def main():
usagestr = "usage: %prog [-h] [options] [args]"
parser = optparse.OptionParser(usage=usagestr)
parser.set_defaults(numnodes=5)
parser.add_option("-n", "--numnodes", dest="numnodes", type=int,
help="number of nodes")
def usage(msg=None, err=0):
sys.stdout.write("\n")
if msg:
sys.stdout.write(msg + "\n\n")
parser.print_help()
sys.exit(err)
# parse command line options
(options, args) = parser.parse_args()
if options.numnodes < 1:
usage("invalid number of nodes: %s" % options.numnodes)
for a in args:
sys.stderr.write("ignoring command line argument: '%s'\n" % a)
start = datetime.datetime.now()
# IP subnet
prefix = ipaddress.Ipv4Prefix("10.83.0.0/16")
session = Session(1, persistent=True)
if 'server' in globals():
server.addsession(session)
# emulated Ethernet switch
switch = session.add_object(cls=nodes.SwitchNode, name="switch")
switch.setposition(x=80, y=50)
print "creating %d nodes with addresses from %s" % (options.numnodes, prefix)
for i in xrange(1, options.numnodes + 1):
tmp = session.add_object(cls=nodes.CoreNode, name="n%d" % i, objid=i)
tmp.newnetif(switch, ["%s/%s" % (prefix.addr(i), prefix.prefixlen)])
tmp.cmd([constants.SYSCTL_BIN, "net.ipv4.icmp_echo_ignore_broadcasts=0"])
tmp.setposition(x=150 * i, y=150)
n.append(tmp)
session.node_count = str(options.numnodes + 1)
session.instantiate()
print "elapsed time: %s" % (datetime.datetime.now() - start)
# start a shell on node 1
n[1].term("bash")
raw_input("press enter to exit")
session.shutdown()
def main():
usagestr = "usage: %prog [-h] [options] [args]"
parser = optparse.OptionParser(usage=usagestr)
parser.set_defaults(numnodes=5)
parser.add_option("-n",
"--numnodes",
dest="numnodes",
type=int,
help="number of nodes")
def usage(msg=None, err=0):
sys.stdout.write("\n")
if msg:
sys.stdout.write(msg + "\n\n")
parser.print_help()
sys.exit(err)
# parse command line options
(options, args) = parser.parse_args()
if options.numnodes < 1:
usage("invalid number of nodes: %s" % options.numnodes)
for a in args:
sys.stderr.write("ignoring command line argument: '%s'\n" % a)
start = datetime.datetime.now()
# IP subnet
prefix = ipaddress.Ipv4Prefix("10.83.0.0/16")
# session with some EMANE initialization
cfg = {'verbose': 'false'}
session = Session(1, config=cfg, persistent=True)
session.master = True
session.location.setrefgeo(47.57917, -122.13232, 2.00000)
session.location.refscale = 150.0
session.config['emane_models'] = "RfPipe, Ieee80211abg, Bypass"
session.emane.loadmodels()
if 'server' in globals():
server.addsession(session)
# EMANE WLAN
print "creating EMANE WLAN wlan1"
wlan = session.add_object(cls=EmaneNode, name="wlan1")
wlan.setposition(x=80, y=50)
names = EmaneIeee80211abgModel.getnames()
values = list(EmaneIeee80211abgModel.getdefaultvalues())
# TODO: change any of the EMANE 802.11 parameter values here
for i in range(0, len(names)):
print "EMANE 80211 \"%s\" = \"%s\"" % (names[i], values[i])
try:
values[names.index('pathlossmode')] = '2ray'
except ValueError:
values[names.index('propagationmodel')] = '2ray'
session.emane.setconfig(wlan.objid, EmaneIeee80211abgModel.name, values)
services_str = "zebra|OSPFv3MDR|IPForward"
print "creating %d nodes with addresses from %s" % \
(options.numnodes, prefix)
for i in xrange(1, options.numnodes + 1):
tmp = session.add_object(cls=nodes.CoreNode, name="n%d" % i, objid=i)
tmp.newnetif(wlan, ["%s/%s" % (prefix.addr(i), prefix.prefixlen)])
tmp.cmd(
[constants.SYSCTL_BIN, "net.ipv4.icmp_echo_ignore_broadcasts=0"])
tmp.setposition(x=150 * i, y=150)
session.services.addservicestonode(tmp, "", services_str)
n.append(tmp)
# this starts EMANE, etc.
session.node_count = str(options.numnodes + 1)
session.instantiate()
# start a shell on node 1
n[1].term("bash")
print "elapsed time: %s" % (datetime.datetime.now() - start)
