tools/test/topos/sdnip.py - onos - Gitiles

 #!/usr/bin/env python

 from mininet.cli import CLI
 from mininet.log import setLogLevel
 from mininet.node import Link, Host
 from mininet.net import Mininet
 from mininet.node import RemoteController, OVSSwitch, OVSBridge
 from mininet.term import makeTerm
 from mininet.topo import Topo
 from functools import partial
 from routinglib import RoutingCli as CLI
 from routinglib import AutonomousSystem, BasicAutonomousSystem, SdnAutonomousSystem
 from routinglib import generateRoutes

 class SdnIpTopo( Topo ):

     "SDN-IP topology"

     def __init__( self, onoses, **kwargs ):
         Topo.__init__( self, **kwargs )
         coreMesh = []

         # Create first 4 switches
         for i in range( 1, 5 ):
             coreMesh.append( self.addSwitch( 's%s' %i ) )

         # create full mesh between middle 4 switches
         remaining = list( coreMesh )
         while True:
             first = remaining[ 0 ]
             for switch in tuple( remaining ):
                 if switch is not first:
                     self.addLink( switch, first )
             remaining.remove( first )
             if not remaining:
                 break

         # Add more switches
         s5 = self.addSwitch( 's5', dpid='00:00:00:00:00:00:00:05' )
         s6 = self.addSwitch( 's6', dpid='00:00:00:00:00:00:00:06' )
         s7 = self.addSwitch( 's7', dpid='00:00:00:00:00:00:00:07' )
         s8 = self.addSwitch( 's8', dpid='00:00:00:00:00:00:00:08' )
         s9 = self.addSwitch( 's9', dpid='00:00:00:00:00:00:00:09' )
         s10 = self.addSwitch( 's10', dpid='00:00:00:00:00:00:00:0A' )

         # Add more links
         self.addLink( s5, s6 )
         self.addLink( s5, s8 )
         self.addLink( s6, s7 )
         self.addLink( s8, s9 )
         self.addLink( s9, s10 )
         self.addLink( coreMesh[ 0 ], s5 )
         self.addLink( coreMesh[ 0 ], s6 )
         self.addLink( coreMesh[ 0 ], s7 )
         self.addLink( coreMesh[ 1 ], s8 )
         self.addLink( coreMesh[ 1 ], s9 )
         self.addLink( coreMesh[ 1 ], s10 )
         self.addLink( coreMesh[ 2 ], s7 )
         self.addLink( coreMesh[ 3 ], s10 )

         # SDN AS
         sdnAs = SdnAutonomousSystem(onoses, numBgpSpeakers=3, asNum=65000, externalOnos=True)
         cs0 = self.addSwitch('cs0', cls=OVSBridge)

         numRoutesPerAs = 32

         # Add external ASes
         as1 = BasicAutonomousSystem(1, generateRoutes(u'192.168.1.0/24', numRoutesPerAs))
         AutonomousSystem.addPeering(as1, sdnAs)
         AutonomousSystem.addPeering(as1, sdnAs, router2=3, intf1=2)
         as1.addLink(s5)
         as1.addLink(s6)
         as1.build(self)

         as2 = BasicAutonomousSystem(2, generateRoutes(u'192.168.2.0/24', numRoutesPerAs))
         AutonomousSystem.addPeering(as2, sdnAs)
         AutonomousSystem.addPeering(as2, sdnAs, router2=2)
         as2.addLink(s7)
         as2.build(self)

         as3 = BasicAutonomousSystem(3, generateRoutes(u'192.168.3.0/24', numRoutesPerAs))
         AutonomousSystem.addPeering(as3, sdnAs, router2=2)
         AutonomousSystem.addPeering(as3, sdnAs, router2=3)
         as3.addLink(s8)
         as3.build(self)

         as4 = BasicAutonomousSystem(4, generateRoutes(u'192.168.4.0/24', numRoutesPerAs), numRouters=2)
         AutonomousSystem.addPeering(as4, sdnAs)
         AutonomousSystem.addPeering(as4, sdnAs, router1=2, router2=3)
         as4.addLink(s9)
         as4.addLink(s10, router=2)
         as4.build(self)

         # add links between nets
         #self.addLink( BGP1, coreMesh[ 0 ], port2=10 )
         #self.addLink( BGP2, coreMesh[ 1 ], port2=10 )
         #self.addLink( BGP3, coreMesh[ 2 ], port2=10 )

         sdnAs.build(self, coreMesh[ 0 ], cs0)
         # TODO multihome the BGP speakers to different switches

 topos = { 'sdnip': ( lambda: SdnIpTopo() ) }

 if __name__ == '__main__':
     setLogLevel( 'debug' )
     from onosnet import run, parse_args
     run(SdnIpTopo(onoses=parse_args().ipAddrs))
	#!/usr/bin/env python

	from mininet.cli import CLI
	from mininet.log import setLogLevel
	from mininet.node import Link, Host
	from mininet.net import Mininet
	from mininet.node import RemoteController, OVSSwitch, OVSBridge
	from mininet.term import makeTerm
	from mininet.topo import Topo
	from functools import partial
	from routinglib import RoutingCli as CLI
	from routinglib import AutonomousSystem, BasicAutonomousSystem, SdnAutonomousSystem
	from routinglib import generateRoutes

	class SdnIpTopo( Topo ):

	"SDN-IP topology"

	def __init__( self, onoses, **kwargs ):
	Topo.__init__( self, **kwargs )
	coreMesh = []

	# Create first 4 switches
	for i in range( 1, 5 ):
	coreMesh.append( self.addSwitch( 's%s' %i ) )

	# create full mesh between middle 4 switches
	remaining = list( coreMesh )
	while True:
	first = remaining[ 0 ]
	for switch in tuple( remaining ):
	if switch is not first:
	self.addLink( switch, first )
	remaining.remove( first )
	if not remaining:
	break

	# Add more switches
	s5 = self.addSwitch( 's5', dpid='00:00:00:00:00:00:00:05' )
	s6 = self.addSwitch( 's6', dpid='00:00:00:00:00:00:00:06' )
	s7 = self.addSwitch( 's7', dpid='00:00:00:00:00:00:00:07' )
	s8 = self.addSwitch( 's8', dpid='00:00:00:00:00:00:00:08' )
	s9 = self.addSwitch( 's9', dpid='00:00:00:00:00:00:00:09' )
	s10 = self.addSwitch( 's10', dpid='00:00:00:00:00:00:00:0A' )

	# Add more links
	self.addLink( s5, s6 )
	self.addLink( s5, s8 )
	self.addLink( s6, s7 )
	self.addLink( s8, s9 )
	self.addLink( s9, s10 )
	self.addLink( coreMesh[ 0 ], s5 )
	self.addLink( coreMesh[ 0 ], s6 )
	self.addLink( coreMesh[ 0 ], s7 )
	self.addLink( coreMesh[ 1 ], s8 )
	self.addLink( coreMesh[ 1 ], s9 )
	self.addLink( coreMesh[ 1 ], s10 )
	self.addLink( coreMesh[ 2 ], s7 )
	self.addLink( coreMesh[ 3 ], s10 )

	# SDN AS
	sdnAs = SdnAutonomousSystem(onoses, numBgpSpeakers=3, asNum=65000, externalOnos=True)
	cs0 = self.addSwitch('cs0', cls=OVSBridge)

	numRoutesPerAs = 32

	# Add external ASes
	as1 = BasicAutonomousSystem(1, generateRoutes(u'192.168.1.0/24', numRoutesPerAs))
	AutonomousSystem.addPeering(as1, sdnAs)
	AutonomousSystem.addPeering(as1, sdnAs, router2=3, intf1=2)
	as1.addLink(s5)
	as1.addLink(s6)
	as1.build(self)

	as2 = BasicAutonomousSystem(2, generateRoutes(u'192.168.2.0/24', numRoutesPerAs))
	AutonomousSystem.addPeering(as2, sdnAs)
	AutonomousSystem.addPeering(as2, sdnAs, router2=2)
	as2.addLink(s7)
	as2.build(self)

	as3 = BasicAutonomousSystem(3, generateRoutes(u'192.168.3.0/24', numRoutesPerAs))
	AutonomousSystem.addPeering(as3, sdnAs, router2=2)
	AutonomousSystem.addPeering(as3, sdnAs, router2=3)
	as3.addLink(s8)
	as3.build(self)

	as4 = BasicAutonomousSystem(4, generateRoutes(u'192.168.4.0/24', numRoutesPerAs), numRouters=2)
	AutonomousSystem.addPeering(as4, sdnAs)
	AutonomousSystem.addPeering(as4, sdnAs, router1=2, router2=3)
	as4.addLink(s9)
	as4.addLink(s10, router=2)
	as4.build(self)

	# add links between nets
	#self.addLink( BGP1, coreMesh[ 0 ], port2=10 )
	#self.addLink( BGP2, coreMesh[ 1 ], port2=10 )
	#self.addLink( BGP3, coreMesh[ 2 ], port2=10 )

	sdnAs.build(self, coreMesh[ 0 ], cs0)
	# TODO multihome the BGP speakers to different switches

	topos = { 'sdnip': ( lambda: SdnIpTopo() ) }

	if __name__ == '__main__':
	setLogLevel( 'debug' )
	from onosnet import run, parse_args
	run(SdnIpTopo(onoses=parse_args().ipAddrs))