WorkflowSimCostExample1.java

/**
 * Copyright 2012-2013 University Of Southern California
 *
 * Licensed under the Apache License, Version 2.0 (the "License"); you may not
 * use this file except in compliance with the License. You may obtain a copy of
 * the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
 * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
 * License for the specific language governing permissions and limitations under
 * the License.
 */
package org.workflowsim.examples.cost;

import java.io.File;
import java.text.DecimalFormat;
import java.util.Calendar;
import java.util.List;
import org.cloudbus.cloudsim.Cloudlet;
import org.cloudbus.cloudsim.Log;
import org.cloudbus.cloudsim.core.CloudSim;
import org.workflowsim.CondorVM;
import org.workflowsim.WorkflowDatacenter;
import org.workflowsim.Job;
import org.workflowsim.WorkflowEngine;
import org.workflowsim.WorkflowPlanner;
import org.workflowsim.examples.WorkflowSimBasicExample1;
import org.workflowsim.utils.ClusteringParameters;
import org.workflowsim.utils.OverheadParameters;
import org.workflowsim.utils.Parameters;
import org.workflowsim.utils.ReplicaCatalog;

/**
 * This WorkflowSimCostExample1 is different to WorkflowSimExample1 in that it
 * shows cost the cost= (communication cost + computation cost) = (data (both
 * input and output) * unit cost of data + runtime * cpu cost) for each task
 *
 * @author Weiwei Chen
 * @since WorkflowSim Toolkit 1.0
 * @date Feb 14, 2014
 */
public class WorkflowSimCostExample1 extends WorkflowSimBasicExample1 {

    ////////////////////////// STATIC METHODS ///////////////////////
    /**
     * Creates main() to run this example This example has only one datacenter
     * and one storage
     */
    public static void main(String[] args) {

        try {
            // First step: Initialize the WorkflowSim package. 
            /**
             * However, the exact number of vms may not necessarily be vmNum If
             * the data center or the host doesn't have sufficient resources the
             * exact vmNum would be smaller than that. Take care.
             */
            int vmNum = 20;//number of vms;
            /**
             * Should change this based on real physical path
             */
            String daxPath = "/Users/weiweich/NetBeansProjects/WorkflowSim-1.0/config/dax/Montage_100.xml";
            File daxFile = new File(daxPath);
            if (!daxFile.exists()) {
                Log.printLine("Warning: Please replace daxPath with the physical path in your working environment!");
                return;
            }
            /**
             * Since we are using MINMIN scheduling algorithm, the planning
             * algorithm should be INVALID such that the planner would not
             * override the result of the scheduler You only need a planning
             * algorithm or a scheduling algorithm. The difference is explained
             * in github.
             */
            Parameters.SchedulingAlgorithm sch_method = Parameters.SchedulingAlgorithm.MINMIN;
            Parameters.PlanningAlgorithm pln_method = Parameters.PlanningAlgorithm.INVALID;
            ReplicaCatalog.FileSystem file_system = ReplicaCatalog.FileSystem.LOCAL;

            /**
             * No overheads
             */
            OverheadParameters op = new OverheadParameters(0, null, null, null, null, 0);

            /**
             * No Clustering
             */
            ClusteringParameters.ClusteringMethod method = ClusteringParameters.ClusteringMethod.NONE;
            ClusteringParameters cp = new ClusteringParameters(0, 0, method, null);

            /**
             * Initialize static parameters
             */
            Parameters.init(vmNum, daxPath, null,
                    null, op, cp, sch_method, pln_method,
                    null, 0);
            ReplicaCatalog.init(file_system);

            // before creating any entities.
            int num_user = 1;   // number of grid users
            Calendar calendar = Calendar.getInstance();
            boolean trace_flag = false;  // mean trace events

            // Initialize the CloudSim library
            CloudSim.init(num_user, calendar, trace_flag);

            WorkflowDatacenter datacenter0 = createDatacenter("Datacenter_0");

            /**
             * Create a WorkflowPlanner with one schedulers.
             */
            WorkflowPlanner wfPlanner = new WorkflowPlanner("planner_0", 1);
            /**
             * Create a WorkflowEngine.
             */
            WorkflowEngine wfEngine = wfPlanner.getWorkflowEngine();
            /**
             * Create a list of VMs.The userId of a vm is basically the id of
             * the scheduler that controls this vm.
             */
            List<CondorVM> vmlist0 = createVM(wfEngine.getSchedulerId(0), Parameters.getVmNum());

            /**
             * Submits this list of vms to this WorkflowEngine.
             */
            wfEngine.submitVmList(vmlist0, 0);

            /**
             * Binds the data centers with the scheduler.
             */
            wfEngine.bindSchedulerDatacenter(datacenter0.getId(), 0);

            CloudSim.startSimulation();
            List<Job> outputList0 = wfEngine.getJobsReceivedList();
            CloudSim.stopSimulation();
            printJobList(outputList0);
        } catch (Exception e) {
            e.printStackTrace();
            Log.printLine("The simulation has been terminated due to an unexpected error");
        }
    }

    /**
     * Prints the job objects
     *
     * @param list list of jobs
     */
    protected static void printJobList(List<Job> list) {
        int size = list.size();
        Job job;

        String indent = "    ";
        Log.printLine();
        Log.printLine("========== OUTPUT ==========");
        Log.printLine("Cloudlet ID" + indent + "STATUS" + indent
                + "Data center ID" + indent + "VM ID" + indent + indent + "Time" + indent
                + "Start Time" + indent + "Finish Time" + indent + "Depth" + indent + "Cost");

        DecimalFormat dft = new DecimalFormat("###.##");
        double cost = 0.0;
        for (int i = 0; i < size; i++) {
            job = list.get(i);
            Log.print(indent + job.getCloudletId() + indent + indent);

            cost += job.getProcessingCost();
            if (job.getCloudletStatus() == Cloudlet.SUCCESS) {
                Log.print("SUCCESS");
                Log.printLine(indent + indent + job.getResourceId() + indent + indent + indent + job.getVmId()
                        + indent + indent + indent + dft.format(job.getActualCPUTime())
                        + indent + indent + dft.format(job.getExecStartTime()) + indent + indent + indent
                        + dft.format(job.getFinishTime()) + indent + indent + indent + job.getDepth()
                        + indent + indent + indent + dft.format(job.getProcessingCost()));
            } else if (job.getCloudletStatus() == Cloudlet.FAILED) {
                Log.print("FAILED");
                Log.printLine(indent + indent + job.getResourceId() + indent + indent + indent + job.getVmId()
                        + indent + indent + indent + dft.format(job.getActualCPUTime())
                        + indent + indent + dft.format(job.getExecStartTime()) + indent + indent + indent
                        + dft.format(job.getFinishTime()) + indent + indent + indent + job.getDepth()
                        + indent + indent + indent + dft.format(job.getProcessingCost()));
            }
        }
        Log.printLine("The total cost is " + dft.format(cost));
    }
}