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GPLGenerator5.py
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GPLGenerator5.py
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from Topology import Topology
from GPLInterpreter import GPLInterpreter
import sys
import random
import math
# python GPLGenerator.py <topology-file> <number-of-reachability> <percentage-of-isolation policies> <gpl-filename>
# python GPLGenerator.py ./topologies/fattree-6.topo 50 10 fat6-50-10.gpl
if len(sys.argv) <> 5 :
print "python GPLGenerator.py <topology-file> <number-of-reachability> <percentage-of-isolation policies> <gpl-filename>"
exit(0)
topoFile = sys.argv[1]
count = int(sys.argv[2])
isolatePercentage = int(sys.argv[3])
gplfile = open(sys.argv[4], 'w')
topology = Topology()
gplparser = GPLInterpreter(topoFile, topoFile, None, topology)
gplparser.parseTopo()
swCount = topology.getSwitchCount()
edgeSwitches = (topology.getSwitchCount() * 2/ 5) - 1
k = int(math.sqrt(topology.getSwitchCount() * 4/ 5))
groups = count / isolatePercentage
groupsize = isolatePercentage
srcCount = dict()
dstCount = dict()
for i in range(edgeSwitches + 1) :
srcCount[i] = 0
dstCount[i] = 0
endpoints = dict()
for i in range(groups) :
for j in range(groupsize) :
while True:
s = random.randint(0,edgeSwitches)
d = random.randint(0,edgeSwitches)
a = random.randint(edgeSwitches + 1, swCount - 1)
if s <> d :
if s > d :
key = str(d) + "-" + str(s)
else :
key = str(s) + "-" + str(d)
if key not in endpoints :
if srcCount[s] < k/2 and dstCount[d] < k/2 :
endpoints[key] = True
srcCount[s] += 1
dstCount[d] += 1
break
gplfile.write("p" + str(i) + "_" + str(j) + " := tcp.port = " + str(i) + " : e" + str(s) + " >> e" + str(d) + "\n")
if count == 1 :
exit(0)
gplfile.write("== \n")
sets = dict()
for i in range(groups) :
set = "[ "
for j in range(groupsize) :
set += "p" + str(i) + "_" + str(j)
if j <> groupsize - 1:
set += ", "
set += " ]"
sets[i] = set
for i in range(groups) :
for j in range(i) :
if i <> j :
gplfile.write(sets[i] + " || " + sets[j] + "\n")
gplfile.write("== \n")
isolatePercentage = 10
# Assume 5% of links are constrainted by capacity.
links = []
while len(links) < isolatePercentage :
s = random.randint(1, swCount)
neighbours = topology.getSwitchNeighbours(s)
d = neighbours[random.randint(0, len(neighbours) - 1)]
link = [s,d]
if link not in links :
links.append(link)
for link in links :
cap = count / isolatePercentage + 1
gplfile.write(topology.getSwName(link[0]) + "->" + topology.getSwName(link[1]) + ":" + str(cap) + "\n")
# for i in range(count) :
# while True:
# s = random.randint(0,edgeSwitches)
# d = random.randint(0,edgeSwitches)
# if s <> d :
# break
# while True:
# a1 = random.randint(18,35)
# a2 = random.randint(18,35)
# a3 = random.randint(18,35)
# a4 = random.randint(18,35)
# if a1 <> a2 and a1 <> a3 and a2 <> a3:
# if a1 <> a4 and a2 <> a4 and a3 <> a4 :
# break
# if random.randint(0,5) == 2 :
# waypoint = s + d / 2
# gplfile.write("p" + str(i) + " := tcp.port = " + str(i) + " : " + topology.getSwName(s) + " >> [" + topology.getSwName(waypoint) + "] >> " + topology.getSwName(d) + "\n")
# else :
#Reach
#gplfile.write("p" + str(i) + " := tcp.port = " + str(i) + " : e" + str(s) + " >> e" + str(d) + "\n")
#Waypoint
#gplfile.write("p" + str(i) + " := tcp.port = " + str(i) + " : e" + str(s) + " >> [ a" + str(a1) + ", a" + str(a2) + ", a" + str(a3) + ", a" + str(a4) + " ] >> e" + str(d) + "\n")
# gplfile.write("== \n")
# isolatedPoliciesCount = count * (count - 1) * isolatePercentage / 200
# isolatedPolicies = []
# print "Number of isolation policies : ", isolatedPoliciesCount
# while isolatedPoliciesCount > 0 :
# pc1 = random.randint(0,count - 1)
# pc2 = random.randint(0,count - 1)
# if pc1 > pc2 :
# pc1,pc2 = pc2,pc1
# policy = [pc1,pc2]
# if pc1 == pc2 :
# continue
# elif policy in isolatedPolicies :
# continue
# else :
# # Add isolation policy.
# isolatedPolicies.append(policy)
# isolatedPoliciesCount -= 1
# gplfile.write("p" + str(policy[0]) + " || " + "p" + str(policy[1]) + "\n")
# for i in range(count) :
# s = random.randint(1,swCount/2)
# d = random.randint(swCount/2 + 1, swCount)
# if random.randint(0,5) == 2 :
# waypoint = s + d / 2
# gplfile.write("p" + str(i) + " := tcp.port = " + str(i) + " : " + topology.getSwName(s) + " >> [" + topology.getSwName(waypoint) + "] >> " + topology.getSwName(d) + "\n")
# else :
# gplfile.write("p" + str(i) + " := tcp.port = " + str(i) + " : " + topology.getSwName(s) + " >> " + topology.getSwName(d) + "\n")
# gplfile.write("== \n")
# isolatedPoliciesCount = count * (count - 1) * isolatePercentage / 200
# isolatedPolicies = []
# print "Number of isolation policies : ", isolatedPoliciesCount
# while isolatedPoliciesCount > 0 :
# pc1 = random.randint(0,count - 1)
# pc2 = random.randint(0,count - 1)
# if pc1 > pc2 :
# pc1,pc2 = pc2,pc1
# policy = [pc1,pc2]
# if pc1 == pc2 :
# continue
# elif policy in isolatedPolicies :
# continue
# else :
# # Add isolation policy.
# isolatedPolicies.append(policy)
# isolatedPoliciesCount -= 1
# gplfile.write("p" + str(policy[0]) + " || " + "p" + str(policy[1]) + "\n")