example6.java

一个非常著名的网格模拟器,能够运行网格调度算法!

/*
 * Author Anthony Sulistio
 * Date: April 2003
 * Description: A simple program to demonstrate of how to use GridSim package.
 *              This example shows how a grid user submits its Gridlets or
 *              task to many grid resource entities.
 *
 * NOTE: The values used from this example are taken from the GridSim paper.
 *       http://www.gridbus.org/gridsim/
 * $Id: Example6.java,v 1.7 2005/09/20 07:01:24 anthony Exp $
 */

import java.util.*;
import gridsim.*;

/**
 * Example6 class
 */
class Example6 extends GridSim
{
    private Integer ID_;
    private String name_;
    private GridletList list_;
    private GridletList receiveList_;
    private int totalResource_;


    /**
     * Allocates a new Example6 object
     * @param name  the Entity name of this object
     * @param baud_rate     the communication speed
     * @param total_resource    the number of grid resources available
     * @throws Exception This happens when creating this entity before
     *                   initializing GridSim package or the entity name is
     *                   <tt>null</tt> or empty
     * @see gridsim.GridSim#Init(int, Calendar, boolean, String[], String[],
     *          String)
     */
    Example6(String name, double baud_rate, int total_resource)
            throws Exception
    {
        super(name, baud_rate);
        this.name_ = name;
        this.totalResource_ = total_resource;
        this.receiveList_ = new GridletList();

        // Gets an ID for this entity
        this.ID_ = new Integer( getEntityId(name) );
        System.out.println("Creating a grid user entity with name = " +
                name + ", and id = " + this.ID_);

        // Creates a list of Gridlets or Tasks for this grid user
        this.list_ = createGridlet( this.ID_.intValue() );
        System.out.println(name + ":Creating "+ this.list_.size() +
                " Gridlets");
    }

    /**
     * The core method that handles communications among GridSim entities.
     */
    public void body()
    {
        int resourceID[] = new int[this.totalResource_];
        double resourceCost[] = new double[this.totalResource_];
        String resourceName[] = new String[this.totalResource_];

        LinkedList resList;
        ResourceCharacteristics resChar;

        // waiting to get list of resources. Since GridSim package uses
        // multi-threaded environment, your request might arrive earlier
        // before one or more grid resource entities manage to register
        // themselves to GridInformationService (GIS) entity.
        // Therefore, it's better to wait in the first place
        while (true)
        {
            // need to pause for a while to wait GridResources finish
            // registering to GIS
            super.gridSimHold(1.0);    // hold by 1 second

            resList = super.getGridResourceList();
            if (resList.size() == this.totalResource_)
                break;
            else
            {
                System.out.println(this.name_ +
                        ":Waiting to get list of resources ...");
            }
        }


        // a loop to get all the resources available
        int i = 0;
        for (i = 0; i < this.totalResource_; i++)
        {
            // Resource list contains list of resource IDs not grid resource
            // objects.
            resourceID[i] = ( (Integer)resList.get(i) ).intValue();

            // Requests to resource entity to send its characteristics
            super.send(resourceID[i], GridSimTags.SCHEDULE_NOW,
                    GridSimTags.RESOURCE_CHARACTERISTICS, this.ID_);

            // waiting to get a resource characteristics
            resChar = (ResourceCharacteristics) super.receiveEventObject();
            resourceName[i] = resChar.getResourceName();
            resourceCost[i] = resChar.getCostPerSec();

            System.out.println(this.name_ +
                    ":Received ResourceCharacteristics from " +
                    resourceName[i] + ", with id = " + resourceID[i]);

            // record this event into "stat.txt" file
            super.recordStatistics("\"Received ResourceCharacteristics " +
                    "from " + resourceName[i] + "\"", "");
        }

        Gridlet gridlet;
        String info;

        // a loop to get one Gridlet at one time and sends it to a random grid
        // resource entity. Then waits for a reply
        int id = 0;
        for (i = 0; i < this.list_.size(); i++)
        {
            gridlet = (Gridlet) this.list_.get(i);
            info = "Gridlet_" + gridlet.getGridletID();

            id = GridSim.rand.intSample(this.totalResource_);
            System.out.println(this.name_ + ":Sending " + info + " to " +
                    resourceName[id] + " with id = " + resourceID[id]);

            // Sends one Gridlet to a grid resource specified in "resourceID"
            super.gridletSubmit(gridlet, resourceID[id]);

            // Recods this event into "stat.txt" file for statistical purposes
            super.recordStatistics("\"Submit " + info + " to " +
                    resourceName[id] + "\"", "");

            // waiting to receive a Gridlet back from resource entity
            gridlet = super.gridletReceive();
            System.out.println(this.name_ + ":Receiving Gridlet " +
                    gridlet.getGridletID() );

            // Recods this event into "stat.txt" file for statistical purposes
            super.recordStatistics("\"Received " + info +  " from " +
                    resourceName[id] + "\"", gridlet.getProcessingCost());

            // stores the received Gridlet into a new GridletList object
            this.receiveList_.add(gridlet);
        }

        // shut down all the entities, including GridStatistics entity since
        // we used it to record certain events.
        super.shutdownGridStatisticsEntity();
        super.shutdownUserEntity();
        super.terminateIOEntities();
        System.out.println(this.name_ + ":%%%% Exiting body()");
    }

    /**
     * Gets the list of Gridlets
     * @return a list of Gridlets
     */
    public GridletList getGridletList() {
        return this.receiveList_;
    }

    /**
     * This method will show you how to create Gridlets with and without
     * GridSimRandom class.
     * @param userID    the user entity ID that owns these Gridlets
     * @return a GridletList object
     */
    private GridletList createGridlet(int userID)
    {
        // Creates a container to store Gridlets
        GridletList list = new GridletList();

        // We create three Gridlets or jobs/tasks manually without the help
        // of GridSimRandom
        int id = 0;
        double length = 3500.0;
        long file_size = 300;
        long output_size = 300;
        Gridlet gridlet1 = new Gridlet(id, length, file_size, output_size);
        id++;
        Gridlet gridlet2 = new Gridlet(id, 5000, 500, 500);
        id++;
        Gridlet gridlet3 = new Gridlet(id, 9000, 900, 900);

        // setting the owner of these Gridlets
        gridlet1.setUserID(userID);
        gridlet2.setUserID(userID);
        gridlet3.setUserID(userID);

        // Store the Gridlets into a list
        list.add(gridlet1);
        list.add(gridlet2);
        list.add(gridlet3);

        // We create 5 Gridlets (max.) with the help of GridSimRandom and
        // GriSimStandardPE class

        // sets the PE MIPS Rating
        GridSimStandardPE.setRating(100);

        // creates 5 Gridlets
        int max = 5;
        int count = GridSim.rand.intSample(max);
        for (int i = 1; i < count+1; i++)
        {
            // the Gridlet length determines from random values and the
            // current MIPS Rating for a PE
            length = GridSimStandardPE.toMIs(GridSim.rand.doubleSample()*50);

            // determines the Gridlet file size that varies within the range
            // 100 + (10% to 40%)