#include "ns3/core-module.h"
#include "ns3/applications-module.h"
#include "ns3/command-line.h"
#include "ns3/simulator.h"
#include "ns3/node.h"
#include "ns3/drop-tail-queue.h"

#include "ns3/tsn-net-device.h"
#include "ns3/cbs.h"
#include "ns3/ethernet-channel.h"
#include "ns3/ethernet-generator.h"
#include "ns3/ethernet-header2.h"

/**
 * \file
 *
 * Example of the use of tsn-node.cc tsn-net-device.cc ethernet-channel.cc
 * on a network composed of two end-stations connected by a 100Mb/s
 * full duplex link with CBS on ES1 port
 *  ES1 ====== ES2
 */

using namespace ns3;

NS_LOG_COMPONENT_DEFINE("Example");

//A callback to log the pkt reception
static void
MacRxCallback(std::string context, Ptr<const Packet> p)
{
  NS_LOG_INFO((Simulator::Now()).As(Time::S) << " \t" << context << " : Pkt #" << p->GetUid() << " received !");
}

//A callback to log the pkt emission
static void
PhyTxCallback(std::string context, Ptr<const Packet> p)
{
  NS_LOG_INFO((Simulator::Now()).As(Time::S) << " \t" << context << " : Pkt #" << p->GetUid() << " begin transmission !");
}

//A callback to log the credit value
static void
CbsCallback(std::string context, double credit)
{
  Time t = Simulator::Now();
  NS_LOG_INFO("FIFO:" << context << " : At "<< t.GetNanoSeconds() <<" credit=" << credit);
}



int
main(int argc, char* argv[])
{
    //Enable logging
    LogComponentEnable("Example", LOG_LEVEL_INFO);
    LogComponentEnable("EthernetGenerator", LOG_LEVEL_INFO);

    CommandLine cmd(__FILE__);
    cmd.Parse(argc, argv);

    //Create two nodes
    Ptr<TsnNode> n0 = CreateObject<TsnNode>();
    Names::Add("ES1", n0);
    Ptr<TsnNode> n1 = CreateObject<TsnNode>();
    Names::Add("ES2", n1);

    //Create and add a netDevice to each node
    Ptr<TsnNetDevice> net0 = CreateObject<TsnNetDevice>();
    net0->SetAttribute("DataRate", DataRateValue(DataRate("100Mb/s")));
    n0->AddDevice(net0);
    Names::Add("ES1#01", net0);
    Ptr<TsnNetDevice> net1 = CreateObject<TsnNetDevice>();
    net1->SetAttribute("DataRate", DataRateValue(DataRate("100Mb/s")));
    n1->AddDevice(net1);
    Names::Add("ES2#01", net1);

    //Create a Ethernet Channel and attach it two the two netDevices
    Ptr<EthernetChannel> channel = CreateObject<EthernetChannel>();
    net0->Attach(channel);
    net1->Attach(channel);

    //Allocate a Mac address
    net0->SetAddress(Mac48Address::Allocate());
    net1->SetAddress(Mac48Address::Allocate());

    //Create and add a CBS shaper and a FIFO on net0 only fifo.
    Ptr<Cbs> cbs = CreateObject<Cbs>();
    cbs->SetTsnNetDevice(net0);
    Names::Add(Names::FindName(net0) + "-" + "0", cbs); //NetDeviceName-FifoNumber
    cbs->SetAttribute("IdleSlope", DataRateValue(DataRate("5Mb/s")));
    cbs->SetAttribute("portTransmitRate", DataRateValue(DataRate("100Mb/s")));
    net0->SetQueue(CreateObject<DropTailQueue<Packet>>(), cbs);
    //Create and add a FIFO on net1
    net1->SetQueue(CreateObject<DropTailQueue<Packet>>());

    //Application description
    Ptr<EthernetGenerator> app0 = CreateObject<EthernetGenerator>();
    app0->Setup(net0);
    app0->SetAttribute("BurstSize", UintegerValue(5));
    app0->SetAttribute("PayloadSize", UintegerValue(1400));
    app0->SetAttribute("Period", TimeValue(Seconds(5)));

    n0->AddApplication(app0);
    app0->SetStartTime(Seconds(0));
    app0->SetStopTime(Seconds(4));

    //Callback to display the packet transmitted and received log
    net0->TraceConnectWithoutContext("PhyTxBegin", MakeBoundCallback(&PhyTxCallback, Names::FindName(n0) + ":" + Names::FindName(net0)));
    net1->TraceConnectWithoutContext("MacRx", MakeBoundCallback(&MacRxCallback, Names::FindName(n1) + ":" + Names::FindName(net1)));
    //Callback to display the credit update log
    cbs->TraceConnectWithoutContext("Credit", MakeBoundCallback(&CbsCallback, Names::FindName(cbs)));


    //Execute the simulation
    Simulator::Stop(Seconds(10));
    Simulator::Run();
    Simulator::Destroy();
    return 0;
}