soft_reset" self.soft_reset(peer2, IPv4) # check local-rib self.assertTrue(path_exists_in_localrib(peer3,prefix1)) self.assertTrue(path_exists_in_localrib(peer3,prefix2)) self.assertTrue(path_exists_in_localrib(peer3,prefix3)) # check local-adj-out-rib self.assertTrue(path_exists_in_adj_rib_out(peer3, prefix1)) self.assertFalse(path_exists_in_adj_rib_out(peer3, prefix2,r=3)) self.assertTrue(path_exists_in_adj_rib_out(peer3, prefix3)) # check show ip bgp on peer3(quagga3) self.assertTrue(path_exists_in_routing_table(peer3, prefix1)) self.assertFalse(path_exists_in_routing_table(peer3, prefix2,r=3)) self.assertTrue(path_exists_in_routing_table(peer3, prefix3)) """ import-policy test r1=2001:0:10:2::/64 -------------------------------------------------- peer2 ->(r1)-> | ->(r1)-> peer1-rib ->(r1)-> peer1-adj-rib-out | ->(r1)-> peer1 | | | ->x peer3-rib | -------------------------------------------------- """ def test_05_import_policy_initial_ipv6(self): # initialize test environment # policy_pattern:p5 attaches a policy to reject route 2001:0:10:2:: (64...128) # coming from peer2(2001::192:168:0:2) to peer3(2001::192:168:0:3)'s # import-policy. self.use_ipv6_gobgp = True self.initialize(policy_pattern="test_05_import_policy_initial_ipv6") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "2001::192:168:0:1" peer2 = "2001::192:168:0:2" peer3 = "2001::192:168:0:3" r1 = "2001:0:10:2::/64" w = self.wait_per_retry path = self.get_paths_in_localrib(peer1, r1, retry=self.retry_count_common, af=IPv6, interval=w) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1, r1, retry=self.retry_count_common, af=IPv6) self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_adj_rib_in(peer2, r1, retry=self.retry_count_common, af=IPv6) # print path self.assertIsNotNone(path) # path = util.get_paths_in_localrib(base_url, peer3, r1, retry=0, interval=w, rf=IPv6) path = self.get_paths_in_localrib(peer3, r1, retry=0, af=IPv6) # print path self.assertIsNone(path) # check show ip bgp on peer1(quagga3) qpath = self.get_route(peer3, r1, retry=self.retry_count_common, interval=w, af=IPv6) print qpath self.assertIsNone(qpath) """ export-policy test r1=2001:0:10:2::/64 -------------------------------------------------- peer2 ->(r1)-> | ->(r1)-> peer1-rib ->(r1)-> peer1-adj-rib-out | ->(r1)-> peer1 | | | ->(r1)-> peer3-rib ->x peer3-adj-rib-out | -------------------------------------------------- """ def test_06_export_policy_initial_ipv6(self): # initialize test environment # policy_pattern:p6 attaches a policy to reject route 2001:0:10:2:: (64...128) # coming from peer2(2001::192:168:0:2) to peer3(2001::192:168:0:3)'s export-policy. self.use_ipv6_gobgp = True self.initialize(policy_pattern="test_06_export_policy_initial_ipv6") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "2001::192:168:0:1" peer2 = "2001::192:168:0:2" peer3 = "2001::192:168:0:3" r1 = "2001:0:10:2::/64" w = self.wait_per_retry paths = self.get_paths_in_localrib(peer1, r1, retry=self.retry_count_common, interval=w, af=IPv6) # print paths self.assertIsNotNone(paths) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1, r1, retry=self.retry_count_common, interval=w, af=IPv6) # print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_adj_rib_in(peer2, r1, retry=1, interval=w, af=IPv6) # print path self.assertIsNotNone(path) path = self.get_paths_in_localrib(peer3, r1, af=IPv6) # print path self.assertIsNotNone(path) path = self.get_adj_rib_out(peer3, r1, retry=1, interval=w, af=IPv6) # print path self.assertIsNone(path) # check show ip bgp on peer1(quagga3) qpath = self.get_route(peer3, r1, retry=self.retry_count_common, interval=w, af=IPv6) # print qpath self.assertIsNone(qpath) """ import-policy test r1=2001:0:10:2::/64 r2=2001:0:10:20::/64 r3=2001:0:10:200::/64 ------------------------------------------------- |peer1 | peer2 ->(r1,r2,r3)-> | ->(r1,r2,r3)-> rib ->(r1,r2,r3)-> adj-rib-out | ->(r1,r2,r3)-> peer1 | | |peer3 | | ->(r1)-> rib ->(r1)-> adj-rib-out | ->(r1)-> peer3 ------------------------------------------------- | update gobgp.conf | V ------------------------------------------------- |peer1 | peer2 ->(r1,r2,r3)-> | ->(r1,r2,r3)-> rib ->(r1,r2,r3)-> adj-rib-out | ->(r1,r2,r3)-> peer1 | | |peer3 | | ->(r1,r3)-> rib ->(r1,r3)-> adj-rib-out | ->(r1,r3)-> peer3 ------------------------------------------------- """ def test_07_import_policy_update(self): # initialize test environment # policy_pattern:p7 attaches a policy to reject route # 2001:0:10:2::/64, 2001:0:10:20::/64, 2001:0:10:200::/64 # coming from peer2(2001::192:168:0:2) to peer3(2001::192:168:0:3)'s # import-policy. self.use_ipv6_gobgp = True self.initialize(policy_pattern="test_07_import_policy_update") peer1 = "2001::192:168:0:1" peer2 = "2001::192:168:0:2" peer3 = "2001::192:168:0:3" r1 = "2001:0:10:2::/64" r2 = "2001:0:10:20::/64" r3 = "2001:0:10:200::/64" w = self.wait_per_retry # add other network tn = qaccess.login(peer2) print "add network 2001:0:10:20::/64" qaccess.add_network(tn, 65002, r2, use_ipv6=True) print "add network 2001:0:10:200::/64" qaccess.add_network(tn, 65002, r3, use_ipv6=True) qaccess.logout(tn) addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") time.sleep(self.initial_wait_time) def path_exists_in_localrib(peer, prefix, r=10): paths = self.get_paths_in_localrib(peer, prefix, retry=r, interval=w, af=IPv6) return paths is not None def path_exists_in_routing_table(peer, prefix, r=10): qpath = self.get_route(peer, prefix, retry=r, interval=w, af=IPv6) return qpath is not None def path_exists_in_adj_rib_in(peer, prefix, r=10): path = self.get_adj_rib_in(peer, prefix, retry=r, interval=w, af=IPv6) return path is not None self.assertTrue(path_exists_in_localrib(peer1, r1)) self.assertTrue(path_exists_in_localrib(peer1, r2)) self.assertTrue(path_exists_in_localrib(peer1, r3)) self.assertTrue(path_exists_in_localrib(peer3, r1)) self.assertFalse(path_exists_in_localrib(peer3, r2, r=3)) self.assertFalse(path_exists_in_localrib(peer3, r3, r=0)) # check show ip bgp on peer1(quagga1) self.assertTrue(path_exists_in_routing_table(peer1, r1)) self.assertTrue(path_exists_in_routing_table(peer1, r2)) self.assertTrue(path_exists_in_routing_table(peer1, r3)) # check show ip bgp on peer3(quagga3) self.assertTrue(path_exists_in_routing_table(peer3, r1)) self.assertFalse(path_exists_in_routing_table(peer3, r2, r=3)) self.assertFalse(path_exists_in_routing_table(peer3, r3, r=0)) # check adj-rib-out in peer2 self.assertTrue(path_exists_in_adj_rib_in(peer2, r1)) self.assertTrue(path_exists_in_adj_rib_in(peer2, r2)) self.assertTrue(path_exists_in_adj_rib_in(peer2, r3)) # update policy print "update_policy_config" fab.update_policy_config(parser_option.go_path, policy_pattern="test_07_import_policy_update") time.sleep(self.initial_wait_time) # soft reset print "soft_reset" self.soft_reset(peer2, IPv6) # check local-rib self.assertTrue(path_exists_in_localrib(peer3, r1)) self.assertFalse(path_exists_in_localrib(peer3, r2, r=3)) self.assertTrue(path_exists_in_localrib(peer3, r3)) # check show ip bgp on peer3(quagga3) self.assertTrue(path_exists_in_routing_table(peer3, r1)) self.assertFalse(path_exists_in_routing_table(peer3, r2, r=0)) self.assertTrue(path_exists_in_routing_table(peer3, r3)) """ export-policy test r1=2001:0:10:2::/64 r2=2001:0:10:20::/64 r3=2001:0:10:200::/64 ------------------------------------------------- |peer1 | peer2 ->(r1,r2,r3)-> | ->(r1,r2,r3)-> rib ->(r1,r2,r3)-> adj-rib-out | ->(r1,r2,r3)-> peer1 | | |peer3 | | ->(r1,r2,r3)-> rib ->(r1)-> adj-rib-out | ->(r1)-> peer3 ------------------------------------------------- | update gobgp.conf | V ------------------------------------------------- |peer1 | peer2 ->(r1,r2,r3)-> | ->(r1,r2,r3)-> rib ->(r1,r2,r3)-> adj-rib-out | ->(r1,r2,r3)-> peer1 | | |peer3 | | ->(r1,r2,r3)-> rib ->(r1,r3)-> adj-rib-out | ->(r1,r3)-> peer3 ------------------------------------------------- """ @nose.tools.nottest def test_08_export_policy_update(self): # initialize test environment # policy_pattern:p8 attaches a policy to reject route # 2001:0:10:2::/64, 2001:0:10:20::/64, 2001:0:10:200::/64 # coming from peer2(2001::192:168:0:2) to peer3(2001::192:168:0:3)'s # export-policy. self.use_ipv6_gobgp = True self.initialize(policy_pattern="test_08_export_policy_update") peer1 = "2001::192:168:0:1" peer2 = "2001::192:168:0:2" peer3 = "2001::192:168:0:3" r1 = "2001:0:10:2::/64" r2 = "2001:0:10:20::/64" r3 = "2001:0:10:200::/64" w = self.wait_per_retry # add other network tn = qaccess.login(peer2) print "add network 2001:0:10:20::/64" qaccess.add_network(tn, 65002, r2, use_ipv6=True) print "add network 2001:0:10:200::/64" qaccess.add_network(tn, 65002, r3, use_ipv6=True) qaccess.logout(tn) addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") time.sleep(self.initial_wait_time) def path_exists_in_localrib(peer, prefix, r=10): paths = self.get_paths_in_localrib(peer, prefix, retry=r, interval=w, af=IPv6) return paths is not None def path_exists_in_routing_table(peer, prefix, r=10): qpath = self.get_route(peer, prefix, retry=r, interval=w, af=IPv6) return qpath is not None def path_exists_in_adj_rib_in(peer, prefix, r=10): path = self.get_adj_rib_in(peer, prefix, retry=r, interval=w, af=IPv6) return path is not None def path_exists_in_adj_rib_out(peer, prefix, r=10): path = self.get_adj_rib_out(peer, prefix, retry=r, interval=w, af=IPv6) return path is not None self.assertTrue(path_exists_in_localrib(peer1, r1)) self.assertTrue(path_exists_in_localrib(peer1, r2)) self.assertTrue(path_exists_in_localrib(peer1, r3)) # check peer3 local-rib self.assertTrue(path_exists_in_localrib(peer3, r1)) self.assertTrue(path_exists_in_localrib(peer3, r2)) self.assertTrue(path_exists_in_localrib(peer3, r3)) # check peer3 rib-out self.assertTrue(path_exists_in_adj_rib_out(peer3, r1)) self.assertFalse(path_exists_in_adj_rib_out(peer3, r2, r=3)) self.assertFalse(path_exists_in_adj_rib_out(peer3, r3, r=3)) # check show ip bgp on peer1(quagga1) self.assertTrue(path_exists_in_routing_table(peer1, r1)) self.assertTrue(path_exists_in_routing_table(peer1, r2)) self.assertTrue(path_exists_in_routing_table(peer1, r3)) # check show ip bgp on peer3(quagga3) self.assertTrue(path_exists_in_routing_table(peer3, r1)) self.assertFalse(path_exists_in_routing_table(peer3, r2, r=3)) self.assertFalse(path_exists_in_routing_table(peer3, r3, r=0)) # check adj-rib-out in peer2 self.assertTrue(path_exists_in_adj_rib_in(peer2, r1)) self.assertTrue(path_exists_in_adj_rib_in(peer2, r2)) self.assertTrue(path_exists_in_adj_rib_in(peer2, r3)) # update policy print "update_policy_config" fab.update_policy_config(parser_option.go_path, policy_pattern="p8") time.sleep(self.initial_wait_time) # soft reset print "soft_reset" self.soft_reset(peer2, "ipv6") # check local-rib self.assertTrue(path_exists_in_localrib(peer3, r1)) self.assertTrue(path_exists_in_localrib(peer3, r2)) self.assertTrue(path_exists_in_localrib(peer3, r3)) # check local-adj-out-rib self.assertTrue(path_exists_in_adj_rib_out(peer3, r1)) self.assertFalse(path_exists_in_adj_rib_out(peer3, r2, r=3)) # Currently this test fails because of export_policy handling self.assertTrue(path_exists_in_adj_rib_out(peer3, r3)) # check show ip bgp on peer3(quagga3) self.assertTrue(path_exists_in_routing_table(peer3, r1)) self.assertFalse(path_exists_in_routing_table(peer3, r2, r=3)) self.assertTrue(path_exists_in_routing_table(peer3, r3)) """ import-policy test --------------------------------------- exabgp ->(aspath_length=10)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | ->x peer2-rib | --------------------------------------- """ def test_09_aspath_length_condition_import(self): # initialize test environment # policy_pattern:p9 attaches a policy to reject a path whose aspath length is greater than or equal 10 # to peer2(10.0.0.2)'s import-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path) self.quagga_num = 2 self.use_exa_bgp = True self.initialize(policy_pattern="test_09_aspath_length_condition_import") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) # print path self.assertIsNone(path) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) # print qpath self.assertIsNone(qpath) """ import-policy test --------------------------------------- exabgp ->(aspath=[65100,...])->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | ->x peer2-rib | --------------------------------------- """ def test_10_aspath_from_condition_import(self): # initialize test environment # policy_pattern:AspFrom attaches a policy to reject a path that is from 65100 # to peer2(10.0.0.2)'s import-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_10_aspath_from_condition_import") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) # print path self.assertIsNone(path) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) # print qpath self.assertIsNone(qpath) """ import-policy test --------------------------------------- exabgp ->(aspath=[...65098,...])->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | ->x peer2-rib | --------------------------------------- """ def test_11_aspath_any_condition_import(self): # initialize test environment # policy_pattern:AspFrom attaches a policy to reject a path that contains 65098 in its aspath attr # to peer2(10.0.0.2)'s import-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_11_aspath_any_condition_import") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) # print path self.assertIsNone(path) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) # print qpath self.assertIsNone(qpath) """ import-policy test --------------------------------------- exabgp ->(aspath=[...,65090])->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | ->x peer2-rib | --------------------------------------- """ def test_12_aspath_origin_condition_import(self): # initialize test environment # policy_pattern:AspFrom attaches a policy for rejecting a path that has 65090 at last in its aspath attr # to peer2(10.0.0.2)'s import-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_12_aspath_origin_condition_import") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) # print path self.assertIsNone(path) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) # print qpath self.assertIsNone(qpath) """ import-policy test --------------------------------------- exabgp -> (aspath=[65100]) -> | -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | ->x peer2-rib | --------------------------------------- """ def test_13_aspath_only_condition_import(self): # initialize test environment # policy_pattern:AspFrom attaches a policy for rejecting a path that has only 65100 in its aspath attr # to peer2(10.0.0.2)'s import-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asn = '65100' generate_exabgp_config(prefix1, aspath=asn) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_13_aspath_only_condition_import") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) # print path self.assertIsNone(path) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) # print qpath self.assertIsNone(qpath) """ import-policy test --------------------------------------- exabgp ->(aspath=[...,65090])->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | -> peer2-rib -> peer2-adj-rib-out | --> peer2 --------------------------------------- This case check if policy passes the path to peer2 because of condition mismatch. """ def test_14_aspath_only_condition_import(self): # initialize test environment # policy_pattern:AspFrom attaches a policy for rejecting a path that has 65090 at last in its aspath attr # to peer2(10.0.0.2)'s import-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_14_aspath_only_condition_import") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) print path self.assertIsNotNone(path) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) """ import-policy test --------------------------------------- exabgp ->(community=65100:10)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | ->x peer2-rib | --------------------------------------- """ def test_15_community_condition_import(self): # initialize test environment # policy_pattern:AspFrom attaches a policy for rejecting a path that has 65100:10 in its community attr # to peer2(10.0.0.2)'s import-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] community = '65100:10' as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path, community=community) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_15_community_condition_import") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) # print path self.assertIsNone(path) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) # print qpath self.assertIsNone(qpath) """ import-policy test --------------------------------------- exabgp ->(community=65100:10)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | ->x peer2-rib | --------------------------------------- """ def test_16_community_condition_regexp_import(self): # initialize test environment # policy_pattern:AspFrom attaches a policy for rejecting a path that has 65100:10 in its community attr # to peer2(10.0.0.2)'s import-policy. # this policy uses a regexp as the community condition. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] community = '65100:10' as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path, community=community) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_16_community_condition_regexp_import") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) # print path self.assertIsNone(path) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) # print qpath self.assertIsNone(qpath) """ import-policy test --------------------------------------- exabgp ->(community=65100:10)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | -> peer2-rib -> peer2-adj-rib-out | --> peer2 | apply action | --------------------------------------- """ def test_17_community_add_action_import(self): # initialize test environment # policy_pattern:AspFrom attaches a policy for addition community 65100:10 to its community attr # to peer2(10.0.0.2)'s import-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] community = '65100:10' as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path, community=community) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_17_community_add_action_import") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) print path self.assertIsNotNone(path) attrs = [x for x in path[0]['attrs'] if 'communites' in x ] self.assertTrue((65100 << 16 | 20) in attrs[0]['communites']) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) self.assertTrue(self.check_community(peer2, prefix1.split('/')[0], '65100:20')) """ import-policy test --------------------------------------- exabgp ->(community=65100:10)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | -> peer2-rib -> peer2-adj-rib-out | --> peer2 | apply action | --------------------------------------- """ def test_18_community_replace_action_import(self): # initialize test environment # policy_pattern:AspFrom attaches a policy to replace community 65100:10 in its community attr # to peer2(10.0.0.2)'s import-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] community = '65100:10' as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path, community=community) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_18_community_replace_action_import") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) print path self.assertIsNotNone(path) attrs = [x for x in path[0]['attrs'] if 'communites' in x ] self.assertTrue((65100 << 16 | 20) in attrs[0]['communites']) self.assertTrue((65100 << 16 | 30) in attrs[0]['communites']) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) self.assertTrue(self.check_community(peer2, prefix1.split('/')[0], '65100:20')) self.assertTrue(self.check_community(peer2, prefix1.split('/')[0], '65100:30')) self.assertFalse(self.check_community(peer2, prefix1.split('/')[0], '65100:10', retry=1)) """ import-policy test --------------------------------------- exabgp ->(community=65100:10)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 (community=65100:20) | | (community=65100:30) | -> peer2-rib -> peer2-adj-rib-out | --> peer2 | apply action | --------------------------------------- """ def test_19_community_remove_action_import(self): # initialize test environment # policy_pattern:AspFrom attaches a policy to remove community 65100:20 65100:30 in its community attr # to peer2(10.0.0.2)'s import-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] community = ' 65100:10 65100:20 65100:30 ' as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path, community=community) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_19_community_remove_action_import") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) print path self.assertIsNotNone(path) attrs = [x for x in path[0]['attrs'] if 'communites' in x ] self.assertTrue((65100 << 16 | 20) not in attrs[0]['communites']) self.assertTrue((65100 << 16 | 30) not in attrs[0]['communites']) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) self.assertFalse(self.check_community(peer2, prefix1.split('/')[0], '65100:20', retry=1)) self.assertFalse(self.check_community(peer2, prefix1.split('/')[0], '65100:30', retry=1)) self.assertTrue(self.check_community(peer2, prefix1.split('/')[0], '65100:10', retry=1)) """ import-policy test --------------------------------------- exabgp ->(community=65100:10)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 (community=65100:20) | | (community=65100:30) | -> peer2-rib -> peer2-adj-rib-out | --> peer2 | apply action | --------------------------------------- """ def test_20_community_null_action_import(self): # initialize test environment # policy_pattern:AspFrom attaches a policy to remove its community attr # to peer2(10.0.0.2)'s import-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] community = ' 65100:10 65100:20 65100:30 ' as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path, community=community) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_20_community_null_action_import") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) print path self.assertIsNotNone(path) attrs = [x for x in path[0]['attrs'] if 'communites' in x ] self.assertFalse('communites' in attrs) # self.assertTrue((65100 << 16 | 20) not in attrs[0]['communites']) # self.assertTrue((65100 << 16 | 30) not in attrs[0]['communites']) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) self.assertFalse(self.check_community(peer2, prefix1.split('/')[0], '65100:20', retry=1)) self.assertFalse(self.check_community(peer2, prefix1.split('/')[0], '65100:30', retry=1)) self.assertFalse(self.check_community(peer2, prefix1.split('/')[0], '65100:10', retry=1)) """ import-policy test --------------------------------------- exabgp ->(community=65100:10)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | -> peer2-rib -> peer2-adj-rib-out | --> peer2 | apply action | --------------------------------------- """ def test_21_community_add_action_export(self): # initialize test environment # policy_pattern:CommunityAddEXP attaches a policy to add community 65100:20 into its community attr # to peer2(10.0.0.2)'s export-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] community = '65100:10' as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path, community=community) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_21_community_add_action_export") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) print path self.assertIsNotNone(path) attrs = [x for x in path[0]['attrs'] if 'communites' in x ] self.assertFalse((65100 << 16 | 20) in attrs[0]['communites']) # check out-rib path = self.get_adj_rib_out(peer2, prefix1, retry=0) print path attrs = [x for x in path['attrs'] if 'communites' in x ] self.assertTrue((65100 << 16 | 20) in attrs[0]['communites']) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) self.assertTrue(self.check_community(peer2, prefix1.split('/')[0], '65100:20')) """ import-policy test --------------------------------------- exabgp ->(community=65100:10)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 | | | -> peer2-rib -> peer2-adj-rib-out | --> peer2 | apply action | --------------------------------------- """ def test_22_community_replace_action_export(self): # initialize test environment # policy_pattern:CommunityReplaceEXP attaches a policy to replace its community # with 65100:20 and 65100:30 in its community attr to peer2(10.0.0.2)'s export-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] community = '65100:10' as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path, community=community) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_22_community_replace_action_export") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) print path self.assertIsNotNone(path) attrs = [x for x in path[0]['attrs'] if 'communites' in x ] self.assertFalse((65100 << 16 | 20) in attrs[0]['communites']) self.assertFalse((65100 << 16 | 30) in attrs[0]['communites']) # check out-rib path = self.get_adj_rib_out(peer2, prefix1, retry=1) print path attrs = [x for x in path['attrs'] if 'communites' in x ] self.assertTrue((65100 << 16 | 20) in attrs[0]['communites']) self.assertTrue((65100 << 16 | 30) in attrs[0]['communites']) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) self.assertTrue(self.check_community(peer2, prefix1.split('/')[0], '65100:20')) self.assertTrue(self.check_community(peer2, prefix1.split('/')[0], '65100:30')) self.assertFalse(self.check_community(peer2, prefix1.split('/')[0], '65100:10', retry=1)) """ import-policy test --------------------------------------- exabgp ->(community=65100:10)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 (community=65100:20) | | (community=65100:30) | -> peer2-rib -> peer2-adj-rib-out | --> peer2 | apply action | --------------------------------------- """ def test_23_community_remove_action_export(self): # initialize test environment # policy_pattern:CommunityRemoveEXP attaches a policy to remove 65100:20 and 65100:30 # in its community attr to peer2(10.0.0.2)'s import-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] community = ' 65100:10 65100:20 65100:30 ' as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path, community=community) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_23_community_remove_action_export") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=1) print path self.assertIsNotNone(path) attrs = [x for x in path[0]['attrs'] if 'communites' in x ] self.assertTrue((65100 << 16 | 20) in attrs[0]['communites']) self.assertTrue((65100 << 16 | 30) in attrs[0]['communites']) # check out-rib path = self.get_adj_rib_out(peer2, prefix1, retry=1) print path attrs = [x for x in path['attrs'] if 'communites' in x ] self.assertFalse((65100 << 16 | 20) in attrs[0]['communites']) self.assertFalse((65100 << 16 | 30) in attrs[0]['communites']) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) self.assertFalse(self.check_community(peer2, prefix1.split('/')[0], '65100:20', retry=1)) self.assertFalse(self.check_community(peer2, prefix1.split('/')[0], '65100:30', retry=1)) self.assertTrue(self.check_community(peer2, prefix1.split('/')[0], '65100:10', retry=1)) """ import-policy test --------------------------------------- exabgp ->(community=65100:10)->| -> peer1-rib -> peer1-adj-rib-out | --> peer1 (community=65100:20) | | (community=65100:30) | -> peer2-rib -> peer2-adj-rib-out | --> peer2 | apply action | --------------------------------------- """ def test_24_community_null_action_export(self): # initialize test environment # policy_pattern:CommunityNullEXP attaches a policy to remove its community attr # to peer2(10.0.0.2)'s export-policy. # generate exabgp configuration file prefix1 = "192.168.100.0/24" asns = ['65100'] + [ str(asn) for asn in range(65099, 65090, -1) ] community = ' 65100:10 65100:20 65100:30 ' as_path = reduce(lambda a,b: a + " " + b, asns) generate_exabgp_config(prefix1, aspath=as_path, community=community) self.quagga_num = 2 self.use_exa_bgp = True self.use_ipv6_gobgp = False self.initialize(policy_pattern="test_24_community_null_action_export") addresses = self.get_neighbor_address(self.gobgp_config) self.retry_routine_for_state(addresses, "BGP_FSM_ESTABLISHED") peer1 = "10.0.0.1" peer2 = "10.0.0.2" path = self.get_paths_in_localrib(peer1, prefix1, retry=self.retry_count_common) self.assertIsNotNone(path) # check show ip bgp on peer1(quagga1) qpath = self.get_route(peer1,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) # check adj-rib-out in peer2 path = self.get_paths_in_localrib(peer2, prefix1,retry=0) print path self.assertIsNotNone(path) attrs = [x for x in path[0]['attrs'] if 'communites' in x ] self.assertTrue((65100 << 16 | 10) in attrs[0]['communites']) self.assertTrue((65100 << 16 | 20) in attrs[0]['communites']) self.assertTrue((65100 << 16 | 30) in attrs[0]['communites']) # check out-rib path = self.get_adj_rib_out(peer2, prefix1, retry=1) print path attrs = [x for x in path['attrs'] if 'communites' in x ] self.assertFalse('communites' in attrs) # check show ip bgp on peer2(quagga2) qpath = self.get_route(peer2,prefix1, retry=self.retry_count_common) print qpath self.assertIsNotNone(qpath) self.assertFalse(self.check_community(peer2, prefix1.split('/')[0], '65100:20', retry=1)) self.assertFalse(self.check_community(peer2, prefix1.split('/')[0], '65100:30', retry=1)) self.assertFalse(self.check_community(peer2, prefix1.split('/')[0], '65100:10', retry=1)) def generate_exabgp_config(pref, aspath='', community=''): value = {'prefix': pref, 'aspath': aspath, 'community': community} pwd = local("pwd", capture=True) conf_dir = pwd + "/exabgp_test_conf" f = open(conf_dir+ "/" + EXABGP_COMMON_CONF, 'w') f.write(EXABGP_COMMON_TEMPLATE % value) f.close() EXABGP_COMMON_TEMPLATE = ''' neighbor 10.0.255.1 { router-id 192.168.0.7; local-address 10.0.0.100; local-as 65100; peer-as 65000; hold-time 90; md5 "hoge100"; graceful-restart; family { inet unicast; } static { # static routes route %(prefix)s next-hop 10.0.0.100 as-path [%(aspath)s] community [%(community)s]; } } ''' if __name__ == '__main__': if fab.test_user_check() is False: print "you are not root." sys.exit(1) if fab.docker_pkg_check() is False: print "not install docker package." sys.exit(1) nose.main(argv=sys.argv, addplugins=[OptionParser()], defaultTest=sys.argv[0])