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wired-esred-simulation.cc
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wired-esred-simulation.cc
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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2015 NITK Surathkal
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation;
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Author: Mohit P. Tahiliani <[email protected]>
*
*/
#include "ns3/core-module.h"
#include "ns3/network-module.h"
#include "ns3/internet-module.h"
#include "ns3/point-to-point-module.h"
#include "ns3/applications-module.h"
#include "ns3/point-to-point-layout-module.h"
#include "ns3/traffic-control-module.h"
#include "ns3/flow-monitor-module.h"
#include <iostream>
#include <iomanip>
#include <map>
using namespace ns3;
std::string exp_name = "wired-ES-red";
uint32_t prev_b = 0;
Time prevTime = Seconds (0);
// Calculate throughput
static void
TraceThroughput (Ptr<FlowMonitor> monitor)
{
FlowMonitor::FlowStatsContainer stats = monitor->GetFlowStats ();
auto itr = stats.begin ();
Time curTime = Now ();
std::ofstream thr (exp_name+"/throughput_pertime.dat", std::ios::out | std::ios::app);
thr << curTime << " " << (8 * (itr->second.txBytes - prev_b)) / (1e6 * (curTime.GetSeconds () - prevTime.GetSeconds ())) << std::endl;
prevTime = curTime;
prev_b = itr->second.txBytes;
Simulator::Schedule (Seconds (0.1), &TraceThroughput, monitor);
}
// calculate metrics
static void
TraceMetrics (Ptr<FlowMonitor> monitor)
{
FlowMonitor::FlowStatsContainer stats = monitor->GetFlowStats ();
std::ofstream ofs_thp (exp_name+"/throughput.dat", std::ios::out | std::ios::app);
std::ofstream ofs_delay (exp_name+"/delay.dat", std::ios::out | std::ios::app);
std::ofstream ofs_drop (exp_name+"/drop.dat", std::ios::out | std::ios::app);
std::ofstream ofs_deliver (exp_name+"/delivery.dat", std::ios::out | std::ios::app);
Time curTime = Now ();
// threshold
double tot_thr = 0;
// delay
double tot_delay = 0;
double tot_rx_packets = 0;
// drop and delivery
double tot_tx_packets = 0;
double tot_drop = 0;
double tot_delivery = 0;
// total sent
double tot_sent = 0;
int num_flows = 0;
for(auto itr:stats)
{
// threshold
tot_thr += (8 * itr.second.rxBytes ) / (1.0 * curTime.GetSeconds () );
// delay
tot_delay += itr.second.delaySum.GetSeconds ();
tot_rx_packets += itr.second.rxPackets;
// drop and delivery
tot_tx_packets += itr.second.txPackets;
tot_drop += itr.second.lostPackets;
tot_delivery += itr.second.rxPackets;
tot_sent += itr.second.txPackets;
num_flows++;
}
ofs_thp << curTime << " " << (tot_thr*1.0)/(1e6) << std::endl; // throughput (bit/s)
ofs_delay << curTime << " " << tot_delay/tot_rx_packets << std::endl; // delay (s)
ofs_drop << curTime << " " << (100.0* tot_drop)/(tot_rx_packets+tot_drop) << std::endl; // drop ratio (%)
ofs_deliver << curTime << " " << (100.0 * tot_delivery)/(tot_rx_packets+tot_drop) << std::endl; // delivery ratio (%)
Simulator::Schedule (Seconds (0.1), &TraceMetrics, monitor);
}
static void
TraceQueue (Ptr<QueueDisc> queue)
{
uint32_t qSize = queue->GetCurrentSize ().GetValue ();
uint32_t qMaxSize = queue->GetMaxSize ().GetValue ();
double bufferOccupancy = qSize * 100.0 / (double) qMaxSize;
std::ofstream q (exp_name+"/bufferOccupancy.dat", std::ios::out | std::ios::app);
q << Simulator::Now ().GetSeconds () << " " << qSize << " " << bufferOccupancy << " "<<qMaxSize<<std::endl;
Simulator::Schedule (Seconds (0.01), &TraceQueue, queue);
}
// trace queue drop rate
static void
TraceQueueDrop (Ptr<QueueDisc> queue)
{
QueueDisc::Stats st = queue->GetStats ();
double dropRatio = st.nTotalDroppedPackets * 100.0 / st.nTotalReceivedPackets;
std::ofstream q (exp_name+"/queueDropRate.dat", std::ios::out | std::ios::app);
q << Simulator::Now ().GetSeconds () << " " << dropRatio <<std::endl;
Simulator::Schedule (Seconds (0.01), &TraceQueueDrop, queue);
}
int main (int argc, char *argv[])
{
uint32_t nLeaf = 10;
uint32_t maxPackets = 100;
bool modeBytes = true; // byte mode
// queue disc limit * pktSize ~ 0.5 Mytes
uint32_t queueDiscLimitPackets = 977;
uint32_t pktSize = 512;
std::string appDataRate = "650Mbps";
uint16_t port = 5001;
std::string bottleNeckLinkBw = "45Mbps";
std::string bottleNeckLinkDelay = "1ms";
exp_name += "-nleaf-" + std::to_string(nLeaf); // node
exp_name += "-app-" + appDataRate; // data rate
cout<<exp_name<<endl;
CommandLine cmd (__FILE__);
cmd.AddValue ("nLeaf", "Number of left and right side leaf nodes", nLeaf);
cmd.AddValue ("maxPackets","Max Packets allowed in the device queue", maxPackets);
cmd.AddValue ("queueDiscLimitPackets","Max Packets allowed in the queue disc", queueDiscLimitPackets);
cmd.AddValue ("appPktSize", "Set OnOff App Packet Size", pktSize);
cmd.AddValue ("appDataRate", "Set OnOff App DataRate", appDataRate);
cmd.AddValue ("modeBytes", "Set Queue disc mode to Packets (false) or bytes (true)", modeBytes);
cmd.Parse (argc,argv);
Config::SetDefault ("ns3::OnOffApplication::PacketSize", UintegerValue (pktSize));
Config::SetDefault ("ns3::OnOffApplication::DataRate", StringValue (appDataRate));
Config::SetDefault ("ns3::DropTailQueue<Packet>::MaxSize",
StringValue (std::to_string (maxPackets) + "p"));
if (!modeBytes)
{
Config::SetDefault ("ns3::ESRedQueueDisc::MaxSize",
QueueSizeValue (QueueSize (QueueSizeUnit::PACKETS, queueDiscLimitPackets)));
}
else
{
Config::SetDefault ("ns3::ESRedQueueDisc::MaxSize",
QueueSizeValue (QueueSize (QueueSizeUnit::BYTES, queueDiscLimitPackets * pktSize)));
}
////////////////////////////////////////////////////////////////////////////////////
// Create the point-to-point link helpers
PointToPointHelper bottleNeckLink;
bottleNeckLink.SetDeviceAttribute ("DataRate", StringValue (bottleNeckLinkBw));
bottleNeckLink.SetChannelAttribute ("Delay", StringValue (bottleNeckLinkDelay));
PointToPointHelper pointToPointLeaf;
pointToPointLeaf.SetDeviceAttribute ("DataRate", StringValue ("10Mbps"));
pointToPointLeaf.SetChannelAttribute ("Delay", StringValue ("1ms"));
PointToPointDumbbellHelper d (nLeaf, pointToPointLeaf,
nLeaf, pointToPointLeaf,
bottleNeckLink);
////////////////////////////////////////////////////////////////////////////////////
// Install Stack
InternetStackHelper stack;
for (uint32_t i = 0; i < d.LeftCount (); ++i)
{
stack.Install (d.GetLeft (i));
}
for (uint32_t i = 0; i < d.RightCount (); ++i)
{
stack.Install (d.GetRight (i));
}
stack.Install (d.GetLeft ());
stack.Install (d.GetRight ());
TrafficControlHelper tchBottleneck;
QueueDiscContainer queueDiscs;
tchBottleneck.SetRootQueueDisc ("ns3::ESRedQueueDisc");
tchBottleneck.Install (d.GetLeft ()->GetDevice (0));
queueDiscs = tchBottleneck.Install (d.GetRight ()->GetDevice (0));
// Assign IP Addresses
d.AssignIpv4Addresses (Ipv4AddressHelper ("10.1.1.0", "255.255.255.0"),
Ipv4AddressHelper ("10.2.1.0", "255.255.255.0"),
Ipv4AddressHelper ("10.3.1.0", "255.255.255.0"));
// Install on/off app on all right side nodes
OnOffHelper clientHelper ("ns3::TcpSocketFactory", Address ());
// clientHelper.SetAttribute ("OnTime", StringValue ("ns3::UniformRandomVariable[Min=0.|Max=1.]"));
// clientHelper.SetAttribute ("OffTime", StringValue ("ns3::UniformRandomVariable[Min=0.|Max=1.]"));
clientHelper.SetAttribute ("OnTime", StringValue ("ns3::ConstantRandomVariable[Constant=1]"));
clientHelper.SetAttribute ("OffTime", StringValue ("ns3::ConstantRandomVariable[Constant=0]"));
Address sinkLocalAddress (InetSocketAddress (Ipv4Address::GetAny (), port));
PacketSinkHelper packetSinkHelper ("ns3::TcpSocketFactory", sinkLocalAddress);
ApplicationContainer sinkApps;
for (uint32_t i = 0; i < d.LeftCount (); ++i)
{
sinkApps.Add (packetSinkHelper.Install (d.GetLeft (i)));
}
sinkApps.Start (Seconds (0.0));
sinkApps.Stop (Seconds (6.0));
ApplicationContainer clientApps;
for (uint32_t i = 0; i < d.RightCount (); ++i)
{
// Create an on/off app sending packets to the left side
AddressValue remoteAddress (InetSocketAddress (d.GetLeftIpv4Address (i), port));
clientHelper.SetAttribute ("Remote", remoteAddress);
clientApps.Add (clientHelper.Install (d.GetRight (i)));
}
clientApps.Start (Seconds (1.0)); // Start 1 second after sink
clientApps.Stop (Seconds (5.0)); // Stop before the sink
Ipv4GlobalRoutingHelper::PopulateRoutingTables ();
std::string dirToSave = "mkdir -p " + exp_name;
std::string dirToDel = "rm -rf " + exp_name;
if (system (dirToDel.c_str ()) == -1)
{
exit (1);
}
if (system (dirToSave.c_str ()) == -1)
{
exit (1);
}
// Flow monitor
Ptr<FlowMonitor> flowMonitor;
FlowMonitorHelper flowHelper;
flowMonitor = flowHelper.InstallAll();
Simulator::Schedule (Seconds (0.1), &TraceMetrics, flowMonitor);
Simulator::Schedule (Seconds (0.1), &TraceQueue, queueDiscs.Get (0));
Simulator::Schedule (Seconds (0.1), &TraceQueueDrop, queueDiscs.Get (0));
Simulator::Stop (Seconds (6.5)); // force stop,
std::cout << "Running the simulation" << std::endl;
Simulator::Run ();
QueueDisc::Stats st = queueDiscs.Get (0)->GetStats ();
// if (st.GetNDroppedPackets (RedQueueDisc::UNFORCED_DROP) == 0)
// {
// std::cout << "There should be some unforced drops" << std::endl;
// exit (1);
// }
// if (st.GetNDroppedPackets (QueueDisc::INTERNAL_QUEUE_DROP) != 0)
// {
// std::cout << "There should be zero drops due to queue full" << std::endl;
// exit (1);
// }
std::cout << "*** Stats from the bottleneck queue disc ***" << std::endl;
std::cout << st << std::endl;
std::cout << "Destroying the simulation" << std::endl;
Simulator::Destroy ();
return 0;
}