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# 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 unittest
import requests
import json
import toml
import os
import time
import sys
import nose
import quagga_access as qaccess
from peer_info import Peer
from peer_info import Destination
from peer_info import Path
from ciscoconfparse import CiscoConfParse
import docker_control as fab
from noseplugin import OptionParser
from noseplugin import parser_option
import scenario_test_util as util
class GoBGPTest(unittest.TestCase):
gobgp_ip = "10.0.255.1"
gobgp_port = "8080"
rest_url_neighbor = "http://" + gobgp_ip + ":" + gobgp_port + "/v1/bgp/neighbor/"
base_dir = "/tmp/gobgp/"
gobgp_config_file = "/tmp/gobgp/gobgpd.conf"
gobgp_config = None
quagga_num = 3
initial_wait_time = 10
wait_per_retry = 5
def __init__(self, *args, **kwargs):
super(GoBGPTest, self).__init__(*args, **kwargs)
def setUp(self):
self.quagga_configs = []
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)
print "please wait " + str(self.initial_wait_time) + " second"
time.sleep(self.initial_wait_time)
self.assertTrue(self.check_load_config())
def check_established(self, addresses):
for address in addresses:
result = self.retry_until(address, target_state="BGP_FSM_ESTABLISHED",retry=10)
self.assertEqual(result, True)
"""
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="p1")
self.check_established(util.get_neighbor_address(self.gobgp_config))
peer1 = "10.0.0.1"
peer2 = "10.0.0.2"
peer3 = "10.0.0.3"
base_url = self.rest_url_neighbor
w = self.wait_per_retry
path = util.get_paths_in_localrib(base_url, peer1, "192.168.2.0", retry=3, interval=w)
self.assertIsNotNone(path)
# check show ip bgp on peer1(quagga1)
qpath = util.get_routing_table(peer1,"192.168.2.0", retry=3, interval=w)
print qpath
self.assertIsNotNone(qpath)
# check adj-rib-out in peer2
path = util.get_adj_rib_in(base_url, peer2, "192.168.2.0/24", retry=3, interval=w)
# print path
self.assertIsNotNone(path)
path = util.get_paths_in_localrib(base_url, peer3, "192.168.2.0",retry=0, interval=w)
# print path
self.assertIsNone(path)
# check show ip bgp on peer1(quagga3)
qpath = util.get_routing_table(peer3,"192.168.2.0", retry=3, interval=w)
# 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="p2")
self.check_established(util.get_neighbor_address(self.gobgp_config))
peer1 = "10.0.0.1"
peer2 = "10.0.0.2"
peer3 = "10.0.0.3"
base_url = self.rest_url_neighbor
w = self.wait_per_retry
paths = util.get_paths_in_localrib(base_url, peer1, "192.168.2.0", retry=3, interval=w)
# print paths
self.assertIsNotNone(paths)
# check show ip bgp on peer1(quagga1)
qpath = util.get_routing_table(peer1, "192.168.2.0", retry=3, interval=w)
# print qpath
self.assertIsNotNone(qpath)
# check adj-rib-out in peer2
path = util.get_adj_rib_in(base_url, peer2, "192.168.2.0/24", retry=1, interval=w)
# print path
self.assertIsNotNone(path)
path = util.get_paths_in_localrib(base_url, peer3, "192.168.2.0")
# print path
self.assertIsNotNone(path)
path = util.get_adj_rib_out(base_url, peer3, "192.168.2.0", retry=1, interval=w)
# print path
self.assertIsNone(path)
# check show ip bgp on peer1(quagga3)
qpath = util.get_routing_table(peer3,"192.168.2.0", retry=3, interval=w)
# 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="p3")
peer1 = "10.0.0.1"
peer2 = "10.0.0.2"
peer3 = "10.0.0.3"
base_url = self.rest_url_neighbor
w = self.wait_per_retry
# add other network
tn = qaccess.login(peer2)
print "add network 192.168.20.0/24"
qaccess.add_network(tn, 65002, "192.168.20.0/24")
print "add network 192.168.200.0/24"
qaccess.add_network(tn, 65002, "192.168.200.0/24")
qaccess.logout(tn)
self.check_established(util.get_neighbor_address(self.gobgp_config))
time.sleep(self.initial_wait_time)
def path_exists_in_localrib(peer, prefix,r=10):
paths = util.get_paths_in_localrib(base_url, peer, prefix, retry=r, interval=w)
return paths is not None
def path_exists_in_routing_table(peer, prefix,r=10):
qpath = util.get_routing_table(peer, prefix, retry=r, interval=w)
return qpath is not None
def path_exists_in_adj_rib_in(peer, prefix,r=10):
path = util.get_adj_rib_in(base_url, peer, prefix, retry=r, interval=w)
return path is not None
self.assertTrue(path_exists_in_localrib(peer1,"192.168.2.0"))
self.assertTrue(path_exists_in_localrib(peer1,"192.168.20.0"))
self.assertTrue(path_exists_in_localrib(peer1,"192.168.200.0"))
self.assertTrue(path_exists_in_localrib(peer3,"192.168.2.0"))
self.assertFalse(path_exists_in_localrib(peer3,"192.168.20.0",r=3))
self.assertFalse(path_exists_in_localrib(peer3,"192.168.200.0",r=0))
# check show ip bgp on peer1(quagga1)
self.assertTrue(path_exists_in_routing_table(peer1, "192.168.2.0"))
self.assertTrue(path_exists_in_routing_table(peer1, "192.168.20.0"))
self.assertTrue(path_exists_in_routing_table(peer1, "192.168.200.0"))
# check show ip bgp on peer3(quagga3)
self.assertTrue(path_exists_in_routing_table(peer3, "192.168.2.0"))
self.assertFalse(path_exists_in_routing_table(peer3, "192.168.20.0",r=3))
self.assertFalse(path_exists_in_routing_table(peer3, "192.168.200.0",r=0))
# check adj-rib-out in peer2
self.assertTrue(path_exists_in_adj_rib_in(peer2, "192.168.2.0/24"))
self.assertTrue(path_exists_in_adj_rib_in(peer2, "192.168.20.0/24"))
self.assertTrue(path_exists_in_adj_rib_in(peer2, "192.168.200.0/24"))
# update policy
print "update_policy_config"
fab.update_policy_config(parser_option.go_path, policy_pattern="p3")
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,"192.168.2.0"))
self.assertFalse(path_exists_in_localrib(peer3,"192.168.20.0",r=3))
self.assertTrue(path_exists_in_localrib(peer3,"192.168.200.0"))
# check show ip bgp on peer3(quagga3)
self.assertTrue(path_exists_in_routing_table(peer3, "192.168.2.0"))
self.assertFalse(path_exists_in_routing_table(peer3, "192.168.20.0",r=0))
self.assertTrue(path_exists_in_routing_table(peer3, "192.168.200.0"))
"""
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="p4")
peer1 = "10.0.0.1"
peer2 = "10.0.0.2"
peer3 = "10.0.0.3"
base_url = self.rest_url_neighbor
w = self.wait_per_retry
# add other network
tn = qaccess.login(peer2)
print "add network 192.168.20.0/24"
qaccess.add_network(tn, 65002, "192.168.20.0/24")
print "add network 192.168.200.0/24"
qaccess.add_network(tn, 65002, "192.168.200.0/24")
qaccess.logout(tn)
self.check_established(self.get_neighbor_address(self.gobgp_config))
time.sleep(self.initial_wait_time)
def path_exists_in_localrib(peer, prefix,r=10):
paths = util.get_paths_in_localrib(base_url, peer, prefix, retry=r, interval=w)
return paths is not None
def path_exists_in_routing_table(peer, prefix,r=10):
qpath = util.get_routing_table(peer, prefix, retry=r, interval=w)
return qpath is not None
def path_exists_in_adj_rib_in(peer, prefix,r=10):
path = util.get_adj_rib_in(base_url, peer, prefix, retry=r, interval=w)
return path is not None
def path_exists_in_adj_rib_out(peer, prefix,r=10):
path = util.get_adj_rib_out(base_url, peer, prefix, retry=r, interval=w)
return path is not None
self.assertTrue(path_exists_in_localrib(peer1,"192.168.2.0"))
self.assertTrue(path_exists_in_localrib(peer1,"192.168.20.0"))
self.assertTrue(path_exists_in_localrib(peer1,"192.168.200.0"))
# check peer3 local-rib
self.assertTrue(path_exists_in_localrib(peer3,"192.168.2.0"))
self.assertTrue(path_exists_in_localrib(peer3,"192.168.20.0"))
self.assertTrue(path_exists_in_localrib(peer3,"192.168.200.0"))
# check peer3 rib-out
self.assertTrue(path_exists_in_adj_rib_out(peer3,"192.168.2.0/24"))
self.assertFalse(path_exists_in_adj_rib_out(peer3,"192.168.20.0/24",r=3))
self.assertFalse(path_exists_in_adj_rib_out(peer3,"192.168.200.0/24",r=3))
# check show ip bgp on peer1(quagga1)
self.assertTrue(path_exists_in_routing_table(peer1, "192.168.2.0"))
self.assertTrue(path_exists_in_routing_table(peer1, "192.168.20.0"))
self.assertTrue(path_exists_in_routing_table(peer1, "192.168.200.0"))
# check show ip bgp on peer3(quagga3)
self.assertTrue(path_exists_in_routing_table(peer3, "192.168.2.0"))
self.assertFalse(path_exists_in_routing_table(peer3, "192.168.20.0",r=3))
self.assertFalse(path_exists_in_routing_table(peer3, "192.168.200.0",r=0))
# check adj-rib-out in peer2
peer2 = "10.0.0.2"
self.assertTrue(path_exists_in_adj_rib_in(peer2, "192.168.2.0/24"))
self.assertTrue(path_exists_in_adj_rib_in(peer2, "192.168.20.0/24"))
self.assertTrue(path_exists_in_adj_rib_in(peer2, "192.168.200.0/24"))
# update policy
print "update_policy_config"
fab.update_policy_config(parser_option.go_path, policy_pattern="p4")
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,"192.168.2.0"))
self.assertTrue(path_exists_in_localrib(peer3,"192.168.20.0"))
self.assertTrue(path_exists_in_localrib(peer3,"192.168.200.0"))
# check local-adj-out-rib
self.assertTrue(path_exists_in_adj_rib_out(peer3, "192.168.2.0/24"))
self.assertFalse(path_exists_in_adj_rib_out(peer3, "192.168.20.0/24",r=3))
self.assertTrue(path_exists_in_adj_rib_out(peer3, "192.168.200.0/24"))
# check show ip bgp on peer3(quagga3)
self.assertTrue(path_exists_in_routing_table(peer3, "192.168.2.0"))
self.assertFalse(path_exists_in_routing_table(peer3, "192.168.20.0",r=3))
self.assertTrue(path_exists_in_routing_table(peer3, "192.168.200.0"))
def retry_until(self, neighbor_address, target_state="BGP_FSM_ESTABLISHED", retry=3):
retry_count = 0
while True:
current_state = util.get_neighbor_state(self.rest_url_neighbor, neighbor_address)
if current_state == target_state:
print "state changed to %s : %s" % (current_state, neighbor_address)
return True
else:
retry_count += 1
if retry_count > retry:
break
else:
print "current state is %s" % current_state
print "please wait more (" + str(self.wait_per_retry) + " second)"
time.sleep(self.wait_per_retry)
print "exceeded retry count : %s" % neighbor_address
return False
def soft_reset(self, neighbor_address, route_family, type="in"):
url = self.rest_url_neighbor + neighbor_address + "/softreset"+type+"/" + route_family
r = requests.post(url)
if r.status_code == requests.codes.ok:
print "Succeed"
else:
print "Failed"
def check_load_config(self):
self.gobgp_config = util.load_gobgp_config(self.gobgp_config_file)
self.quagga_configs = util.load_quagga_config(self.base_dir)
if self.gobgp_config is None:
print "Failed to read the gobgp configuration file"
return False
if len(self.quagga_configs) == 0:
print "Failed to read the quagga configuration file"
return False
return True
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])
|