asyncmaclayer.cc.bak

基于omnet++开发的Mf框架下的802.11协议仿真。

/* -*- mode:c++ -*- ********************************************************
 * file:        AsyncMacLayer.cc
 *
 * author:      Yupeng.hu
 *
 * copyright:   (C) 2006 HUNAN Universtiy, ChangSha China
 *
 ***************************************************************************
 * part of:     Async Simulation
 * description: - Async Description
 *
 ***************************************************************************
 * changelog:   $Revision$
 *              last modified:   $Date: 2006-7-11 15:36 $
 *              by:              $Author: Yupeng.hu $
 ***************************************************************************/
 
#include "AsyncMacLayer.h"
#include<fstream>
#include <time.h>
#include <cmath>
#include <string>
#include <cstdlib>
#include <algorithm>
#include <iostream>
#include <windows.h>
#include <iterator>
#include <mysql.h>
#include "RadioState.h"

#define EV (ev.disabled()||!debug) ? (std::ostream&)ev : ev << logName() << "::AsyncMacLayer: "

Define_Module( AsyncMacLayer );

MYSQL mysql_mac; 
std::deque<std::string> x_energe;
/**
 * First we have to initialize the module from which we derived ours,
 * in this case BasicModule.
 *
 * Then we have to intialize the gates and - if necessary - some own
 * variables.
 *
 * If you subclass your own message classes you need to overwrite the
 * createCapsulePkt function.
 *
 **/
void AsyncMacLayer::initialize(int stage)
{
	BasicMacLayer::initialize(stage); 
  	
  	if(stage==0){    
    	ev << logName() << "::AsyncMacLayer:" <<" AsyncMacLayer is loaded!!!"<<endl;    	
    	energyConsumption=0;
    
    	sleepTimestamp=simTime();
//      numBurstMessage=0;
      ackTap=2;
   		WATCH_VECTOR(backupVector);
   		
   		//the consumed energy of recieving msg per second
	    rxEnergy=par("rxEnergy");
	    //the consumed energy of sending msg per second
	    txEnergy=par("txEnergy");
	    //the consumed energy per second while sleeping
	    sleepEnergy=par("sleepEnergy");
            
			resendCounter=0;
			WATCH(resendCounter);
			tempAddr=-2;
			WATCH(tempAddr);
	    	    
	    sleepEvent = new cMessage("sleepEvent");
	    activeEvent = new cMessage("activeEvent");
	    popEvent = new cMessage("popEvent");   
	    iniEvent=new cMessage("iniEvent");
	    timeOut=new cMessage("timeOut");
	    energe=new cMessage("energe");
	   
	   
	    //
	    groupSize=(double)par("groupSize");
	    status=IS_SLEEP;	//initialize node in IS_SLEEP mode
	    WATCH(status);
	    
	    
	    distance=-1;    			
	    scheduleAt(0.0, iniEvent);
	    if(findHost()->index()==0)//if the node is sink, ready for calculating the energy
	    {
	    	scheduleAt(simTime()+5.0,energe);
	    }
	    
	    /*
	  		**初始化数据库
	  		*/
	  		if(mysql_init(&mysql_mac) == NULL)
	  		{
	  			std::cout<<"init mysql data status fail"<<std::endl;
	  			return;
	  		}
	  		else
	  			std::cout<<"init mysql data status success"<<std::endl;
	  		if(NULL == mysql_real_connect(&mysql_mac,"localhost","root","","wsnss",MYSQL_PORT,NULL,0))
	  		{
	  			std::cout<<"connect database fail"<<std::endl<<mysql_error(&mysql_mac)<<std::endl;;
	  			return;
	  		}	
	  		else
	  			std::cout<<"connect database success"<<std::endl;
	  	  /*
	  	  **初始化数据库结束
	  	  */
  	}
  	else if(stage==1){
    	
  	}
}

//send the msg in queue
void AsyncMacLayer::startPop()
{
	if(status==IS_ACTIVE)    
	{		   		 	
		if(queue.length()>0)
		{	
			
			MacPkt  *msg=(MacPkt* )queue.pop();	
    		ev << logName() << "::AsyncMacLayer: node-" << findHost()->index() << " currently queue length is: " << queue.length()+1 << endl;    		
    		ev << logName() << "::AsyncMacLayer: node-" << findHost()->index() << " Starting transmission of msg in queue,length:" << msg->length()<<endl;    		
    		
    		ev<<"Make a copy!"<<endl;     		
			MacPkt* bkMsg=(MacPkt* )(msg->dup());						
			bkMsg->setRetryLimit(0);//初始化重发次数
			backupVector.push_back(bkMsg);	
    		
    		//energy consumption for transmission     		    
    		energyConsumption += txEnergy*msg->length()/(double)par("bitrate");      		    		          		
    		scheduleAt(simTime()+msg->length()/(double)par("bitrate")+0.001, popEvent);  
    		sendDown((MacPkt *)msg);    		
    	}
		else
		{	
			ev << logName() << "::AsyncMacLayer::startPop():: node-" << findHost()->index() <<" queue is empty, so switch to sleep right now!"<< endl;    		
		}				
   }
   else
      	error("goint to popup but I am is sleep .....");	
}


//显示信息
/**
void AsyncMacLayer::displayStatus(bool isBusy)
{
    char string[50];
    if(findHost()->index()!=(int)findHost()->submodule("appl")->par("destAddress"))
    {
    sprintf( string, "%d-%d", queue.length(), backupVector.size());    
    findHost()->displayString().setTagArg("t",0, string);    
}}

*/

/**
 * The basic handle message function.
 *
 * Depending on the gate a message arrives handleMessage just calls
 * different handle*Msg functions to further process the message.
 *
 * You should not make any changes in this function but implement all
 * your functionality into the handle*Msg functions called from here.
 *
 * @sa handleUpperMsg, handleLowerMsg, handleSelfMsg
 **/
void AsyncMacLayer::handleSelfMsg(cMessage* msg)
{       
	
	if(msg==iniEvent)//parameters initializtion
  	{
  	 	topo = new cTopology("topo");
  	 	//the topo include the AsynHost's all modules
  		topo->extractByModuleType(findHost()->className(), NULL);
  		
  		
  		int dest=findHost()->submodule("appl")->par("destAddress");//topo->node(i)'s index() is i 		  		
  		topo->unweightedSingleShortestPathsTo(topo->node(dest));
  	  ev<<logName()<<"AsyncMacLayer::"<<"The queue length is"<<queue.length()<<endl;
    	//the hops to the dest
    	distance=topo->nodeFor(findHost())->distanceToTarget();
    	ev<<logName() << "::AsyncMacLayer:" <<" distance to sink node is: "<<distance<<endl;  		
  	  
    	cycleTime=(double)par("roundTime");
    	activeTime=cycleTime*(double)par("dutyCycle")*((1/groupSize));
      sleepTime=cycleTime-activeTime;
      
        //孤立节点
      if(sleepTime<=0)
      {
       	sleepTime=10000;
      }
      //???有必要设置节点部署后第一次唤醒时间呈阶梯行
      

      
      //??
      if((((int)distance)%(int)groupSize)!=0)
      	   		wakeupTime=uniform((groupSize-((int)distance)%(int)groupSize)*cycleTime/groupSize,(groupSize-((int)distance)%(int)groupSize+1)*cycleTime/groupSize);
      else
      	  		wakeupTime=uniform(0,cycleTime/groupSize);
      	  		
    	ev<<logName()<<"the sleeptime is:"<<sleepTime<<endl;   	
    	ev<<logName()<<"the activetime is:"<<activeTime<<endl;
    	ev << logName() << "::AsyncMacLayer: wakeup time: "<<wakeupTime<<endl;   
  	  scheduleAt(simTime()+wakeupTime, activeEvent); 
  	  
    	
  		delete msg;
  		delete topo;
  	} 
  	//************************************
    //* when receiving self active event *
    //************************************
    else if (msg==activeEvent)//activation the node
    {    	
    	char str[1024];
    	sprintf(str,"insert into energy_mac(ID,value)values('%d','%lf');",
					findHost()->index(),energyConsumption);
				
			std::string insert(str);
			x_energe.push_back(insert);
			
    	ev << logName() << "::AsyncMacLayer:  node-" << findHost()->index() << " receiving--self-- " << msg << endl;    	
    	// we begin to IS_ACTIVE and send frames in queue.    	   	
    	if(status==IS_SLEEP)
    	{
    		status=IS_ACTIVE;
    		
    		sleepTime=cycleTime-activeTime*(tempCount.size()+1);//???tempCount可以去掉？
    		scheduleAt(simTime()+activeTime, sleepEvent);    	    		
    		
    		if(ackTap==0)
    		{