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#
# 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 threading
import sys
import os
import time
import monotonic
import random
import logging
logging.getLogger('scapy.runtime').setLevel(logging.ERROR)
from scapy.all import *
from McastTraffic import *
from IGMP import *
from OnosCtrl import OnosCtrl
from CordTestUtils import log_test
from nose.tools import *
log_test.setLevel('DEBUG')
conf.verb = 0
class IgmpChannel:
IGMP_DST_MAC = "01:00:5e:00:01:01"
IGMP_SRC_MAC = "5a:e1:ac:ec:4d:a1"
IP_SRC = '1.2.3.4'
IP_DST = '224.0.1.1'
igmp_eth = Ether(dst = IGMP_DST_MAC, src = IGMP_SRC_MAC, type = ETH_P_IP)
igmp_ip = IP(dst = IP_DST, src = IP_SRC)
ssm_list = []
def __init__(self, iface = 'veth0', ssm_list = [], src_list = ['1.2.3.4'], delay = 2,controller=None):
self.controller=controller
self.iface = iface
self.ssm_list += ssm_list
self.src_list = src_list
self.delay = delay
self.onos_ctrl = OnosCtrl('org.onosproject.igmp',controller=self.controller)
self.onos_ctrl.activate()
def igmp_load_ssm_config(self, ssm_list = []):
if not ssm_list:
ssm_list = self.ssm_list
self.ssm_table_load(ssm_list)
def igmp_join(self, groups):
igmp = IGMPv3(type = IGMP_TYPE_V3_MEMBERSHIP_REPORT, max_resp_code=30,
gaddr='224.0.1.1')
for g in groups:
gr = IGMPv3gr(rtype=IGMP_V3_GR_TYPE_INCLUDE, mcaddr=g)
gr.sources = self.src_list
igmp.grps.append(gr)
pkt = self.igmp_eth/self.igmp_ip/igmp
IGMPv3.fixup(pkt)
sendp(pkt, iface=self.iface)
if self.delay != 0:
time.sleep(self.delay)
def igmp_leave(self, groups):
igmp = IGMPv3(type = IGMP_TYPE_V3_MEMBERSHIP_REPORT, max_resp_code=30,
gaddr='224.0.1.1')
for g in groups:
gr = IGMPv3gr(rtype=IGMP_V3_GR_TYPE_EXCLUDE, mcaddr=g)
gr.sources = self.src_list
igmp.grps.append(gr)
pkt = self.igmp_eth/self.igmp_ip/igmp
IGMPv3.fixup(pkt)
sendp(pkt, iface = self.iface)
if self.delay != 0:
time.sleep(self.delay)
def onos_load_config(self, config):
status, code = OnosCtrl.config(config,controller=self.controller)
if status is False:
log_test.info('JSON config request returned status %d' %code)
time.sleep(2)
def ssm_table_load(self, groups):
ssm_dict = {'apps' : { 'org.onosproject.igmp' : { 'ssmTranslate' : [] } } }
ssm_xlate_list = ssm_dict['apps']['org.onosproject.igmp']['ssmTranslate']
for g in groups:
for s in self.src_list:
d = {}
d['source'] = s
d['group'] = g
ssm_xlate_list.append(d)
self.onos_load_config(ssm_dict)
def cord_port_table_load(self, cord_port_map):
cord_group_dict = {'apps' : { 'org.ciena.cordigmp' : { 'cordIgmpTranslate' : [] } } }
cord_group_xlate_list = cord_group_dict['apps']['org.ciena.cordigmp']['cordIgmpTranslate']
for group, ports in cord_port_map.items():
d = {}
d['group'] = group
d['inputPort'] = ports[0]
d['outputPort'] = ports[1]
cord_group_xlate_list.append(d)
self.onos_load_config(cord_group_dict)
class Channels(IgmpChannel):
Stopped = 0
Started = 1
Idle = 0
Joined = 1
def __init__(self, num, channel_start = 0, iface = 'veth0', iface_mcast = 'veth2', mcast_cb = None):
self.num = num
self.channel_start = channel_start
self.channels = self.generate(self.num, self.channel_start)
self.group_channel_map = {}
#assert_equal(len(self.channels), self.num)
for i in range(self.num):
self.group_channel_map[self.channels[i]] = i
self.state = self.Stopped
self.streams = None
self.channel_states = {}
self.last_chan = None
self.iface_mcast = iface_mcast
self.mcast_cb = mcast_cb
for c in range(self.num):
self.channel_states[c] = [self.Idle]
IgmpChannel.__init__(self, ssm_list = self.channels, iface=iface)
def generate(self, num, channel_start = 0):
start = (225 << 24) | ( ( (channel_start >> 16) & 0xff) << 16 ) | \
( ( (channel_start >> 8) & 0xff ) << 8 ) | (channel_start) & 0xff
start += channel_start/256 + 1
end = start + num
group_addrs = []
count = 0
while count != num:
for i in range(start, end):
if i&255:
g = '%s.%s.%s.%s' %((i>>24) &0xff, (i>>16)&0xff, (i>>8)&0xff, i&0xff)
log_test.debug('Adding group %s' %g)
group_addrs.append(g)
count += 1
start = end
end = start + 1
return group_addrs
def start(self):
if self.state == self.Stopped:
if self.streams:
self.streams.stop()
self.streams = McastTraffic(self.channels, iface=self.iface_mcast, cb = self.mcast_cb)
self.streams.start()
self.state = self.Started
def join(self, chan = None):
if chan is None:
chan = random.randint(0, self.num)
else:
if chan >= self.num:
chan = 0
if self.get_state(chan) == self.Joined:
return chan, 0
groups = [self.channels[chan]]
join_start = monotonic.monotonic()
self.igmp_join(groups)
self.set_state(chan, self.Joined)
self.last_chan = chan
return chan, join_start
def leave(self, chan):
if chan is None:
chan = self.last_chan
if chan is None or chan >= self.num:
return False
if self.get_state(chan) != self.Joined:
return False
groups = [self.channels[chan]]
self.igmp_leave(groups)
self.set_state(chan, self.Idle)
if chan == self.last_chan:
self.last_chan = None
return True
def join_next(self, chan = None):
if chan is None:
chan = self.last_chan
if chan is None:
return None
leave = chan
join = chan+1
else:
leave = chan - 1
join = chan
if join >= self.num:
join = 0
if leave >= 0 and leave != join:
self.leave(leave)
return self.join(join)
def jump(self):
chan = self.last_chan
if chan is not None:
self.leave(chan)
s_next = chan
else:
s_next = 0
if self.num - s_next < 2:
s_next = 0
chan = random.randint(s_next, self.num)
return self.join(chan)
def gaddr(self, chan):
'''Return the group address for a channel'''
if chan >= self.num:
return None
return self.channels[chan]
def caddr(self, group):
'''Return a channel given a group addr'''
if self.group_channel_map.has_key(group):
return self.group_channel_map[group]
return None
def recv_cb(self, pkt):
'''Default channel receive callback'''
log_test.debug('Received packet from source %s, destination %s' %(pkt[IP].src, pkt[IP].dst))
send_time = float(pkt[IP].payload.load)
recv_time = monotonic.monotonic()
log_test.debug('Packet received in %.3f usecs' %(recv_time - send_time))
def recv(self, chan, cb = None, count = 1, timeout = 5):
if chan is None:
return None
if type(chan) == type([]) or type(chan) == type(()):
channel_list=filter(lambda c: c < self.num, chan)
groups = map(lambda c: self.gaddr(c), channel_list)
else:
groups = (self.gaddr(chan),)
if cb is None:
cb = self.recv_cb
return sniff(prn = cb, count=count, timeout = timeout,
lfilter = lambda p: IP in p and p[IP].dst in groups, iface = bytes(self.iface[:15]))
def stop(self):
if self.streams:
self.streams.stop()
self.state = self.Stopped
def get_state(self, chan):
return self.channel_states[chan][0]
def set_state(self, chan, state):
self.channel_states[chan][0] = state
if __name__ == '__main__':
num = 5
start = 0
ssm_list = []
for i in xrange(2):
channels = Channels(num, start)
ssm_list += channels.channels
start += num
igmpChannel = IgmpChannel()
igmpChannel.igmp_load_ssm_config(ssm_list)
channels.start()
for i in range(num):
channels.join(i)
for i in range(num):
channels.recv(i)
for i in range(num):
channels.leave(i)
channels.stop()