blob: e3e10abb493a152e03fc9ae0064abbd9281090ca [file] [log] [blame]
#!/usr/bin/python
"""
Copyright 2015 Open Networking Foundation ( ONF )
Please refer questions to either the onos test mailing list at <onos-test@onosproject.org>,
the System Testing Plans and Results wiki page at <https://wiki.onosproject.org/x/voMg>,
or the System Testing Guide page at <https://wiki.onosproject.org/x/WYQg>
TestON is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
( at your option ) any later version.
TestON is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with TestON. If not, see <http://www.gnu.org/licenses/>.
"""
"""
Custom topology for Mininet
"""
from mininet.topo import Topo
from mininet.net import Mininet
from mininet.node import Host, RemoteController
from mininet.node import Node
from mininet.node import CPULimitedHost
from mininet.link import TCLink
from mininet.cli import CLI
from mininet.log import setLogLevel
from mininet.util import dumpNodeConnections
from mininet.node import ( UserSwitch, OVSSwitch, IVSSwitch )
class VLANHost( Host ):
def config( self, vlan=100, **params ):
r = super( Host, self ).config( **params )
intf = self.defaultIntf()
self.cmd( 'ifconfig %s inet 0' % intf )
self.cmd( 'vconfig add %s %d' % ( intf, vlan ) )
self.cmd( 'ifconfig %s.%d inet %s' % ( intf, vlan, params[ 'ip' ] ) )
newName = '%s.%d' % ( intf, vlan )
intf.name = newName
self.nameToIntf[ newName ] = intf
return r
class IPv6Host( Host ):
def config( self, v6Addr='1000:1/64', **params ):
r = super( Host, self ).config( **params )
intf = self.defaultIntf()
self.cmd( 'ifconfig %s inet 0' % intf )
self.cmd( 'ip -6 addr add %s dev %s' % ( v6Addr, intf ) )
return r
class dualStackHost( Host ):
def config( self, v6Addr='2000:1/64', **params ):
r = super( Host, self ).config( **params )
intf = self.defaultIntf()
self.cmd( 'ip -6 addr add %s dev %s' % ( v6Addr, intf ) )
return r
class MyTopo( Topo ):
def __init__( self ):
# Initialize topology
Topo.__init__( self )
# Switch S5 Hosts
host1 = self.addHost( 'h1', ip='10.1.0.2/24' )
host2 = self.addHost( 'h2', cls=IPv6Host, v6Addr='1000::2/64' )
host3 = self.addHost( 'h3', ip='10.1.0.3/24', cls=dualStackHost, v6Addr='2000::2/64' )
# VLAN hosts
host4 = self.addHost( 'h4', ip='100.1.0.2/24', cls=VLANHost, vlan=100 )
host5 = self.addHost( 'h5', ip='200.1.0.2/24', cls=VLANHost, vlan=200 )
# VPN-1 and VPN-2 Hosts
host6 = self.addHost( 'h6', ip='11.1.0.2/24' )
host7 = self.addHost( 'h7', ip='12.1.0.2/24' )
# Multicast Sender
host8 = self.addHost( 'h8', ip='10.1.0.4/24' )
# Switch S6 Hosts
host9 = self.addHost( 'h9', ip='10.1.0.5/24' )
host10 = self.addHost( 'h10', cls=IPv6Host, v6Addr='1000::3/64' )
host11 = self.addHost( 'h11', ip='10.1.0.6/24', cls=dualStackHost, v6Addr='2000::3/64' )
# VLAN hosts
host12 = self.addHost( 'h12', ip='100.1.0.3/24', cls=VLANHost, vlan=100 )
host13 = self.addHost( 'h13', ip='200.1.0.3/24', cls=VLANHost, vlan=200 )
# VPN-1 and VPN-2 Hosts
host14 = self.addHost( 'h14', ip='11.1.0.3/24' )
host15 = self.addHost( 'h15', ip='12.1.0.3/24' )
# Multicast Receiver
host16 = self.addHost( 'h16', ip='10.1.0.7/24' )
# Switch S7 Hosts
host17 = self.addHost( 'h17', ip='10.1.0.8/24' )
host18 = self.addHost( 'h18', cls=IPv6Host, v6Addr='1000::4/64' )
host19 = self.addHost( 'h19', ip='10.1.0.9/24', cls=dualStackHost, v6Addr='2000::4/64' )
# VLAN hosts
host20 = self.addHost( 'h20', ip='100.1.0.4/24', cls=VLANHost, vlan=100 )
host21 = self.addHost( 'h21', ip='200.1.0.4/24', cls=VLANHost, vlan=200 )
# VPN-1 and VPN-2 Hosts
host22 = self.addHost( 'h22', ip='11.1.0.4/24' )
host23 = self.addHost( 'h23', ip='12.1.0.4/24' )
# Multicast Receiver
host24 = self.addHost( 'h24', ip='10.1.0.10/24' )
s1 = self.addSwitch( 's1' )
s2 = self.addSwitch( 's2' )
s3 = self.addSwitch( 's3' )
s4 = self.addSwitch( 's4' )
s5 = self.addSwitch( 's5' )
s6 = self.addSwitch( 's6' )
s7 = self.addSwitch( 's7' )
self.addLink( s5, host1 )
self.addLink( s5, host2 )
self.addLink( s5, host3 )
self.addLink( s5, host4 )
self.addLink( s5, host5 )
self.addLink( s5, host6 )
self.addLink( s5, host7 )
self.addLink( s5, host8 )
self.addLink( s6, host9 )
self.addLink( s6, host10 )
self.addLink( s6, host11 )
self.addLink( s6, host12 )
self.addLink( s6, host13 )
self.addLink( s6, host14 )
self.addLink( s6, host15 )
self.addLink( s6, host16 )
self.addLink( s7, host17 )
self.addLink( s7, host18 )
self.addLink( s7, host19 )
self.addLink( s7, host20 )
self.addLink( s7, host21 )
self.addLink( s7, host22 )
self.addLink( s7, host23 )
self.addLink( s7, host24 )
self.addLink( s1, s2 )
self.addLink( s1, s3 )
self.addLink( s1, s4 )
self.addLink( s1, s5 )
self.addLink( s2, s3 )
self.addLink( s2, s5 )
self.addLink( s2, s6 )
self.addLink( s3, s4 )
self.addLink( s3, s6 )
self.addLink( s4, s7 )
topos = { 'mytopo': ( lambda: MyTopo() ) }
# HERE THE CODE DEFINITION OF THE TOPOLOGY ENDS
def setupNetwork():
"Create network"
topo = MyTopo()
network = Mininet( topo=topo, autoSetMacs=True, controller=None )
network.start()
CLI( network )
network.stop()
if __name__ == '__main__':
setLogLevel( 'info' )
# setLogLevel( 'debug' )
setupNetwork()