blob: dc1f28106d458b8d800e1b23ffb0ed40f873acf8 [file] [log] [blame]
#
# Copyright 2016-present Ciena 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
from nose.tools import *
from scapy.all import *
from CordTestUtils import get_mac
from OnosCtrl import OnosCtrl
from OltConfig import OltConfig
from OnosFlowCtrl import OnosFlowCtrl
from onosclidriver import OnosCliDriver
#from quaggaclidriver import QuaggaCliDriver
from CordContainer import Container, Onos, Quagga
from CordTestServer import cord_test_onos_restart, cord_test_quagga_restart, cord_test_quagga_stop, cord_test_quagga_shell
from portmaps import g_subscriber_port_map
from CordLogger import CordLogger
import threading
import time
import os
import json
import pexpect
#from cli import quagga
#from quagga import *
#from cli import requires
#from cli import system
#from generic import *
log.setLevel('INFO')
class vrouter_exchange(CordLogger):
apps = ('org.onosproject.proxyarp', 'org.onosproject.hostprovider', 'org.onosproject.vrouter', 'org.onosproject.fwd')
device_id = 'of:' + get_mac()
vrouter_device_dict = { "devices" : {
"{}".format(device_id) : {
"basic" : {
"driver" : "softrouter"
}
}
},
}
zebra_conf = '''
password zebra
log stdout
service advanced-vty
!
!debug zebra rib
!debug zebra kernel
!debug zebra fpm
!
!interface eth1
! ip address 10.10.0.3/16
line vty
exec-timeout 0 0
'''
test_path = os.path.dirname(os.path.realpath(__file__))
quagga_config_path = os.path.join(test_path, '..', 'setup/quagga-config')
onos_config_path = os.path.join(test_path, '..', 'setup/onos-config')
GATEWAY = '192.168.10.50'
INGRESS_PORT = 1
EGRESS_PORT = 2
MAX_PORTS = 100
peer_list = [ ('192.168.10.1', '00:00:00:00:00:01'), ('192.168.11.1', '00:00:00:00:02:01'), ]
network_list = []
network_mask = 24
default_routes_address = ('11.10.10.0/24',)
default_peer_address = peer_list
quagga_ip = os.getenv('QUAGGA_IP')
@classmethod
def setUpClass(cls):
''' Activate the vrouter apps'''
cls.olt = OltConfig()
cls.port_map, _ = cls.olt.olt_port_map()
if not cls.port_map:
cls.port_map = g_subscriber_port_map
time.sleep(3)
cls.load_device_id()
@classmethod
def tearDownClass(cls):
'''Deactivate the vrouter apps'''
#cls.vrouter_host_unload()
cls.start_onos(network_cfg = {})
@classmethod
def load_device_id(cls):
did = OnosCtrl.get_device_id()
cls.device_id = did
cls.vrouter_device_dict = { "devices" : {
"{}".format(did) : {
"basic" : {
"driver" : "softrouter"
}
}
},
}
@classmethod
def activate_apps(cls, deactivate = False):
for app in cls.apps:
onos_ctrl = OnosCtrl(app)
if deactivate is False:
onos_ctrl.activate()
else:
onos_ctrl.deactivate()
time.sleep(2)
def cliEnter(self):
retries = 0
while retries < 3:
self.cli = OnosCliDriver(connect = True)
if self.cli.handle:
break
else:
retries += 1
time.sleep(2)
def cliExit(self):
self.cli.disconnect()
@classmethod
def onos_load_config(cls, config):
status, code = OnosCtrl.config(config)
if status is False:
log.info('JSON request returned status %d' %code)
assert_equal(status, True)
@classmethod
def vrouter_config_get(cls, networks = 4, peers = 1, peer_address = None,
route_update = None, router_address = None):
vrouter_configs = cls.generate_vrouter_conf(networks = networks, peers = peers,
peer_address = peer_address, router_address = router_address)
return vrouter_configs
##ONOS router does not support dynamic reconfigurations
#for config in vrouter_configs:
# cls.onos_load_config(config)
# time.sleep(5)
@classmethod
def vrouter_host_load(cls, peer_address = None):
index = 1
peer_info = peer_address if peer_address is not None else cls.peer_list
for host,_ in peer_info:
iface = cls.port_map[index]
index += 1
log.info('Assigning ip %s to interface %s' %(host, iface))
config_cmds = ( 'ifconfig {} 0'.format(iface),
'ifconfig {0} {1}'.format(iface, host),
'arping -I {0} {1} -c 2'.format(iface, host),
)
for cmd in config_cmds:
os.system(cmd)
@classmethod
def vrouter_host_unload(cls, peer_address = None):
index = 1
peer_info = peer_address if peer_address is not None else cls.peer_list
for host,_ in peer_info:
iface = cls.port_map[index]
index += 1
config_cmds = ('ifconfig {} 0'.format(iface), )
for cmd in config_cmds:
os.system(cmd)
@classmethod
def start_onos(cls, network_cfg = None):
if type(network_cfg) is tuple:
res = []
for v in network_cfg:
res += v.items()
config = dict(res)
else:
config = network_cfg
log.info('Restarting ONOS with new network configuration')
return cord_test_onos_restart(config = config)
@classmethod
def start_quagga(cls, networks = 4, peer_address = None, router_address = None):
log.info('Restarting Quagga container with configuration for %d networks' %(networks))
config = cls.generate_conf(networks = networks, peer_address = peer_address, router_address = router_address)
if networks <= 10000:
boot_delay = 25
else:
delay_map = [60, 100, 150, 200, 300, 450, 600, 800, 1000, 1200]
n = min(networks/100000, len(delay_map)-1)
boot_delay = delay_map[n]
cord_test_quagga_restart(config = config, boot_delay = boot_delay)
@classmethod
def generate_vrouter_conf(cls, networks = 4, peers = 1, peer_address = None, router_address = None):
num = 0
if peer_address is None:
start_peer = ( 192 << 24) | ( 168 << 16) | (10 << 8) | 0
end_peer = ( 200 << 24 ) | (168 << 16) | (10 << 8) | 0
else:
ip = peer_address[0][0]
start_ip = ip.split('.')
start_peer = ( int(start_ip[0]) << 24) | ( int(start_ip[1]) << 16) | ( int(start_ip[2]) << 8) | 0
end_peer = ((int(start_ip[0]) + 8) << 24 ) | (int(start_ip[1]) << 16) | (int(start_ip[2]) << 8) | 0
local_network = end_peer + 1
ports_dict = { 'ports' : {} }
interface_list = []
peer_list = []
for n in xrange(start_peer, end_peer, 256):
port_map = ports_dict['ports']
port = num + 1 if num < cls.MAX_PORTS - 1 else cls.MAX_PORTS - 1
device_port_key = '{0}/{1}'.format(cls.device_id, port)
try:
interfaces = port_map[device_port_key]['interfaces']
except:
port_map[device_port_key] = { 'interfaces' : [] }
interfaces = port_map[device_port_key]['interfaces']
ip = n + 2
peer_ip = n + 1
ips = '%d.%d.%d.%d/24'%( (ip >> 24) & 0xff, ( (ip >> 16) & 0xff ), ( (ip >> 8 ) & 0xff ), ip & 0xff)
peer = '%d.%d.%d.%d' % ( (peer_ip >> 24) & 0xff, ( ( peer_ip >> 16) & 0xff ), ( (peer_ip >> 8 ) & 0xff ), peer_ip & 0xff )
mac = RandMAC()._fix()
peer_list.append((peer, mac))
if num < cls.MAX_PORTS - 1:
interface_dict = { 'name' : 'b1-{}'.format(port), 'ips': [ips], 'mac' : mac }
interfaces.append(interface_dict)
interface_list.append(interface_dict['name'])
else:
interfaces[0]['ips'].append(ips)
num += 1
if num == peers:
break
quagga_dict = { 'apps': { 'org.onosproject.router' : { 'router' : {}, 'bgp' : { 'bgpSpeakers' : [] } } } }
quagga_router_dict = quagga_dict['apps']['org.onosproject.router']['router']
quagga_router_dict['ospfEnabled'] = True
quagga_router_dict['interfaces'] = interface_list
quagga_router_dict['controlPlaneConnectPoint'] = '{0}/{1}'.format(cls.device_id, peers + 1)
#bgp_speaker_dict = { 'apps': { 'org.onosproject.router' : { 'bgp' : { 'bgpSpeakers' : [] } } } }
bgp_speakers_list = quagga_dict['apps']['org.onosproject.router']['bgp']['bgpSpeakers']
speaker_dict = {}
speaker_dict['name'] = 'bgp{}'.format(peers+1)
speaker_dict['connectPoint'] = '{0}/{1}'.format(cls.device_id, peers + 1)
speaker_dict['peers'] = peer_list
bgp_speakers_list.append(speaker_dict)
cls.peer_list = peer_list
return (cls.vrouter_device_dict, ports_dict, quagga_dict)
@classmethod
def generate_conf(cls, networks = 4, peer_address = None, router_address = None):
num = 0
if router_address is None:
start_network = ( 11 << 24) | ( 10 << 16) | ( 10 << 8) | 0
end_network = ( 172 << 24 ) | ( 0 << 16) | (0 << 8) | 0
network_mask = 24
else:
ip = router_address
start_ip = ip.split('.')
network_mask = int(start_ip[3].split('/')[1])
start_ip[3] = (start_ip[3].split('/'))[0]
start_network = (int(start_ip[0]) << 24) | ( int(start_ip[1]) << 16) | ( int(start_ip[2]) << 8) | 0
end_network = (172 << 24 ) | (int(start_ip[1]) << 16) | (int(start_ip[2]) << 8) | 0
net_list = []
peer_list = peer_address if peer_address is not None else cls.peer_list
network_list = []
for n in xrange(start_network, end_network, 256):
net = '%d.%d.%d.0'%( (n >> 24) & 0xff, ( ( n >> 16) & 0xff ), ( (n >> 8 ) & 0xff ) )
network_list.append(net)
gateway = peer_list[num % len(peer_list)][0]
net_route = 'ip route {0}/{1} {2}'.format(net, network_mask, gateway)
net_list.append(net_route)
num += 1
if num == networks:
break
cls.network_list = network_list
cls.network_mask = network_mask
zebra_routes = '\n'.join(net_list)
#log.info('Zebra routes: \n:%s\n' %cls.zebra_conf + zebra_routes)
return cls.zebra_conf + zebra_routes
@classmethod
def vrouter_activate(cls, deactivate = False):
app = 'org.onosproject.vrouter'
onos_ctrl = OnosCtrl(app)
if deactivate is True:
onos_ctrl.deactivate()
else:
onos_ctrl.activate()
time.sleep(3)
@classmethod
def vrouter_configure(cls, networks = 4, peers = 1, peer_address = None,
route_update = None, router_address = None, time_expire = None, adding_new_routes = None):
vrouter_configs = cls.vrouter_config_get(networks = networks, peers = peers,
peer_address = peer_address, route_update = route_update)
cls.start_onos(network_cfg = vrouter_configs)
cls.activate_apps()
time.sleep(5)
cls.vrouter_host_load()
##Start quagga
cls.start_quagga(networks = networks, peer_address = peer_address, router_address = router_address)
return vrouter_configs
def vrouter_port_send_recv(self, ingress, egress, dst_mac, dst_ip, positive_test = True):
src_mac = '00:00:00:00:00:02'
src_ip = '1.1.1.1'
self.success = False if positive_test else True
timeout = 10 if positive_test else 1
count = 2 if positive_test else 1
self.start_sending = True
def recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s' %(pkt[IP].src, pkt[IP].dst))
self.success = True if positive_test else False
sniff(count=count, timeout=timeout,
lfilter = lambda p: IP in p and p[IP].dst == dst_ip and p[IP].src == src_ip,
prn = recv_cb, iface = self.port_map[ingress])
self.start_sending = False
t = threading.Thread(target = recv_task)
t.start()
L2 = Ether(src = src_mac, dst = dst_mac)
L3 = IP(src = src_ip, dst = dst_ip)
pkt = L2/L3
log.info('Sending a packet with dst ip %s, dst mac %s on port %s to verify if flows are correct' %
(dst_ip, dst_mac, self.port_map[egress]))
while self.start_sending is True:
sendp(pkt, count=50, iface = self.port_map[egress])
t.join()
assert_equal(self.success, True)
def vrouter_traffic_verify(self, positive_test = True, peer_address = None):
if peer_address is None:
peers = len(self.peer_list)
peer_list = self.peer_list
else:
peers = len(peer_address)
peer_list = peer_address
egress = peers + 1
num = 0
num_hosts = 5 if positive_test else 1
src_mac = '00:00:00:00:00:02'
src_ip = '1.1.1.1'
if self.network_mask != 24:
peers = 1
for network in self.network_list:
num_ips = num_hosts
octets = network.split('.')
for i in xrange(num_ips):
octets[-1] = str(int(octets[-1]) + 1)
dst_ip = '.'.join(octets)
dst_mac = peer_list[ num % peers ] [1]
port = (num % peers)
ingress = port + 1
#Since peers are on the same network
##Verify if flows are setup by sending traffic across
self.vrouter_port_send_recv(ingress, egress, dst_mac, dst_ip, positive_test = positive_test)
num += 1
def __vrouter_network_verify(self, networks, peers = 1, positive_test = True,
start_network = None, start_peer_address = None, route_update = None,
invalid_peers = None, time_expire = None, unreachable_route_traffic = None,
deactivate_activate_vrouter = None, adding_new_routes = None):
_, ports_map, egress_map = self.vrouter_configure(networks = networks, peers = peers,
peer_address = start_peer_address,
route_update = route_update,
router_address = start_network,
time_expire = time_expire,
adding_new_routes = adding_new_routes)
self.cliEnter()
##Now verify
hosts = json.loads(self.cli.hosts(jsonFormat = True))
log.info('Discovered hosts: %s' %hosts)
##We read from cli if we expect less number of routes to avoid cli timeouts
if networks <= 10000:
routes = json.loads(self.cli.routes(jsonFormat = True))
#log.info('Routes: %s' %routes)
if start_network is not None:
if start_network.split('/')[1] is 24:
assert_equal(len(routes['routes4']), networks)
if start_network.split('/')[1] is not 24:
assert_equal(len(routes['routes4']), 1)
if start_network is None and invalid_peers is None:
assert_equal(len(routes['routes4']), networks)
if invalid_peers is not None:
assert_equal(len(routes['routes4']), 0)
flows = json.loads(self.cli.flows(jsonFormat = True))
flows = filter(lambda f: f['flows'], flows)
#log.info('Flows: %s' %flows)
assert_not_equal(len(flows), 0)
if invalid_peers is None:
self.vrouter_traffic_verify()
if positive_test is False:
self.__vrouter_network_verify_negative(networks, peers = peers)
if time_expire is True:
self.start_quagga(networks = networks, peer_address = start_peer_address, router_address = '12.10.10.1/24')
self.vrouter_traffic_verify()
if unreachable_route_traffic is True:
network_list_backup = self.network_list
self.network_list = ['2.2.2.2','3.3.3.3','4.4.4.4','5.5.5.5']
self.vrouter_traffic_verify(positive_test = False)
self.network_list = network_list_backup
if deactivate_activate_vrouter is True:
log.info('Deactivating vrouter app in ONOS controller for negative scenario')
self.vrouter_activate(deactivate = True)
#routes = json.loads(self.cli.routes(jsonFormat = False, cmd_exist = False))
#assert_equal(len(routes['routes4']), 'Command not found')
log.info('Activating vrouter app again in ONOS controller for negative scenario')
self.vrouter_activate(deactivate = False)
routes = json.loads(self.cli.routes(jsonFormat = True))
assert_equal(len(routes['routes4']), networks)
self.vrouter_traffic_verify()
self.cliExit()
self.vrouter_host_unload()
return True
def __vrouter_network_verify_negative(self, networks, peers = 1):
##Stop quagga. Test traffic again to see if flows were removed
log.info('Stopping Quagga container')
cord_test_quagga_stop()
if networks <= 10000:
routes = json.loads(self.cli.routes(jsonFormat = True))
#Verify routes have been removed
if routes and routes.has_key('routes4'):
assert_equal(len(routes['routes4']), 0)
self.vrouter_traffic_verify(positive_test = False)
log.info('OVS flows have been removed successfully after Quagga was stopped')
self.start_quagga(networks = networks)
##Verify the flows again after restarting quagga back
if networks <= 10000:
routes = json.loads(self.cli.routes(jsonFormat = True))
assert_equal(len(routes['routes4']), networks)
self.vrouter_traffic_verify()
log.info('OVS flows have been successfully reinstalled after Quagga was restarted')
def quagga_shell(self, cmd):
shell_cmds = ('vtysh', '"conf t"', '"{}"'.format(cmd))
quagga_cmd = ' -c '.join(shell_cmds)
return cord_test_quagga_shell(quagga_cmd)
def test_vrouter_with_5_routes(self):
res = self.__vrouter_network_verify(5, peers = 1)
assert_equal(res, True)
def test_vrouter_with_5_routes_2_peers(self):
res = self.__vrouter_network_verify(5, peers = 2)
assert_equal(res, True)
def test_vrouter_with_6_routes_3_peers(self):
res = self.__vrouter_network_verify(6, peers = 3)
assert_equal(res, True)
def test_vrouter_with_50_routes(self):
res = self.__vrouter_network_verify(50, peers = 1)
assert_equal(res, True)
def test_vrouter_with_50_routes_5_peers(self):
res = self.__vrouter_network_verify(50, peers = 5)
assert_equal(res, True)
def test_vrouter_with_100_routes(self):
res = self.__vrouter_network_verify(100, peers = 1)
assert_equal(res, True)
def test_vrouter_with_100_routes_10_peers(self):
res = self.__vrouter_network_verify(100, peers = 10)
assert_equal(res, True)
def test_vrouter_with_300_routes(self):
res = self.__vrouter_network_verify(300, peers = 1)
assert_equal(res, True)
def test_vrouter_with_1000_routes(self):
res = self.__vrouter_network_verify(1000, peers = 1)
assert_equal(res, True)
def test_vrouter_with_10000_routes(self):
res = self.__vrouter_network_verify(10000, peers = 1)
assert_equal(res, True)
@nottest
def test_vrouter_with_100000_routes(self):
res = self.__vrouter_network_verify(100000, peers = 1)
assert_equal(res, True)
@nottest
def test_vrouter_with_1000000_routes(self):
res = self.__vrouter_network_verify(1000000, peers = 1)
assert_equal(res, True)
def test_vrouter_with_5_routes_stopping_quagga(self):
res = self.__vrouter_network_verify(5, peers = 1, positive_test = False)
def test_vrouter_with_50_routes_stopping_quagga(self):
res = self.__vrouter_network_verify(50, peers = 1, positive_test = False)
def test_vrouter_with_route_update(self):
res = self.__vrouter_network_verify(5, peers = 2, positive_test = True)
assert_equal(res, True)
peer_info = [('192.168.20.1', '00:00:00:00:01:01'), ('192.168.21.1', '00:00:00:00:02:01')]
res = self.__vrouter_network_verify(5, peers = 2, positive_test = True,
start_peer_address = peer_info, route_update = True)
assert_equal(res, True)
def test_vrouter_with_classA_route_update(self):
router_address = '11.10.10.0/8'
res = self.__vrouter_network_verify(1, peers = 1, positive_test = True, start_network = router_address)
assert_equal(res, True)
def test_vrouter_with_classB_route_update(self):
router_address = '11.10.10.0/16'
res = self.__vrouter_network_verify(1, peers = 1, positive_test = True, start_network = router_address)
assert_equal(res, True)
def test_vrouter_with_classless_route_update(self):
router_address = '11.10.10.0/12'
res = self.__vrouter_network_verify(1, peers = 1, positive_test = True, start_network = router_address)
assert_equal(res, True)
def test_vrouter_with_classA_duplicate_route_update(self):
router_address = '11.10.10.0/8'
res = self.__vrouter_network_verify(5, peers = 1, positive_test = True, start_network = router_address)
assert_equal(res, True)
def test_vrouter_with_classB_duplicate_route_update(self):
router_address = '11.10.10.0/16'
res = self.__vrouter_network_verify(5, peers = 1, positive_test = True, start_network = router_address)
assert_equal(res, True)
def test_vrouter_with_classless_duplicate_route_update(self):
router_address = '11.10.10.0/12'
res = self.__vrouter_network_verify(5, peers = 1, positive_test = True, start_network = router_address)
assert_equal(res, True)
def test_vrouter_with_invalid_peers(self):
peer_info = [('239.255.255.250', '00:00:00:00:01:01'), ('239.255.255.240', '00:00:00:00:02:01')]
res = self.__vrouter_network_verify(5, peers = 2, positive_test = True,
start_peer_address = peer_info, invalid_peers= True)
assert_equal(res, True)
@nottest
def test_vrouter_with_traffic_sent_between_peers_connected_to_onos(self):
res = self.__vrouter_network_verify(5, peers = 2, positive_test = True, traffic_running_between_peers = True)
assert_equal(res, True)
@nottest
def test_vrouter_with_routes_time_expire(self):
res = self.__vrouter_network_verify(5, peers = 2, positive_test = True, time_expire = True)
assert_equal(res, True)
def test_vrouter_with_unreachable_route(self):
res = self.__vrouter_network_verify(5, peers = 2, positive_test = True, unreachable_route_traffic = True)
assert_equal(res, True)
@nottest
def test_vrouter_with_enabling_disabling_vrouter_app(self):
res = self.__vrouter_network_verify(5, peers = 2, positive_test = True, deactivate_activate_vrouter = True)
assert_equal(res, True)
def test_vrouter_with_adding_new_routes_in_routing_table(self):
res = self.__vrouter_network_verify(5, peers = 2, positive_test = True)
cmd = 'ip route 21.10.20.0/24 192.168.10.1'
self.quagga_shell(cmd)
self.vrouter_traffic_verify()
self.network_list = [ '21.10.20.0' ]
self.network_mask = 24
self.vrouter_traffic_verify()
assert_equal(res, True)
def test_vrouter_with_removing_old_routes_in_routing_table(self):
res = self.__vrouter_network_verify(5, peers = 2, positive_test = True)
cmd = 'ip route 21.10.20.0/24 192.168.10.1'
self.quagga_shell(cmd)
self.vrouter_traffic_verify()
old_network_list = self.network_list
old_network_mask = self.network_mask
self.network_list = [ '21.10.20.0' ]
self.network_mask = 24
self.vrouter_traffic_verify()
assert_equal(res, True)
cmd = 'no ip route 21.10.20.0/24 192.168.10.1'
self.quagga_shell(cmd)
time.sleep(5)
self.vrouter_traffic_verify(positive_test = False)
self.network_mask = old_network_mask
self.network_list = old_network_list
self.vrouter_traffic_verify(positive_test = True)
def test_vrouter_modifying_nexthop_route_in_routing_table(self):
peer_info = [('192.168.10.1', '00:00:00:00:01:01'), ('192.168.11.1', '00:00:00:00:02:01')]
router_address = '11.10.10.0/24'
res = self.__vrouter_network_verify(1, peers = 1, positive_test = True,
start_peer_address = peer_info, start_network = router_address)
cmd = 'ip route 11.10.10.0/24 192.168.20.1'
self.quagga_shell(cmd)
self.vrouter_traffic_verify(positive_test = True)
assert_equal(res, True)
def test_vrouter_deleting_alternative_nexthop_in_routing_table(self):
peer_info = [('192.168.10.1', '00:00:00:00:01:01'), ('192.168.11.1', '00:00:00:00:02:01')]
router_address = '11.10.10.0/24'
res = self.__vrouter_network_verify(1, peers = 2, positive_test = True,
start_peer_address = peer_info, start_network = router_address)
cmd = 'no ip route 11.10.10.0/24 192.168.10.1'
self.quagga_shell(cmd)
time.sleep(5)
self.vrouter_traffic_verify(positive_test = False)
assert_equal(res, True)
def test_vrouter_deleting_some_routes_in_routing_table(self):
peer_info = [('192.168.10.1', '00:00:00:00:01:01'), ('192.168.11.1', '00:00:00:00:02:01')]
router_address = '11.10.10.0/24'
res = self.__vrouter_network_verify(10, peers = 2, positive_test = True,
start_peer_address = peer_info, start_network = router_address)
cmd = 'no ip route 11.10.10.0/24 192.168.10.1'
self.quagga_shell(cmd)
cmd = 'no ip route 11.10.13.0/24 192.168.11.1'
self.quagga_shell(cmd)
cmd = 'no ip route 11.10.14.0/24 192.168.10.1'
self.quagga_shell(cmd)
self.vrouter_traffic_verify(positive_test = True)
assert_equal(res, True)
def test_vrouter_deleting_and_adding_routes_in_routing_table(self):
peer_info = [('192.168.10.1', '00:00:00:00:01:01'), ('192.168.11.1', '00:00:00:00:02:01')]
router_address = '11.10.10.0/24'
res = self.__vrouter_network_verify(1, peers = 1, positive_test = True, start_peer_address = peer_info, start_network = router_address)
cmd = 'no ip route 11.10.10.0/24 192.168.10.1'
self.quagga_shell(cmd)
cmd = 'ip route 11.10.10.0/24 192.168.10.1'
self.quagga_shell(cmd)
self.vrouter_traffic_verify(positive_test = True)
assert_equal(res, True)
def test_vrouter_toggling_nexthop_interface(self):
peer_info = [('192.168.10.1', '00:00:00:00:01:01'), ('192.168.11.1', '00:00:00:00:02:01')]
router_address = '11.10.10.0/24'
res = self.__vrouter_network_verify(1, peers = 1, positive_test = True, start_peer_address = peer_info, start_network = router_address)
iface = self.port_map[1]
#toggle the interface to trigger host removal.
cmds = ('ifconfig {} down'.format(iface),
'sleep 2',
'ifconfig {} 0'.format(iface),)
for cmd in cmds:
os.system(cmd)
self.vrouter_traffic_verify(positive_test = False)
host = "192.168.10.1"
cmd = 'ifconfig {0} {1} up'.format(iface, host)
os.system(cmd)
#wait for arp refresh
time.sleep(60)
self.vrouter_traffic_verify(positive_test = True)
assert_equal(res, True)