blob: dc8bf7954306abae95a2fe359332ebc5d737c38c [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 nose.twistedtools import reactor, deferred
from twisted.internet import defer
from scapy.all import *
import time
import json
import threading
import os
from OnosCtrl import OnosCtrl
from OnosFlowCtrl import OnosFlowCtrl
from OltConfig import OltConfig
from CordLogger import CordLogger
import random
from threading import current_thread
import collections
log.setLevel('INFO')
class flows_exchange(CordLogger):
#Use the first available device id as our device id to program flows
app = 'org.onosproject.cli'
PORT_TX_DEFAULT = 2
PORT_RX_DEFAULT = 1
INTF_TX_DEFAULT = 'veth2'
INTF_RX_DEFAULT = 'veth0'
default_port_map = {
PORT_TX_DEFAULT : INTF_TX_DEFAULT,
PORT_RX_DEFAULT : INTF_RX_DEFAULT,
INTF_TX_DEFAULT : PORT_TX_DEFAULT,
INTF_RX_DEFAULT : PORT_RX_DEFAULT
}
def incmac(self, mac):
tmp = str(hex(int('0x'+mac,16)+1).split('x')[1])
mac = '0'+ tmp if len(tmp) < 2 else tmp
return mac
def next_mac(self, mac):
mac = mac.split(":")
mac[5] = self.incmac(mac[5])
if len(mac[5]) > 2:
mac[0] = self.incmac(mac[0])
mac[5] = '01'
if len(mac[0]) > 2:
mac[0] = '01'
mac[1] = self.incmac(mac[1])
mac[5] = '01'
return ':'.join(mac)
def to_egress_mac(cls, mac):
mac = mac.split(":")
mac[4] = '01'
return ':'.join(mac)
def inc_ip(self, ip, i):
ip[i] =str(int(ip[i])+1)
return '.'.join(ip)
def next_ip(self, ip):
lst = ip.split('.')
for i in (3,0,-1):
if int(lst[i]) < 255:
return self.inc_ip(lst, i)
elif int(lst[i]) == 255:
lst[i] = '0'
if int(lst[i-1]) < 255:
return self.inc_ip(lst,i-1)
elif int(lst[i-2]) < 255:
lst[i-1] = '0'
return self.inc_ip(lst,i-2)
else:
break
def to_egress_ip(self, ip):
lst=ip.split('.')
lst[0] = '182'
return '.'.join(lst)
@classmethod
def setUpClass(cls):
cls.olt = OltConfig()
cls.port_map, _ = cls.olt.olt_port_map()
if not cls.port_map:
cls.port_map = cls.default_port_map
cls.device_id = OnosCtrl.get_device_id()
num_ports = len(cls.port_map['ports'] + cls.port_map['relay_ports'])
cls.port_offset = int(os.getenv('TEST_INSTANCE', 0)) * num_ports
def test_flow_mac(self):
'''Test Add and verify flows with MAC selectors'''
egress = 1
ingress = 2
egress_mac = '00:00:00:00:00:01'
ingress_mac = '00:00:00:00:00:02'
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
self.success = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == ingress_mac,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = ingress_mac, dst = egress_mac)/IP()
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_ip(self):
'''Test Add and verify flows with IPv4 selectors'''
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1' }
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethType = '0x0800',
ipSrc = ('IPV4_SRC', ingress_map['ip']+'/32'),
ipDst = ('IPV4_DST', egress_map['ip']+'/32')
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_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
sniff(count=2, timeout=5,
lfilter = lambda p: IP in p and p[IP].dst == egress_map['ip'] and p[IP].src == ingress_map['ip'],
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])
pkt = L2/L3
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_tcp_port(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1', 'tcp_port': 9500 }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1', 'tcp_port': 9000 }
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
tcpSrc = ingress_map['tcp_port'],
tcpDst = egress_map['tcp_port']
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress TCP port %s, egress TCP port %s' %(pkt[TCP].sport, pkt[TCP].dport))
self.success = True
sniff(count=2, timeout=5, lfilter = lambda p: TCP in p and p[TCP].dport == egress_map['tcp_port']
and p[TCP].sport == ingress_map['tcp_port'], prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])
L4 = TCP(sport = ingress_map['tcp_port'], dport = egress_map['tcp_port'])
pkt = L2/L3/L4
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_udp_port(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1', 'udp_port': 9500 }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1', 'udp_port': 9000 }
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
udpSrc = ingress_map['udp_port'],
udpDst = egress_map['udp_port']
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress UDP port %s, egress UDP port %s' %(pkt[UDP].sport, pkt[UDP].dport))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: UDP in p and p[UDP].dport == egress_map['udp_port']
and p[UDP].sport == ingress_map['udp_port'], prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])
L4 = UDP(sport = ingress_map['udp_port'], dport = egress_map['udp_port'])
pkt = L2/L3/L4
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
@nottest
def test_flow_vlan(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:00:01'
ingress_mac = '00:00:00:00:00:02'
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac,
vlan = 0x10)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
log.info('Pkt:%s', pkt.show())
self.success = True
sniff(count=2, timeout=5, lfilter = lambda p:p.src == ingress_mac,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = ingress_mac, dst = egress_mac)/Dot1Q(vlan = 0x10)/IP()
log.info("Sending Packet:%s",pkt.show())
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_ipv6(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002' }
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethType = '0x86dd',
ipSrc = ('IPV6_SRC', ingress_map['ipv6'] + '/48'),
ipDst = ('IPV6_DST', egress_map['ipv6'] + '/48')
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s' %(pkt[IPv6].src, pkt[IPv6].dst))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: IPv6 in p and p[IPv6].dst == egress_map['ipv6'] and p[IPv6].src == ingress_map['ipv6'],
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'] , dst = egress_map['ipv6'])
pkt = L2/L3
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_ipv6_flow_label(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002' }
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ipv6flow_label = 25
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s with flow label %s' %(pkt[IPv6].src, pkt[IPv6].dst, pkt[IPv6].fl))
self.success = True
sniff(count=2, timeout=5, lfilter = lambda p: IPv6 in p and p[IPv6].dst == egress_map['ipv6']
and p[IPv6].src == ingress_map['ipv6'] and p[IPv6].fl == 25, prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'] , dst = egress_map['ipv6'], fl = 25)
pkt = L2/L3
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_ipv6_extension_header(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002' }
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ipv6_extension = 0,
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s, Extension Header Type %s' %(pkt[IPv6].src, pkt[IPv6].dst, pkt[IPv6].nh))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: IPv6 in p and p[IPv6].nh == 0, prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'] , dst = egress_map['ipv6'], nh = 0)
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_ipv6_available_extension_headers(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002' }
for i in [0, 60, 43, 44, 51, 50, 135]:
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ipv6_extension = i,
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s, Extension Header Type %s' %(pkt[IPv6].src, pkt[IPv6].dst, pkt[IPv6].nh))
self.success = True
sniff(count=2, timeout=5, lfilter = lambda p: IPv6 in p and p[IPv6].nh == i,
prn = recv_cb, iface = self.port_map[egress])
for i in [0, 60, 43, 44, 51, 50, 135]:
self.success = False
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'] , dst = egress_map['ipv6'], nh = i)
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_dscp(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1' }
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
dscp = 32
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s and Type of Service %s' %(pkt[IP].src, pkt[IP].dst, pkt[IP].tos))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: IP in p and p[IP].dst == egress_map['ip'] and p[IP].src == ingress_map['ip']
and p[IP].tos == 32,prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'], tos = 32)
pkt = L2/L3
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_available_dscp(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1' }
dscp = [184, 0, 40, 48, 56, 72, 80, 88, 104, 112, 120, 136, 144, 152, 32, 64, 96, 128, 160, 192, 224]
for i in dscp:
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
dscp = i
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s and Type of Service %s' %(pkt[IP].src, pkt[IP].dst, pkt[IP].tos))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: IP in p and p[IP].dst == egress_map['ip'] and p[IP].src == ingress_map['ip']
and p[IP].tos == i,prn = recv_cb, iface = self.port_map[egress])
for i in dscp:
self.success = False
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'], tos = i)
pkt = L2/L3
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_ecn(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1' }
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ecn = 1
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s and Type of Service %s' %(pkt[IP].src, pkt[IP].dst, pkt[IP].tos))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: IP in p and p[IP].dst == egress_map['ip'] and p[IP].src == ingress_map['ip']
and int(bin(p[IP].tos).split('b')[1][-2:],2) == 1,prn = recv_cb,
iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'], tos = 1)
pkt = L2/L3
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_available_ecn(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1' }
for i in range(4):
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ecn = i
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s and Type of Service %s' %(pkt[IP].src, pkt[IP].dst, pkt[IP].tos))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: IP in p and p[IP].dst == egress_map['ip'] and p[IP].src == ingress_map['ip']
and int(bin(p[IP].tos).split('b')[1][-2:],2) == i,prn = recv_cb,
iface = self.port_map[egress])
for i in range(4):
self.success = False
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'], tos = i)
pkt = L2/L3
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_available_dscp_and_ecn(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1' }
dscp = [46, 0, 10, 12, 14, 18, 20, 22, 26, 28, 30, 34, 36, 38, 8, 16, 24, 32, 40, 48, 56]
for i in dscp:
for j in (0,1,2,3):
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
dscp = i,
ecn = j
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s and Type of Service %s' %(pkt[IP].src, pkt[IP].dst, pkt[IP].tos))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: IP in p and p[IP].tos == int(bin(i).split('b')[1]+ bin(j).split('b')[1],2)
,prn = recv_cb, iface = self.port_map[egress])
for i in dscp:
for j in (0,1,2,3):
self.success = False
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'], tos = int(bin(i).split('b')[1]+ bin(j).split('b')[1],2))
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_icmp(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1' }
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
icmpv4_type = '3',
icmpv4_code = 8
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ICMP type %s, ICMP code %s' %(pkt[ICMP].type, pkt[ICMP].code))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: ICMP in p and p[ICMP].type == 3 and p[ICMP].code == 8,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])/ICMP(type = 3, code = 8)
pkt = L2/L3
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_icmp_different_types(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1' }
icmp = {'11': [0, 1], '10': 0, '0': 0, '3': [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15],
'5': [1, 2, 3], '4': 0, '9': 0, '8': 0}
for type,code in icmp.items():
if isinstance(code, list):
for i in code:
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
icmpv4_type = type,
icmpv4_code = i
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
else:
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
icmpv4_type = type,
icmpv4_code = code
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ICMP type %s, ICMP code %s' %(pkt[ICMP].type, pkt[ICMP].code))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: ICMP in p and p[ICMP].type == 3 and p[ICMP].code == 8,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])/ICMP(type = 3, code = 8)
pkt = L2/L3
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_icmpv6_EchoRequest(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001'}
ingress_map = { 'ether': '00:00:00:00:00:04','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002'}
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
icmpv6_type = '128',
icmpv6_code = 0
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ICMPv6 type %s, ICMPv6 code %s' %(pkt[ICMPv6EchoRequest].type, pkt[ICMPv6EchoRequest].code))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: ICMPv6EchoRequest in p and p[ICMPv6EchoRequest].type == 128 and p[ICMPv6EchoRequest].code == 0,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'], dst = egress_map['ipv6'])/ICMPv6EchoRequest()
pkt = L2/L3
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_icmpv6_EchoReply(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001'}
ingress_map = { 'ether': '00:00:00:00:00:04','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002' }
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
icmpv6_type = '129',
icmpv6_code = 0
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ICMPv6 type %s, ICMPv6 code %s' %(pkt[ICMPv6EchoReply].type, pkt[ICMPv6EchoReply].code))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: ICMPv6EchoReply in p and p[ICMPv6EchoReply].type == 129 and p[ICMPv6EchoReply].code == 0,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'], dst = egress_map['ipv6'])/ICMPv6EchoReply()
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_icmpv6_DestUnreachable(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001'}
ingress_map = { 'ether': '00:00:00:00:00:04','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002' }
for i in range(8):
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
icmpv6_type = '1',
icmpv6_code = i
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
for i in range(8):
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ICMPv6 type %s, ICMPv6 code %s' %(pkt[ICMPv6DestUnreach].type, pkt[ICMPv6DestUnreach].code))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: ICMPv6DestUnreach in p and p[ICMPv6DestUnreach].type == 1 and p[ICMPv6DestUnreach].code == i,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'], dst = egress_map['ipv6'])/ICMPv6DestUnreach(code = i)
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_icmpv6_PacketTooBig(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001'}
ingress_map = { 'ether': '00:00:00:00:00:04','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002' }
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
icmpv6_type = '2',
icmpv6_code = 0
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ICMPv6 type %s, ICMPv6 code %s' %(pkt[ICMPv6PacketTooBig].type, pkt[ICMPv6PacketTooBig].code))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: ICMPv6PacketTooBig in p and p[ICMPv6PacketTooBig].type == 2 and p[ICMPv6PacketTooBig].code == 0,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'], dst = egress_map['ipv6'])/ICMPv6PacketTooBig()
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_icmpv6_TimeExceeded(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001'}
ingress_map = { 'ether': '00:00:00:00:00:04','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002' }
for i in range(2):
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
icmpv6_type = '3',
icmpv6_code = i
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
for i in range(2):
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ICMPv6 type %s, ICMPv6 code %s' %(pkt[ICMPv6TimeExceeded].type, pkt[ICMPv6TimeExceeded].code))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: ICMPv6TimeExceeded in p and p[ICMPv6TimeExceeded].type == 3 and p[ICMPv6TimeExceeded].code == i,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'], dst = egress_map['ipv6'])/ICMPv6TimeExceeded(code = i)
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_icmpv6_ParameterProblem(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001'}
ingress_map = { 'ether': '00:00:00:00:00:04','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002' }
for i in range(3):
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
icmpv6_type = '4',
icmpv6_code = i
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
for i in range(3):
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ICMPv6 type %s, ICMPv6 code %s' %(pkt[ICMPv6ParamProblem].type, pkt[ICMPv6ParamProblem].code))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: ICMPv6ParamProblem in p and p[ICMPv6ParamProblem].type == 4 and p[ICMPv6ParamProblem].code == i,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'], dst = egress_map['ipv6'])/ICMPv6ParamProblem(code = i)
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_icmpv6_ND_Target_address(self):
egress = 1
ingress = 2
ingress_map = { 'ether': '00:00:00:00:00:04','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002'}
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ipv6_target = '2001:db8:a0b:12f0:1010:1010:1010:1001')
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ICMPv6 Neighbor Discovery type %s, target address %s' %(pkt[ICMPv6ND_NS].type, pkt[ICMPv6ND_NS].tgt))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: ICMPv6ND_NS in p and p[ICMPv6ND_NS].tgt == '2001:db8:a0b:12f0:1010:1010:1010:1001',
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'])/ICMPv6ND_NS(tgt = '2001:db8:a0b:12f0:1010:1010:1010:1001')
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_icmpv6_ND_SLL(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001'}
ingress_map = { 'ether': '00:00:00:00:00:04','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002'}
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ipv6_sll = ingress_map['ether'])
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ICMPv6 Neighbor Discovery type %s, Source Link Layer address %s' %(pkt[ICMPv6ND_NS].type, pkt[ICMPv6NDOptSrcLLAddr].lladdr))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: ICMPv6NDOptSrcLLAddr in p and p[ICMPv6NDOptSrcLLAddr].lladdr == ingress_map['ether'],
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'])#, dst = ingress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'], dst = egress_map['ipv6'])/ICMPv6ND_NS(tgt = egress_map['ipv6'])/ICMPv6NDOptSrcLLAddr(lladdr = ingress_map['ether'])
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_icmpv6_NA_TLL(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001'}
ingress_map = { 'ether': '00:00:00:00:00:04','ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002'}
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ipv6_tll = egress_map['ether'])
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ICMPv6 Neighbor Advertisement type %s, Target Link Layer address %s' %(pkt[ICMPv6ND_NA].type, pkt[ICMPv6NDOptDstLLAddr].lladdr))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: ICMPv6NDOptDstLLAddr in p and p[ICMPv6NDOptDstLLAddr].lladdr == ingress_map['ether'],
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'])#, dst = ingress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'], dst = egress_map['ipv6'])/ICMPv6ND_NA(tgt = ingress_map['ipv6'])/ICMPv6NDOptDstLLAddr(lladdr = ingress_map['ether'])
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_flow_ipv6_and_icmpv6(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1001' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ipv6': '2001:db8:a0b:12f0:1010:1010:1010:1002' }
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethType = '0x86dd',
ipSrc = ('IPV6_SRC', ingress_map['ipv6'] + '/48'),
ipDst = ('IPV6_DST', egress_map['ipv6'] + '/48'),
icmpv6_type = '128',
icmpv6_code = 0
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s' %(pkt[IPv6].src, pkt[IPv6].dst))
self.success = True
sniff(count=2, timeout=5,
lfilter = lambda p: IPv6 in p and p[IPv6].dst == egress_map['ipv6'] and p[IPv6].src == ingress_map['ipv6']
and p[ICMPv6EchoRequest].type == 128 and p[ICMPv6EchoRequest].code == 0, prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IPv6(src = ingress_map['ipv6'] , dst = egress_map['ipv6'])/ICMPv6EchoRequest()
pkt = L2/L3
log.info('Sending a packet to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_5_flow_constant_dst_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:01'
ingress_mac = '00:00:00:00:00:00'
for i in range(0,5):
ingress_mac = self.next_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
self.success = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == '00:00:00:00:00:02',
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = '00:00:00:00:00:02', dst = egress_mac)/IP()
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_500_flow_constant_dst_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:01'
ingress_mac = '00:00:00:00:00:00'
success_dir = {}
for i in range(0,500):
ingress_mac = self.next_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == random_src,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = random_src, dst = egress_mac)/IP()
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:01')
t2 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:' + hex(random.randrange(50,254)).split('x')[1])
t3 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(16,100)).split('x')[1])
t4 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(101,240)).split('x')[1])
t5 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:f5')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
if len(success_dir) != 5:
self.success = False
assert_equal(self.success, True)
def test_1k_flow_constant_dst_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:01'
ingress_mac = '00:00:00:00:00:00'
success_dir = {}
for i in range(0,1000):
ingress_mac = self.next_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == random_src,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = random_src, dst = egress_mac)/IP()
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:01')
t2 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:' + hex(random.randrange(50,254)).split('x')[1])
t3 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:09')
t4 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(16,150)).split('x')[1])
t5 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(151,250)).split('x')[1])
t6 = threading.Thread(target = verify_flow, args = '02:00:00:00:00:08')
t7 = threading.Thread(target = verify_flow, args = '02:00:00:00:00:' + hex(random.randrange(16,150)).split('x')[1])
t8 = threading.Thread(target = verify_flow, args = '02:00:00:00:00:' + hex(random.randrange(151,250)).split('x')[1])
t9 = threading.Thread(target = verify_flow, args = '03:00:00:00:00:'+ hex(random.randrange(16,175)).split('x')[1])
t10 = threading.Thread(target = verify_flow, args = '03:00:00:00:00:eb')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
@nottest
def test_10k_flow_constant_dst_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:01'
ingress_mac = '00:00:00:00:00:00'
success_dir = {}
for i in range(0,10000):
ingress_mac = self.next_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == random_src,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = random_src, dst = egress_mac)/IP()
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:01')
t2 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t3 = threading.Thread(target = verify_flow, args = '02:00:00:00:00:'+ hex(random.randrange(16,254)).split('x')[1])
t4 = threading.Thread(target = verify_flow, args = '05:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t5 = threading.Thread(target = verify_flow, args = '07:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t6 = threading.Thread(target = verify_flow, args = hex(random.randrange(16,21)).split('x')[1] + ':00:00:00:00:08')
t7 = threading.Thread(target = verify_flow, args = hex(random.randrange(17,21)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t8 = threading.Thread(target = verify_flow, args = hex(random.randrange(22,30)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t9 = threading.Thread(target = verify_flow, args = hex(random.randrange(31,38)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t10 = threading.Thread(target = verify_flow, args = '27:00:00:00:00:37')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
@nottest
def test_100k_flow_constant_dst_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:01'
ingress_mac = '00:00:00:00:00:00'
success_dir = {}
for i in range(0,100000):
ingress_mac = self.next_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == random_src,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = random_src, dst = egress_mac)/IP()
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:01')
t2 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t3 = threading.Thread(target = verify_flow, args = '02:00:00:00:00:'+ hex(random.randrange(16,254)).split('x')[1])
t4 = threading.Thread(target = verify_flow, args = '05:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t5 = threading.Thread(target = verify_flow, args = '07:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t6 = threading.Thread(target = verify_flow, args = hex(random.randrange(16,41)).split('x')[1] + ':00:00:00:00:08')
t7 = threading.Thread(target = verify_flow, args = hex(random.randrange(42,72)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t8 = threading.Thread(target = verify_flow, args = hex(random.randrange(73,100)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t9 = threading.Thread(target = verify_flow, args = hex(random.randrange(101,136)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t10 = threading.Thread(target = verify_flow, args = '89:01:00:00:00:28')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
@nottest
def test_1000k_flow_constant_dst_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:01'
ingress_mac = '00:00:00:00:00:00'
success_dir = {}
for i in range(0,1000000):
ingress_mac = self.next_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == random_src,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = random_src, dst = egress_mac)/IP()
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:01')
t2 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t3 = threading.Thread(target = verify_flow, args = '02:00:00:00:00:'+ hex(random.randrange(16,254)).split('x')[1])
t4 = threading.Thread(target = verify_flow, args = '05:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t5 = threading.Thread(target = verify_flow, args = '07:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t6 = threading.Thread(target = verify_flow, args = hex(random.randrange(16,21)).split('x')[1] + ':00:00:00:00:08')
t7 = threading.Thread(target = verify_flow, args = hex(random.randrange(22,50)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t8 = threading.Thread(target = verify_flow, args = hex(random.randrange(51,75)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t9 = threading.Thread(target = verify_flow, args = hex(random.randrange(76,95)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t10 = threading.Thread(target = verify_flow, args = '60:0f:00:00:00:91')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
def test_5_flow_constant_src_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:00'
ingress_mac = '00:00:00:00:00:01'
for i in range(0,5):
egress_mac = self.next_mac(egress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = False
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
self.success = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == '00:00:00:00:00:01' and p.dst == '00:00:00:00:01:02',
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = ingress_mac, dst = '00:00:00:00:01:02')/IP()
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
assert_equal(self.success, True)
def test_500_flow_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:00'
ingress_mac = '00:00:00:00:00:00'
success_dir = {}
for i in range(0,500):
ingress_mac = self.next_mac(ingress_mac)
egress_mac = self.to_egress_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == random_src,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = random_src, dst = self.to_egress_mac(random_src))/IP()
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:01')
t2 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:' + hex(random.randrange(50,254)).split('x')[1])
t3 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(16,100)).split('x')[1])
t4 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(101,240)).split('x')[1])
t5 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:f5')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
if len(success_dir) != 5:
self.success = False
assert_equal(self.success, True)
def test_1k_flow_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:00'
ingress_mac = '00:00:00:00:00:00'
success_dir = {}
for i in range(0,1000):
ingress_mac = self.next_mac(ingress_mac)
egress_mac = self.to_egress_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == random_src,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = random_src, dst = self.to_egress_mac(random_src))/IP()
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:01')
t2 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:' + hex(random.randrange(50,254)).split('x')[1])
t3 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:09')
t4 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(16,150)).split('x')[1])
t5 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(151,250)).split('x')[1])
t6 = threading.Thread(target = verify_flow, args = '02:00:00:00:00:08')
t7 = threading.Thread(target = verify_flow, args = '02:00:00:00:00:' + hex(random.randrange(16,150)).split('x')[1])
t8 = threading.Thread(target = verify_flow, args = '02:00:00:00:00:' + hex(random.randrange(151,250)).split('x')[1])
t9 = threading.Thread(target = verify_flow, args = '03:00:00:00:00:'+ hex(random.randrange(16,175)).split('x')[1])
t10 = threading.Thread(target = verify_flow, args = '03:00:00:00:00:eb')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
@nottest
def test_10k_flow_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:00'
ingress_mac = '00:00:00:00:00:00'
success_dir = {}
for i in range(0,10000):
ingress_mac = self.next_mac(ingress_mac)
egress_mac = self.to_egress_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == random_src,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = random_src, dst = self.to_egress_mac(random_src))/IP()
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:01')
t2 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t3 = threading.Thread(target = verify_flow, args = '02:00:00:00:00:'+ hex(random.randrange(16,254)).split('x')[1])
t4 = threading.Thread(target = verify_flow, args = '05:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t5 = threading.Thread(target = verify_flow, args = '07:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t6 = threading.Thread(target = verify_flow, args = hex(random.randrange(16,21)).split('x')[1] + ':00:00:00:00:08')
t7 = threading.Thread(target = verify_flow, args = hex(random.randrange(17,21)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t8 = threading.Thread(target = verify_flow, args = hex(random.randrange(22,30)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t9 = threading.Thread(target = verify_flow, args = hex(random.randrange(31,38)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t10 = threading.Thread(target = verify_flow, args = '27:00:00:00:00:37')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
@nottest
def test_100k_flow_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:00'
ingress_mac = '00:00:00:00:00:00'
success_dir = {}
for i in range(0,100000):
ingress_mac = self.next_mac(ingress_mac)
egress_mac = self.to_egress_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == random_src,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = random_src, dst = self.to_egress_mac(random_src))/IP()
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:01')
t2 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t3 = threading.Thread(target = verify_flow, args = '02:00:00:00:00:'+ hex(random.randrange(16,254)).split('x')[1])
t4 = threading.Thread(target = verify_flow, args = '05:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t5 = threading.Thread(target = verify_flow, args = '07:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t6 = threading.Thread(target = verify_flow, args = hex(random.randrange(16,41)).split('x')[1] + ':00:00:00:00:08')
t7 = threading.Thread(target = verify_flow, args = hex(random.randrange(42,72)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t8 = threading.Thread(target = verify_flow, args = hex(random.randrange(73,100)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t9 = threading.Thread(target = verify_flow, args = hex(random.randrange(101,136)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t10 = threading.Thread(target = verify_flow, args = '89:01:00:00:00:28')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
@nottest
def test_1000k_flow_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:00'
ingress_mac = '00:00:00:00:00:00'
success_dir = {}
for i in range(0,1000000):
ingress_mac = self.next_mac(ingress_mac)
egress_mac = self.to_egress_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress mac %s, egress mac %s' %(pkt.src, pkt.dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: p.src == random_src,
prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
pkt = Ether(src = random_src, dst = egress_mac)/IP()
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '00:00:00:00:00:01')
t2 = threading.Thread(target = verify_flow, args = '01:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t3 = threading.Thread(target = verify_flow, args = '02:00:00:00:00:'+ hex(random.randrange(16,254)).split('x')[1])
t4 = threading.Thread(target = verify_flow, args = '05:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t5 = threading.Thread(target = verify_flow, args = '07:00:00:00:00:' + hex(random.randrange(16,254)).split('x')[1])
t6 = threading.Thread(target = verify_flow, args = hex(random.randrange(16,21)).split('x')[1] + ':00:00:00:00:08')
t7 = threading.Thread(target = verify_flow, args = hex(random.randrange(22,50)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t8 = threading.Thread(target = verify_flow, args = hex(random.randrange(51,75)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t9 = threading.Thread(target = verify_flow, args = hex(random.randrange(76,95)).split('x')[1] +':00:00:00:00:' +
hex(random.randrange(16,254)).split('x')[1])
t10 = threading.Thread(target = verify_flow, args = '60:0f:00:00:00:91')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
def test_rate_100_flow_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:00'
ingress_mac = '00:00:00:00:00:00'
flows_added = 0
stats_dir = collections.OrderedDict()
running_time = 0
for i in range(1,4):
start_time = time.time()
for j in range(0,100):
ingress_mac = self.next_mac(ingress_mac)
egress_mac = self.to_egress_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
flows_added += 1
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",j+1)
end_time = time.time()
stats_dir['run '+str(i)] = round((end_time - start_time),2)
for t in stats_dir.items():
log.info("----------------------------------------------")
log.info("Statics for %s",t[0])
log.info("----------------------------------------------")
log.info("No. of flows added Running Time ")
log.info(" %d %s " %(100, t[1]))
running_time += float(t[1])
log.info("-------------------------------------------------------------------------------------------------------")
log.info("Final Statics")
log.info("-------------------------------------------------------------------------------------------------------")
log.info("Total No. of flows added Total Running Time Average no. of flows per second ")
log.info(" %d %s second %d "
%(flows_added, running_time, round(flows_added/running_time,0)))
log.info("-------------------------------------------------------------------------------------------------------")
def test_rate_500_flow_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:00'
ingress_mac = '00:00:00:00:00:00'
flows_added = 0
stats_dir = collections.OrderedDict()
running_time = 0
for i in range(1,4):
start_time = time.time()
for j in range(0,500):
ingress_mac = self.next_mac(ingress_mac)
egress_mac = self.to_egress_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
flows_added += 1
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",j+1)
end_time = time.time()
stats_dir['run '+str(i)] = round((end_time - start_time),2)
for t in stats_dir.items():
log.info("----------------------------------------------")
log.info("Statics for %s",t[0])
log.info("----------------------------------------------")
log.info("No. of flows added Running Time ")
log.info(" %d %s " %(500, t[1]))
running_time += float(t[1])
log.info("-------------------------------------------------------------------------------------------------------")
log.info("Final Statics")
log.info("-------------------------------------------------------------------------------------------------------")
log.info("Total No. of flows added Total Running Time Average no. of flows per second ")
log.info(" %d %s second %d "
%(flows_added, running_time, round(flows_added/running_time,0)))
log.info("-------------------------------------------------------------------------------------------------------")
def test_rate_1k_flow_mac(self):
egress = 1
ingress = 2
egress_mac = '00:00:00:00:01:00'
ingress_mac = '00:00:00:00:00:00'
flows_added = 0
stats_dir = collections.OrderedDict()
running_time = 0
for i in range(1,4):
start_time = time.time()
for j in range(0,1000):
ingress_mac = self.next_mac(ingress_mac)
egress_mac = self.to_egress_mac(ingress_mac)
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethSrc = ingress_mac,
ethDst = egress_mac)
result = flow.addFlow()
assert_equal(result, True)
flows_added += 1
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",j+1)
end_time = time.time()
stats_dir['run '+str(i)] = round((end_time - start_time),2)
for t in stats_dir.items():
log.info("----------------------------------------------")
log.info("Statics for %s",t[0])
log.info("----------------------------------------------")
log.info("No. of flows added Running Time ")
log.info(" %d %s " %(1000, t[1]))
running_time += float(t[1])
log.info("-------------------------------------------------------------------------------------------------------")
log.info("Final Statics")
log.info("-------------------------------------------------------------------------------------------------------")
log.info("Total No. of flows added Total Running Time Average no. of flows per second ")
log.info(" %d %s second %d "
%(flows_added, running_time, round(flows_added/running_time,0)))
log.info("-------------------------------------------------------------------------------------------------------")
def test_500_flow_ip(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '182.0.0.0' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.0.0.0' }
success_dir = {}
for i in range(0,500):
ingress_map['ip'] = self.next_ip(ingress_map['ip'])
assert_not_equal(ingress_map['ip'], None)
egress_map['ip'] = self.to_egress_ip(ingress_map['ip'])
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethType = '0x0800',
ipSrc = ('IPV4_SRC', ingress_map['ip']+'/8'),
ipDst = ('IPV4_DST', egress_map['ip']+'/8')
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
random_dst = self.to_egress_ip(random_src)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s' %(pkt[IP].src, pkt[IP].dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: IP in p and p[IP].dst == random_dst and p[IP].src == random_src
,prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = random_src, dst = random_dst)
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '192.0.0.1')
t2 = threading.Thread(target = verify_flow, args = '192.0.0.' + str(random.randrange(10,100,1)))
t3 = threading.Thread(target = verify_flow, args = '192.0.0.' + str(random.randrange(101,255,1)))
t4 = threading.Thread(target = verify_flow, args = '192.0.1.' + str(random.randrange(1,235,1)))
t5 = threading.Thread(target = verify_flow, args = '192.0.1.244')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
if len(success_dir) < 5 or len(success_dir) > 5:
self.success = False
assert_equal(self.success, True)
@nottest
def test_1k_flow_ip(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '182.0.0.0' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.0.0.0' }
success_dir ={}
for i in range(0,1000):
ingress_map['ip'] = self.next_ip(ingress_map['ip'])
assert_not_equal(ingress_map['ip'], None)
egress_map['ip'] = self.to_egress_ip(ingress_map['ip'])
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethType = '0x0800',
ipSrc = ('IPV4_SRC', ingress_map['ip']+'/8'),
ipDst = ('IPV4_DST', egress_map['ip']+'/8')
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
random_dst = self.to_egress_ip(random_src)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s' %(pkt[IP].src, pkt[IP].dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: IP in p and p[IP].dst == random_dst and p[IP].src == random_src
,prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = random_src, dst = random_dst)
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '192.0.0.1')
t2 = threading.Thread(target = verify_flow, args = '192.0.0.' + str(random.randrange(10,255,1)))
t3 = threading.Thread(target = verify_flow, args = '192.0.1.' + str(random.randrange(1,100,1)))
t4 = threading.Thread(target = verify_flow, args = '192.0.1.' + str(random.randrange(101,255,1)))
t5 = threading.Thread(target = verify_flow, args = '192.0.2.' + str(random.randrange(1,100,1)))
t6 = threading.Thread(target = verify_flow, args = '192.0.2.' + str(random.randrange(101,255,1)))
t7 = threading.Thread(target = verify_flow, args = '192.0.3.' + str(random.randrange(1,100,1)))
t8 = threading.Thread(target = verify_flow, args = '192.0.3.' + str(random.randrange(101,200,1)))
t9 = threading.Thread(target = verify_flow, args = '192.0.'+ str(random.randrange(0,3,1)) + '.' +
str(random.randrange(1,255,1)))
t10 = threading.Thread(target = verify_flow, args = '192.0.3.232')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
@nottest
def test_10k_flow_ip(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '182.0.0.0' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.0.0.0' }
success_dir = {}
for i in range(0,10000):
ingress_map['ip'] = self.next_ip(ingress_map['ip'])
assert_not_equal(ingress_map['ip'], None)
egress_map['ip'] = self.to_egress_ip(ingress_map['ip'])
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethType = '0x0800',
ipSrc = ('IPV4_SRC', ingress_map['ip']+'/8'),
ipDst = ('IPV4_DST', egress_map['ip']+'/8')
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
random_dst = self.to_egress_ip(random_src)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s' %(pkt[IP].src, pkt[IP].dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: IP in p and p[IP].dst == random_dst and p[IP].src == random_src
,prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = random_src, dst = random_dst)
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '192.0.0.1')
t2 = threading.Thread(target = verify_flow, args = '192.0.0.' + str(random.randrange(1,255,1)))
t3 = threading.Thread(target = verify_flow, args = '192.0.5.' + str(random.randrange(1,255,1)))
t4 = threading.Thread(target = verify_flow, args = '192.0.10.' + str(random.randrange(1,255,1)))
t5 = threading.Thread(target = verify_flow, args = '192.0.15.' + str(random.randrange(1,255,1)))
t6 = threading.Thread(target = verify_flow, args = '192.0.20.' + str(random.randrange(1,255,1)))
t7 = threading.Thread(target = verify_flow, args = '192.0.25.' + str(random.randrange(1,255,1)))
t8 = threading.Thread(target = verify_flow, args = '192.0.30.' + str(random.randrange(1,255,1)))
t9 = threading.Thread(target = verify_flow, args = '192.0.'+ str(random.randrange(0,39,1)) + '.' +
str(random.randrange(1,255,1)))
t10 = threading.Thread(target = verify_flow, args = '192.0.39.16')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
@nottest
def test_100k_flow_ip(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '182.0.0.0' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.0.0.0' }
success_dir = {}
for i in range(0,100000):
ingress_map['ip'] = self.next_ip(ingress_map['ip'])
assert_not_equal(ingress_map['ip'], None)
egress_map['ip'] = self.to_egress_ip(ingress_map['ip'])
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethType = '0x0800',
ipSrc = ('IPV4_SRC', ingress_map['ip']+'/8'),
ipDst = ('IPV4_DST', egress_map['ip']+'/8')
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
random_dst = self.to_egress_ip(random_src)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s' %(pkt[IP].src, pkt[IP].dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: IP in p and p[IP].dst == random_dst and p[IP].src == random_src
,prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = random_src, dst = random_dst)
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '192.0.0.1')
t2 = threading.Thread(target = verify_flow, args = '192.0.0.' + str(random.randrange(1,255,1)))
t3 = threading.Thread(target = verify_flow, args = '192.0.50.' + str(random.randrange(1,255,1)))
t4 = threading.Thread(target = verify_flow, args = '192.0.100.' + str(random.randrange(1,255,1)))
t5 = threading.Thread(target = verify_flow, args = '192.0.150.' + str(random.randrange(1,255,1)))
t6 = threading.Thread(target = verify_flow, args = '192.0.200.' + str(random.randrange(1,255,1)))
t7 = threading.Thread(target = verify_flow, args = '192.0.250.' + str(random.randrange(1,255,1)))
t8 = threading.Thread(target = verify_flow, args = '192.1.'+str(random.randrange(1,75,1)) + '.'
+ str(random.randrange(1,255,1)))
t9 = threading.Thread(target = verify_flow, args = '192.1.'+str(random.randrange(76,134,1)) + '.'
+ str(random.randrange(1,255,1)))
t10 = threading.Thread(target = verify_flow, args = '192.1.134.160')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
@nottest
def test_1000k_flow_ip(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '182.0.0.0' }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.0.0.0' }
success_dir = {}
for i in range(0,1000000):
ingress_map['ip'] = self.next_ip(ingress_map['ip'])
assert_not_equal(ingress_map['ip'], None)
egress_map['ip'] = self.to_egress_ip(ingress_map['ip'])
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
ethType = '0x0800',
ipSrc = ('IPV4_SRC', ingress_map['ip']+'/8'),
ipDst = ('IPV4_DST', egress_map['ip']+'/8')
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_src = ''.join(r)
random_dst = self.to_egress_ip(random_src)
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress ip %s, egress ip %s' %(pkt[IP].src, pkt[IP].dst))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5, lfilter = lambda p: IP in p and p[IP].dst == random_dst and p[IP].src == random_src
,prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = random_src, dst = random_dst)
pkt = L2/L3
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = '192.0.0.1')
t2 = threading.Thread(target = verify_flow, args = '192.0.50.' + str(random.randrange(1,255,1)))
t3 = threading.Thread(target = verify_flow, args = '192.0.100.' + str(random.randrange(1,255,1)))
t4 = threading.Thread(target = verify_flow, args = '192.0.150.' + str(random.randrange(1,255,1)))
t5 = threading.Thread(target = verify_flow, args = '192.0.200.' + str(random.randrange(1,255,1)))
t6 = threading.Thread(target = verify_flow, args = '192.0.250.' + str(random.randrange(1,255,1)))
t7 = threading.Thread(target = verify_flow, args = '192.0.250.' + str(random.randrange(1,255,1)))
t8 = threading.Thread(target = verify_flow, args = '192.1.'+str(random.randrange(1,150,1)) + '.'
+ str(random.randrange(1,255,1)))
t9 = threading.Thread(target = verify_flow, args = '192.1.'+str(random.randrange(152,255,1)) + '.'
+ str(random.randrange(1,255,1)))
t10 = threading.Thread(target = verify_flow, args = '192.15.66.64')
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
def test_500_flow_tcp_port(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1', 'tcp_port': 3100 }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1', 'tcp_port': 1100 }
success_dir = {}
for i in range(0,500):
ingress_map['tcp_port'] += 1
egress_map['tcp_port'] += 1
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
tcpSrc = ingress_map['tcp_port'],
tcpDst = egress_map['tcp_port']
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d Flow added",i+1)
self.success = True
def verify_flow(*r):
random_sport = int(''.join(r))
random_dport = random_sport + 2000
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress TCP port %s, egress TCP port %s' %(pkt[TCP].sport, pkt[TCP].dport))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5,
lfilter = lambda p: TCP in p and p[TCP].dport == random_dport and p[TCP].sport == random_sport ,prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])
L4 = TCP(sport = random_sport, dport = random_dport)
pkt = L2/L3/L4
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = str(1101))
t2 = threading.Thread(target = verify_flow, args = str(random.randrange(1110,1250,1)))
t3 = threading.Thread(target = verify_flow, args = str(random.randrange(1251,1400,1)))
t4 = threading.Thread(target = verify_flow, args = str(random.randrange(1401,1590,1)))
t5 = threading.Thread(target = verify_flow, args = str(1600))
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
if len(success_dir) != 5:
self.success = False
assert_equal(self.success, True)
def test_1k_flow_tcp_port(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1', 'tcp_port': 3100 }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1', 'tcp_port': 1100 }
success_dir = {}
for i in range(0,1000):
ingress_map['tcp_port'] += 1
egress_map['tcp_port'] += 1
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
tcpSrc = ingress_map['tcp_port'],
tcpDst = egress_map['tcp_port']
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_sport = int(''.join(r))
random_dport = random_sport + 2000
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress TCP port %s, egress TCP port %s' %(pkt[TCP].sport, pkt[TCP].dport))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5,
lfilter = lambda p: TCP in p and p[TCP].dport == random_dport and p[TCP].sport == random_sport ,prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])
L4 = TCP(sport = random_sport, dport = random_dport)
pkt = L2/L3/L4
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = str(1101))
t2 = threading.Thread(target = verify_flow, args = str(random.randrange(1110,1350,1)))
t3 = threading.Thread(target = verify_flow, args = str(random.randrange(1351,1500,1)))
t4 = threading.Thread(target = verify_flow, args = str(random.randrange(1501,1700,1)))
t5 = threading.Thread(target = verify_flow, args = str(random.randrange(1701,1900,1)))
t6 = threading.Thread(target = verify_flow, args = str(random.randrange(1901,2000,1)))
t7 = threading.Thread(target = verify_flow, args = str(random.randrange(2000,2050,1)))
t8 = threading.Thread(target = verify_flow, args = str(random.randrange(2050,2080,1)))
t9 = threading.Thread(target = verify_flow, args = str(random.randrange(1102,2100,1)))
t10 = threading.Thread(target = verify_flow, args = str(2100))
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
@nottest
def test_10k_flow_tcp_port(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1', 'tcp_port': 31000 }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1', 'tcp_port': 11000 }
success_dir = {}
for i in range(0,10000):
ingress_map['tcp_port'] += 1
egress_map['tcp_port'] += 1
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
tcpSrc = ingress_map['tcp_port'],
tcpDst = egress_map['tcp_port']
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_sport = int(''.join(r))
random_dport = random_sport + 20000
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress TCP port %s, egress TCP port %s' %(pkt[TCP].sport, pkt[TCP].dport))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5,
lfilter = lambda p: TCP in p and p[TCP].dport == random_dport
and p[TCP].sport == random_sport,prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])
L4 = TCP(sport = random_sport, dport = random_dport)
pkt = L2/L3/L4
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = str(11001))
t2 = threading.Thread(target = verify_flow, args = str(random.randrange(11110,12501,1)))
t3 = threading.Thread(target = verify_flow, args = str(random.randrange(12510,14001,1)))
t4 = threading.Thread(target = verify_flow, args = str(random.randrange(14010,15900,1)))
t5 = threading.Thread(target = verify_flow, args = str(random.randrange(16000,17000,1)))
t6 = threading.Thread(target = verify_flow, args = str(random.randrange(17001,18000,1)))
t7 = threading.Thread(target = verify_flow, args = str(random.randrange(18000,19000,1)))
t8 = threading.Thread(target = verify_flow, args = str(random.randrange(19000,20980,1)))
t9 = threading.Thread(target = verify_flow, args = str(random.randrange(11002,21000,1)))
t10 = threading.Thread(target = verify_flow, args = str(21000))
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
def test_500_flow_udp_port(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1', 'udp_port': 3100 }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1', 'udp_port': 1100 }
success_dir = {}
for i in range(0,500):
ingress_map['udp_port'] += 1
egress_map['udp_port'] += 1
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
udpSrc = ingress_map['udp_port'],
udpDst = egress_map['udp_port']
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_sport = int(''.join(r))
random_dport = random_sport + 2000
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress UDP port %s, egress UDP port %s' %(pkt[UDP].sport, pkt[UDP].dport))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5,
lfilter = lambda p: UDP in p and p[UDP].dport == random_dport and p[UDP].sport == random_sport ,prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])
L4 = UDP(sport = random_sport, dport = random_dport)
pkt = L2/L3/L4
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = str(1101))
t2 = threading.Thread(target = verify_flow, args = str(random.randrange(1110,1250,1)))
t3 = threading.Thread(target = verify_flow, args = str(random.randrange(1251,1400,1)))
t4 = threading.Thread(target = verify_flow, args = str(random.randrange(1401,1590,1)))
t5 = threading.Thread(target = verify_flow, args = str(1600))
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
if len(success_dir) != 5:
self.success = False
assert_equal(self.success, True)
def test_1k_flow_udp_port(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1', 'udp_port': 3100 }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1', 'udp_port': 1100 }
success_dir = {}
for i in range(0,100000):
ingress_map['udp_port'] += 1
egress_map['udp_port'] += 1
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
udpSrc = ingress_map['udp_port'],
udpDst = egress_map['udp_port']
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_sport = int(''.join(r))
random_dport = random_sport + 2000
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress UDP port %s, egress UDP port %s' %(pkt[UDP].sport, pkt[UDP].dport))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5,
lfilter = lambda p: UDP in p and p[UDP].dport == random_dport and p[UDP].sport == random_sport ,prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])
L4 = UDP(sport = random_sport, dport = random_dport)
pkt = L2/L3/L4
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = str(1101))
t2 = threading.Thread(target = verify_flow, args = str(random.randrange(1110,1350,1)))
t3 = threading.Thread(target = verify_flow, args = str(random.randrange(1351,1500,1)))
t4 = threading.Thread(target = verify_flow, args = str(random.randrange(1501,1700,1)))
t5 = threading.Thread(target = verify_flow, args = str(random.randrange(1701,1900,1)))
t6 = threading.Thread(target = verify_flow, args = str(random.randrange(1901,2000,1)))
t7 = threading.Thread(target = verify_flow, args = str(random.randrange(2000,2050,1)))
t8 = threading.Thread(target = verify_flow, args = str(random.randrange(2050,2080,1)))
t9 = threading.Thread(target = verify_flow, args = str(random.randrange(1102,2100,1)))
t10 = threading.Thread(target = verify_flow, args = str(2100))
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)
@nottest
def test_10k_flow_udp_port(self):
egress = 1
ingress = 2
egress_map = { 'ether': '00:00:00:00:00:03', 'ip': '192.168.30.1', 'udp_port': 31000 }
ingress_map = { 'ether': '00:00:00:00:00:04', 'ip': '192.168.40.1', 'udp_port': 11000 }
success_dir = {}
for i in range(0,10000):
ingress_map['udp_port'] += 1
egress_map['udp_port'] += 1
flow = OnosFlowCtrl(deviceId = self.device_id,
egressPort = egress + self.port_offset,
ingressPort = ingress + self.port_offset,
udpSrc = ingress_map['udp_port'],
udpDst = egress_map['udp_port']
)
result = flow.addFlow()
assert_equal(result, True)
##wait for flows to be added to ONOS
time.sleep(1)
log.info("%d flow added.",i+1)
self.success = True
def verify_flow(*r):
random_sport = int(''.join(r))
random_dport = random_sport + 20000
def mac_recv_task():
def recv_cb(pkt):
log.info('Pkt seen with ingress UDP port %s, egress UDP port %s' %(pkt[UDP].sport, pkt[UDP].dport))
success_dir[current_thread().name] = True
sniff(count=2, timeout=5,
lfilter = lambda p: UDP in p and p[UDP].dport == random_dport and p[UDP].sport == random_sport ,prn = recv_cb, iface = self.port_map[egress])
t = threading.Thread(target = mac_recv_task)
t.start()
L2 = Ether(src = ingress_map['ether'], dst = egress_map['ether'])
L3 = IP(src = ingress_map['ip'], dst = egress_map['ip'])
L4 = UDP(sport = random_sport, dport = random_dport)
pkt = L2/L3/L4
log.info('Sending packets to verify if flows are correct')
sendp(pkt, count=50, iface = self.port_map[ingress])
t.join()
t1 = threading.Thread(target = verify_flow, args = str(11001))
t2 = threading.Thread(target = verify_flow, args = str(random.randrange(11110,12501,1)))
t3 = threading.Thread(target = verify_flow, args = str(random.randrange(12510,14001,1)))
t4 = threading.Thread(target = verify_flow, args = str(random.randrange(14010,15900,1)))
t5 = threading.Thread(target = verify_flow, args = str(random.randrange(16000,17000,1)))
t6 = threading.Thread(target = verify_flow, args = str(random.randrange(17001,18000,1)))
t7 = threading.Thread(target = verify_flow, args = str(random.randrange(18000,19000,1)))
t8 = threading.Thread(target = verify_flow, args = str(random.randrange(19000,20980,1)))
t9 = threading.Thread(target = verify_flow, args = str(random.randrange(11002,21000,1)))
t10 = threading.Thread(target = verify_flow, args = str(21000))
t1.start()
t2.start()
t3.start()
t4.start()
t5.start()
t6.start()
t7.start()
t8.start()
t9.start()
t10.start()
t1.join()
t2.join()
t3.join()
t4.join()
t5.join()
t6.join()
t7.join()
t8.join()
t9.join()
t10.join()
if len(success_dir) != 10:
self.success = False
assert_equal(self.success, True)