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

 #!/usr/bin/python

 """
 CLI for test with AttMplsTopo
 """

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

 from attmplsfast import AttMplsTopo

 from subprocess import PIPE, STDOUT
 from time import time
 import random

 class IperfCLI( CLI ):
     "CLI with iperf UDP traffic generation"

     def __init__( self, net, *args, **kwargs ):
         self.iperfs = {}
         self.bw = '12k'
         self.mn = net
         self.lastbw = {}  # last bandwidth reports
         self.start()
         quietRun( 'rm /tmp/*.iperf /tmp/*.client' )
         CLI.__init__( self, net, *args, **kwargs )

     def __del__( self ):
         "Destructor: kill *all* iperf servers and clients!"
         quietRun( 'pkill -9 iperf' )

     def start( self ):
         "Start iperf servers"
         for h in sorted( self.mn.hosts ):
             with open( '/tmp/%s.iperf' % h, 'w' ) as f:
                 cmd = 'iperf -f k -i 1 -s -u'
                 popen = h.popen( cmd, stdin=PIPE, stdout=f, stderr=STDOUT )
                 self.iperfs[ h ] = popen

     def udpstart( self, h1, h2, bw):
         "Start up a udp iperf from h1 to h2 with bandwidth bw"
         # For udp we don't have to wait for startup
         self.udpstop( h1 )
         h1.cmdPrint( 'iperf -c', h2.IP(),
                      '-t 36000 -u -b', bw,
                      '1>/tmp/%s.client 2>&1 &' % h1 )

     def udpstop( self, h ):
         "udpstop h: Stop udp client on host h"
         h.cmdPrint( 'kill %iperf && wait %iperf' )
         h.cmdPrint( 'rm /tmp/%s.client' % h )

     def do_udp( self, line ):
         """udp h1 h2 [rate]: start a udp iperf session from h1 to h2
            rate: udp transmit rate [12k]"""
         args = line.split()
         if len( args ) not in ( 2, 3 ):
             error( 'usage: udp h1 h2 [rate]\n' )
             return
         h1, h2 = self.mn.get( *args[ :2 ] )
         bw = self.bw if len( args ) == 2 else args[ 2 ]
         self.udpstart( h1, h2, bw )

     def do_stop( self, line ):
         "stop [host | all]: Stop iperf client on host"
         if not line or line == 'all':
             hosts = self.mn.hosts
         else:
             hosts = [ self.mn.get( line ) ]
         for h in hosts:
             self.udpstop( h )

     def do_bw( self, line ):
         "bw: show last reported iperf server ingress bandwidth"
         output( "Last reported iperf UDP server input bandwidth:\n" )
         for h in self.mn.hosts:
             lastout, lasttime = self.lastbw.get( h, ( '', 0 ) )
             out = h.cmd( 'tail -1 /tmp/%s.iperf' % h )
             if '---' in out or ( out == lastout and
                                  time() - lasttime > 1.5 ):
                 # Stale update - don't display
                 out = '\n'
             else:
                 self.lastbw[ h ] = ( out, time() )
             output( '%s:' % h, out )

     def do_rand( self, line ):
         """rand [N [bw]]: Start N random flows (default: 10)
            at the given bandwidth (default: 12k)
            Note: this may replace existing flows"""
         args = line.split()
         N = 10
         if args:
             try:
                 N = int( args[ 0 ] )
             except:
                 error( 'please specify an integer' )
                 return
         output( 'Starting/restarting', N, 'random flows...\n' )
         bw = self.bw if len( args ) < 2 else args[ 1 ]
         servers = random.sample( self.mn.hosts, N )
         clients = []
         for server in servers:
             allclients = [ h for h in self.mn.hosts
                            if h not in clients ]
             client = random.choice( allclients )
             clients.append( client )
             self.udpstart( client, server, bw )

     def do_jobs( self, line ):
         "jobs: List iperf jobs"
         output( "Currently running jobs:\n" )
         for h in self.mn.hosts:
             output( '%s:' % h, h.cmd( 'jobs' ).strip(), '\n' )


 def run( Topo=AttMplsTopo ):
     "Create network and run CLI"
     topo = Topo()
     net = Mininet( topo=topo, controller=RemoteController )
     net.start()
     info( '\n### Welcome to the custom iperf udp CLI!\n'
           '###\n'
           '### udp h1 h2 [bw]   start iperf udp from h1 to h2\n'
           '### stop h1 h2       stop iperf udp from h1 to h2\n'
           '### rand [N]         start/restart N random udp iperfs\n'
           '### bw               show last reported udp ingress bandwidth\n'
           '### jobs             list iperf jobs\n\n' )
     IperfCLI( net )
     net.stop()


 if __name__ == '__main__':
     setLogLevel( 'info' )
     run()
	#!/usr/bin/python

	"""
	CLI for test with AttMplsTopo
	"""

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

	from attmplsfast import AttMplsTopo

	from subprocess import PIPE, STDOUT
	from time import time
	import random

	class IperfCLI( CLI ):
	"CLI with iperf UDP traffic generation"

	def __init__( self, net, args, *kwargs ):
	self.iperfs = {}
	self.bw = '12k'
	self.mn = net
	self.lastbw = {} # last bandwidth reports
	self.start()
	quietRun( 'rm /tmp/.iperf /tmp/.client' )
	CLI.__init__( self, net, args, *kwargs )

	def __del__( self ):
	"Destructor: kill all iperf servers and clients!"
	quietRun( 'pkill -9 iperf' )

	def start( self ):
	"Start iperf servers"
	for h in sorted( self.mn.hosts ):
	with open( '/tmp/%s.iperf' % h, 'w' ) as f:
	cmd = 'iperf -f k -i 1 -s -u'
	popen = h.popen( cmd, stdin=PIPE, stdout=f, stderr=STDOUT )
	self.iperfs[ h ] = popen

	def udpstart( self, h1, h2, bw):
	"Start up a udp iperf from h1 to h2 with bandwidth bw"
	# For udp we don't have to wait for startup
	self.udpstop( h1 )
	h1.cmdPrint( 'iperf -c', h2.IP(),
	'-t 36000 -u -b', bw,
	'1>/tmp/%s.client 2>&1 &' % h1 )

	def udpstop( self, h ):
	"udpstop h: Stop udp client on host h"
	h.cmdPrint( 'kill %iperf && wait %iperf' )
	h.cmdPrint( 'rm /tmp/%s.client' % h )

	def do_udp( self, line ):
	"""udp h1 h2 [rate]: start a udp iperf session from h1 to h2
	rate: udp transmit rate [12k]"""
	args = line.split()
	if len( args ) not in ( 2, 3 ):
	error( 'usage: udp h1 h2 [rate]\n' )
	return
	h1, h2 = self.mn.get( *args[ :2 ] )
	bw = self.bw if len( args ) == 2 else args[ 2 ]
	self.udpstart( h1, h2, bw )

	def do_stop( self, line ):
	"stop [host \| all]: Stop iperf client on host"
	if not line or line == 'all':
	hosts = self.mn.hosts
	else:
	hosts = [ self.mn.get( line ) ]
	for h in hosts:
	self.udpstop( h )

	def do_bw( self, line ):
	"bw: show last reported iperf server ingress bandwidth"
	output( "Last reported iperf UDP server input bandwidth:\n" )
	for h in self.mn.hosts:
	lastout, lasttime = self.lastbw.get( h, ( '', 0 ) )
	out = h.cmd( 'tail -1 /tmp/%s.iperf' % h )
	if '---' in out or ( out == lastout and
	time() - lasttime > 1.5 ):
	# Stale update - don't display
	out = '\n'
	else:
	self.lastbw[ h ] = ( out, time() )
	output( '%s:' % h, out )

	def do_rand( self, line ):
	"""rand [N [bw]]: Start N random flows (default: 10)
	at the given bandwidth (default: 12k)
	Note: this may replace existing flows"""
	args = line.split()
	N = 10
	if args:
	try:
	N = int( args[ 0 ] )
	except:
	error( 'please specify an integer' )
	return
	output( 'Starting/restarting', N, 'random flows...\n' )
	bw = self.bw if len( args ) < 2 else args[ 1 ]
	servers = random.sample( self.mn.hosts, N )
	clients = []
	for server in servers:
	allclients = [ h for h in self.mn.hosts
	if h not in clients ]
	client = random.choice( allclients )
	clients.append( client )
	self.udpstart( client, server, bw )

	def do_jobs( self, line ):
	"jobs: List iperf jobs"
	output( "Currently running jobs:\n" )
	for h in self.mn.hosts:
	output( '%s:' % h, h.cmd( 'jobs' ).strip(), '\n' )


	def run( Topo=AttMplsTopo ):
	"Create network and run CLI"
	topo = Topo()
	net = Mininet( topo=topo, controller=RemoteController )
	net.start()
	info( '\n### Welcome to the custom iperf udp CLI!\n'
	'###\n'
	'### udp h1 h2 [bw] start iperf udp from h1 to h2\n'
	'### stop h1 h2 stop iperf udp from h1 to h2\n'
	'### rand [N] start/restart N random udp iperfs\n'
	'### bw show last reported udp ingress bandwidth\n'
	'### jobs list iperf jobs\n\n' )
	IperfCLI( net )
	net.stop()


	if __name__ == '__main__':
	setLogLevel( 'info' )
	run()