// Licensed to the Apache Software Foundation (ASF) under one // or more contributor license agreements. See the NOTICE file // distributed with this work for additional information // regarding copyright ownership. The ASF licenses this file // to you 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 com.cloud.vm; import java.util.HashMap; import java.util.HashSet; import java.util.List; import java.util.Map; import java.util.Set; import com.cloud.utils.StringUtils; import org.apache.cloudstack.api.BaseCmd.HTTPMethod; import org.apache.cloudstack.framework.config.ConfigKey; import com.cloud.agent.api.VolumeStatsEntry; import com.cloud.exception.ConcurrentOperationException; import com.cloud.exception.InsufficientCapacityException; import com.cloud.exception.ManagementServerException; import com.cloud.exception.ResourceAllocationException; import com.cloud.exception.ResourceUnavailableException; import com.cloud.exception.VirtualMachineMigrationException; import com.cloud.hypervisor.Hypervisor.HypervisorType; import com.cloud.offering.ServiceOffering; import com.cloud.service.ServiceOfferingVO; import com.cloud.storage.Storage.StoragePoolType; import com.cloud.template.VirtualMachineTemplate; import com.cloud.uservm.UserVm; import com.cloud.utils.Pair; import static com.cloud.user.ResourceLimitService.ResourceLimitHostTags; /** * * */ public interface UserVmManager extends UserVmService { String EnableDynamicallyScaleVmCK = "enable.dynamic.scale.vm"; String AllowDiskOfferingChangeDuringScaleVmCK = "allow.diskoffering.change.during.scale.vm"; String AllowUserExpungeRecoverVmCK ="allow.user.expunge.recover.vm"; String AllowUserForceStopVmCK = "allow.user.force.stop.vm"; ConfigKey EnableDynamicallyScaleVm = new ConfigKey("Advanced", Boolean.class, EnableDynamicallyScaleVmCK, "false", "Enables/Disables dynamically scaling a vm", true, ConfigKey.Scope.Zone); ConfigKey AllowDiskOfferingChangeDuringScaleVm = new ConfigKey("Advanced", Boolean.class, AllowDiskOfferingChangeDuringScaleVmCK, "false", "Determines whether to allow or disallow disk offering change for root volume during scaling of a stopped or running vm", true, ConfigKey.Scope.Zone); ConfigKey AllowUserExpungeRecoverVm = new ConfigKey("Advanced", Boolean.class, AllowUserExpungeRecoverVmCK, "false", "Determines whether users can expunge or recover their vm", true, ConfigKey.Scope.Account); ConfigKey AllowUserForceStopVm = new ConfigKey("Advanced", Boolean.class, AllowUserForceStopVmCK, "true", "Determines whether users are allowed to force stop a vm", true, ConfigKey.Scope.Account); ConfigKey DisplayVMOVFProperties = new ConfigKey("Advanced", Boolean.class, "vm.display.ovf.properties", "false", "Set display of VMs OVF properties as part of VM details", true); ConfigKey DestroyRootVolumeOnVmDestruction = new ConfigKey("Advanced", Boolean.class, "destroy.root.volume.on.vm.destruction", "false", "Destroys the VM's root volume when the VM is destroyed.", true, ConfigKey.Scope.Domain); ConfigKey StrictHostTags = new ConfigKey<>( "Advanced", String.class, "vm.strict.host.tags", "", "A comma-separated list of tags which must match during operations like modifying the compute" + "offering for an instance, and starting or live migrating an instance to a specific host.", true); ConfigKey EnforceStrictResourceLimitHostTagCheck = new ConfigKey( "Advanced", Boolean.class, "vm.strict.resource.limit.host.tag.check", "true", "If set to true, tags specified in `resource.limit.host.tags` are also included in vm.strict.host.tags.", true); ConfigKey VmDistinctHostNameScope = new ConfigKey<>(String.class, "vm.distinct.hostname.scope", ConfigKey.CATEGORY_ADVANCED, "network", "Defines the scope for enforcing unique VM hostnames which determines the resource boundary within which VM hostnames must be unique. Possible values: global, domain, subdomain, account, network.", true, ConfigKey.Scope.Global, null, "VM distinct hostname scope", null, null, null, ConfigKey.Kind.Select, "global,domain,subdomain,account,network"); ConfigKey EnableAdditionalVmConfig = new ConfigKey<>( "Advanced", Boolean.class, "enable.additional.vm.configuration", "false", "allow additional arbitrary configuration to vm", true, ConfigKey.Scope.Account); ConfigKey VmwareAdditionalDetailsFromOvaEnabled = new ConfigKey("Advanced", Boolean.class, "vmware.additional.details.from.ova.enabled", "false", "If true, allow users to add additional VM settings if VM instance settings are read from OVA.", true, ConfigKey.Scope.Zone); ConfigKey VmwareAllowedAdditionalDetailsFromOva = new ConfigKey<>(String.class, "vmware.allowed.additional.details.from.ova", "Advanced", "", "Comma separated list of allowed additional VM settings if VM instance settings are read from OVA.", true, ConfigKey.Scope.Zone, null, null, null, null, null, ConfigKey.Kind.CSV, null); ConfigKey AllowDifferentHostTagsOfferingsForVmScale = new ConfigKey<>("Advanced", Boolean.class, "allow.different.host.tags.offerings.for.vm.scale", "false", "Enables/Disable allowing to change a VM offering to offerings with different host tags", true); ConfigKey AutoMigrateVmOnLiveScaleInsufficientCapacity = new ConfigKey<>("Advanced", Boolean.class, "auto.migrate.vm.on.live.scale.insufficient.capacity", "true", "Defines whether a VM should be automatically migrated to a suitable host when the current host " + "lacks sufficient compute capacity to live scale the instance. Defaults to true.", true, ConfigKey.Scope.Cluster); static final int MAX_USER_DATA_LENGTH_BYTES = 2048; public static final String CKS_NODE = "cksnode"; public static final String SHAREDFSVM = "sharedfsvm"; /** * @param hostId get all of the virtual machines that belong to one host. * @return collection of VirtualMachine. */ List getVirtualMachines(long hostId); /** * @param vmId id of the virtual machine. * @return VirtualMachine */ UserVmVO getVirtualMachine(long vmId); /** * Stops the virtual machine * @param userId the id of the user performing the action * @param vmId * @return true if stopped; false if problems. */ boolean stopVirtualMachine(long userId, long vmId); HashMap getVolumeStatistics(long clusterId, String poolUuid, StoragePoolType poolType, int timeout); boolean deleteVmGroup(long groupId); boolean addInstanceToGroup(long userVmId, String group); InstanceGroupVO getGroupForVm(long vmId); void removeInstanceFromInstanceGroup(long vmId); String finalizeUserData(String userData, Long userDataId, VirtualMachineTemplate template); void validateExtraConfig(long accountId, HypervisorType hypervisorType, String extraConfig); boolean isVMUsingLocalStorage(VMInstanceVO vm); boolean expunge(UserVmVO vm); Pair> startVirtualMachine(long vmId, Long hostId, Map additionalParams, String deploymentPlannerToUse) throws ConcurrentOperationException, ResourceUnavailableException, InsufficientCapacityException, ResourceAllocationException; Pair> startVirtualMachine(long vmId, Long podId, Long clusterId, Long hostId, Map additionalParams, String deploymentPlannerToUse) throws ConcurrentOperationException, ResourceUnavailableException, InsufficientCapacityException, ResourceAllocationException; Pair> startVirtualMachine(long vmId, Long podId, Long clusterId, Long hostId, Map additionalParams, String deploymentPlannerToUse, boolean isExplicitHost) throws ConcurrentOperationException, ResourceUnavailableException, InsufficientCapacityException, ResourceAllocationException; boolean upgradeVirtualMachine(Long id, Long serviceOfferingId, Map customParameters) throws ResourceUnavailableException, ConcurrentOperationException, ManagementServerException, VirtualMachineMigrationException; boolean setupVmForPvlan(boolean add, Long hostId, NicProfile nic); UserVm updateVirtualMachine(long id, String displayName, String group, Boolean ha, Boolean isDisplayVmEnabled, Boolean deleteProtection, Long osTypeId, String userData, Long userDataId, String userDataDetails, Boolean isDynamicallyScalable, HTTPMethod httpMethod, String customId, String hostName, String instanceName, List securityGroupIdList, Map> extraDhcpOptionsMap ) throws ResourceUnavailableException, InsufficientCapacityException; //the validateCustomParameters, save and remove CustomOfferingDetils functions can be removed from the interface once we can //find a common place for all the scaling and upgrading code of both user and systemvms. void validateCustomParameters(ServiceOfferingVO serviceOffering, Map customParameters); void generateUsageEvent(VirtualMachine vm, boolean isDisplay, String eventType); static Set getStrictHostTags() { String strictHostTags = StrictHostTags.value(); Set strictHostTagsSet = new HashSet<>(); if (StringUtils.isNotEmpty(strictHostTags)) { strictHostTagsSet.addAll(List.of(strictHostTags.split(","))); } if (EnforceStrictResourceLimitHostTagCheck.value() && StringUtils.isNotEmpty(ResourceLimitHostTags.value())) { strictHostTagsSet.addAll(List.of(ResourceLimitHostTags.value().split(","))); } return strictHostTagsSet; } void persistDeviceBusInfo(UserVmVO paramUserVmVO, String paramString); boolean checkIfDynamicScalingCanBeEnabled(VirtualMachine vm, ServiceOffering offering, VirtualMachineTemplate template, Long zoneId); Boolean getDestroyRootVolumeOnVmDestruction(Long domainId); /** * @return true if the VM is part of a CKS cluster, false otherwise. */ boolean isVMPartOfAnyCKSCluster(VMInstanceVO vm); }