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

 #!/usr/bin/python

 """
 Libraries for creating L3 topologies with routing protocols.
 """

 from mininet.node import Host, OVSBridge
 from mininet.nodelib import NAT
 from mininet.log import info, debug, error
 from mininet.cli import CLI
 from ipaddress import ip_network, ip_address, ip_interface
 import os

 class RoutedHost(Host):
     """Host that can be configured with multiple IP addresses."""
     def __init__(self, name, ips, gateway, *args, **kwargs):
         super(RoutedHost, self).__init__(name, *args, **kwargs)

         self.ips = ips
         self.gateway = gateway

     def config(self, **kwargs):
         Host.config(self, **kwargs)

         self.cmd('ip addr flush dev %s' % self.defaultIntf())
         for ip in self.ips:
             self.cmd('ip addr add %s dev %s' % (ip, self.defaultIntf()))

         self.cmd('ip route add default via %s' % self.gateway)

 class Router(Host):

     """An L3 router.
     Configures the Linux kernel for L3 forwarding and supports rich interface
     configuration of IP addresses, MAC addresses and VLANs."""

     def __init__(self, name, interfaces, *args, **kwargs):
         super(Router, self).__init__(name, **kwargs)

         self.interfaces = interfaces

     def config(self, **kwargs):
         super(Host, self).config(**kwargs)

         self.cmd('sysctl net.ipv4.ip_forward=1')
         self.cmd('sysctl net.ipv4.conf.all.rp_filter=0')

         for intf, configs in self.interfaces.items():
             self.cmd('ip addr flush dev %s' % intf)
             self.cmd( 'sysctl net.ipv4.conf.%s.rp_filter=0' % intf )

             if not isinstance(configs, list):
                 configs = [configs]

             for attrs in configs:
                 # Configure the vlan if there is one
                 if 'vlan' in attrs:
                     vlanName = '%s.%s' % (intf, attrs['vlan'])
                     self.cmd('ip link add link %s name %s type vlan id %s' %
                              (intf, vlanName, attrs['vlan']))
                     self.cmd('ip link set %s up' % vlanName)
                     addrIntf = vlanName
                 else:
                     addrIntf = intf

                 # Now configure the addresses on the vlan/native interface
                 if 'mac' in attrs:
                     self.cmd('ip link set %s down' % addrIntf)
                     self.cmd('ip link set %s address %s' % (addrIntf, attrs['mac']))
                     self.cmd('ip link set %s up' % addrIntf)
                 for addr in attrs['ipAddrs']:
                     self.cmd('ip addr add %s dev %s' % (addr, addrIntf))

 class QuaggaRouter(Router):

     """Runs Quagga to create a router that can speak routing protocols."""

     binDir = '/usr/lib/quagga'
     logDir = '/var/log/quagga'

     def __init__(self, name, interfaces,
                  defaultRoute=None,
                  zebraConfFile=None,
                  protocols=[],
                  fpm=None,
                  runDir='/var/run/quagga', *args, **kwargs):
         super(QuaggaRouter, self).__init__(name, interfaces, **kwargs)

         self.protocols = protocols
         self.fpm = fpm

         for p in self.protocols:
             p.setQuaggaRouter(self)

         self.runDir = runDir
         self.defaultRoute = defaultRoute

         # Ensure required directories exist
         try:
             original_umask = os.umask(0)
             if (not os.path.isdir(QuaggaRouter.logDir)):
                 os.makedirs(QuaggaRouter.logDir, 0777)
             if (not os.path.isdir(self.runDir)):
                 os.makedirs(self.runDir, 0777)
         finally:
             os.umask(original_umask)

         self.zebraConfFile = zebraConfFile
         if (self.zebraConfFile is None):
             self.zebraConfFile = '%s/zebrad%s.conf' % (self.runDir, self.name)
             self.generateZebra()

         self.socket = '%s/zebra%s.api' % (self.runDir, self.name)

         self.zebraPidFile = '%s/zebra%s.pid' % (self.runDir, self.name)

     def generateZebra(self):
         configFile = open(self.zebraConfFile, 'w+')
         configFile.write('log file %s/zebrad%s.log\n' % (QuaggaRouter.logDir, self.name))
         configFile.write('hostname zebra-%s\n' % self.name)
         configFile.write('password %s\n' % 'hello')
         if (self.fpm is not None):
             configFile.write('fpm connection ip %s port 2620' % self.fpm)
         configFile.close()

     def config(self, **kwargs):
         super(QuaggaRouter, self).config(**kwargs)

         self.cmd('%s/zebra -d -f %s -z %s -i %s'
                  % (QuaggaRouter.binDir, self.zebraConfFile, self.socket, self.zebraPidFile))

         for p in self.protocols:
             p.config(**kwargs)

         if self.defaultRoute:
             self.cmd('ip route add default via %s' % self.defaultRoute)

     def terminate(self, **kwargs):
         self.cmd("ps ax | grep '%s' | awk '{print $1}' | xargs kill"
                  % (self.socket))

         for p in self.protocols:
             p.terminate(**kwargs)

         super(QuaggaRouter, self).terminate()

 class Protocol(object):

     """Base abstraction of a protocol that the QuaggaRouter can run."""

     def setQuaggaRouter(self, qr):
         self.qr = qr

     def config(self, **kwargs):
         pass

     def terminate(self, **kwargs):
         pass

 class BgpProtocol(Protocol):

     """Configures and runs the BGP protocol in Quagga."""

     def __init__(self, configFile=None, asNum=None, neighbors=[], routes=[], *args, **kwargs):
         self.configFile = configFile

         self.asNum = asNum
         self.neighbors = neighbors
         self.routes = routes

     def config(self, **kwargs):
         if self.configFile is None:
             self.configFile = '%s/bgpd%s.conf' % (self.qr.runDir, self.qr.name)
             self.generateConfig()

         bgpdPidFile = '%s/bgpd%s.pid' % (self.qr.runDir, self.qr.name)

         self.qr.cmd('%s/bgpd -d -f %s -z %s -i %s'
                      % (QuaggaRouter.binDir, self.configFile, self.qr.socket, bgpdPidFile))

     def generateConfig(self):
         conf = ConfigurationWriter(self.configFile)

         def getRouterId(interfaces):
             intfAttributes = interfaces.itervalues().next()
             print intfAttributes
             if isinstance(intfAttributes, list):
                 # Try use the first set of attributes, but if using vlans they might not have addresses
                 intfAttributes = intfAttributes[1] if not intfAttributes[0]['ipAddrs'] else intfAttributes[0]
             return intfAttributes['ipAddrs'][0].split('/')[0]

         conf.writeLine('log file %s/bgpd%s.log' % (QuaggaRouter.logDir, self.qr.name))
         conf.writeLine('hostname bgp-%s' % self.qr.name);
         conf.writeLine('password %s' % 'sdnip')
         conf.writeLine('!')
         conf.writeLine('router bgp %s' % self.asNum)

         conf.indent()

         conf.writeLine('bgp router-id %s' % getRouterId(self.qr.interfaces))
         conf.writeLine('timers bgp %s' % '3 9')
         conf.writeLine('!')

         for neighbor in self.neighbors:
             conf.writeLine('neighbor %s remote-as %s' % (neighbor['address'], neighbor['as']))
             conf.writeLine('neighbor %s ebgp-multihop' % neighbor['address'])
             conf.writeLine('neighbor %s timers connect %s' % (neighbor['address'], '5'))
             conf.writeLine('neighbor %s advertisement-interval %s' % (neighbor['address'], '5'))
             if 'port' in neighbor:
                 conf.writeLine('neighbor %s port %s' % (neighbor['address'], neighbor['port']))
             conf.writeLine('!')

         for route in self.routes:
             conf.writeLine('network %s' % route)

         conf.close()

 class OspfProtocol(Protocol):

     """Configures and runs the OSPF protocol in Quagga."""

     def __init__(self, configFile=None, *args, **kwargs):
         self.configFile = configFile

     def config(self, **kwargs):
         if self.configFile is None:
             self.configFile = '%s/ospfd%s.conf' % (self.qr.runDir, self.qr.name)
             self.generateConfig()

         ospfPidFile = '%s/ospf%s.pid' % (self.qr.runDir, self.qr.name)

         self.qr.cmd('%s/ospfd -d -f %s -z %s -i %s'
                      % (QuaggaRouter.binDir, self.configFile, self.qr.socket, ospfPidFile))

     def generateConfig(self):
         conf = ConfigurationWriter(self.configFile)

         def getRouterId(interfaces):
             intfAttributes = interfaces.itervalues().next()
             print intfAttributes
             if isinstance(intfAttributes, list):
                 # Try use the first set of attributes, but if using vlans they might not have addresses
                 intfAttributes = intfAttributes[1] if not intfAttributes[0]['ipAddrs'] else intfAttributes[0]
             return intfAttributes['ipAddrs'][0].split('/')[0]

         conf.writeLine('hostname ospf-%s' % self.qr.name);
         conf.writeLine('password %s' % 'hello')
         conf.writeLine('!')
         conf.writeLine('router ospf')

         conf.indent()

         conf.writeLine('ospf router-id %s' % getRouterId(self.qr.interfaces))
         conf.writeLine('!')

         for name, intf in self.qr.interfaces.items():
             for ip in intf['ipAddrs']:
                 conf.writeLine('network %s area 0' % ip)
             #if intf['ipAddrs'][0].startswith('192.168'):
             #    writeLine(1, 'passive-interface %s' % name)

         conf.close()

 class PimProtocol(Protocol):

     """Configures and runs the PIM protcol in Quagga."""

     def __init__(self, configFile=None, *args, **kwargs):
         self.configFile = configFile

     def config(self, **kwargs):
         pimPidFile = '%s/pim%s.pid' % (self.qr.runDir, self.qr.name)

         self.qr.cmd('%s/pimd -Z -d -f %s -z %s -i %s'
                      % (QuaggaRouter.binDir, self.configFile, self.qr.socket, pimPidFile))

 class ConfigurationWriter(object):

     """Utility class for writing a configuration file."""

     def __init__(self, filename):
         self.filename = filename
         self.indentValue = 0;

         self.configFile = open(self.filename, 'w+')

     def indent(self):
         self.indentValue += 1

     def unindent(self):
         if (self.indentValue > 0):
             self.indentValue -= 1

     def write(self, string):
         self.configFile.write(string)

     def writeLine(self, string):
         intentStr = ''
         for _ in range(0, self.indentValue):
             intentStr += '  '
         self.write('%s%s\n' % (intentStr, string))

     def close(self):
         self.configFile.close()

 #Backward compatibility for BGP-only use case
 class BgpRouter(QuaggaRouter):

     """Quagga router running the BGP protocol."""

     def __init__(self, name, interfaces,
                  asNum, neighbors, routes=[],
                  defaultRoute=None,
                  quaggaConfFile=None,
                  zebraConfFile=None,
                  *args, **kwargs):
         bgp = BgpProtocol(configFile=quaggaConfFile, asNum=asNum, neighbors=neighbors, routes=routes)

         super(BgpRouter, self).__init__(name, interfaces,
                                         zebraConfFile=zebraConfFile,
                                         defaultRoute=defaultRoute,
                                         protocols=[bgp],
                                         *args, **kwargs)

 class RouterData(object):

     """Internal data structure storing information about a router."""

     def __init__(self, index):
         self.index = index;
         self.neighbors = []
         self.interfaces = {}
         self.switches = []

     def addNeighbor(self, theirAddress, theirAsNum):
         self.neighbors.append({'address':theirAddress.ip, 'as':theirAsNum})

     def addInterface(self, intf, vlan, address):
         if not intf in self.interfaces:
             self.interfaces[intf] = InterfaceData(intf)

         self.interfaces[intf].addAddress(vlan, address)

     def setSwitch(self, switch):
         self.switches.append(switch)

 class InterfaceData(object):

     """Internal data structure storing information about an interface."""

     def __init__(self, number):
         self.number = number
         self.addressesByVlan = {}

     def addAddress(self, vlan, address):
         if not vlan in self.addressesByVlan:
             self.addressesByVlan[vlan] = []

         self.addressesByVlan[vlan].append(address.with_prefixlen)

 class RoutedNetwork(object):

     """Creates a host behind a router. This is common boilerplate topology
     segment in routed networks."""

     @staticmethod
     def build(topology, router, hostName, networks):
         # There's a convention that the router's addresses are already set up,
         # and it has the last address in the network.

         def getFirstAddress(network):
             return '%s/%s' % (network[1], network.prefixlen)

         defaultRoute = AutonomousSystem.getLastAddress(networks[0]).ip

         host = topology.addHost(hostName, cls=RoutedHost,
                                 ips=[getFirstAddress(network) for network in networks],
                                 gateway=defaultRoute)

         topology.addLink(router, host)

 class AutonomousSystem(object):

     """Base abstraction of an autonomous system, which implies some internal
     topology and connections to other topology elements (switches/other ASes)."""

     psIdx = 1

     def __init__(self, asNum, numRouters):
         self.asNum = asNum
         self.numRouters = numRouters
         self.routers = {}
         for i in range(1, numRouters + 1):
             self.routers[i] = RouterData(i)

         self.routerNodes={}

         self.neighbors=[]
         self.vlanAddresses={}

     def peerWith(self, myRouter, myAddress, theirAddress, theirAsNum, intf=1, vlan=None):
         router = self.routers[myRouter]

         router.addInterface(intf, vlan, myAddress)
         router.addNeighbor(theirAddress, theirAsNum)

     def getRouter(self, i):
         return self.routerNodes[i]

     @staticmethod
     def generatePeeringAddresses():
         network = ip_network(u'10.0.%s.0/24' % AutonomousSystem.psIdx)
         AutonomousSystem.psIdx += 1

         return ip_interface('%s/%s' % (network[1], network.prefixlen)), \
             ip_interface('%s/%s' % (network[2], network.prefixlen))

     @staticmethod
     def addPeering(as1, as2, router1=1, router2=1, intf1=1, intf2=1, address1=None, address2=None, useVlans=False):
         vlan = AutonomousSystem.psIdx if useVlans else None

         if address1 is None or address2 is None:
             (address1, address2) = AutonomousSystem.generatePeeringAddresses()

         as1.peerWith(router1, address1, address2, as2.asNum, intf=intf1, vlan=vlan)
         as2.peerWith(router2, address2, address1, as1.asNum, intf=intf2, vlan=vlan)

     @staticmethod
     def getLastAddress(network):
         return ip_interface(network.network_address + network.num_addresses - 2)

     @staticmethod
     def getIthAddress(network, i):
         return ip_interface('%s/%s' % (network[i], network.prefixlen))

 class BasicAutonomousSystem(AutonomousSystem):

     """Basic autonomous system containing one host and one or more routers
     which peer with other ASes."""

     def __init__(self, num, routes, numRouters=1):
         super(BasicAutonomousSystem, self).__init__(65000+num, numRouters)
         self.num = num
         self.routes = routes

     def addLink(self, switch, router=1):
         self.routers[router].setSwitch(switch)

     def build(self, topology):
         self.addRouterAndHost(topology)

     def addRouterAndHost(self, topology):

         # TODO implementation is messy and needs to be cleaned up

         intfs = {}

         router = self.routers[1]
         for i, router in self.routers.items():

             #routerName = 'r%i%i' % (self.num, i)
             routerName = 'r%i' % self.num
             if not i==1:
                 routerName += ('%i' % i)

             hostName = 'h%i' % self.num

             for j, interface in router.interfaces.items():
                 nativeAddresses = interface.addressesByVlan.pop(None, [])
                 peeringIntf = [{'mac' : '00:00:%02x:00:%02x:%02x' % (self.num, i, j),
                                'ipAddrs' : nativeAddresses}]

                 for vlan, addresses in interface.addressesByVlan.items():
                     peeringIntf.append({'vlan':vlan,
                                         'mac':'00:00:%02x:%02x:%02x:%02x' % (self.num, vlan, i, j),
                                         'ipAddrs':addresses})

                 intfs.update({'%s-eth%s' % (routerName, j-1) : peeringIntf})

             # Only add the host to the first router for now
             if i==1:
                 internalAddresses=[]
                 for route in self.routes:
                     internalAddresses.append('%s/%s' % (AutonomousSystem.getLastAddress(route).ip, route.prefixlen))

                 internalIntf = {'ipAddrs' : internalAddresses}

                 # This is the configuration of the next interface after all the peering interfaces
                 intfs.update({'%s-eth%s' % (routerName, len(router.interfaces.keys())) : internalIntf})

             routerNode = topology.addHost(routerName,
                                   asNum=self.asNum, neighbors=router.neighbors,
                                   routes=self.routes,
                                   cls=BgpRouter, interfaces=intfs)

             self.routerNodes[i] = routerNode

             for switch in router.switches:
                 topology.addLink(switch, routerNode)

             # Only add the host to the first router for now
             if i==1:
                 defaultRoute = internalAddresses[0].split('/')[0]

                 host = topology.addHost(hostName, cls=RoutedHost,
                                         ips=[self.getFirstAddress(route) for route in self.routes],
                                         gateway=defaultRoute)

                 topology.addLink(routerNode, host)

     #def getLastAddress(self, network):
     #    return ip_address(network.network_address + network.num_addresses - 2)

     def getFirstAddress(self, network):
         return '%s/%s' % (network[1], network.prefixlen)

 # TODO fix this AS - doesn't currently work
 class RouteServerAutonomousSystem(BasicAutonomousSystem):

     def __init__(self, routerAddress, *args, **kwargs):
         BasicAutonomousSystem.__init__(self, *args, **kwargs)

         self.routerAddress = routerAddress

     def build(self, topology, connectAtSwitch):

         switch = topology.addSwitch('as%isw' % self.num, cls=OVSBridge)

         self.addRouterAndHost(topology, self.routerAddress, switch)

         rsName = 'rs%i' % self.num
         routeServer = topology.addHost(rsName,
                                        self.asnum, self.neighbors,
                                        cls=BgpRouter,
                                        interfaces={'%s-eth0' % rsName : {'ipAddrs':[self.peeringAddress]}})

         topology.addLink(routeServer, switch)
         topology.addLink(switch, connectAtSwitch)

 class SdnAutonomousSystem(AutonomousSystem):

     """Runs the internal BGP speakers needed for ONOS routing apps like
     SDN-IP."""

     def __init__(self, onosIps, numBgpSpeakers=1, asNum=65000, externalOnos=True,
                  peerIntfConfig=None, withFpm=False):
         super(SdnAutonomousSystem, self).__init__(asNum, numBgpSpeakers)
         self.onosIps = onosIps
         self.numBgpSpeakers = numBgpSpeakers
         self.peerIntfConfig = peerIntfConfig
         self.withFpm = withFpm
         self.externalOnos= externalOnos
         self.internalPeeringSubnet = ip_network(u'1.1.1.0/24')

         for router in self.routers.values():
             # Add iBGP sessions to ONOS nodes
             for onosIp in onosIps:
                 router.neighbors.append({'address':onosIp, 'as':asNum, 'port':2000})

             # Add iBGP sessions to other BGP speakers
             for i, router2 in self.routers.items():
                 if router == router2:
                     continue
                 ip = AutonomousSystem.getIthAddress(self.internalPeeringSubnet, 10+i)
                 router.neighbors.append({'address':ip.ip, 'as':asNum})

     def build(self, topology, connectAtSwitch, controlSwitch):

         natIp = AutonomousSystem.getLastAddress(self.internalPeeringSubnet)

         for i, router in self.routers.items():
             name = 'bgp%s' % i

             ip = AutonomousSystem.getIthAddress(self.internalPeeringSubnet, 10+i)
             eth0 = { 'ipAddrs' : [ str(ip) ] }
             if self.peerIntfConfig is not None:
                 eth1 = self.peerIntfConfig
             else:
                 nativeAddresses = router.interfaces[1].addressesByVlan.pop(None, [])
                 eth1 = [{ 'mac':'00:00:00:00:00:%02x' % i,
                          'ipAddrs' : nativeAddresses }]

                 for vlan, addresses in router.interfaces[1].addressesByVlan.items():
                     eth1.append({'vlan':vlan,
                                 'mac':'00:00:00:%02x:%02x:00' % (i, vlan),
                                 'ipAddrs':addresses})


             intfs = { '%s-eth0' % name : eth0,
                       '%s-eth1' % name : eth1 }

             bgp = topology.addHost( name, cls=BgpRouter, asNum=self.asNum,
                                     neighbors=router.neighbors,
                                     interfaces=intfs,
                                     defaultRoute=str(natIp.ip),
                                     fpm=self.onosIps[0] if self.withFpm else None )

             topology.addLink( bgp, controlSwitch )
             topology.addLink( bgp, connectAtSwitch )


         if self.externalOnos:
             nat = topology.addHost('nat', cls=NAT,
                                    ip='%s/%s' % (natIp.ip, self.internalPeeringSubnet.prefixlen),
                                    subnet=str(self.internalPeeringSubnet), inNamespace=False);
             topology.addLink(controlSwitch, nat)


 def generateRoutes(baseRange, numRoutes, subnetSize=None):
     baseNetwork = ip_network(baseRange)

     # We need to get at least 2 addresses out of each subnet, so the biggest
     # prefix length we can have is /30
     maxPrefixLength = baseNetwork.max_prefixlen - 2

     if subnetSize is not None:
         return list(baseNetwork.subnets(new_prefix=subnetSize))

     trySubnetSize = baseNetwork.prefixlen + 1
     while trySubnetSize <= maxPrefixLength and \
             len(list(baseNetwork.subnets(new_prefix=trySubnetSize))) < numRoutes:
         trySubnetSize += 1

     if trySubnetSize > maxPrefixLength:
         raise Exception("Can't get enough routes from input parameters")

     return list(baseNetwork.subnets(new_prefix=trySubnetSize))[:numRoutes]

 class RoutingCli( CLI ):

     """CLI command that can bring a host up or down. Useful for simulating router failure."""

     def do_host( self, line ):
         args = line.split()
         if len(args) != 2:
             error( 'invalid number of args: host <host name> {up, down}\n' )
             return

         host = args[ 0 ]
         command = args[ 1 ]
         if host not in self.mn or self.mn.get( host ) not in self.mn.hosts:
             error( 'invalid host: %s\n' % args[ 1 ] )
         else:
             if command == 'up':
                 op = 'up'
             elif command == 'down':
                 op = 'down'
             else:
                 error( 'invalid command: host <host name> {up, down}\n' )
                 return

             for intf in self.mn.get( host ).intfList( ):
                 intf.link.intf1.ifconfig( op )
                 intf.link.intf2.ifconfig( op )
	#!/usr/bin/python

	"""
	Libraries for creating L3 topologies with routing protocols.
	"""

	from mininet.node import Host, OVSBridge
	from mininet.nodelib import NAT
	from mininet.log import info, debug, error
	from mininet.cli import CLI
	from ipaddress import ip_network, ip_address, ip_interface
	import os

	class RoutedHost(Host):
	"""Host that can be configured with multiple IP addresses."""
	def __init__(self, name, ips, gateway, args, *kwargs):
	super(RoutedHost, self).__init__(name, args, *kwargs)

	self.ips = ips
	self.gateway = gateway

	def config(self, **kwargs):
	Host.config(self, **kwargs)

	self.cmd('ip addr flush dev %s' % self.defaultIntf())
	for ip in self.ips:
	self.cmd('ip addr add %s dev %s' % (ip, self.defaultIntf()))

	self.cmd('ip route add default via %s' % self.gateway)

	class Router(Host):

	"""An L3 router.
	Configures the Linux kernel for L3 forwarding and supports rich interface
	configuration of IP addresses, MAC addresses and VLANs."""

	def __init__(self, name, interfaces, args, *kwargs):
	super(Router, self).__init__(name, **kwargs)

	self.interfaces = interfaces

	def config(self, **kwargs):
	super(Host, self).config(**kwargs)

	self.cmd('sysctl net.ipv4.ip_forward=1')
	self.cmd('sysctl net.ipv4.conf.all.rp_filter=0')

	for intf, configs in self.interfaces.items():
	self.cmd('ip addr flush dev %s' % intf)
	self.cmd( 'sysctl net.ipv4.conf.%s.rp_filter=0' % intf )

	if not isinstance(configs, list):
	configs = [configs]

	for attrs in configs:
	# Configure the vlan if there is one
	if 'vlan' in attrs:
	vlanName = '%s.%s' % (intf, attrs['vlan'])
	self.cmd('ip link add link %s name %s type vlan id %s' %
	(intf, vlanName, attrs['vlan']))
	self.cmd('ip link set %s up' % vlanName)
	addrIntf = vlanName
	else:
	addrIntf = intf

	# Now configure the addresses on the vlan/native interface
	if 'mac' in attrs:
	self.cmd('ip link set %s down' % addrIntf)
	self.cmd('ip link set %s address %s' % (addrIntf, attrs['mac']))
	self.cmd('ip link set %s up' % addrIntf)
	for addr in attrs['ipAddrs']:
	self.cmd('ip addr add %s dev %s' % (addr, addrIntf))

	class QuaggaRouter(Router):

	"""Runs Quagga to create a router that can speak routing protocols."""

	binDir = '/usr/lib/quagga'
	logDir = '/var/log/quagga'

	def __init__(self, name, interfaces,
	defaultRoute=None,
	zebraConfFile=None,
	protocols=[],
	fpm=None,
	runDir='/var/run/quagga', args, *kwargs):
	super(QuaggaRouter, self).__init__(name, interfaces, **kwargs)

	self.protocols = protocols
	self.fpm = fpm

	for p in self.protocols:
	p.setQuaggaRouter(self)

	self.runDir = runDir
	self.defaultRoute = defaultRoute

	# Ensure required directories exist
	try:
	original_umask = os.umask(0)
	if (not os.path.isdir(QuaggaRouter.logDir)):
	os.makedirs(QuaggaRouter.logDir, 0777)
	if (not os.path.isdir(self.runDir)):
	os.makedirs(self.runDir, 0777)
	finally:
	os.umask(original_umask)

	self.zebraConfFile = zebraConfFile
	if (self.zebraConfFile is None):
	self.zebraConfFile = '%s/zebrad%s.conf' % (self.runDir, self.name)
	self.generateZebra()

	self.socket = '%s/zebra%s.api' % (self.runDir, self.name)

	self.zebraPidFile = '%s/zebra%s.pid' % (self.runDir, self.name)

	def generateZebra(self):
	configFile = open(self.zebraConfFile, 'w+')
	configFile.write('log file %s/zebrad%s.log\n' % (QuaggaRouter.logDir, self.name))
	configFile.write('hostname zebra-%s\n' % self.name)
	configFile.write('password %s\n' % 'hello')
	if (self.fpm is not None):
	configFile.write('fpm connection ip %s port 2620' % self.fpm)
	configFile.close()

	def config(self, **kwargs):
	super(QuaggaRouter, self).config(**kwargs)

	self.cmd('%s/zebra -d -f %s -z %s -i %s'
	% (QuaggaRouter.binDir, self.zebraConfFile, self.socket, self.zebraPidFile))

	for p in self.protocols:
	p.config(**kwargs)

	if self.defaultRoute:
	self.cmd('ip route add default via %s' % self.defaultRoute)

	def terminate(self, **kwargs):
	self.cmd("ps ax \| grep '%s' \| awk '{print $1}' \| xargs kill"
	% (self.socket))

	for p in self.protocols:
	p.terminate(**kwargs)

	super(QuaggaRouter, self).terminate()

	class Protocol(object):

	"""Base abstraction of a protocol that the QuaggaRouter can run."""

	def setQuaggaRouter(self, qr):
	self.qr = qr

	def config(self, **kwargs):
	pass

	def terminate(self, **kwargs):
	pass

	class BgpProtocol(Protocol):

	"""Configures and runs the BGP protocol in Quagga."""

	def __init__(self, configFile=None, asNum=None, neighbors=[], routes=[], args, *kwargs):
	self.configFile = configFile

	self.asNum = asNum
	self.neighbors = neighbors
	self.routes = routes

	def config(self, **kwargs):
	if self.configFile is None:
	self.configFile = '%s/bgpd%s.conf' % (self.qr.runDir, self.qr.name)
	self.generateConfig()

	bgpdPidFile = '%s/bgpd%s.pid' % (self.qr.runDir, self.qr.name)

	self.qr.cmd('%s/bgpd -d -f %s -z %s -i %s'
	% (QuaggaRouter.binDir, self.configFile, self.qr.socket, bgpdPidFile))

	def generateConfig(self):
	conf = ConfigurationWriter(self.configFile)

	def getRouterId(interfaces):
	intfAttributes = interfaces.itervalues().next()
	print intfAttributes
	if isinstance(intfAttributes, list):
	# Try use the first set of attributes, but if using vlans they might not have addresses
	intfAttributes = intfAttributes[1] if not intfAttributes[0]['ipAddrs'] else intfAttributes[0]
	return intfAttributes['ipAddrs'][0].split('/')[0]

	conf.writeLine('log file %s/bgpd%s.log' % (QuaggaRouter.logDir, self.qr.name))
	conf.writeLine('hostname bgp-%s' % self.qr.name);
	conf.writeLine('password %s' % 'sdnip')
	conf.writeLine('!')
	conf.writeLine('router bgp %s' % self.asNum)

	conf.indent()

	conf.writeLine('bgp router-id %s' % getRouterId(self.qr.interfaces))
	conf.writeLine('timers bgp %s' % '3 9')
	conf.writeLine('!')

	for neighbor in self.neighbors:
	conf.writeLine('neighbor %s remote-as %s' % (neighbor['address'], neighbor['as']))
	conf.writeLine('neighbor %s ebgp-multihop' % neighbor['address'])
	conf.writeLine('neighbor %s timers connect %s' % (neighbor['address'], '5'))
	conf.writeLine('neighbor %s advertisement-interval %s' % (neighbor['address'], '5'))
	if 'port' in neighbor:
	conf.writeLine('neighbor %s port %s' % (neighbor['address'], neighbor['port']))
	conf.writeLine('!')

	for route in self.routes:
	conf.writeLine('network %s' % route)

	conf.close()

	class OspfProtocol(Protocol):

	"""Configures and runs the OSPF protocol in Quagga."""

	def __init__(self, configFile=None, args, *kwargs):
	self.configFile = configFile

	def config(self, **kwargs):
	if self.configFile is None:
	self.configFile = '%s/ospfd%s.conf' % (self.qr.runDir, self.qr.name)
	self.generateConfig()

	ospfPidFile = '%s/ospf%s.pid' % (self.qr.runDir, self.qr.name)

	self.qr.cmd('%s/ospfd -d -f %s -z %s -i %s'
	% (QuaggaRouter.binDir, self.configFile, self.qr.socket, ospfPidFile))

	def generateConfig(self):
	conf = ConfigurationWriter(self.configFile)

	def getRouterId(interfaces):
	intfAttributes = interfaces.itervalues().next()
	print intfAttributes
	if isinstance(intfAttributes, list):
	# Try use the first set of attributes, but if using vlans they might not have addresses
	intfAttributes = intfAttributes[1] if not intfAttributes[0]['ipAddrs'] else intfAttributes[0]
	return intfAttributes['ipAddrs'][0].split('/')[0]

	conf.writeLine('hostname ospf-%s' % self.qr.name);
	conf.writeLine('password %s' % 'hello')
	conf.writeLine('!')
	conf.writeLine('router ospf')

	conf.indent()

	conf.writeLine('ospf router-id %s' % getRouterId(self.qr.interfaces))
	conf.writeLine('!')

	for name, intf in self.qr.interfaces.items():
	for ip in intf['ipAddrs']:
	conf.writeLine('network %s area 0' % ip)
	#if intf['ipAddrs'][0].startswith('192.168'):
	# writeLine(1, 'passive-interface %s' % name)

	conf.close()

	class PimProtocol(Protocol):

	"""Configures and runs the PIM protcol in Quagga."""

	def __init__(self, configFile=None, args, *kwargs):
	self.configFile = configFile

	def config(self, **kwargs):
	pimPidFile = '%s/pim%s.pid' % (self.qr.runDir, self.qr.name)

	self.qr.cmd('%s/pimd -Z -d -f %s -z %s -i %s'
	% (QuaggaRouter.binDir, self.configFile, self.qr.socket, pimPidFile))

	class ConfigurationWriter(object):

	"""Utility class for writing a configuration file."""

	def __init__(self, filename):
	self.filename = filename
	self.indentValue = 0;

	self.configFile = open(self.filename, 'w+')

	def indent(self):
	self.indentValue += 1

	def unindent(self):
	if (self.indentValue > 0):
	self.indentValue -= 1

	def write(self, string):
	self.configFile.write(string)

	def writeLine(self, string):
	intentStr = ''
	for _ in range(0, self.indentValue):
	intentStr += ' '
	self.write('%s%s\n' % (intentStr, string))

	def close(self):
	self.configFile.close()

	#Backward compatibility for BGP-only use case
	class BgpRouter(QuaggaRouter):

	"""Quagga router running the BGP protocol."""

	def __init__(self, name, interfaces,
	asNum, neighbors, routes=[],
	defaultRoute=None,
	quaggaConfFile=None,
	zebraConfFile=None,
	args, *kwargs):
	bgp = BgpProtocol(configFile=quaggaConfFile, asNum=asNum, neighbors=neighbors, routes=routes)

	super(BgpRouter, self).__init__(name, interfaces,
	zebraConfFile=zebraConfFile,
	defaultRoute=defaultRoute,
	protocols=[bgp],
	args, *kwargs)

	class RouterData(object):

	"""Internal data structure storing information about a router."""

	def __init__(self, index):
	self.index = index;
	self.neighbors = []
	self.interfaces = {}
	self.switches = []

	def addNeighbor(self, theirAddress, theirAsNum):
	self.neighbors.append({'address':theirAddress.ip, 'as':theirAsNum})

	def addInterface(self, intf, vlan, address):
	if not intf in self.interfaces:
	self.interfaces[intf] = InterfaceData(intf)

	self.interfaces[intf].addAddress(vlan, address)

	def setSwitch(self, switch):
	self.switches.append(switch)

	class InterfaceData(object):

	"""Internal data structure storing information about an interface."""

	def __init__(self, number):
	self.number = number
	self.addressesByVlan = {}

	def addAddress(self, vlan, address):
	if not vlan in self.addressesByVlan:
	self.addressesByVlan[vlan] = []

	self.addressesByVlan[vlan].append(address.with_prefixlen)

	class RoutedNetwork(object):

	"""Creates a host behind a router. This is common boilerplate topology
	segment in routed networks."""

	@staticmethod
	def build(topology, router, hostName, networks):
	# There's a convention that the router's addresses are already set up,
	# and it has the last address in the network.

	def getFirstAddress(network):
	return '%s/%s' % (network[1], network.prefixlen)

	defaultRoute = AutonomousSystem.getLastAddress(networks[0]).ip

	host = topology.addHost(hostName, cls=RoutedHost,
	ips=[getFirstAddress(network) for network in networks],
	gateway=defaultRoute)

	topology.addLink(router, host)

	class AutonomousSystem(object):

	"""Base abstraction of an autonomous system, which implies some internal
	topology and connections to other topology elements (switches/other ASes)."""

	psIdx = 1

	def __init__(self, asNum, numRouters):
	self.asNum = asNum
	self.numRouters = numRouters
	self.routers = {}
	for i in range(1, numRouters + 1):
	self.routers[i] = RouterData(i)

	self.routerNodes={}

	self.neighbors=[]
	self.vlanAddresses={}

	def peerWith(self, myRouter, myAddress, theirAddress, theirAsNum, intf=1, vlan=None):
	router = self.routers[myRouter]

	router.addInterface(intf, vlan, myAddress)
	router.addNeighbor(theirAddress, theirAsNum)

	def getRouter(self, i):
	return self.routerNodes[i]

	@staticmethod
	def generatePeeringAddresses():
	network = ip_network(u'10.0.%s.0/24' % AutonomousSystem.psIdx)
	AutonomousSystem.psIdx += 1

	return ip_interface('%s/%s' % (network[1], network.prefixlen)), \
	ip_interface('%s/%s' % (network[2], network.prefixlen))

	@staticmethod
	def addPeering(as1, as2, router1=1, router2=1, intf1=1, intf2=1, address1=None, address2=None, useVlans=False):
	vlan = AutonomousSystem.psIdx if useVlans else None

	if address1 is None or address2 is None:
	(address1, address2) = AutonomousSystem.generatePeeringAddresses()

	as1.peerWith(router1, address1, address2, as2.asNum, intf=intf1, vlan=vlan)
	as2.peerWith(router2, address2, address1, as1.asNum, intf=intf2, vlan=vlan)

	@staticmethod
	def getLastAddress(network):
	return ip_interface(network.network_address + network.num_addresses - 2)

	@staticmethod
	def getIthAddress(network, i):
	return ip_interface('%s/%s' % (network[i], network.prefixlen))

	class BasicAutonomousSystem(AutonomousSystem):

	"""Basic autonomous system containing one host and one or more routers
	which peer with other ASes."""

	def __init__(self, num, routes, numRouters=1):
	super(BasicAutonomousSystem, self).__init__(65000+num, numRouters)
	self.num = num
	self.routes = routes

	def addLink(self, switch, router=1):
	self.routers[router].setSwitch(switch)

	def build(self, topology):
	self.addRouterAndHost(topology)

	def addRouterAndHost(self, topology):

	# TODO implementation is messy and needs to be cleaned up

	intfs = {}

	router = self.routers[1]
	for i, router in self.routers.items():

	#routerName = 'r%i%i' % (self.num, i)
	routerName = 'r%i' % self.num
	if not i==1:
	routerName += ('%i' % i)

	hostName = 'h%i' % self.num

	for j, interface in router.interfaces.items():
	nativeAddresses = interface.addressesByVlan.pop(None, [])
	peeringIntf = [{'mac' : '00:00:%02x:00:%02x:%02x' % (self.num, i, j),
	'ipAddrs' : nativeAddresses}]

	for vlan, addresses in interface.addressesByVlan.items():
	peeringIntf.append({'vlan':vlan,
	'mac':'00:00:%02x:%02x:%02x:%02x' % (self.num, vlan, i, j),
	'ipAddrs':addresses})

	intfs.update({'%s-eth%s' % (routerName, j-1) : peeringIntf})

	# Only add the host to the first router for now
	if i==1:
	internalAddresses=[]
	for route in self.routes:
	internalAddresses.append('%s/%s' % (AutonomousSystem.getLastAddress(route).ip, route.prefixlen))

	internalIntf = {'ipAddrs' : internalAddresses}

	# This is the configuration of the next interface after all the peering interfaces
	intfs.update({'%s-eth%s' % (routerName, len(router.interfaces.keys())) : internalIntf})

	routerNode = topology.addHost(routerName,
	asNum=self.asNum, neighbors=router.neighbors,
	routes=self.routes,
	cls=BgpRouter, interfaces=intfs)

	self.routerNodes[i] = routerNode

	for switch in router.switches:
	topology.addLink(switch, routerNode)

	# Only add the host to the first router for now
	if i==1:
	defaultRoute = internalAddresses[0].split('/')[0]

	host = topology.addHost(hostName, cls=RoutedHost,
	ips=[self.getFirstAddress(route) for route in self.routes],
	gateway=defaultRoute)

	topology.addLink(routerNode, host)

	#def getLastAddress(self, network):
	# return ip_address(network.network_address + network.num_addresses - 2)

	def getFirstAddress(self, network):
	return '%s/%s' % (network[1], network.prefixlen)

	# TODO fix this AS - doesn't currently work
	class RouteServerAutonomousSystem(BasicAutonomousSystem):

	def __init__(self, routerAddress, args, *kwargs):
	BasicAutonomousSystem.__init__(self, args, *kwargs)

	self.routerAddress = routerAddress

	def build(self, topology, connectAtSwitch):

	switch = topology.addSwitch('as%isw' % self.num, cls=OVSBridge)

	self.addRouterAndHost(topology, self.routerAddress, switch)

	rsName = 'rs%i' % self.num
	routeServer = topology.addHost(rsName,
	self.asnum, self.neighbors,
	cls=BgpRouter,
	interfaces={'%s-eth0' % rsName : {'ipAddrs':[self.peeringAddress]}})

	topology.addLink(routeServer, switch)
	topology.addLink(switch, connectAtSwitch)

	class SdnAutonomousSystem(AutonomousSystem):

	"""Runs the internal BGP speakers needed for ONOS routing apps like
	SDN-IP."""

	def __init__(self, onosIps, numBgpSpeakers=1, asNum=65000, externalOnos=True,
	peerIntfConfig=None, withFpm=False):
	super(SdnAutonomousSystem, self).__init__(asNum, numBgpSpeakers)
	self.onosIps = onosIps
	self.numBgpSpeakers = numBgpSpeakers
	self.peerIntfConfig = peerIntfConfig
	self.withFpm = withFpm
	self.externalOnos= externalOnos
	self.internalPeeringSubnet = ip_network(u'1.1.1.0/24')

	for router in self.routers.values():
	# Add iBGP sessions to ONOS nodes
	for onosIp in onosIps:
	router.neighbors.append({'address':onosIp, 'as':asNum, 'port':2000})

	# Add iBGP sessions to other BGP speakers
	for i, router2 in self.routers.items():
	if router == router2:
	continue
	ip = AutonomousSystem.getIthAddress(self.internalPeeringSubnet, 10+i)
	router.neighbors.append({'address':ip.ip, 'as':asNum})

	def build(self, topology, connectAtSwitch, controlSwitch):

	natIp = AutonomousSystem.getLastAddress(self.internalPeeringSubnet)

	for i, router in self.routers.items():
	name = 'bgp%s' % i

	ip = AutonomousSystem.getIthAddress(self.internalPeeringSubnet, 10+i)
	eth0 = { 'ipAddrs' : [ str(ip) ] }
	if self.peerIntfConfig is not None:
	eth1 = self.peerIntfConfig
	else:
	nativeAddresses = router.interfaces[1].addressesByVlan.pop(None, [])
	eth1 = [{ 'mac':'00:00:00:00:00:%02x' % i,
	'ipAddrs' : nativeAddresses }]

	for vlan, addresses in router.interfaces[1].addressesByVlan.items():
	eth1.append({'vlan':vlan,
	'mac':'00:00:00:%02x:%02x:00' % (i, vlan),
	'ipAddrs':addresses})


	intfs = { '%s-eth0' % name : eth0,
	'%s-eth1' % name : eth1 }

	bgp = topology.addHost( name, cls=BgpRouter, asNum=self.asNum,
	neighbors=router.neighbors,
	interfaces=intfs,
	defaultRoute=str(natIp.ip),
	fpm=self.onosIps[0] if self.withFpm else None )

	topology.addLink( bgp, controlSwitch )
	topology.addLink( bgp, connectAtSwitch )


	if self.externalOnos:
	nat = topology.addHost('nat', cls=NAT,
	ip='%s/%s' % (natIp.ip, self.internalPeeringSubnet.prefixlen),
	subnet=str(self.internalPeeringSubnet), inNamespace=False);
	topology.addLink(controlSwitch, nat)


	def generateRoutes(baseRange, numRoutes, subnetSize=None):
	baseNetwork = ip_network(baseRange)

	# We need to get at least 2 addresses out of each subnet, so the biggest
	# prefix length we can have is /30
	maxPrefixLength = baseNetwork.max_prefixlen - 2

	if subnetSize is not None:
	return list(baseNetwork.subnets(new_prefix=subnetSize))

	trySubnetSize = baseNetwork.prefixlen + 1
	while trySubnetSize <= maxPrefixLength and \
	len(list(baseNetwork.subnets(new_prefix=trySubnetSize))) < numRoutes:
	trySubnetSize += 1

	if trySubnetSize > maxPrefixLength:
	raise Exception("Can't get enough routes from input parameters")

	return list(baseNetwork.subnets(new_prefix=trySubnetSize))[:numRoutes]

	class RoutingCli( CLI ):

	"""CLI command that can bring a host up or down. Useful for simulating router failure."""

	def do_host( self, line ):
	args = line.split()
	if len(args) != 2:
	error( 'invalid number of args: host <host name> {up, down}\n' )
	return

	host = args[ 0 ]
	command = args[ 1 ]
	if host not in self.mn or self.mn.get( host ) not in self.mn.hosts:
	error( 'invalid host: %s\n' % args[ 1 ] )
	else:
	if command == 'up':
	op = 'up'
	elif command == 'down':
	op = 'down'
	else:
	error( 'invalid command: host <host name> {up, down}\n' )
	return

	for intf in self.mn.get( host ).intfList( ):
	intf.link.intf1.ifconfig( op )
	intf.link.intf2.ifconfig( op )