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CloudSim Plus: A modern, highly extensible and easier-to-use Java 8+ Framework for Modeling and Simulation of Cloud Computing Infrastructures and Services
/*
* 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.allocationpolicies.migration;
import org.cloudbus.cloudsim.allocationpolicies.VmAllocationPolicy;
import org.cloudbus.cloudsim.allocationpolicies.VmAllocationPolicyAbstract;
import org.cloudbus.cloudsim.datacenters.Datacenter;
import org.cloudbus.cloudsim.hosts.Host;
import org.cloudbus.cloudsim.selectionpolicies.VmSelectionPolicy;
import org.cloudbus.cloudsim.util.TimeUtil;
import org.cloudbus.cloudsim.vms.Vm;
import org.cloudbus.cloudsim.vms.VmSimple;
import java.util.*;
import java.util.function.BiFunction;
import java.util.function.Function;
import java.util.function.Predicate;
import static java.util.Comparator.comparingDouble;
import static java.util.stream.Collectors.*;
/**
* An abstract VM allocation policy that dynamically optimizes the
* VM allocation (placement) using migration.
* It's a Best Fit policy which selects the Host with most efficient power usage to place a given VM.
* Such a behaviour can be overridden by sub-classes.
*
* If you are using any algorithms, policies or workload included in the
* power package please cite the following paper:
*
*
*
*
* @author Anton Beloglazov
* @author Manoel Campos da Silva Filho
* @since CloudSim Toolkit 3.0
*/
public abstract class VmAllocationPolicyMigrationAbstract extends VmAllocationPolicyAbstract implements VmAllocationPolicyMigration {
public static final double DEF_UNDERLOAD_THRESHOLD = 0.35;
/** @see #getUnderUtilizationThreshold() */
private double underUtilizationThreshold;
/** @see #getVmSelectionPolicy() */
private VmSelectionPolicy vmSelectionPolicy;
/**
* A map between a VM and the host where it is placed.
*/
private final Map savedAllocation;
/** @see #areHostsUnderloaded() */
private boolean hostsUnderloaded;
/** @see #areHostsOverloaded() */
private boolean hostsOverloaded;
/**
* The datacenter to try migrating VMs to.
* The initial value is the {@link #getDatacenter()} this
* policy is linked to, so that the policy tries
* inter-datacenter VM migration before a different datacenter.
*/
private Datacenter targetMigrationDc;
/**
* The index of the datacenter from the entire {@link org.cloudbus.cloudsim.core.CloudInformationService}
* datacenter list to try migrating VMs to if the {@link #targetMigrationDc}
* has no suitable Hosts.
* This is just used when the {@link #getDatacenter()} linked to this policy doesn't have suitable Hosts for
* inter-datacenter VM migration. This way, a different datacenter is tried.
*/
private int targetMigrationDcIndex;
/**
* Creates a VmAllocationPolicy.
* It uses a {@link #DEF_UNDERLOAD_THRESHOLD default under utilization threshold}.
*
* @param vmSelectionPolicy the policy that defines how VMs are selected for migration
*/
public VmAllocationPolicyMigrationAbstract(final VmSelectionPolicy vmSelectionPolicy) {
this(vmSelectionPolicy, null);
}
@Override
public void setDatacenter(final Datacenter datacenter) {
super.setDatacenter(datacenter);
this.targetMigrationDc = datacenter;
}
/**
* Creates a new VmAllocationPolicy, changing the {@link Function} to select a Host for a Vm.
* It uses a {@link #DEF_UNDERLOAD_THRESHOLD default under utilization threshold}.
*
* @param vmSelectionPolicy the policy that defines how VMs are selected for migration
* @param findHostForVmFunction a {@link Function} to select a Host for a given Vm.
* Passing null makes the Function to be set as the default {@link #findHostForVm(Vm)}.
* @see VmAllocationPolicy#setFindHostForVmFunction(java.util.function.BiFunction)
* @see #setUnderUtilizationThreshold(double)
*/
public VmAllocationPolicyMigrationAbstract(
final VmSelectionPolicy vmSelectionPolicy,
final BiFunction> findHostForVmFunction)
{
super(findHostForVmFunction);
this.underUtilizationThreshold = DEF_UNDERLOAD_THRESHOLD;
this.savedAllocation = new HashMap<>();
setVmSelectionPolicy(vmSelectionPolicy);
}
@Override
public Map getOptimizedAllocationMap(final List extends Vm> vmList) {
//@TODO See https://github.com/manoelcampos/cloudsim-plus/issues/94
final Set overloadedHosts = getOverloadedHosts();
this.hostsOverloaded = !overloadedHosts.isEmpty();
printOverUtilizedHosts(overloadedHosts);
final Map migrationMap = getMigrationMapFromOverloadedHosts(overloadedHosts);
updateMigrationMapFromUnderloadedHosts(overloadedHosts, migrationMap);
if (hostsOverloaded && migrationMap.isEmpty()) {
hostSearchRetry();
}
return migrationMap;
}
private void hostSearchRetry() {
final var dcList = getDatacenter().getSimulation().getCloudInfoService().getDatacenterList();
final double hostSearchRetryDelay = getDatacenter().getHostSearchRetryDelay();
final var msg = hostSearchRetryDelay > 0 ?
"in " + TimeUtil.secondsToStr(hostSearchRetryDelay) :
"as soon as possible";
final boolean singleDc = dcList.size() == 1;
final var targetDcName = singleDc || getDatacenter().equals(targetMigrationDc) ? "" : "on %s ".formatted(targetMigrationDc);
LOGGER.warn(
"{}: {}: An under or overload situation was detected on {}, however there aren't suitable Hosts {}to manage that. Trying again {}.",
getDatacenter().getSimulation().clock(), getClass().getSimpleName(), getDatacenter(), targetDcName, msg);
if (!singleDc) {
//Next time, try migrating some VMs from this to other datacenter
targetMigrationDcIndex = ++targetMigrationDcIndex % dcList.size();
this.targetMigrationDc = dcList.get(targetMigrationDcIndex);
}
}
/**
* Updates the map of VMs that will be migrated from under utilized hosts.
*
* @param overloadedHosts the List of over utilized hosts
* @param migrationMap current migration map that will be updated
*/
private void updateMigrationMapFromUnderloadedHosts(
final Set overloadedHosts,
final Map migrationMap)
{
final List switchedOffHosts = getSwitchedOffHosts();
// overloaded hosts + hosts that are selected to migrate VMs from overloaded hosts
final Set ignoredSourceHosts = getIgnoredHosts(overloadedHosts, switchedOffHosts);
/*
During the computation of the new placement for VMs,
the current VM placement is changed temporarily, before the actual migration of VMs.
If VMs are being migrated from overloaded Hosts, they in fact already were removed
from such Hosts and moved to destination ones.
The target Host that maybe was shut down, might become underloaded too.
This way, such Hosts are added to be ignored when
looking for underloaded Hosts.
See https://github.com/manoelcampos/cloudsim-plus/issues/94
*/
ignoredSourceHosts.addAll(migrationMap.values());
// overloaded + underloaded hosts
final Set ignoredTargetHosts = getIgnoredHosts(overloadedHosts, switchedOffHosts);
final int numberOfHosts = getHostList().size();
this.hostsUnderloaded = false;
while (true) {
if (numberOfHosts == ignoredSourceHosts.size()) {
break;
}
final Host underloadedHost = getUnderloadedHost(ignoredSourceHosts);
if (Host.NULL.equals(underloadedHost)) {
break;
}
this.hostsUnderloaded = true;
LOGGER.info("{}: VmAllocationPolicy: Underloaded hosts: {}", getDatacenter().getSimulation().clockStr(), underloadedHost);
ignoredSourceHosts.add(underloadedHost);
ignoredTargetHosts.add(underloadedHost);
final var vmsToMigrateList = getVmsToMigrateFromUnderUtilizedHost(underloadedHost);
if (!vmsToMigrateList.isEmpty()) {
logVmsToBeReallocated(underloadedHost, vmsToMigrateList);
final Map newVmPlacement = getNewVmPlacementFromUnderloadedHost(
vmsToMigrateList,
ignoredTargetHosts);
ignoredSourceHosts.addAll(extractHostListFromMigrationMap(newVmPlacement));
migrationMap.putAll(newVmPlacement);
}
}
}
private void logVmsToBeReallocated(final Host underloadedHost, final List extends Vm> migratingOutVms) {
if(LOGGER.isInfoEnabled()) {
LOGGER.info("{}: VmAllocationPolicy: VMs to be reallocated from the underloaded {}: {}",
getDatacenter().getSimulation().clockStr(), underloadedHost, getVmIds(migratingOutVms));
}
}
private Set getIgnoredHosts(final Set overloadedHosts, final List switchedOffHosts) {
final var ignoredHostsSet = new HashSet();
ignoredHostsSet.addAll(overloadedHosts);
ignoredHostsSet.addAll(switchedOffHosts);
return ignoredHostsSet;
}
private String getVmIds(final List extends Vm> vmList) {
return vmList.stream().map(vm -> String.valueOf(vm.getId())).collect(joining(", "));
}
/**
* Prints the over utilized hosts.
*
* @param overloadedHosts the over utilized hosts
*/
private void printOverUtilizedHosts(final Set overloadedHosts) {
if (!overloadedHosts.isEmpty() && LOGGER.isWarnEnabled()) {
final String hosts = overloadedHosts.stream().map(this::overloadedHostToString).collect(joining(System.lineSeparator()));
LOGGER.warn("{}: VmAllocationPolicy: Overloaded hosts in {}:{}{}",
getDatacenter().getSimulation().clockStr(), getDatacenter(), System.lineSeparator(), hosts);
}
}
private String overloadedHostToString(final Host host) {
return
" Host %d (upper CPU threshold %.2f, current utilization: %.2f)"
.formatted(host.getId(), getOverUtilizationThreshold(host), host.getCpuPercentUtilization());
}
/**
* Gets the power consumption different after the supposed placement of a VM into a given Host
* and the original Host power consumption.
*
* @param host the host to check the power consumption
* @param vm the candidate vm
* @return the host power consumption different after the supposed VM placement or 0 if the power
* consumption could not be determined
*/
protected double getPowerDifferenceAfterAllocation(final Host host, final Vm vm){
final double powerAfterAllocation = getPowerAfterAllocation(host, vm);
if (powerAfterAllocation > 0) {
return powerAfterAllocation - host.getPowerModel().getPower();
}
return 0;
}
/**
* Checks if a host will be over utilized after placing of a candidate VM.
*
* @param host the host to verify
* @param vm the candidate vm
* @return true, if the host will be over utilized after VM placement;
* false otherwise
*/
private boolean isNotHostOverloadedAfterAllocation(final Host host, final Vm vm) {
final var tempVm = new VmSimple(vm);
if (!host.createTemporaryVm(tempVm).fully()) {
return false;
}
final double usagePercent = getHostCpuPercentRequested(host);
final boolean notOverloadedAfterAllocation = !isHostOverloaded(host, usagePercent);
host.destroyTemporaryVm(tempVm);
return notOverloadedAfterAllocation;
}
/**
* {@inheritDoc}
* It's based on current CPU usage.
*
* @param host {@inheritDoc}
* @return {@inheritDoc}
*/
@Override
public boolean isHostOverloaded(final Host host) {
return isHostOverloaded(host, host.getCpuPercentUtilization());
}
/**
* Checks if a Host is overloaded based on the given CPU utilization percent.
* @param host the Host to check
* @param cpuUsagePercent the Host's CPU utilization percent. The values may be:
*
* - the current CPU utilization if you want to check if the Host is overloaded right now;
* - the requested CPU utilization after temporarily placing a VM into the Host
* just to check if it supports that VM without being overloaded.
* In this case, if the Host doesn't support the already placed temporary VM,
* the method will return true to indicate the Host will be overloaded
* if the VM is actually placed into it.
*
*
* @return true if the Host is overloaded, false otherwise
*/
private boolean isHostOverloaded(final Host host, final double cpuUsagePercent){
return cpuUsagePercent > getOverUtilizationThreshold(host);
}
/**
* Checks if a host is under utilized, based on current CPU usage.
*
* @param host the host
* @return true, if the host is under utilized; false otherwise
*/
@Override
public boolean isHostUnderloaded(final Host host) {
return getHostCpuPercentRequested(host) < getUnderUtilizationThreshold();
}
@Override
protected Optional defaultFindHostForVm(final Vm vm) {
return findHostForVm(vm, host -> true);
}
/**
* Finds a Host that has enough resources to place a given VM and that will not
* be overloaded after the placement. The selected Host will be that
* one with most efficient power usage for the given VM.
*
* This method performs the basic filtering and delegates additional ones
* and the final selection of the Host to other method.
*
* @param vm the VM
* @param predicate an additional {@link Predicate} to be used to filter
* the Host to place the VM
* @return an {@link Optional} containing a suitable Host to place the VM or an empty {@link Optional} if not found
* @see #findHostForVmInternal(Vm, Predicate)
*/
private Optional findHostForVm(final Vm vm, final Predicate predicate) {
final var newPredicate =
predicate
.and(host -> !host.equals(vm.getHost()))
.and(host -> host.isSuitableForVm(vm))
.and(host -> isNotHostOverloadedAfterAllocation(host, vm));
return findHostForVmInternal(vm, newPredicate);
}
/**
* Applies additional filters to the Hosts Stream and performs the actual Host selection.
* It can be overridden by sub-classes to change the way to select the Host for a given VM.
*
* @param vm the VM to find a Host to be placed into
* @param predicate a {@link Predicate} to filter suitable Hosts
* @return an {@link Optional} containing a suitable Host to place the VM or an empty {@link Optional} if not found
* @see #findHostForVm(Vm, Predicate)
*/
protected Optional findHostForVmInternal(final Vm vm, final Predicate predicate){
final Comparator hostPowerConsumptionComparator =
comparingDouble(host -> getPowerDifferenceAfterAllocation(host, vm));
return getHostList().stream().filter(predicate).min(hostPowerConsumptionComparator);
}
/**
* Extracts the host list from a migration map.
*
* @param migrationMap the migration map
* @return the list
*/
private List extractHostListFromMigrationMap(final Map migrationMap) {
return new ArrayList<>(migrationMap.values());
}
/**
* Gets a new VM placement considering the list of VM to migrate
* from overloaded Hosts.
*
* @param overloadedHosts the list of overloaded Hosts
* @return the new VM placement map where each key is a VM
* and each value is the Host to place it;
* an empty map if no suitable target Hosts were found
* or if there is no overloaded host.
* TODO See issue in {@link #getVmsToMigrateFromOverloadedHost(Host)}
*/
private Map getMigrationMapFromOverloadedHosts(final Set overloadedHosts) {
if(overloadedHosts.isEmpty()) {
return Collections.emptyMap();
}
saveAllocation();
final Map migrationMap = new HashMap<>();
try {
final var vmsToMigrateList = getVmsToMigrateFromOverloadedHosts(overloadedHosts);
sortByCpuUtilization(vmsToMigrateList, getDatacenter().getSimulation().clock());
final var builder = new StringBuilder();
final VmAllocationPolicy targetVmAllocationPolicy = targetMigrationDc.getVmAllocationPolicy();
for (final Vm vm : vmsToMigrateList) {
targetVmAllocationPolicy.findHostForVm(vm).ifPresent(targetHost -> {
addVmToMigrationMap(migrationMap, vm, targetHost);
appendVmMigrationMsgToStringBuilder(builder, vm, targetHost);
});
}
if(!migrationMap.isEmpty()) {
LOGGER.info(
"{}: {}: Reallocation of VMs from overloaded hosts: {}{}",
getDatacenter().getSimulation().clockStr(), getClass().getSimpleName(), System.lineSeparator(), builder);
}
} finally {
restoreAllocation();
}
return migrationMap;
}
private void appendVmMigrationMsgToStringBuilder(final StringBuilder builder, final Vm vm, final Host targetHost) {
if(LOGGER.isInfoEnabled()) {
builder.append(" ").append(vm).append(" will be migrated from ")
.append(vm.getHost()).append(" to ").append(targetHost)
.append(System.lineSeparator());
}
}
/**
* Gets a new placement for VMs from an underloaded host.
*
* @param vmsToMigrate the list of VMs to migrate from the underloaded Host
* @param excludedHosts the list of hosts that aren't selected as
* destination hosts
* @return the new vm placement for the given VMs or an empty Map if no suitable Host was found
*/
private Map getNewVmPlacementFromUnderloadedHost(
final List extends Vm> vmsToMigrate,
final Set extends Host> excludedHosts)
{
final var migrationMap = new HashMap();
sortByCpuUtilization(vmsToMigrate, getDatacenter().getSimulation().clock());
for (final Vm vm : vmsToMigrate) {
//try to find a target Host to place a VM from an underloaded Host that is not underloaded too
final Optional optional = findHostForVm(vm, host -> !isHostUnderloaded(host));
if (optional.isEmpty()) {
LOGGER.warn(
"{}: VmAllocationPolicy: A new Host, which isn't also underloaded or won't be overloaded, couldn't be found to migrate {}. Migration of VMs from the underloaded {} cancelled.",
getDatacenter().getSimulation().clockStr(), vm, vm.getHost());
return new HashMap<>();
}
addVmToMigrationMap(migrationMap, vm, optional.get());
}
return migrationMap;
}
/**
* Sort a given list of VMs by descending order of CPU utilization.
*
* @param vmList the vm list to be sorted
* @param simulationTime the simulation time to get the current CPU utilization for each Vm
*/
private void sortByCpuUtilization(final List extends Vm> vmList, final double simulationTime) {
final Comparator comparator = comparingDouble(vm -> vm.getTotalCpuMipsUtilization(simulationTime));
vmList.sort(comparator.reversed());
}
private void addVmToMigrationMap(final Map migrationMap, final Vm vm, final T targetHost) {
/*
Temporarily creates the VM into the target Host so that
when the next VM is got to be migrated, if the same Host
is selected as destination, the resource to be
used by the previous VM will be considered when
assessing the suitability of such a Host for the next VM.
*/
targetHost.createTemporaryVm(vm);
migrationMap.put(vm, targetHost);
}
/**
* Gets the VMs to migrate from Hosts.
*
* @param overloadedHosts the List of overloaded Hosts
* @return the VMs to migrate from hosts
*/
private List getVmsToMigrateFromOverloadedHosts(final Set overloadedHosts) {
final var vmsToMigrateList = new LinkedList();
for (final Host host : overloadedHosts) {
vmsToMigrateList.addAll(getVmsToMigrateFromOverloadedHost(host));
}
return vmsToMigrateList;
}
private List getVmsToMigrateFromOverloadedHost(final Host host) {
/*
@TODO The method doesn't just gets a list of VMs to migrate from an overloaded Host,
but it temporarily destroys VMs on such Hosts.
See https://github.com/manoelcampos/cloudsim-plus/issues/94
*/
final var vmsToMigrateList = new LinkedList();
while (true) {
final var optionalVm = getVmSelectionPolicy().getVmToMigrate(host);
if (optionalVm.isEmpty()) {
break;
}
final Vm vm = optionalVm.get();
vmsToMigrateList.add(vm);
/*Temporarily destroys the selected VM into the overloaded Host so that
the loop gets VMs from such a Host until it is not overloaded anymore.*/
host.destroyTemporaryVm(vm);
if (!isHostOverloaded(host)) {
break;
}
}
return vmsToMigrateList;
}
/**
* Gets the VMs to migrate from under utilized host.
*
* @param host the host
* @return the vms to migrate from under utilized host
*/
protected List extends Vm> getVmsToMigrateFromUnderUtilizedHost(final Host host) {
return host.getMigratableVms();
}
/**
* Gets the switched off hosts.
*
* @return the switched off hosts
*/
protected List getSwitchedOffHosts() {
return this.getHostList().stream()
.filter(this::isShutdownOrFailed)
.collect(toList());
}
private boolean isShutdownOrFailed(final Host host) {
return !host.isActive() || host.isFailed();
}
/**
* Gets the List of overloaded hosts.
* If a Host is overloaded but it has VMs migrating out,
* then it's not included in the returned List
* because the VMs to be migrated to move the Host from
* the overload state already are in migration.
*
* @return the over utilized hosts
*/
private Set getOverloadedHosts() {
return this.getHostList().stream()
.filter(this::isHostOverloaded)
.filter(host -> host.getVmsMigratingOut().isEmpty())
.collect(toSet());
}
/**
* Gets the most underloaded Host.
* If a Host is underloaded but it has VMs migrating in,
* then it's not included in the returned List
* because the VMs to be migrated to move the Host from
* the underload state already are in migration to it.
* Likewise, if all VMs are migrating out, nothing has to be
* done anymore. It just has to wait the VMs to finish
* the migration.
*
* @param excludedHosts the Hosts that have to be ignored when looking for the under utilized Host
* @return the most under utilized host or {@link Host#NULL} if no Host is found
*/
private Host getUnderloadedHost(final Set extends Host> excludedHosts) {
return this.getHostList().stream()
.filter(host -> !excludedHosts.contains(host))
.filter(Host::isActive)
.filter(this::isHostUnderloaded)
.filter(host -> host.getVmsMigratingIn().isEmpty())
.filter(this::notAllVmsAreMigratingOut)
.min(comparingDouble(Host::getCpuPercentUtilization))
.orElse(Host.NULL);
}
private double getHostCpuPercentRequested(final Host host) {
return getHostTotalRequestedMips(host) / host.getTotalMipsCapacity();
}
/**
* Gets the total MIPS that is currently being used by all VMs inside the Host.
* @param host
* @return
*/
private double getHostTotalRequestedMips(final Host host) {
return host.getVmList().stream()
.mapToDouble(Vm::getTotalCpuMipsRequested)
.sum();
}
/**
* Checks if all VMs of a Host are NOT migrating out.
* In this case, the given Host will not be selected as an underloaded Host at the current moment.
* That is: not all VMs are migrating out if at least one VM isn't in migration process.
*
* @param host the host to check
* @return true if at least one VM isn't migrating, false if all VMs are migrating
*/
private boolean notAllVmsAreMigratingOut(final Host host) {
return host.getVmList().stream().anyMatch(vm -> !vm.isInMigration());
}
/**
* Saves the current map between a VM and the host where it is placed.
*
* @see #savedAllocation
*/
private void saveAllocation() {
savedAllocation.clear();
for (final Host host : getHostList()) {
for (final Vm vm : host.getVmList()) {
/* TODO: this VM loop has a quadratic wost-case complexity (when
all Vms already in the VM list are migrating into this Host).
* Instead of looping over the vmsMigratingIn list for every VM,
* we could add a Host migratingIn attribute to the Vm.
* Then, for every VM on the Host, we check this VM attribute
* to see if the VM is migrating into the Host. */
if (!host.getVmsMigratingIn().contains(vm)) {
savedAllocation.put(vm, host);
}
}
}
}
/**
* Restore VM allocation from the allocation history.
* TODO: The allocation map only needs to be restored because
* VMs are destroyed in order to assess a new VM placement.
* After fixing this issue, there will be no need to restore VM mapping.
* https://github.com/manoelcampos/cloudsim-plus/issues/94
*
* @see #savedAllocation
*/
private void restoreAllocation() {
for (final Host host : getHostList()) {
host.destroyAllVms();
host.reallocateMigratingInVms();
}
for (final Vm vm : savedAllocation.keySet()) {
final Host host = savedAllocation.get(vm);
if (host.createTemporaryVm(vm).fully())
vm.setCreated(true);
else LOGGER.error("VmAllocationPolicy: Couldn't restore {} on {}", vm, host);
}
}
/**
* Gets the power consumption of a host after the supposed placement of a candidate VM.
* The VM is not in fact placed at the host.
*
* @param host the host to check the power consumption
* @param vm the candidate vm
*
* @return the host power consumption after the supposed VM placement or 0 if the power
* consumption could not be determined
*/
protected double getPowerAfterAllocation(final Host host, final Vm vm) {
try {
return host.getPowerModel().getPower(getMaxUtilizationAfterAllocation(host, vm));
} catch (IllegalArgumentException e) {
LOGGER.error("Power consumption for {} could not be determined: {}", host, e.getMessage());
}
return 0;
}
/**
* Gets the max power consumption of a host after placement of a candidate
* VM. The VM is not in fact placed at the host. We assume that load is
* balanced between PEs. The only restriction is: VM's max MIPS less than PE's MIPS
*
* @param host the host
* @param vm the vm
* @return the power after allocation
*/
protected double getMaxUtilizationAfterAllocation(final Host host, final Vm vm) {
final double requestedTotalMips = vm.getTotalCpuMipsRequested();
final double hostUtilizationMips = getUtilizationOfCpuMips(host);
final double hostPotentialMipsUse = hostUtilizationMips + requestedTotalMips;
return hostPotentialMipsUse / host.getTotalMipsCapacity();
}
/**
* Gets the utilization of the CPU in MIPS for the current potentially
* allocated VMs.
*
* @param host the host
*
* @return the utilization of the CPU in MIPS
*/
protected double getUtilizationOfCpuMips(final Host host) {
double hostUtilizationMips = 0;
for (final Vm vm : host.getVmList()) {
final double additionalMips = additionalCpuUtilizationDuringMigration(host, vm);
hostUtilizationMips += additionalMips + host.getTotalAllocatedMipsForVm(vm);
}
return hostUtilizationMips;
}
/**
* Calculate additional potential CPU usage of a VM migrating into a given Host.
* @param host the Hosts that is being computed the current utilization of CPU MIPS
* @param vm a VM from that Host
* @return the additional amount of MIPS the Host will use if the VM is migrating into it, 0 otherwise
*/
private double additionalCpuUtilizationDuringMigration(final Host host, final Vm vm) {
if (!host.getVmsMigratingIn().contains(vm)) {
return 0;
}
final double maxCpuUtilization = host.getVmScheduler().getMaxCpuUsagePercentDuringOutMigration();
final double migrationOverhead = host.getVmScheduler().getVmMigrationCpuOverhead();
return host.getTotalAllocatedMipsForVm(vm) * maxCpuUtilization / migrationOverhead;
}
@Override
public final void setVmSelectionPolicy(final VmSelectionPolicy vmSelectionPolicy) {
this.vmSelectionPolicy = Objects.requireNonNull(vmSelectionPolicy);
}
@Override
public VmSelectionPolicy getVmSelectionPolicy() {
return vmSelectionPolicy;
}
@Override
public double getUnderUtilizationThreshold() {
return underUtilizationThreshold;
}
@Override
public void setUnderUtilizationThreshold(final double underUtilizationThreshold) {
if(underUtilizationThreshold <= 0 || underUtilizationThreshold >= 1){
throw new IllegalArgumentException("Under utilization threshold must be greater than 0 and lower than 1.");
}
this.underUtilizationThreshold = underUtilizationThreshold;
}
@Override
public final boolean isVmMigrationSupported() {
return true;
}
@Override
public boolean areHostsUnderloaded() {
return hostsUnderloaded;
}
@Override
public boolean areHostsOverloaded() {
return hostsOverloaded;
}
}
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