/// <summary>
        /// Convert AzureHDInsightAutoscaleConfiguration to Autoscale
        /// </summary>
        /// <returns></returns>
        public Autoscale ToAutoscale()
        {
            Autoscale autoscale = new Autoscale();

            if (Capacity != null)
            {
                autoscale.Capacity = new AutoscaleCapacity(Capacity.MinInstanceCount, Capacity.MaxInstanceCount);
            }

            if (Recurrence != null)
            {
                autoscale.Recurrence = new AutoscaleRecurrence(Recurrence.TimeZone, Recurrence.Condition?.Select(condition => condition.ToAutoscaleSchedule()).ToList());
            }
            return(autoscale);
        }
        /// <summary>
        /// Validate auto scale configuration
        /// </summary>
        /// <param name="expectedAutoscaleConfiguration"></param>
        /// <param name="actualAutoscaleConfiguration"></param>
        public static void ValidateAutoScaleConfig(Autoscale expectedAutoscaleConfiguration, Autoscale actualAutoscaleConfiguration)
        {
            Assert.NotNull(actualAutoscaleConfiguration);
            if (actualAutoscaleConfiguration.Capacity != null && expectedAutoscaleConfiguration.Capacity != null)
            {
                Assert.Equal(expectedAutoscaleConfiguration.Capacity.MinInstanceCount, actualAutoscaleConfiguration.Capacity.MinInstanceCount);
                Assert.Equal(expectedAutoscaleConfiguration.Capacity.MaxInstanceCount, actualAutoscaleConfiguration.Capacity.MaxInstanceCount);
            }
            else
            {
                Assert.Equal(expectedAutoscaleConfiguration.Capacity, actualAutoscaleConfiguration.Capacity);
            }

            if (actualAutoscaleConfiguration.Recurrence != null && expectedAutoscaleConfiguration.Recurrence != null)
            {
                Assert.Equal(expectedAutoscaleConfiguration.Recurrence.TimeZone, actualAutoscaleConfiguration.Recurrence.TimeZone);
                Assert.NotNull(expectedAutoscaleConfiguration.Recurrence.Schedule);
                Assert.NotNull(actualAutoscaleConfiguration.Recurrence.Schedule);

                Assert.Equal(expectedAutoscaleConfiguration.Recurrence.Schedule.Count, actualAutoscaleConfiguration.Recurrence.Schedule.Count);
                Assert.NotEmpty(expectedAutoscaleConfiguration.Recurrence.Schedule);

                for (int i = 0; i < expectedAutoscaleConfiguration.Recurrence.Schedule.Count; i++)
                {
                    var expectedSchedule = expectedAutoscaleConfiguration.Recurrence.Schedule[i];
                    var actualSchedule   = actualAutoscaleConfiguration.Recurrence.Schedule[i];
                    Assert.Equal(expectedSchedule.Days, actualSchedule.Days);
                    Assert.NotNull(expectedSchedule.TimeAndCapacity);
                    Assert.NotNull(actualSchedule.TimeAndCapacity);
                    Assert.Equal(expectedSchedule.TimeAndCapacity.Time, actualSchedule.TimeAndCapacity.Time);
                    Assert.Equal(expectedSchedule.TimeAndCapacity.MinInstanceCount, actualSchedule.TimeAndCapacity.MinInstanceCount);

                    /*
                     * Note: You may find that we don't compare expectedSchedule.TimeAndCapacity.MaxInstanceCount with actualSchedule.TimeAndCapacity.MaxInstanceCount here.
                     * This is not an error. We do this intentionally.
                     * The reason is that now RP will not make use of the parameter "expectedSchedule.TimeAndCapacity.MaxInstanceCount" when create cluster.
                     * And the actualSchedule.TimeAndCapacity.MaxInstanceCount is equal with expectedSchedule.TimeAndCapacity.MinInstanceCount now.
                     * We are not sure whether RP will change this design or not in the future. So We decided not to compare.
                     */
                }
            }
            else
            {
                Assert.Equal(expectedAutoscaleConfiguration.Recurrence, actualAutoscaleConfiguration.Recurrence);
            }
        }
        public override void ExecuteCmdlet()
        {
            parameters.UserName = HttpCredential.UserName;
            parameters.Password = HttpCredential.Password.ConvertToString();

            if (RdpCredential != null)
            {
                parameters.RdpUsername = RdpCredential.UserName;
                parameters.RdpPassword = RdpCredential.Password.ConvertToString();
            }

            if (SshCredential != null)
            {
                parameters.SshUserName = SshCredential.UserName;
                if (!string.IsNullOrEmpty(SshCredential.Password.ConvertToString()))
                {
                    parameters.SshPassword = SshCredential.Password.ConvertToString();
                }
                if (!string.IsNullOrEmpty(SshPublicKey))
                {
                    parameters.SshPublicKey = SshPublicKey;
                }
            }

            if (DefaultStorageAccountType == null || DefaultStorageAccountType == StorageType.AzureStorage)
            {
                parameters.DefaultStorageInfo = new AzureStorageInfo(DefaultStorageAccountName, DefaultStorageAccountKey, DefaultStorageContainer);
            }
            else
            {
                parameters.DefaultStorageInfo = new AzureDataLakeStoreInfo(DefaultStorageAccountName, DefaultStorageRootPath);
            }

            foreach (
                var storageAccount in
                AdditionalStorageAccounts.Where(
                    storageAccount => !parameters.AdditionalStorageAccounts.ContainsKey(storageAccount.Key)))
            {
                parameters.AdditionalStorageAccounts.Add(storageAccount.Key, storageAccount.Value);
            }
            foreach (var config in Configurations.Where(config => !parameters.Configurations.ContainsKey(config.Key)))
            {
                parameters.Configurations.Add(config.Key, config.Value);
            }
            foreach (var action in ScriptActions.Where(action => parameters.ScriptActions.ContainsKey(action.Key)))
            {
                parameters.ScriptActions.Add(action.Key,
                                             action.Value.Select(a => a.GetScriptActionFromPSModel()).ToList());
            }
            foreach (var component in ComponentVersion.Where(component => !parameters.ComponentVersion.ContainsKey(component.Key)))
            {
                parameters.ComponentVersion.Add(component.Key, component.Value);
            }
            if (OozieMetastore != null)
            {
                var metastore = OozieMetastore;
                parameters.OozieMetastore = new Metastore(metastore.SqlAzureServerName, metastore.DatabaseName, metastore.Credential.UserName, metastore.Credential.Password.ConvertToString());
            }
            if (HiveMetastore != null)
            {
                var metastore = HiveMetastore;
                parameters.HiveMetastore = new Metastore(metastore.SqlAzureServerName, metastore.DatabaseName, metastore.Credential.UserName, metastore.Credential.Password.ConvertToString());
            }
            if (!string.IsNullOrEmpty(CertificatePassword))
            {
                if (!string.IsNullOrEmpty(CertificateFilePath))
                {
                    CertificateFileContents = File.ReadAllBytes(CertificateFilePath);
                }
                var servicePrincipal = new Management.HDInsight.Models.ServicePrincipal(
                    GetApplicationId(ApplicationId), GetTenantId(AadTenantId), CertificateFileContents,
                    CertificatePassword);

                parameters.Principal = servicePrincipal;
            }

            if (SecurityProfile != null)
            {
                parameters.SecurityProfile = new SecurityProfile()
                {
                    DirectoryType  = DirectoryType.ActiveDirectory,
                    Domain         = SecurityProfile.Domain,
                    DomainUsername =
                        SecurityProfile.DomainUserCredential != null
                            ? SecurityProfile.DomainUserCredential.UserName
                            : null,
                    DomainUserPassword =
                        SecurityProfile.DomainUserCredential != null &&
                        SecurityProfile.DomainUserCredential.Password != null
                            ? SecurityProfile.DomainUserCredential.Password.ConvertToString()
                            : null,
                    OrganizationalUnitDN = SecurityProfile.OrganizationalUnitDN,
                    LdapsUrls            = SecurityProfile.LdapsUrls,
                    ClusterUsersGroupDNs = SecurityProfile.ClusterUsersGroupDNs
                };
            }

            if (DisksPerWorkerNode > 0)
            {
                parameters.WorkerNodeDataDisksGroups = new List <DataDisksGroups>()
                {
                    new DataDisksGroups()
                    {
                        DisksPerNode = DisksPerWorkerNode
                    }
                };
            }

            if (EncryptionKeyName != null && EncryptionKeyVersion != null && EncryptionVaultUri != null && AssignedIdentity != null)
            {
                parameters.ClusterIdentity = new ClusterIdentity
                {
                    Type = ResourceIdentityType.UserAssigned,
                    UserAssignedIdentities = new Dictionary <string, ClusterIdentityUserAssignedIdentitiesValue>
                    {
                        { AssignedIdentity, new ClusterIdentityUserAssignedIdentitiesValue() }
                    }
                };
                parameters.DiskEncryptionProperties = new DiskEncryptionProperties()
                {
                    KeyName             = EncryptionKeyName,
                    KeyVersion          = EncryptionKeyVersion,
                    VaultUri            = EncryptionVaultUri,
                    EncryptionAlgorithm = EncryptionAlgorithm != null ? EncryptionAlgorithm : JsonWebKeyEncryptionAlgorithm.RSAOAEP,
                    MsiResourceId       = AssignedIdentity
                };
            }

            if (EncryptionAtHost != null)
            {
                if (parameters.DiskEncryptionProperties != null)
                {
                    parameters.DiskEncryptionProperties.EncryptionAtHost = EncryptionAtHost;
                }
                else
                {
                    parameters.DiskEncryptionProperties = new DiskEncryptionProperties()
                    {
                        EncryptionAtHost = EncryptionAtHost
                    };
                }
            }

            Autoscale autoscaleParameter = null;

            if (AutoscaleConfiguration != null)
            {
                autoscaleParameter = AutoscaleConfiguration.ToAutoscale();
            }

            var cluster = HDInsightManagementClient.CreateNewCluster(ResourceGroupName, ClusterName, OSType, parameters, MinSupportedTlsVersion, this.DefaultContext.Environment.ActiveDirectoryAuthority, this.DefaultContext.Environment.DataLakeEndpointResourceId, PublicNetworkAccessType, OutboundPublicNetworkAccessType, EncryptionInTransit, autoscaleParameter);

            if (cluster != null)
            {
                WriteObject(new AzureHDInsightCluster(cluster));
            }
        }
        public override void ExecuteCmdlet()
        {
            foreach (var component in ComponentVersion.Where(component => !clusterComponentVersion.ContainsKey(component.Key)))
            {
                clusterComponentVersion.Add(component.Key, component.Value);
            }
            // Construct Configurations
            foreach (var config in Configurations.Where(config => !clusterConfigurations.ContainsKey(config.Key)))
            {
                clusterConfigurations.Add(config.Key, config.Value);
            }

            // Add cluster username/password to gateway config.
            ClusterCreateHelper.AddClusterCredentialToGatewayConfig(HttpCredential, clusterConfigurations);

            // Construct OS Profile
            OsProfile osProfile = ClusterCreateHelper.CreateOsProfile(SshCredential, SshPublicKey);

            // Construct Virtual Network Profile
            VirtualNetworkProfile vnetProfile = ClusterCreateHelper.CreateVirtualNetworkProfile(VirtualNetworkId, SubnetName);

            // Handle storage account
            StorageProfile storageProfile = new StorageProfile()
            {
                Storageaccounts = new List <StorageAccount> {
                }
            };

            if (StorageAccountType == null || StorageAccountType == StorageType.AzureStorage)
            {
                var azureStorageAccount = ClusterCreateHelper.CreateAzureStorageAccount(ClusterName, StorageAccountResourceId, StorageAccountKey, StorageContainer, this.DefaultContext.Environment.StorageEndpointSuffix);
                storageProfile.Storageaccounts.Add(azureStorageAccount);
            }
            else if (StorageAccountType == StorageType.AzureDataLakeStore)
            {
                ClusterCreateHelper.AddAzureDataLakeStorageGen1ToCoreConfig(StorageAccountResourceId, StorageRootPath, this.DefaultContext.Environment.AzureDataLakeStoreFileSystemEndpointSuffix, clusterConfigurations);
            }
            else if (StorageAccountType == StorageType.AzureDataLakeStorageGen2)
            {
                var adlsgen2Account = ClusterCreateHelper.CreateAdlsGen2StorageAccount(ClusterName, StorageAccountResourceId, StorageAccountKey, StorageFileSystem, StorageAccountManagedIdentity, this.DefaultContext.Environment.StorageEndpointSuffix);
                storageProfile.Storageaccounts.Add(adlsgen2Account);
            }

            // Handle additional storage accounts
            foreach (
                var storageAccount in
                AdditionalStorageAccounts.Where(
                    storageAccount => !clusterAdditionalStorageAccounts.ContainsKey(storageAccount.Key)))
            {
                clusterAdditionalStorageAccounts.Add(storageAccount.Key, storageAccount.Value);
            }
            ClusterCreateHelper.AddAdditionalStorageAccountsToCoreConfig(clusterAdditionalStorageAccounts, clusterConfigurations);

            // Handle script action
            foreach (var action in ScriptActions.Where(action => clusterScriptActions.ContainsKey(action.Key)))
            {
                clusterScriptActions.Add(action.Key,
                                         action.Value.Select(a => a.GetScriptActionFromPSModel()).ToList());
            }

            // Handle metastore
            if (OozieMetastore != null)
            {
                ClusterCreateHelper.AddOozieMetastoreToConfigurations(OozieMetastore, clusterConfigurations);
            }
            if (HiveMetastore != null)
            {
                ClusterCreateHelper.AddHiveMetastoreToConfigurations(HiveMetastore, clusterConfigurations);
            }

            // Handle ADLSGen1 identity
            if (!string.IsNullOrEmpty(CertificatePassword))
            {
                if (!string.IsNullOrEmpty(CertificateFilePath))
                {
                    CertificateFileContents = File.ReadAllBytes(CertificateFilePath);
                }

                ClusterCreateHelper.AddDataLakeStorageGen1IdentityToIdentityConfig(
                    GetApplicationId(ApplicationId), GetTenantId(AadTenantId), CertificateFileContents, CertificatePassword, clusterConfigurations,
                    this.DefaultContext.Environment.ActiveDirectoryAuthority, this.DefaultContext.Environment.DataLakeEndpointResourceId);
            }

            // Handle Kafka Rest Proxy
            KafkaRestProperties kafkaRestProperties = null;

            if (KafkaClientGroupId != null && KafkaClientGroupName != null)
            {
                kafkaRestProperties = new KafkaRestProperties()
                {
                    ClientGroupInfo = new ClientGroupInfo(KafkaClientGroupName, KafkaClientGroupId)
                };
            }

            // Compute profile contains headnode, workernode, zookeepernode, edgenode, kafkamanagementnode, idbrokernode, etc.
            ComputeProfile computeProfile = ClusterCreateHelper.CreateComputeProfile(osProfile, vnetProfile, clusterScriptActions, ClusterType, ClusterSizeInNodes, HeadNodeSize, WorkerNodeSize, ZookeeperNodeSize, EdgeNodeSize, KafkaManagementNodeSize, EnableIDBroker.IsPresent);

            // Handle SecurityProfile
            SecurityProfile securityProfile = ClusterCreateHelper.ConvertAzureHDInsightSecurityProfileToSecurityProfile(SecurityProfile, AssignedIdentity);

            // Handle DisksPerWorkerNode feature
            Role workerNode = Utils.ExtractRole(ClusterNodeType.WorkerNode.ToString(), computeProfile);

            if (DisksPerWorkerNode > 0)
            {
                workerNode.DataDisksGroups = new List <DataDisksGroups>()
                {
                    new DataDisksGroups()
                    {
                        DisksPerNode = DisksPerWorkerNode
                    }
                };
            }

            // Handle ClusterIdentity
            ClusterIdentity clusterIdentity = null;

            if (AssignedIdentity != null || StorageAccountManagedIdentity != null)
            {
                clusterIdentity = new ClusterIdentity
                {
                    Type = ResourceIdentityType.UserAssigned,
                    UserAssignedIdentities = new Dictionary <string, ClusterIdentityUserAssignedIdentitiesValue>()
                };
                if (AssignedIdentity != null)
                {
                    clusterIdentity.UserAssignedIdentities.Add(AssignedIdentity, new ClusterIdentityUserAssignedIdentitiesValue());
                }
                if (StorageAccountManagedIdentity != null)
                {
                    clusterIdentity.UserAssignedIdentities.Add(StorageAccountManagedIdentity, new ClusterIdentityUserAssignedIdentitiesValue());
                }
            }

            // Handle CMK feature
            DiskEncryptionProperties diskEncryptionProperties = null;

            if (EncryptionKeyName != null && EncryptionKeyVersion != null && EncryptionVaultUri != null)
            {
                diskEncryptionProperties = new DiskEncryptionProperties()
                {
                    KeyName             = EncryptionKeyName,
                    KeyVersion          = EncryptionKeyVersion,
                    VaultUri            = EncryptionVaultUri,
                    EncryptionAlgorithm = EncryptionAlgorithm != null ? EncryptionAlgorithm : JsonWebKeyEncryptionAlgorithm.RSAOAEP,
                    MsiResourceId       = AssignedIdentity
                };
            }

            // Handle encryption at host feature
            if (EncryptionAtHost != null)
            {
                if (diskEncryptionProperties != null)
                {
                    diskEncryptionProperties.EncryptionAtHost = EncryptionAtHost;
                }
                else
                {
                    diskEncryptionProperties = new DiskEncryptionProperties()
                    {
                        EncryptionAtHost = EncryptionAtHost
                    };
                }
            }

            // Handle autoscale featurer
            Autoscale autoscaleParameter = null;

            if (AutoscaleConfiguration != null)
            {
                autoscaleParameter = AutoscaleConfiguration.ToAutoscale();
                workerNode.AutoscaleConfiguration = autoscaleParameter;
            }

            // Construct cluster create parameter
            ClusterCreateParametersExtended createParams = new ClusterCreateParametersExtended
            {
                Location = Location,
                //Tags = Tags,  //To Do add this Tags parameter
                Properties = new ClusterCreateProperties
                {
                    Tier = ClusterTier,
                    ClusterDefinition = new ClusterDefinition
                    {
                        Kind             = ClusterType ?? "Hadoop",
                        ComponentVersion = clusterComponentVersion,
                        Configurations   = clusterConfigurations
                    },
                    ClusterVersion      = Version ?? "default",
                    KafkaRestProperties = kafkaRestProperties,
                    ComputeProfile      = computeProfile,
                    OsType                   = OSType,
                    SecurityProfile          = securityProfile,
                    StorageProfile           = storageProfile,
                    DiskEncryptionProperties = diskEncryptionProperties,
                    //handle Encryption In Transit feature
                    EncryptionInTransitProperties = EncryptionInTransit != null ? new EncryptionInTransitProperties()
                    {
                        IsEncryptionInTransitEnabled = EncryptionInTransit
                    } : null,
                    MinSupportedTlsVersion = MinSupportedTlsVersion
                },
                Identity = clusterIdentity
            };

            var cluster = HDInsightManagementClient.CreateCluster(ResourceGroupName, ClusterName, createParams);

            if (cluster != null)
            {
                WriteObject(new AzureHDInsightCluster(cluster));
            }
        }
예제 #5
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        public override void ExecuteCmdlet()
        {
            if (this.IsParameterBound(c => c.ResourceId))
            {
                var resourceIdentifier = new ResourceIdentifier(ResourceId);
                this.ClusterName       = resourceIdentifier.ResourceName;
                this.ResourceGroupName = resourceIdentifier.ResourceGroupName;
            }

            if (this.IsParameterBound(c => c.InputObject))
            {
                this.ClusterName       = this.InputObject.Name;
                this.ResourceGroupName = this.InputObject.ResourceGroup;
            }

            if (ClusterName != null && ResourceGroupName == null)
            {
                ResourceGroupName = GetResourceGroupByAccountName(ClusterName);
            }

            var       clusterBeforeUpdate = HDInsightManagementClient.Get(ResourceGroupName, ClusterName);
            Autoscale autoscaleConfig     = Utils.ExtractWorkerNode(clusterBeforeUpdate)?.AutoscaleConfiguration;

            if (autoscaleConfig == null)
            {
                autoscaleConfig = new Autoscale();
            }

            switch (ParameterSetName)
            {
            case LoadAutoscaleByNameParameterSet:
            case LoadAutoscaleByResourceIdParameterSet:
            case LoadAutoscaleByInputObjectParameterSet:
                // override Recurrence to support switch from schedule to load
                autoscaleConfig.Recurrence = null;

                if (autoscaleConfig.Capacity == null)
                {
                    autoscaleConfig.Capacity = new AutoscaleCapacity(MinWorkerNodeCount, MaxWorkerNodeCount);
                }
                else
                {
                    if (this.IsParameterBound(c => c.MinWorkerNodeCount))
                    {
                        autoscaleConfig.Capacity.MinInstanceCount = MinWorkerNodeCount;
                    }

                    if (this.IsParameterBound(c => c.MaxWorkerNodeCount))
                    {
                        autoscaleConfig.Capacity.MaxInstanceCount = MaxWorkerNodeCount;
                    }
                }
                break;

            case ScheduleAutoscaleByNameParameterSet:
            case ScheduleAutoscaleByResourceIdParameterSet:
            case ScheduleAutoscaleByInputObjectParameterSet:
                // override Capacity to support switch from Load to Schedule
                autoscaleConfig.Capacity = null;

                if (autoscaleConfig.Recurrence == null)
                {
                    var schedules = Condition?.Select(conditon => conditon.ToAutoscaleSchedule()).ToList();
                    autoscaleConfig.Recurrence = new AutoscaleRecurrence(TimeZone, schedules);
                }
                else
                {
                    if (this.IsParameterBound(c => c.TimeZone))
                    {
                        autoscaleConfig.Recurrence.TimeZone = TimeZone;
                    }

                    if (this.IsParameterBound(c => c.Condition))
                    {
                        autoscaleConfig.Recurrence.Schedule = Condition?.Select(conditon => conditon.ToAutoscaleSchedule()).ToList();
                    }
                }
                break;

            case AutoscaleConfigurationByNameParameterSet:
            case AutoscaleConfigurationByResourceIdParameterSet:
            case AutoscaleConfigurationByInputObjectParameterSet:
                autoscaleConfig = AutoscaleConfiguration?.ToAutoscale();
                break;

            default:
                break;
            }

            if (ShouldProcess(ClusterName))
            {
                HDInsightManagementClient.UpdateAutoScaleConfiguration(ResourceGroupName, ClusterName, new AutoscaleConfigurationUpdateParameter(autoscaleConfig));

                Cluster cluster = HDInsightManagementClient.Get(ResourceGroupName, ClusterName);
                WriteObject(new AzureHDInsightCluster(cluster));
            }
        }
        public virtual Cluster CreateNewCluster(string resourceGroupName, string clusterName, OSType osType, ClusterCreateParameters parameters,
                                                string minSupportedTlsVersion        = default(string), string cloudAadAuthority       = default(string),
                                                string cloudDataLakeAudience         = default(string), string PublicNetworkAccessType = default(string),
                                                string OutboundOnlyNetworkAccessType = default(string), bool?EnableEncryptionInTransit = default(bool?), Autoscale autoscaleParameter = null)
        {
            var createParams = CreateParametersConverter.GetExtendedClusterCreateParameters(clusterName, parameters);

            createParams.Properties.OsType = osType;
            createParams.Properties.MinSupportedTlsVersion = minSupportedTlsVersion;
            ResetClusterIdentity(createParams, cloudAadAuthority, cloudDataLakeAudience);

            if (EnableEncryptionInTransit.HasValue)
            {
                createParams.Properties.EncryptionInTransitProperties = new EncryptionInTransitProperties()
                {
                    IsEncryptionInTransitEnabled = EnableEncryptionInTransit
                };
            }

            if (!string.IsNullOrEmpty(PublicNetworkAccessType) || !string.IsNullOrEmpty(OutboundOnlyNetworkAccessType))
            {
                NetworkSettings networkSettings = new NetworkSettings()
                {
                    PublicNetworkAccess = PublicNetworkAccessType,
                    OutboundOnlyPublicNetworkAccessType = OutboundOnlyNetworkAccessType
                };
                createParams.Properties.NetworkSettings = networkSettings;
            }

            if (autoscaleParameter != null)
            {
                createParams.Properties.ComputeProfile.Roles.FirstOrDefault(role => role.Name.Equals("workernode")).AutoscaleConfiguration = autoscaleParameter;
            }

            return(HdInsightManagementClient.Clusters.Create(resourceGroupName, clusterName, createParams));
        }
 public AzureHDInsightAutoscale(Autoscale autoscale)
 {
     Capacity   = autoscale?.Capacity != null ? new AzureHDInsightAutoscaleCapacity(autoscale.Capacity) : null;
     Recurrence = autoscale?.Recurrence != null ? new AzureHDInsightAutoscaleRecurrence(autoscale.Recurrence) : null;
 }