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unison/examples/wireless/wifi-simple-interference.cc
Eduardo Almeida dfc6fb9d2d Remove emacs comment from C++ files
2022-10-14 14:13:12 +00:00

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/*
* Copyright (c) 2009 The Boeing Company
*
* 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
*
*/
// This script configures three nodes on an 802.11b physical layer, with
// 802.11b NICs in adhoc mode. There is a transmitter, receiver, and
// interferer. The transmitter sends one packet to the receiver and
// the receiver receives it with a certain configurable RSS (by default,
// -80 dBm). The interferer does not do carrier sense and also sends
// the packet to interfere with the primary packet. The channel model
// is clear channel.
//
// Therefore, at the receiver, the reception looks like this:
//
// ------------------time---------------->
// t0
//
// |------------------------------------|
// | |
// | primary received frame (time t0) |
// | |
// |------------------------------------|
//
//
// t1
// |-----------------------------------|
// | |
// | interfering frame (time t1) |
// | |
// |-----------------------------------|
//
// The orientation is:
// n2 ---------> n0 <---------- n1
// interferer receiver transmitter
//
// The configurable parameters are:
// - Prss (primary rss) (-80 dBm default)
// - Irss (interfering rss) (-95 dBm default)
// - delta (microseconds, (t1-t0), may be negative, default 0)
// - PpacketSize (primary packet size) (bytes, default 1000)
// - IpacketSize (interferer packet size) (bytes, default 1000)
//
// For instance, for this configuration, the interfering frame arrives
// at -90 dBm with a time offset of 3.2 microseconds:
//
// ./ns3 run "wifi-simple-interference --Irss=-90 --delta=3.2"
//
// Note that all ns-3 attributes (not just the ones exposed in the below
// script) can be changed at command line; see the documentation.
//
// This script can also be helpful to put the Wifi layer into verbose
// logging mode; this command will turn on all wifi logging:
//
// ./ns3 run "wifi-simple-interference --verbose=1"
//
// When you are done, you will notice a pcap trace file in your directory.
// If you have tcpdump installed, you can try this:
//
// tcpdump -r wifi-simple-interference-0-0.pcap -nn -tt
// reading from file wifi-simple-interference-0-0.pcap, link-type IEEE802_11_RADIO (802.11 plus BSD
// radio information header) 10.008704 10008704us tsft 1.0 Mb/s 2437 MHz (0x00c0) -80dB signal -98dB
// noise IP 10.1.1.2.49153 > 10.1.1.255.80: UDP, length 1000
//
// Next, try this command and look at the tcpdump-- you should see two packets
// that are no longer interfering:
// ./ns3 run "wifi-simple-interference --delta=30000"
#include "ns3/command-line.h"
#include "ns3/config.h"
#include "ns3/double.h"
#include "ns3/internet-stack-helper.h"
#include "ns3/log.h"
#include "ns3/mobility-helper.h"
#include "ns3/mobility-model.h"
#include "ns3/ssid.h"
#include "ns3/string.h"
#include "ns3/yans-wifi-channel.h"
#include "ns3/yans-wifi-helper.h"
using namespace ns3;
NS_LOG_COMPONENT_DEFINE("WifiSimpleInterference");
/**
* Print a packer that has been received.
*
* \param socket The receiving socket.
* \return a string with the packet details.
*/
static inline std::string
PrintReceivedPacket(Ptr<Socket> socket)
{
Address addr;
std::ostringstream oss;
while (socket->Recv())
{
socket->GetSockName(addr);
InetSocketAddress iaddr = InetSocketAddress::ConvertFrom(addr);
oss << "Received one packet! Socket: " << iaddr.GetIpv4() << " port: " << iaddr.GetPort();
}
return oss.str();
}
/**
* Function called when a packet is received.
*
* \param socket The receiving socket.
*/
static void
ReceivePacket(Ptr<Socket> socket)
{
NS_LOG_UNCOND(PrintReceivedPacket(socket));
}
/**
* Generate traffic
*
* \param socket The seding socket.
* \param pktSize The packet size.
* \param pktCount The packet counter.
* \param pktInterval The interval between two packets.
*/
static void
GenerateTraffic(Ptr<Socket> socket, uint32_t pktSize, uint32_t pktCount, Time pktInterval)
{
if (pktCount > 0)
{
socket->Send(Create<Packet>(pktSize));
Simulator::Schedule(pktInterval,
&GenerateTraffic,
socket,
pktSize,
pktCount - 1,
pktInterval);
}
else
{
socket->Close();
}
}
int
main(int argc, char* argv[])
{
std::string phyMode("DsssRate1Mbps");
double Prss = -80; // -dBm
double Irss = -95; // -dBm
double delta = 0; // microseconds
uint32_t PpacketSize = 1000; // bytes
uint32_t IpacketSize = 1000; // bytes
bool verbose = false;
// these are not command line arguments for this version
uint32_t numPackets = 1;
double interval = 1.0; // seconds
double startTime = 10.0; // seconds
double distanceToRx = 100.0; // meters
double offset = 91; // This is a magic number used to set the
// transmit power, based on other configuration
CommandLine cmd(__FILE__);
cmd.AddValue("phyMode", "Wifi Phy mode", phyMode);
cmd.AddValue("Prss", "Intended primary received signal strength (dBm)", Prss);
cmd.AddValue("Irss", "Intended interfering received signal strength (dBm)", Irss);
cmd.AddValue("delta", "time offset (microseconds) for interfering signal", delta);
cmd.AddValue("PpacketSize", "size of application packet sent", PpacketSize);
cmd.AddValue("IpacketSize", "size of interfering packet sent", IpacketSize);
cmd.AddValue("verbose", "turn on all WifiNetDevice log components", verbose);
cmd.Parse(argc, argv);
// Convert to time object
Time interPacketInterval = Seconds(interval);
// Fix non-unicast data rate to be the same as that of unicast
Config::SetDefault("ns3::WifiRemoteStationManager::NonUnicastMode", StringValue(phyMode));
NodeContainer c;
c.Create(3);
// The below set of helpers will help us to put together the wifi NICs we want
WifiHelper wifi;
if (verbose)
{
wifi.EnableLogComponents(); // Turn on all Wifi logging
}
wifi.SetStandard(WIFI_STANDARD_80211b);
YansWifiPhyHelper wifiPhy;
// ns-3 supports RadioTap and Prism tracing extensions for 802.11b
wifiPhy.SetPcapDataLinkType(WifiPhyHelper::DLT_IEEE802_11_RADIO);
YansWifiChannelHelper wifiChannel;
wifiChannel.SetPropagationDelay("ns3::ConstantSpeedPropagationDelayModel");
wifiChannel.AddPropagationLoss("ns3::LogDistancePropagationLossModel");
wifiPhy.SetChannel(wifiChannel.Create());
// Add a mac and disable rate control
WifiMacHelper wifiMac;
wifi.SetRemoteStationManager("ns3::ConstantRateWifiManager",
"DataMode",
StringValue(phyMode),
"ControlMode",
StringValue(phyMode));
// Set it to adhoc mode
wifiMac.SetType("ns3::AdhocWifiMac");
NetDeviceContainer devices = wifi.Install(wifiPhy, wifiMac, c.Get(0));
// This will disable these sending devices from detecting a signal
// so that they do not backoff
wifiPhy.Set("TxGain", DoubleValue(offset + Prss));
devices.Add(wifi.Install(wifiPhy, wifiMac, c.Get(1)));
wifiPhy.Set("TxGain", DoubleValue(offset + Irss));
devices.Add(wifi.Install(wifiPhy, wifiMac, c.Get(2)));
// Note that with FixedRssLossModel, the positions below are not
// used for received signal strength.
MobilityHelper mobility;
Ptr<ListPositionAllocator> positionAlloc = CreateObject<ListPositionAllocator>();
positionAlloc->Add(Vector(0.0, 0.0, 0.0));
positionAlloc->Add(Vector(distanceToRx, 0.0, 0.0));
positionAlloc->Add(Vector(-1 * distanceToRx, 0.0, 0.0));
mobility.SetPositionAllocator(positionAlloc);
mobility.SetMobilityModel("ns3::ConstantPositionMobilityModel");
mobility.Install(c);
InternetStackHelper internet;
internet.Install(c);
TypeId tid = TypeId::LookupByName("ns3::UdpSocketFactory");
Ptr<Socket> recvSink = Socket::CreateSocket(c.Get(0), tid);
InetSocketAddress local = InetSocketAddress(Ipv4Address("10.1.1.1"), 80);
recvSink->Bind(local);
recvSink->SetRecvCallback(MakeCallback(&ReceivePacket));
Ptr<Socket> source = Socket::CreateSocket(c.Get(1), tid);
InetSocketAddress remote = InetSocketAddress(Ipv4Address("255.255.255.255"), 80);
source->SetAllowBroadcast(true);
source->Connect(remote);
// Interferer will send to a different port; we will not see a
// "Received packet" message
Ptr<Socket> interferer = Socket::CreateSocket(c.Get(2), tid);
InetSocketAddress interferingAddr = InetSocketAddress(Ipv4Address("255.255.255.255"), 49000);
interferer->SetAllowBroadcast(true);
interferer->Connect(interferingAddr);
// Tracing
wifiPhy.EnablePcap("wifi-simple-interference", devices.Get(0));
// Output what we are doing
NS_LOG_UNCOND("Primary packet RSS=" << Prss << " dBm and interferer RSS=" << Irss
<< " dBm at time offset=" << delta << " ms");
Simulator::ScheduleWithContext(source->GetNode()->GetId(),
Seconds(startTime),
&GenerateTraffic,
source,
PpacketSize,
numPackets,
interPacketInterval);
Simulator::ScheduleWithContext(interferer->GetNode()->GetId(),
Seconds(startTime + delta / 1000000.0),
&GenerateTraffic,
interferer,
IpacketSize,
numPackets,
interPacketInterval);
Simulator::Run();
Simulator::Destroy();
return 0;
}
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