/*
* Title: CloudSim Toolkit
* Description: CloudSim (Cloud Simulation) Toolkit for Modeling and Simulation of Clouds
* Licence: GPL - http://www.gnu.org/copyleft/gpl.html
*
* Copyright (c) 2009-2012, The University of Melbourne, Australia
*/
package org.cloudbus.cloudsim.network.datacenter;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import org.cloudbus.cloudsim.Cloudlet;
import org.cloudbus.cloudsim.CloudletScheduler;
import org.cloudbus.cloudsim.ResCloudlet;
import org.cloudbus.cloudsim.core.CloudSim;
import org.cloudbus.cloudsim.core.CloudSimTags;
/**
* CloudletSchedulerSpaceShared implements a policy of scheduling performed by a virtual machine. It
* consider that there will be only one cloudlet per VM. Other cloudlets will be in a waiting list.
* We consider that file transfer from cloudlets waiting happens before cloudlet execution. I.e.,
* even though cloudlets must wait for CPU, data transfer happens as soon as cloudlets are
* submitted.
*
* @author Saurabh Kumar Garg
* @author Saurabh Kumar Garg
* @since CloudSim Toolkit 3.0
*/
public class NetworkCloudletSpaceSharedScheduler extends CloudletScheduler {
/** The cloudlet waiting list. */
private List<? extends ResCloudlet> cloudletWaitingList;
/** The cloudlet exec list. */
private List<? extends ResCloudlet> cloudletExecList;
/** The cloudlet paused list. */
private List<? extends ResCloudlet> cloudletPausedList;
/** The cloudlet finished list. */
private List<? extends ResCloudlet> cloudletFinishedList;
/** The current CPUs. */
protected int currentCpus;
/** The used PEs. */
protected int usedPes;
// for network
public Map<Integer, List<HostPacket>> pkttosend;
public Map<Integer, List<HostPacket>> pktrecv;
/**
* Creates a new CloudletSchedulerSpaceShared object. This method must be invoked before
* starting the actual simulation.
*
* @pre $none
* @post $none
*/
public NetworkCloudletSpaceSharedScheduler() {
super();
cloudletWaitingList = new ArrayList<ResCloudlet>();
cloudletExecList = new ArrayList<ResCloudlet>();
cloudletPausedList = new ArrayList<ResCloudlet>();
cloudletFinishedList = new ArrayList<ResCloudlet>();
usedPes = 0;
currentCpus = 0;
pkttosend = new HashMap<Integer, List<HostPacket>>();
pktrecv = new HashMap<Integer, List<HostPacket>>();
}
/**
* Updates the processing of cloudlets running under management of this scheduler.
*
* @param currentTime current simulation time
* @param mipsShare array with MIPS share of each processor available to the scheduler
* @return time predicted completion time of the earliest finishing cloudlet, or 0 if there is
* no next events
* @pre currentTime >= 0
* @post $none
*/
@Override
public double updateVmProcessing(double currentTime, List<Double> mipsShare) {
setCurrentMipsShare(mipsShare);
// update
double capacity = 0.0;
int cpus = 0;
for (Double mips : mipsShare) { // count the CPUs available to the VMM
capacity += mips;
if (mips > 0) {
cpus++;
}
}
currentCpus = cpus;
capacity /= cpus; // average capacity of each cpu
for (ResCloudlet rcl : getCloudletExecList()) { // each machine in the
// exec list has the
// same amount of cpu
NetworkCloudlet cl = (NetworkCloudlet) rcl.getCloudlet();
// check status
// if execution stage
// update the cloudlet finishtime
// CHECK WHETHER IT IS WAITING FOR THE PACKET
// if packet received change the status of job and update the time.
//
if ((cl.currStagenum != -1)) {
if (cl.currStagenum == NetworkConstants.FINISH) {
break;
}
TaskStage st = cl.stages.get(cl.currStagenum);
if (st.type == NetworkConstants.EXECUTION) {
// update the time
cl.timespentInStage = Math.round(CloudSim.clock() - cl.timetostartStage);
if (cl.timespentInStage >= st.time) {
changetonextstage(cl, st);
// change the stage
}
}
if (st.type == NetworkConstants.WAIT_RECV) {
List<HostPacket> pktlist = pktrecv.get(st.peer);
List<HostPacket> pkttoremove = new ArrayList<HostPacket>();
if (pktlist != null) {
Iterator<HostPacket> it = pktlist.iterator();
HostPacket pkt = null;
if (it.hasNext()) {
pkt = it.next();
// Asumption packet will not arrive in the same cycle
if (pkt.reciever == cl.getVmId()) {
pkt.recievetime = CloudSim.clock();
st.time = CloudSim.clock() - pkt.sendtime;
changetonextstage(cl, st);
pkttoremove.add(pkt);
}
}
pktlist.removeAll(pkttoremove);
// if(pkt!=null)
// else wait for recieving the packet
}
}
} else {
cl.currStagenum = 0;
cl.timetostartStage = CloudSim.clock();
if (cl.stages.get(0).type == NetworkConstants.EXECUTION) {
NetDatacenterBroker.linkDC.schedule(
NetDatacenterBroker.linkDC.getId(),
cl.stages.get(0).time,
CloudSimTags.VM_DATACENTER_EVENT);
} else {
NetDatacenterBroker.linkDC.schedule(
NetDatacenterBroker.linkDC.getId(),
0.0001,
CloudSimTags.VM_DATACENTER_EVENT);
// /sendstage///
}
}
}
if (getCloudletExecList().size() == 0 && getCloudletWaitingList().size() == 0) { // no
// more cloudlets in this scheduler
setPreviousTime(currentTime);
return 0.0;
}
// update each cloudlet
int finished = 0;
List<ResCloudlet> toRemove = new ArrayList<ResCloudlet>();
for (ResCloudlet rcl : getCloudletExecList()) {
// rounding issue...
if (((NetworkCloudlet) (rcl.getCloudlet())).currStagenum == NetworkConstants.FINISH) {
// stage is changed and packet to send
((NetworkCloudlet) (rcl.getCloudlet())).finishtime = CloudSim.clock();
toRemove.add(rcl);
cloudletFinish(rcl);
finished++;
}
}
getCloudletExecList().removeAll(toRemove);
// add all the CloudletExecList in waitingList.
// sort the waitinglist
// for each finished cloudlet, add a new one from the waiting list
if (!getCloudletWaitingList().isEmpty()) {
for (int i = 0; i < finished; i++) {
toRemove.clear();
for (ResCloudlet rcl : getCloudletWaitingList()) {
if ((currentCpus - usedPes) >= rcl.getNumberOfPes()) {
rcl.setCloudletStatus(Cloudlet.INEXEC);
for (int k = 0; k < rcl.getNumberOfPes(); k++) {
rcl.setMachineAndPeId(0, i);
}
getCloudletExecList().add(rcl);
usedPes += rcl.getNumberOfPes();
toRemove.add(rcl);
break;
}
}
getCloudletWaitingList().removeAll(toRemove);
}// for(cont)
}
// estimate finish time of cloudlets in the execution queue
double nextEvent = Double.MAX_VALUE;
for (ResCloudlet rcl : getCloudletExecList()) {
double remainingLength = rcl.getRemainingCloudletLength();
double estimatedFinishTime = currentTime + (remainingLength / (capacity * rcl.getNumberOfPes()));
if (estimatedFinishTime - currentTime < CloudSim.getMinTimeBetweenEvents()) {
estimatedFinishTime = currentTime + CloudSim.getMinTimeBetweenEvents();
}
if (estimatedFinishTime < nextEvent) {
nextEvent = estimatedFinishTime;
}
}
setPreviousTime(currentTime);
return nextEvent;
}
private void changetonextstage(NetworkCloudlet cl, TaskStage st) {
cl.timespentInStage = 0;
cl.timetostartStage = CloudSim.clock();
int currstage = cl.currStagenum;
if (currstage >= (cl.stages.size() - 1)) {
cl.currStagenum = NetworkConstants.FINISH;
} else {
cl.currStagenum = currstage + 1;
int i = 0;
for (i = cl.currStagenum; i < cl.stages.size(); i++) {
if (cl.stages.get(i).type == NetworkConstants.WAIT_SEND) {
HostPacket pkt = new HostPacket(
cl.getVmId(),
cl.stages.get(i).peer,
cl.stages.get(i).data,
CloudSim.clock(),
-1,
cl.getCloudletId(),
cl.stages.get(i).vpeer);
List<HostPacket> pktlist = pkttosend.get(cl.getVmId());
if (pktlist == null) {
pktlist = new ArrayList<HostPacket>();
}
pktlist.add(pkt);
pkttosend.put(cl.getVmId(), pktlist);
} else {
break;
}
}
NetDatacenterBroker.linkDC.schedule(
NetDatacenterBroker.linkDC.getId(),
0.0001,
CloudSimTags.VM_DATACENTER_EVENT);
if (i == cl.stages.size()) {
cl.currStagenum = NetworkConstants.FINISH;
} else {
cl.currStagenum = i;
if (cl.stages.get(i).type == NetworkConstants.EXECUTION) {
NetDatacenterBroker.linkDC.schedule(
NetDatacenterBroker.linkDC.getId(),
cl.stages.get(i).time,
CloudSimTags.VM_DATACENTER_EVENT);
}
}
}
}
/**
* Cancels execution of a cloudlet.
*
* @param cloudletId ID of the cloudlet being cancealed
* @return the canceled cloudlet, $null if not found
* @pre $none
* @post $none
*/
@Override
public Cloudlet cloudletCancel(int cloudletId) {
// First, looks in the finished queue
for (ResCloudlet rcl : getCloudletFinishedList()) {
if (rcl.getCloudletId() == cloudletId) {
getCloudletFinishedList().remove(rcl);
return rcl.getCloudlet();
}
}
// Then searches in the exec list
for (ResCloudlet rcl : getCloudletExecList()) {
if (rcl.getCloudletId() == cloudletId) {
getCloudletExecList().remove(rcl);
if (rcl.getRemainingCloudletLength() == 0.0) {
cloudletFinish(rcl);
} else {
rcl.setCloudletStatus(Cloudlet.CANCELED);
}
return rcl.getCloudlet();
}
}
// Now, looks in the paused queue
for (ResCloudlet rcl : getCloudletPausedList()) {
if (rcl.getCloudletId() == cloudletId) {
getCloudletPausedList().remove(rcl);
return rcl.getCloudlet();
}
}
// Finally, looks in the waiting list
for (ResCloudlet rcl : getCloudletWaitingList()) {
if (rcl.getCloudletId() == cloudletId) {
rcl.setCloudletStatus(Cloudlet.CANCELED);
getCloudletWaitingList().remove(rcl);
return rcl.getCloudlet();
}
}
return null;
}
/**
* Pauses execution of a cloudlet.
*
* @param cloudletId ID of the cloudlet being paused
* @return $true if cloudlet paused, $false otherwise
* @pre $none
* @post $none
*/
@Override
public boolean cloudletPause(int cloudletId) {
boolean found = false;
int position = 0;
// first, looks for the cloudlet in the exec list
for (ResCloudlet rcl : getCloudletExecList()) {
if (rcl.getCloudletId() == cloudletId) {
found = true;
break;
}
position++;
}
if (found) {
// moves to the paused list
ResCloudlet rgl = getCloudletExecList().remove(position);
if (rgl.getRemainingCloudletLength() == 0.0) {
cloudletFinish(rgl);
} else {
rgl.setCloudletStatus(Cloudlet.PAUSED);
getCloudletPausedList().add(rgl);
}
return true;
}
// now, look for the cloudlet in the waiting list
position = 0;
found = false;
for (ResCloudlet rcl : getCloudletWaitingList()) {
if (rcl.getCloudletId() == cloudletId) {
found = true;
break;
}
position++;
}
if (found) {
// moves to the paused list
ResCloudlet rgl = getCloudletWaitingList().remove(position);
if (rgl.getRemainingCloudletLength() == 0.0) {
cloudletFinish(rgl);
} else {
rgl.setCloudletStatus(Cloudlet.PAUSED);
getCloudletPausedList().add(rgl);
}
return true;
}
return false;
}
/**
* Processes a finished cloudlet.
*
* @param rcl finished cloudlet
* @pre rgl != $null
* @post $none
*/
@Override
public void cloudletFinish(ResCloudlet rcl) {
rcl.setCloudletStatus(Cloudlet.SUCCESS);
rcl.finalizeCloudlet();
getCloudletFinishedList().add(rcl);
usedPes -= rcl.getNumberOfPes();
}
/**
* Resumes execution of a paused cloudlet.
*
* @param cloudletId ID of the cloudlet being resumed
* @return $true if the cloudlet was resumed, $false otherwise
* @pre $none
* @post $none
*/
@Override
public double cloudletResume(int cloudletId) {
boolean found = false;
int position = 0;
// look for the cloudlet in the paused list
for (ResCloudlet rcl : getCloudletPausedList()) {
if (rcl.getCloudletId() == cloudletId) {
found = true;
break;
}
position++;
}
if (found) {
ResCloudlet rcl = getCloudletPausedList().remove(position);
// it can go to the exec list
if ((currentCpus - usedPes) >= rcl.getNumberOfPes()) {
rcl.setCloudletStatus(Cloudlet.INEXEC);
for (int i = 0; i < rcl.getNumberOfPes(); i++) {
rcl.setMachineAndPeId(0, i);
}
long size = rcl.getRemainingCloudletLength();
size *= rcl.getNumberOfPes();
rcl.getCloudlet().setCloudletLength(size);
getCloudletExecList().add(rcl);
usedPes += rcl.getNumberOfPes();
// calculate the expected time for cloudlet completion
double capacity = 0.0;
int cpus = 0;
for (Double mips : getCurrentMipsShare()) {
capacity += mips;
if (mips > 0) {
cpus++;
}
}
currentCpus = cpus;
capacity /= cpus;
long remainingLength = rcl.getRemainingCloudletLength();
double estimatedFinishTime = CloudSim.clock()
+ (remainingLength / (capacity * rcl.getNumberOfPes()));
return estimatedFinishTime;
} else {// no enough free PEs: go to the waiting queue
rcl.setCloudletStatus(Cloudlet.QUEUED);
long size = rcl.getRemainingCloudletLength();
size *= rcl.getNumberOfPes();
rcl.getCloudlet().setCloudletLength(size);
getCloudletWaitingList().add(rcl);
return 0.0;
}
}
// not found in the paused list: either it is in in the queue, executing
// or not exist
return 0.0;
}
/**
* Receives an cloudlet to be executed in the VM managed by this scheduler.
*
* @param cloudlet the submited cloudlet
* @param fileTransferTime time required to move the required files from the SAN to the VM
* @return expected finish time of this cloudlet, or 0 if it is in the waiting queue
* @pre gl != null
* @post $none
*/
@Override
public double cloudletSubmit(Cloudlet cloudlet, double fileTransferTime) {
// it can go to the exec list
if ((currentCpus - usedPes) >= cloudlet.getNumberOfPes()) {
ResCloudlet rcl = new ResCloudlet(cloudlet);
rcl.setCloudletStatus(Cloudlet.INEXEC);
for (int i = 0; i < cloudlet.getNumberOfPes(); i++) {
rcl.setMachineAndPeId(0, i);
}
getCloudletExecList().add(rcl);
usedPes += cloudlet.getNumberOfPes();
} else {// no enough free PEs: go to the waiting queue
ResCloudlet rcl = new ResCloudlet(cloudlet);
rcl.setCloudletStatus(Cloudlet.QUEUED);
getCloudletWaitingList().add(rcl);
return 0.0;
}
// calculate the expected time for cloudlet completion
double capacity = 0.0;
int cpus = 0;
for (Double mips : getCurrentMipsShare()) {
capacity += mips;
if (mips > 0) {
cpus++;
}
}
currentCpus = cpus;
capacity /= cpus;
// use the current capacity to estimate the extra amount of
// time to file transferring. It must be added to the cloudlet length
double extraSize = capacity * fileTransferTime;
long length = cloudlet.getCloudletLength();
length += extraSize;
cloudlet.setCloudletLength(length);
return cloudlet.getCloudletLength() / capacity;
}
/*
* (non-Javadoc)
* @see cloudsim.CloudletScheduler#cloudletSubmit(cloudsim.Cloudlet)
*/
@Override
public double cloudletSubmit(Cloudlet cloudlet) {
cloudletSubmit(cloudlet, 0);
return 0;
}
/**
* Gets the status of a cloudlet.
*
* @param cloudletId ID of the cloudlet
* @return status of the cloudlet, -1 if cloudlet not found
* @pre $none
* @post $none
*/
@Override
public int getCloudletStatus(int cloudletId) {
for (ResCloudlet rcl : getCloudletExecList()) {
if (rcl.getCloudletId() == cloudletId) {
return rcl.getCloudletStatus();
}
}
for (ResCloudlet rcl : getCloudletPausedList()) {
if (rcl.getCloudletId() == cloudletId) {
return rcl.getCloudletStatus();
}
}
for (ResCloudlet rcl : getCloudletWaitingList()) {
if (rcl.getCloudletId() == cloudletId) {
return rcl.getCloudletStatus();
}
}
return -1;
}
/**
* Get utilization created by all cloudlets.
*
* @param time the time
* @return total utilization
*/
@Override
public double getTotalUtilizationOfCpu(double time) {
double totalUtilization = 0;
for (ResCloudlet gl : getCloudletExecList()) {
totalUtilization += gl.getCloudlet().getUtilizationOfCpu(time);
}
return totalUtilization;
}
/**
* Informs about completion of some cloudlet in the VM managed by this scheduler.
*
* @return $true if there is at least one finished cloudlet; $false otherwise
* @pre $none
* @post $none
*/
@Override
public boolean isFinishedCloudlets() {
return getCloudletFinishedList().size() > 0;
}
/**
* Returns the next cloudlet in the finished list, $null if this list is empty.
*
* @return a finished cloudlet
* @pre $none
* @post $none
*/
@Override
public Cloudlet getNextFinishedCloudlet() {
if (getCloudletFinishedList().size() > 0) {
return getCloudletFinishedList().remove(0).getCloudlet();
}
return null;
}
/**
* Returns the number of cloudlets runnning in the virtual machine.
*
* @return number of cloudlets runnning
* @pre $none
* @post $none
*/
@Override
public int runningCloudlets() {
return getCloudletExecList().size();
}
/**
* Returns one cloudlet to migrate to another vm.
*
* @return one running cloudlet
* @pre $none
* @post $none
*/
@Override
public Cloudlet migrateCloudlet() {
ResCloudlet rcl = getCloudletExecList().remove(0);
rcl.finalizeCloudlet();
Cloudlet cl = rcl.getCloudlet();
usedPes -= cl.getNumberOfPes();
return cl;
}
/**
* Gets the cloudlet waiting list.
*
* @param <T> the generic type
* @return the cloudlet waiting list
*/
@SuppressWarnings("unchecked")
protected <T extends ResCloudlet> List<T> getCloudletWaitingList() {
return (List<T>) cloudletWaitingList;
}
/**
* Cloudlet waiting list.
*
* @param <T> the generic type
* @param cloudletWaitingList the cloudlet waiting list
*/
protected <T extends ResCloudlet> void cloudletWaitingList(List<T> cloudletWaitingList) {
this.cloudletWaitingList = cloudletWaitingList;
}
/**
* Gets the cloudlet exec list.
*
* @param <T> the generic type
* @return the cloudlet exec list
*/
@SuppressWarnings("unchecked")
protected <T extends ResCloudlet> List<T> getCloudletExecList() {
return (List<T>) cloudletExecList;
}
/**
* Sets the cloudlet exec list.
*
* @param <T> the generic type
* @param cloudletExecList the new cloudlet exec list
*/
protected <T extends ResCloudlet> void setCloudletExecList(List<T> cloudletExecList) {
this.cloudletExecList = cloudletExecList;
}
/**
* Gets the cloudlet paused list.
*
* @param <T> the generic type
* @return the cloudlet paused list
*/
@SuppressWarnings("unchecked")
protected <T extends ResCloudlet> List<T> getCloudletPausedList() {
return (List<T>) cloudletPausedList;
}
/**
* Sets the cloudlet paused list.
*
* @param <T> the generic type
* @param cloudletPausedList the new cloudlet paused list
*/
protected <T extends ResCloudlet> void setCloudletPausedList(List<T> cloudletPausedList) {
this.cloudletPausedList = cloudletPausedList;
}
/**
* Gets the cloudlet finished list.
*
* @param <T> the generic type
* @return the cloudlet finished list
*/
@SuppressWarnings("unchecked")
protected <T extends ResCloudlet> List<T> getCloudletFinishedList() {
return (List<T>) cloudletFinishedList;
}
/**
* Sets the cloudlet finished list.
*
* @param <T> the generic type
* @param cloudletFinishedList the new cloudlet finished list
*/
protected <T extends ResCloudlet> void setCloudletFinishedList(List<T> cloudletFinishedList) {
this.cloudletFinishedList = cloudletFinishedList;
}
/*
* (non-Javadoc)
* @see org.cloudbus.cloudsim.CloudletScheduler#getCurrentRequestedMips()
*/
@Override
public List<Double> getCurrentRequestedMips() {
List<Double> mipsShare = new ArrayList<Double>();
if (getCurrentMipsShare() != null) {
for (Double mips : getCurrentMipsShare()) {
mipsShare.add(mips);
}
}
return mipsShare;
}
/*
* (non-Javadoc)
* @see org.cloudbus.cloudsim.CloudletScheduler# getTotalCurrentAvailableMipsForCloudlet
* (org.cloudbus.cloudsim.ResCloudlet, java.util.List)
*/
@Override
public double getTotalCurrentAvailableMipsForCloudlet(ResCloudlet rcl, List<Double> mipsShare) {
double capacity = 0.0;
int cpus = 0;
for (Double mips : mipsShare) { // count the cpus available to the vmm
capacity += mips;
if (mips > 0) {
cpus++;
}
}
currentCpus = cpus;
capacity /= cpus; // average capacity of each cpu
return capacity;
}
/*
* (non-Javadoc)
* @see org.cloudbus.cloudsim.CloudletScheduler# getTotalCurrentAllocatedMipsForCloudlet
* (org.cloudbus.cloudsim.ResCloudlet, double)
*/
@Override
public double getTotalCurrentAllocatedMipsForCloudlet(ResCloudlet rcl, double time) {
return 0.0;
}
/*
* (non-Javadoc)
* @see org.cloudbus.cloudsim.CloudletScheduler# getTotalCurrentRequestedMipsForCloudlet
* (org.cloudbus.cloudsim.ResCloudlet, double)
*/
@Override
public double getTotalCurrentRequestedMipsForCloudlet(ResCloudlet rcl, double time) {
return 0.0;
}
@Override
public double getCurrentRequestedUtilizationOfBw() {
return 0;
}
@Override
public double getCurrentRequestedUtilizationOfRam() {
return 0;
}
}