本文整理汇总了Python中networks.network.Network.get_node方法的典型用法代码示例。如果您正苦于以下问题:Python Network.get_node方法的具体用法?Python Network.get_node怎么用?Python Network.get_node使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类networks.network.Network
的用法示例。
在下文中一共展示了Network.get_node方法的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: main
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def main():
# parameters
Sim.scheduler.reset()
# setup network
net = Network('../networks/five-nodes.txt')
# get nodes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n3 = net.get_node('n3')
n4 = net.get_node('n4')
n5 = net.get_node('n5')
# setup broadcast application
b1 = BroadcastApp(n1)
n1.add_protocol(protocol="broadcast", handler=b1)
b2 = BroadcastApp(n2)
n2.add_protocol(protocol="broadcast", handler=b2)
b3 = BroadcastApp(n3)
n3.add_protocol(protocol="broadcast", handler=b3)
b4 = BroadcastApp(n4)
n4.add_protocol(protocol="broadcast", handler=b4)
b5 = BroadcastApp(n5)
n5.add_protocol(protocol="broadcast", handler=b5)
# send a broadcast packet from 1 with TTL 2, so everyone should get it
p = Packet(
source_address=n1.get_address('n2'),
destination_address=0,
ident=1, ttl=2, protocol='broadcast', length=100)
Sim.scheduler.add(delay=0, event=p, handler=n1.send_packet)
# send a broadcast packet from 1 with TTL 1, so just nodes 2 and 3
# should get it
p = Packet(
source_address=n1.get_address('n2'),
destination_address=0,
ident=2, ttl=1, protocol='broadcast', length=100)
Sim.scheduler.add(delay=1, event=p, handler=n1.send_packet)
# send a broadcast packet from 3 with TTL 1, so just nodes 1, 4, and 5
# should get it
p = Packet(
source_address=n3.get_address('n1'),
destination_address=0,
ident=3, ttl=1, protocol='broadcast', length=100)
Sim.scheduler.add(delay=2, event=p, handler=n3.send_packet)
# run the simulation
Sim.scheduler.run()
示例2: main
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def main():
# parameters
Sim.scheduler.reset()
# setup network
net = Network('../networks/one-hop.txt')
# setup routes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n1.add_forwarding_entry(address=n2.get_address('n1'), link=n1.links[0])
n2.add_forwarding_entry(address=n1.get_address('n2'), link=n2.links[0])
# setup app
d = DelayHandler()
net.nodes['n2'].add_protocol(protocol="delay", handler=d)
# setup packet generator
destination = n2.get_address('n1')
max_rate = 1000000 // (1000 * 8)
load = 0.8 * max_rate
g = Generator(node=n1, destination=destination, load=load, duration=10)
Sim.scheduler.add(delay=0, event='generate', handler=g.handle)
# run the simulation
Sim.scheduler.run()
示例3: run
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def run(self):
# parameters
Sim.scheduler.reset()
Sim.set_debug(True)
# setup network
net = Network('../networks/one-hop.txt')
# setup routes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n1.add_forwarding_entry(address=n2.get_address('n1'),link=n1.links[0])
n2.add_forwarding_entry(address=n1.get_address('n2'),link=n2.links[0])
# setup transport
t1 = Transport(n1)
t2 = Transport(n2)
# setup application
a = AppHandler(self.filename)
# setup connection
c1 = StopAndWait(t1,n1.get_address('n2'),1,n2.get_address('n1'),1,a)
c2 = StopAndWait(t2,n2.get_address('n1'),1,n1.get_address('n2'),1,a)
# send a file
with open(self.filename,'r') as f:
while True:
data = f.read(1000)
if not data:
break
Sim.scheduler.add(delay=0, event=data, handler=c1.send)
# run the simulation
Sim.scheduler.run()
示例4: run
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def run(self):
# parameters
Sim.scheduler.reset()
if "a" in self.debug:
Sim.set_debug('AppHandler')
if "t" in self.debug:
Sim.set_debug('TCP')
# setup network
net = Network('networks/one-hop.txt')
net.loss(self.loss)
# setup routes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n1.add_forwarding_entry(address=n2.get_address('n1'),link=n1.links[0])
n2.add_forwarding_entry(address=n1.get_address('n2'),link=n2.links[0])
# setup transport
t1 = Transport(n1)
t2 = Transport(n2)
# setup application
a = AppHandler(self.inputfile)
# setup connection
c1 = TCP(t1,n1.get_address('n2'),1,n2.get_address('n1'),1,a,window=self.window,type=self.type)
c2 = TCP(t2,n2.get_address('n1'),1,n1.get_address('n2'),1,a,window=self.window,type=self.type)
global original_size
f = open(self.inputfile, "rb")
try:
data = f.read(1000)
while data != "":
original_size += len(data)
Sim.scheduler.add(delay=0, event=data, handler=c1.send)
data = f.read(1000)
finally:
f.close()
# run the simulation
Sim.scheduler.run()
plotter.plot(self.sequencefile);
示例5: run
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def run(self):
# parameters
Sim.scheduler.reset()
if hasattr(self, 'debug') and "a" in self.debug:
Sim.set_debug('AppHandler')
if hasattr(self, 'debug') and "t" in self.debug:
Sim.set_debug('TCP')
# setup network
net = Network('networks/one-hop.txt')
net.loss(self.loss)
# setup routes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n1.add_forwarding_entry(address=n2.get_address('n1'),link=n1.links[0])
n2.add_forwarding_entry(address=n1.get_address('n2'),link=n2.links[0])
# setup transport
t1 = Transport(n1)
t2 = Transport(n2)
# setup application
a = AppHandler(self.filename)
# setup connection
c1 = TCP(t1,n1.get_address('n2'),1,n2.get_address('n1'),1,a,dynamic_rto=self.dynamic_rto)
c2 = TCP(t2,n2.get_address('n1'),1,n1.get_address('n2'),1,a,dynamic_rto=self.dynamic_rto)
f = open(self.filename, "rb")
try:
data = f.read(1000)
while data != "":
Sim.scheduler.add(delay=0, event=data, handler=c1.send)
data = f.read(1000)
finally:
f.close()
# run the simulation
Sim.scheduler.run()
示例6: run
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def run(self):
# parameters
Sim.scheduler.reset()
Sim.set_debug('AppHandler')
Sim.set_debug('TCP')
# setup network
net = Network('../networks/one-hop.txt')
net.loss(self.loss)
# setup routes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n1.add_forwarding_entry(address=n2.get_address('n1'),link=n1.links[0]) # n1 -> n2
n2.add_forwarding_entry(address=n1.get_address('n2'),link=n2.links[0]) # n1 <- n2
# setup transport
t1 = Transport(n1)
t2 = Transport(n2)
# setup application
tcp_flows = 1
a1 = AppHandler(self.filename, 1)
# setup connection
c1a = TCP(t1, n1.get_address('n2'), 1, n2.get_address('n1'), 1, 3000, a1)
c2a = TCP(t2, n2.get_address('n1'), 1, n1.get_address('n2'), 1, 3000, a1)
# send a file
with open(self.filename,'r') as f:
while True:
data = f.read(1000)
if not data:
break
Sim.scheduler.add(delay=0, event=data, handler=c1a.send)
# run the simulation
Sim.scheduler.run()
return tcp_flows
示例7: main
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def main():
# parameters
Sim.scheduler.reset()
# setup network
net = Network('../networks/one-hop.txt')
# setup routes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n1.add_forwarding_entry(address=n2.get_address('n1'), link=n1.links[0])
n2.add_forwarding_entry(address=n1.get_address('n2'), link=n2.links[0])
# setup app
d = DelayHandler()
net.nodes['n2'].add_protocol(protocol="delay", handler=d)
# send one packet
p = Packet(destination_address=n2.get_address('n1'), ident=1, protocol='delay', length=1000)
Sim.scheduler.add(delay=0, event=p, handler=n1.send_packet)
# take the link down
Sim.scheduler.add(delay=1, event=None, handler=n1.get_link('n2').down)
# send one packet (it won't go through)
p = Packet(destination_address=n2.get_address('n1'), ident=1, protocol='delay', length=1000)
Sim.scheduler.add(delay=1.1, event=p, handler=n1.send_packet)
# bring the link up
Sim.scheduler.add(delay=2, event=None, handler=n1.get_link('n2').up)
# send one packet (and now it goes through)
p = Packet(destination_address=n2.get_address('n1'), ident=1, protocol='delay', length=1000)
Sim.scheduler.add(delay=2.1, event=p, handler=n1.send_packet)
# run the simulation
Sim.scheduler.run()
示例8: run
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def run(self):
# parameters
Sim.scheduler.reset()
Sim.set_debug('AppHandler')
Sim.set_debug('TCP')
# setup network
if self.use_queue:
net = Network('networks/one-hop-queue.txt')
else:
net = Network('networks/one-hop.txt')
net.loss(self.loss)
# setup routes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n1.add_forwarding_entry(address=n2.get_address('n1'),link=n1.links[0])
n2.add_forwarding_entry(address=n1.get_address('n2'),link=n2.links[0])
# setup transport
t1 = Transport(n1)
t2 = Transport(n2)
# setup application
a = AppHandler(self.filename)
# setup connection
c1 = TCP(t1,n1.get_address('n2'),1,n2.get_address('n1'),1,a,window=self.window)
c2 = TCP(t2,n2.get_address('n1'),1,n1.get_address('n2'),1,a,window=self.window)
# send a file
with open(self.filename,'r') as f:
while True:
data = f.read(1000)
if not data:
break
Sim.scheduler.add(delay=0, event=data, handler=c1.send)
# run the simulation
Sim.scheduler.run()
# print some results
print
print "========== Overall results =========="
time = Sim.scheduler.current_time()
print "Total time: %f seconds" % time
avg = numpy.mean(c2.queueing_delay_list)
print "Average queueing delay: %f" % avg
max = numpy.max(c2.queueing_delay_list)
print "Max queueing delay: %f" % max
file_size = os.path.getsize(self.filename)
print "File size: %i" % file_size
throughput = file_size / time
print "Throughput: %f" % throughput
print "%i,%f,%f,%f,%i,%f\n" % (self.window,time,avg,max,file_size,throughput)
if self.loss == 0.0:
print "Outputing results to experiment.csv"
output_fh = open('experiment.csv', 'a')
output_fh.write("%i,%f,%f,%f,%i,%f\n" % (self.window,time,avg,max,file_size,throughput))
output_fh.close()
示例9: range
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
if __name__ == '__main__':
# parameters
percentages = [.1, .2, .3, .4, .5, .6, .7, .75, .8, .9, .95, .98]
max_rate = 1000000/(1000*8)
for percentage in percentages:
for x in range (0, 3):
Sim.scheduler.reset()
# setup network
net = Network('networks/one-hop.txt')
# setup routes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n1.add_forwarding_entry(address=n2.get_address('n1'),link=n1.links[0])
n2.add_forwarding_entry(address=n1.get_address('n2'),link=n2.links[0])
# setup app
d = DelayHandler(percentage=percentage)
net.nodes['n2'].add_protocol(protocol="delay",handler=d)
# setup packet generator
destination = n2.get_address('n1')
load = percentage*max_rate
g = Generator(node=n1,destination=destination,load=load,duration=10)
Sim.scheduler.add(delay=0, event='generate', handler=g.handle)
# run the simulation
示例10: run
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def run(self):
# parameters
Sim.scheduler.reset()
Sim.set_debug('AppHandler')
Sim.set_debug('TCP')
# setup network
# net = Network('../networks/one-hop.txt')
net = Network('../networks/four-nodes.txt')
net.loss(self.loss)
# setup routes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n3 = net.get_node('n3')
n4 = net.get_node('n4')
n1.add_forwarding_entry(address=n2.get_address('n1'),link=n1.links[0]) # n1 -> n2
n2.add_forwarding_entry(address=n1.get_address('n2'),link=n2.links[0]) # n1 <- n2
n2.add_forwarding_entry(address=n3.get_address('n2'),link=n2.links[1]) # n2 -> n3
n3.add_forwarding_entry(address=n2.get_address('n3'),link=n3.links[0]) # n2 <- n3
n2.add_forwarding_entry(address=n4.get_address('n2'),link=n2.links[2]) # n2 -> n4
n4.add_forwarding_entry(address=n2.get_address('n4'),link=n4.links[0]) # n2 <- n4
n1.add_forwarding_entry(address=n4.get_address('n2'),link=n1.links[0]) # n1 -> n2 -> n4
n3.add_forwarding_entry(address=n4.get_address('n2'),link=n3.links[0]) # n3 -> n2 -> n4
n4.add_forwarding_entry(address=n1.get_address('n2'),link=n4.links[0]) # n4 -> n2 -> n1
n4.add_forwarding_entry(address=n3.get_address('n2'),link=n4.links[0]) # n4 -> n2 -> n1
# setup transport
t1 = Transport(n1)
t3 = Transport(n3)
t4 = Transport(n4)
# setup application
tcp_flows = 2
a1 = AppHandler(self.filename,1)
a2 = AppHandler(self.filename,2)
# a3 = AppHandler(self.filename, 3)
# a4 = AppHandler(self.filename, 4)
# a5 = AppHandler(self.filename, 5)
# setup connection
# c1a = TCP(t1, n1.get_address('n2'), 1, n2.get_address('n1'), 1, a1)
# c2a = TCP(t2, n2.get_address('n1'), 1, n1.get_address('n2'), 1, a1)
### 4-node configuration
c1a = TCP(t1, n1.get_address('n2'), 1, n4.get_address('n2'), 1, a1)
c2a = TCP(t4, n4.get_address('n2'), 1, n1.get_address('n2'), 1, a1)
c1b = TCP(t3, n3.get_address('n2'), 2, n4.get_address('n2'), 2, a2)
c2b = TCP(t4, n4.get_address('n2'), 2, n3.get_address('n2'), 2, a2)
# c1b = TCP(t1, n1.get_address('n2'), 2, n2.get_address('n1'), 2, a2)
# c2b = TCP(t2, n2.get_address('n1'), 2, n1.get_address('n2'), 2, a2)
# c1c = TCP(t1, n1.get_address('n2'), 3, n2.get_address('n1'), 3, a3)
# c2c = TCP(t2, n2.get_address('n1'), 3, n1.get_address('n2'), 3, a3)
#
# c1d = TCP(t1, n1.get_address('n2'), 4, n2.get_address('n1'), 4, a4)
# c2d = TCP(t2, n2.get_address('n1'), 4, n1.get_address('n2'), 4, a4)
#
# c1e = TCP(t1, n1.get_address('n2'), 5, n2.get_address('n1'), 5, a5)
# c2e = TCP(t2, n2.get_address('n1'), 5, n1.get_address('n2'), 5, a5)
# send a file
with open(self.filename,'r') as f:
while True:
data = f.read(1000)
if not data:
break
Sim.scheduler.add(delay=0, event=data, handler=c1a.send)
Sim.scheduler.add(delay=0, event=data, handler=c1b.send)
# Sim.scheduler.add(delay=0, event=data, handler=c1a.send)
# Sim.scheduler.add(delay=0.1, event=data, handler=c1b.send)
# Sim.scheduler.add(delay=0.2, event=data, handler=c1c.send)
# Sim.scheduler.add(delay=0.3, event=data, handler=c1d.send)
# Sim.scheduler.add(delay=0.4, event=data, handler=c1e.send)
# run the simulation
Sim.scheduler.run()
return tcp_flows
示例11: endOutput
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def endOutput(self):
outputFile.close()
if __name__ == "__main__":
outputFile = open("output-problem2-1b.txt", "w")
# parameters
Sim.scheduler.reset()
# setup network
net = Network("config-3n-1Gbps-1Gbps-100ms-100ms.txt")
# setup routes
n1 = net.get_node("n1")
n2 = net.get_node("n2")
n3 = net.get_node("n3")
# setup forwarding entries
a2 = n2.get_address("n1")
a1 = n1.get_address("n2")
a3 = n3.get_address("n2")
n1.add_forwarding_entry(address=a2, link=n1.links[0])
n2.add_forwarding_entry(address=a1, link=n2.links[0])
n2.add_forwarding_entry(address=a3, link=n2.links[1])
n3.add_forwarding_entry(address=a2, link=n3.links[0])
# if packet is going from n1 -> n3
n1.add_forwarding_entry(address=a3, link=n1.links[0])
示例12: Network
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
f.write("Packet Created:\t\t{:f}\n".format(packet.created))
f.write("Packet Identifier:\t{:d}\n".format(packet.ident))
f.write("Time Received:\t\t{:f}\n\n".format(Sim.scheduler.current_time()))
f.close()
if __name__ == '__main__':
# ------------------------- 2 nodes, 1Mbps, 1s, 1 packet, 1000 bytes ------------------------- #
# parameters
Sim.scheduler.reset()
# setup network
net = Network('../../networks/lab1/2-nodes/1Mbps-1s.txt')
# setup routes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n1.add_forwarding_entry(address=n2.get_address('n1'),link=n1.links[0])
n2.add_forwarding_entry(address=n1.get_address('n2'),link=n2.links[0])
# setup app
filename = "../../out/lab1/2-nodes/1Mbps-1s-1packet-1000bytes.txt"
description = "2 Nodes - 1 packet\n1Mbps, 1s, 1 packet, 1000 bytes\n\n"
t = TransmitApp(n2, filename, description)
n2.add_protocol(protocol="delay", handler=t)
# send one packet
p = packet.Packet(destination_address=n2.get_address('n1'),ident=1,protocol='delay',length=1000)
Sim.scheduler.add(delay=0, event=p, handler=n1.send_packet)
# run the simulation
示例13: run
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def run(self):
# parameters
Sim.scheduler.reset()
#Sim.set_debug('AppHandler')
#Sim.set_debug('TCP')
Sim.set_debug('Link')
net = Network('networks/competing.txt')
net.loss(self.loss)
# setup routes
# n1 - n3 - n4
# |
# n2
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n3 = net.get_node('n3')
n4 = net.get_node('n4')
# n1 forwarding entries
n1.add_forwarding_entry(address=n3.get_address('n1'),link=n1.links[0])
n1.add_forwarding_entry(address=n4.get_address('n3'),link=n1.links[0])
# n2 forwarding entries
n2.add_forwarding_entry(address=n3.get_address('n2'),link=n2.links[0])
n2.add_forwarding_entry(address=n4.get_address('n3'),link=n2.links[0])
# n3 forwarding entries
n3.add_forwarding_entry(address=n1.get_address('n3'),link=n3.links[0])
n3.add_forwarding_entry(address=n2.get_address('n3'),link=n3.links[1])
n3.add_forwarding_entry(address=n4.get_address('n3'),link=n3.links[2])
# n4 forwarding entries
n4.add_forwarding_entry(address=n1.get_address('n3'),link=n4.links[0])
n4.add_forwarding_entry(address=n2.get_address('n3'),link=n4.links[0])
n4.add_forwarding_entry(address=n3.get_address('n4'),link=n4.links[0])
# setup transport
t1 = Transport(n1)
t2 = Transport(n2)
t4 = Transport(n4)
# setup application
a1 = AppHandler('test1.txt')
a2 = AppHandler('test2.txt')
# setup connection
c1 = TCP(t1,n1.get_address('n3'),1,n4.get_address('n3'),1,a1,window=self.window,threshold=self.threshold,fast_recovery=self.fast_recovery)
c2 = TCP(t4,n4.get_address('n3'),1,n1.get_address('n3'),1,a1,window=self.window,threshold=self.threshold,fast_recovery=self.fast_recovery)
c3 = TCP(t2,n2.get_address('n3'),2,n4.get_address('n3'),2,a2,window=self.window,threshold=self.threshold,fast_recovery=self.fast_recovery)
c4 = TCP(t4,n4.get_address('n3'),2,n2.get_address('n3'),2,a2,window=self.window,threshold=self.threshold,fast_recovery=self.fast_recovery)
# send a file
with open('test1.txt','r') as f:
while True:
data = f.read(1000)
if not data:
break
Sim.scheduler.add(delay=0, event=data, handler=c1.send)
with open('test2.txt','r') as f:
while True:
data = f.read(1000)
if not data:
break
Sim.scheduler.add(delay=0, event=data, handler=c3.send)
# run the simulation
Sim.scheduler.run()
# print some results
print
print "========== Overall results =========="
time = Sim.scheduler.current_time()
print "Total time: %f seconds" % time
avg = numpy.mean(c2.queueing_delay_list)
print "Average queueing delay: %f" % avg
max = numpy.max(c2.queueing_delay_list)
print "Max queueing delay: %f" % max
file_size = os.path.getsize(self.filename)
print "File size: %i" % file_size
throughput = file_size / time
print "Throughput: %f" % throughput
# Variables for debugging
self.c3 = c3
self.c4 = c4
self.c2 = c2
self.c1 = c1
self.t1 = t1
self.t2 = t2
self.net = net
linkab = n1.links[0]
self.linkab = linkab
l = linkab
# Plotting
plotter = Plotter()
# Plot sequence charts
#.........这里部分代码省略.........
示例14: __init__
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def __init__(self, node):
self.node = node
def receive_packet(self, packet):
print "%s - (%s) Packet ARRIVED - Data: %s; Source_Address: %s; Destination_Address: %s" % (Sim.scheduler.current_time(), self.node.hostname, packet.body, packet.source_address, packet.destination_address)
if __name__ == '__main__':
# parameters
Sim.scheduler.reset()
Sim.set_debug(True)
# setup network
net = Network('../networks/fifteen-nodes.txt')
# get nodes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n3 = net.get_node('n3')
n4 = net.get_node('n4')
n5 = net.get_node('n5')
n6 = net.get_node('n6')
n7 = net.get_node('n7')
n8 = net.get_node('n8')
n9 = net.get_node('n9')
n10 = net.get_node('n10')
n11 = net.get_node('n11')
n12 = net.get_node('n12')
n13 = net.get_node('n13')
n14 = net.get_node('n14')
n15 = net.get_node('n15')
示例15: __init__
# 需要导入模块: from networks.network import Network [as 别名]
# 或者: from networks.network.Network import get_node [as 别名]
def __init__(self, node):
self.node = node
def receive_packet(self,packet):
print Sim.scheduler.current_time(),packet.ident,packet.created,Sim.scheduler.current_time() - packet.created,packet.transmission_delay,packet.propagation_delay,packet.queueing_delay, self.node.hostname
if __name__ == '__main__':
# parameters
Sim.scheduler.reset()
Sim.set_debug(True)
# setup network
net = Network('../networks/five-nodes-line.txt')
# get nodes
n1 = net.get_node('n1')
n2 = net.get_node('n2')
n3 = net.get_node('n3')
n4 = net.get_node('n4')
n5 = net.get_node('n5')
# setup broadcast application
b1 = BroadcastApp(n1)
n1.add_protocol(protocol="broadcast",handler=b1)
b2 = BroadcastApp(n2)
n2.add_protocol(protocol="broadcast",handler=b2)
b3 = BroadcastApp(n3)
n3.add_protocol(protocol="broadcast",handler=b3)
b4 = BroadcastApp(n4)
n4.add_protocol(protocol="broadcast",handler=b4)
b5 = BroadcastApp(n5)