#!/usr/bin/python import itertools import os import signal import sys from argparse import ArgumentParser from subprocess import call from threading import Thread from time import sleep import gratuitousArp from mininet.cli import CLI from mininet.examples.controlnet import MininetFacade from mininet.link import TCLink from mininet.log import info, output, error from mininet.log import setLogLevel from mininet.net import Mininet from mininet.node import RemoteController, Node ARP_PATH = gratuitousArp.__file__.replace('.pyc', '.py') class ONOSMininet( Mininet ): 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""" # delay building for a second kwargs[ 'build' ] = False Mininet.__init__(self, *args, **kwargs ) self.gratArp = gratuitousArp # If a controller is not provided, use list of remote controller IPs instead. if 'controller' not in kwargs or not kwargs['controller']: 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( timeout=5 ) sleep(2) info ( '*** Sending a gratuitious ARP from each host\n' ) self.gratuitousArp() def verifyHosts( self, hosts ): for i in range( len( hosts ) ): if isinstance( hosts[i], str): if hosts[i] in self: hosts[i] = self[ hosts[i] ] else: info( '*** ERROR: %s is not a host\n' % hosts[i] ) del hosts[i] elif not isinstance( hosts[i], Node): del hosts[i] def gratuitousArp( self, hosts=[] ): "Send an ARP from each host to aid controller's host discovery; fallback to ping if necessary" if not hosts: hosts = self.hosts self.verifyHosts( hosts ) for host in hosts: info( '%s ' % host.name ) info( host.cmd( ARP_PATH ) ) 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 ): self.verifyHosts( hosts ) servers = [ host.popen("iperf -s") for host in hosts ] clients = [] for s, d in itertools.combinations(hosts, 2): info ( '%s <--> %s\n' % ( s.name, d.name )) cmd = 'iperf -c %s -t %s -y csv' % (d.IP(), seconds) p = s.popen(cmd) p.s = s.name p.d = d.name clients.append(p) def handler (_signum, _frame): raise BackgroundException() oldSignal = signal.getsignal(signal.SIGTSTP) signal.signal(signal.SIGTSTP, handler) def finish( verbose=True ): for c in clients: out, err = c.communicate() if verbose: if err: info( err ) else: bw = out.split( ',' )[8] info( '%s <--> %s: %s\n' % ( c.s, c.d, formatBw(bw) ) ) for s in servers: s.terminate() try: info ( 'Press ^Z to continue in background or ^C to abort\n') progress( seconds ) finish() except KeyboardInterrupt: for c in clients: c.terminate() for s in servers: s.terminate() except BackgroundException: info( '\n*** Continuing in background...\n' ) t = Thread( target=finish, args=[ False ] ) t.start() finally: #Disable custom background signal signal.signal(signal.SIGTSTP, oldSignal) def progress(t): while t > 0: sys.stdout.write( '.' ) t -= 1 sys.stdout.flush() sleep(1) print def formatBw( bw ): bw = float(bw) if bw > 1000: bw /= 1000 if bw > 1000: bw /= 1000 if bw > 1000: bw /= 1000 return '%.2f Gbps' % bw return '%.2f Mbps' % bw return '%.2f Kbps' % bw return '%.2f bps' % bw class BackgroundException( Exception ): pass def get_mn(mn): if isinstance(mn, ONOSMininet): return mn elif isinstance(mn, MininetFacade): # There's more Mininet objects instantiated (e.g. one for the control network in onos.py). for net in mn.nets: if isinstance(net, ONOSMininet): return net return None def do_bgIperf( self, line ): args = line.split() if not args: output( 'Provide a list of hosts.\n' ) #Try to parse the '-t' argument as the number of seconds seconds = 10 for i, arg in enumerate(args): if arg == '-t': if i + 1 < len(args): try: seconds = int(args[i + 1]) except ValueError: error( 'Could not parse number of seconds: %s', args[i+1] ) del(args[i+1]) del args[i] 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 ] ) mn = get_mn( self.mn ) if "bgIperf" in dir( mn ) and not err: mn.bgIperf( hosts, seconds=seconds ) else: output('Background Iperf is not supported.\n') def do_gratuitousArp( self, line ): args = line.split() mn = get_mn(self.mn) if "gratuitousArp" in dir( mn ): mn.gratuitousArp( args ) else: output( 'Gratuitous ARP is not supported.\n' ) CLI.do_bgIperf = do_bgIperf CLI.do_gratuitousArp = do_gratuitousArp def parse_args(): parser = ArgumentParser(description='ONOS Mininet') parser.add_argument('--cluster-size', help='Starts an ONOS cluster with the given number of instances', type=int, action='store', dest='clusterSize', required=False, default=0) parser.add_argument('--netcfg', help='Relative path of the JSON file to be used with netcfg', type=str, action='store', dest='netcfgJson', required=False, default='') parser.add_argument('ipAddrs', metavar='IP', type=str, nargs='*', help='List of controller IP addresses', default=[]) return parser.parse_args() def run( topo, controllers=None, link=TCLink, autoSetMacs=True): if not topo: print 'Need to provide a topology' exit(1) args = parse_args() if not controllers and len(args.ipAddrs) > 0: controllers = args.ipAddrs if not controllers and args.clusterSize < 1: print 'Need to provide a list of controller IPs, or define a cluster size.' exit( 1 ) setLogLevel( 'info' ) if args.clusterSize > 0: if 'ONOS_ROOT' not in os.environ: print "Environment var $ONOS_ROOT not set (needed to import onos.py)" exit( 1 ) sys.path.append(os.environ["ONOS_ROOT"] + "/tools/dev/mininet") from onos import ONOSCluster, ONOSOVSSwitch, ONOSCLI controller = ONOSCluster('c0', args.clusterSize) onosAddr = controller.nodes()[0].IP() net = ONOSMininet( topo=topo, controller=controller, switch=ONOSOVSSwitch, link=link, autoSetMacs=autoSetMacs ) cli = ONOSCLI else: onosAddr = controllers[0] net = ONOSMininet(topo=topo, controllers=controllers, link=link, autoSetMacs=autoSetMacs) cli = CLI net.start() if len(args.netcfgJson) > 0: if not os.path.isfile(args.netcfgJson): error('*** WARNING no such netcfg file: %s\n' % args.netcfgJson) else: info('*** Setting netcfg: %s\n' % args.netcfgJson) call(("onos-netcfg", onosAddr, args.netcfgJson)) cli( net ) net.stop()