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

 #!/usr/bin/python

 import sys
 import itertools
 from time import sleep

 from mininet.net import Mininet
 from mininet.log import setLogLevel
 from mininet.node import RemoteController
 from mininet.log import info, debug, output
 from mininet.util import quietRun
 from mininet.link import TCLink
 from mininet.cli import CLI

 class ONOSMininet( Mininet ):

     @classmethod
     def setup( cls ):
         cls.useArping = True if quietRun( 'which arping' ) else False

     def __init__( self, controllers=[], gratuitousArp=True, build=True, *args, **kwargs ):
         """Create Mininet object for ONOS.
         controllers: List of controller IP addresses
         gratuitousArp: Send an ARP from each host to aid controller's host discovery"""
         # discarding provided controller (if any),
         # using list of remote controller IPs instead
         kwargs[ 'controller' ] = None

         # delay building for a second
         kwargs[ 'build' ] = False

         Mininet.__init__(self, *args, **kwargs )

         self.gratArp = gratuitousArp
         self.useArping = ONOSMininet.useArping

         info ( '*** Adding controllers\n' )
         ctrl_count = 0
         for controllerIP in controllers:
             self.addController( 'c%d' % ctrl_count, RemoteController, ip=controllerIP )
             info( '   c%d (%s)\n' % ( ctrl_count, controllerIP ) )
             ctrl_count = ctrl_count + 1

         if self.topo and build:
             self.build()

     def start( self ):
         Mininet.start( self )
         if self.gratArp:
             self.waitConnected()
             info ( '*** Sending a gratuitious ARP from each host\n' )
             self.gratuitousArp()


     def gratuitousArp( self ):
         "Send an ARP from each host to aid controller's host discovery; fallback to ping if necessary"
         if self.useArping:
             for host in self.hosts:
                 info( '%s ' % host.name )
                 debug( host.cmd( 'arping -U -c 1 ' + host.IP() ) )
             info ( '\n' )
         else:
             info( '\nWARNING: arping is not found, using ping instead.\n'
                   'For higher performance, install arping: sudo apt-get install iputils-arping\n\n' )

             procs = [ s.popen( 'ping -w 0.1 -W 0.1 -c1 %s > /dev/null; printf "%s "'
                                 % ( d.IP(), s.name ), shell=True )
                       for (s, d) in zip( self.hosts, self.hosts[1:] + self.hosts[0:1] ) ]
             for t in procs:
                 out, err = t.communicate()
                 if err:
                     info ( err )
                 else:
                     info ( out )
         info ( '\n' )

     def pingloop( self ):
         "Loop forever pinging the full mesh of hosts"
         setLogLevel( 'error' )
         try:
             while True:
                 self.ping()
         finally:
             setLogLevel( 'info' )

     def bgIperf( self, hosts=[], seconds=10 ):
         #TODO check if the hosts are strings or objects
         #    h1 = net.getNodeByName('h1')
         servers = [ host.popen("iperf -s") for host in hosts ]

         clients = []
         for pair in itertools.combinations(hosts, 2):
             info ( '%s <--> %s\n' % ( pair[0].name, pair[1].name ))
             cmd = "iperf -c %s -t %s" % (pair[1].IP(), seconds)
             clients.append(pair[0].popen(cmd))

         progress( seconds )

         for c in clients:
             out, err = c.communicate()
             if err:
                 info( err )
             else:
                 debug( out )
                 #TODO parse output and print summary

         for s in servers:
             s.terminate()

 def progress(t):
     while t > 0:
         sys.stdout.write( '.' )
         t -= 1
         sys.stdout.flush()
         sleep(1)
     print

 # Initialize ONOSMininet the first time that the class is loaded
 ONOSMininet.setup()

 def do_iperf( self, line ):
     args = line.split()
     if not args:
         output( 'Provide a list of hosts.\n' )
     hosts = []
     err = False
     for arg in args:
         if arg not in self.mn:
             err = True
             error( "node '%s' not in network\n" % arg )
         else:
             hosts.append( self.mn[ arg ] )
     if "bgIperf" in dir(self.mn) and not err:
         self.mn.bgIperf( hosts )

 def do_gratuitousArp( self, _line ):
     if "gratuitousArp" in dir(self.mn):
         self.mn.gratuitousArp()
     else:
         output( 'Gratuitous ARP is not support.\n' )

 CLI.do_bgIperf = do_iperf
 CLI.do_gratuitousArp = do_gratuitousArp

 def run( topo, controllers=None, link=TCLink, autoSetMacs=True ):
     if not controllers and len( sys.argv ) > 1:
         controllers = sys.argv[ 1: ]
     else:
         print 'Need to provide a topology and list of controllers'
         exit( 1 )

     setLogLevel( 'info' )

     net = ONOSMininet( topo=topo, controllers=controllers, link=link, autoSetMacs=autoSetMacs )
     net.start()
     CLI( net )
     net.stop()
	#!/usr/bin/python

	import sys
	import itertools
	from time import sleep

	from mininet.net import Mininet
	from mininet.log import setLogLevel
	from mininet.node import RemoteController
	from mininet.log import info, debug, output
	from mininet.util import quietRun
	from mininet.link import TCLink
	from mininet.cli import CLI

	class ONOSMininet( Mininet ):

	@classmethod
	def setup( cls ):
	cls.useArping = True if quietRun( 'which arping' ) else False

	def __init__( self, controllers=[], gratuitousArp=True, build=True, args, *kwargs ):
	"""Create Mininet object for ONOS.
	controllers: List of controller IP addresses
	gratuitousArp: Send an ARP from each host to aid controller's host discovery"""
	# discarding provided controller (if any),
	# using list of remote controller IPs instead
	kwargs[ 'controller' ] = None

	# delay building for a second
	kwargs[ 'build' ] = False

	Mininet.__init__(self, args, *kwargs )

	self.gratArp = gratuitousArp
	self.useArping = ONOSMininet.useArping

	info ( '*** Adding controllers\n' )
	ctrl_count = 0
	for controllerIP in controllers:
	self.addController( 'c%d' % ctrl_count, RemoteController, ip=controllerIP )
	info( ' c%d (%s)\n' % ( ctrl_count, controllerIP ) )
	ctrl_count = ctrl_count + 1

	if self.topo and build:
	self.build()

	def start( self ):
	Mininet.start( self )
	if self.gratArp:
	self.waitConnected()
	info ( '*** Sending a gratuitious ARP from each host\n' )
	self.gratuitousArp()


	def gratuitousArp( self ):
	"Send an ARP from each host to aid controller's host discovery; fallback to ping if necessary"
	if self.useArping:
	for host in self.hosts:
	info( '%s ' % host.name )
	debug( host.cmd( 'arping -U -c 1 ' + host.IP() ) )
	info ( '\n' )
	else:
	info( '\nWARNING: arping is not found, using ping instead.\n'
	'For higher performance, install arping: sudo apt-get install iputils-arping\n\n' )

	procs = [ s.popen( 'ping -w 0.1 -W 0.1 -c1 %s > /dev/null; printf "%s "'
	% ( d.IP(), s.name ), shell=True )
	for (s, d) in zip( self.hosts, self.hosts[1:] + self.hosts[0:1] ) ]
	for t in procs:
	out, err = t.communicate()
	if err:
	info ( err )
	else:
	info ( out )
	info ( '\n' )

	def pingloop( self ):
	"Loop forever pinging the full mesh of hosts"
	setLogLevel( 'error' )
	try:
	while True:
	self.ping()
	finally:
	setLogLevel( 'info' )

	def bgIperf( self, hosts=[], seconds=10 ):
	#TODO check if the hosts are strings or objects
	# h1 = net.getNodeByName('h1')
	servers = [ host.popen("iperf -s") for host in hosts ]

	clients = []
	for pair in itertools.combinations(hosts, 2):
	info ( '%s <--> %s\n' % ( pair[0].name, pair[1].name ))
	cmd = "iperf -c %s -t %s" % (pair[1].IP(), seconds)
	clients.append(pair[0].popen(cmd))

	progress( seconds )

	for c in clients:
	out, err = c.communicate()
	if err:
	info( err )
	else:
	debug( out )
	#TODO parse output and print summary

	for s in servers:
	s.terminate()

	def progress(t):
	while t > 0:
	sys.stdout.write( '.' )
	t -= 1
	sys.stdout.flush()
	sleep(1)
	print

	# Initialize ONOSMininet the first time that the class is loaded
	ONOSMininet.setup()

	def do_iperf( self, line ):
	args = line.split()
	if not args:
	output( 'Provide a list of hosts.\n' )
	hosts = []
	err = False
	for arg in args:
	if arg not in self.mn:
	err = True
	error( "node '%s' not in network\n" % arg )
	else:
	hosts.append( self.mn[ arg ] )
	if "bgIperf" in dir(self.mn) and not err:
	self.mn.bgIperf( hosts )

	def do_gratuitousArp( self, _line ):
	if "gratuitousArp" in dir(self.mn):
	self.mn.gratuitousArp()
	else:
	output( 'Gratuitous ARP is not support.\n' )

	CLI.do_bgIperf = do_iperf
	CLI.do_gratuitousArp = do_gratuitousArp

	def run( topo, controllers=None, link=TCLink, autoSetMacs=True ):
	if not controllers and len( sys.argv ) > 1:
	controllers = sys.argv[ 1: ]
	else:
	print 'Need to provide a topology and list of controllers'
	exit( 1 )

	setLogLevel( 'info' )

	net = ONOSMininet( topo=topo, controllers=controllers, link=link, autoSetMacs=autoSetMacs )
	net.start()
	CLI( net )
	net.stop()