/// <summary> /// Starts RP Planned failover. /// </summary> private void StartRpPlannedFailover() { // Refresh RP Object var rp = RecoveryServicesClient.GetAzureSiteRecoveryRecoveryPlan(this.RecoveryPlan.Name); var recoveryPlanPlannedFailoverInputProperties = new RecoveryPlanPlannedFailoverInputProperties() { FailoverDirection = this.Direction, ProviderSpecificDetails = new List<RecoveryPlanProviderSpecificFailoverInput>() }; foreach (string replicationProvider in rp.RecoveryPlan.Properties.ReplicationProviders) { if (0 == string.Compare( replicationProvider, Constants.HyperVReplicaAzure, StringComparison.OrdinalIgnoreCase)) { if (this.Direction == Constants.PrimaryToRecovery) { var recoveryPlanHyperVReplicaAzureFailoverInput = new RecoveryPlanHyperVReplicaAzureFailoverInput() { InstanceType = replicationProvider, PrimaryKekCertificatePfx = primaryKekCertpfx, SecondaryKekCertificatePfx = secondaryKekCertpfx, VaultLocation = this.GetCurrentVaultLocation() }; recoveryPlanPlannedFailoverInputProperties.ProviderSpecificDetails.Add(recoveryPlanHyperVReplicaAzureFailoverInput); } else { var recoveryPlanHyperVReplicaAzureFailbackInput = new RecoveryPlanHyperVReplicaAzureFailbackInput() { InstanceType = replicationProvider + "Failback", DataSyncOption = this.Optimize == Constants.ForDowntime ? Constants.ForDowntime : Constants.ForSynchronization, RecoveryVmCreationOption = "CreateVmIfNotFound" //CreateVmIfNotFound | NoAction }; recoveryPlanPlannedFailoverInputProperties.ProviderSpecificDetails.Add(recoveryPlanHyperVReplicaAzureFailbackInput); } } } var recoveryPlanPlannedFailoverInput = new RecoveryPlanPlannedFailoverInput() { Properties = recoveryPlanPlannedFailoverInputProperties }; LongRunningOperationResponse response = RecoveryServicesClient.StartAzureSiteRecoveryPlannedFailover( this.RecoveryPlan.Name, recoveryPlanPlannedFailoverInput); JobResponse jobResponse = RecoveryServicesClient .GetAzureSiteRecoveryJobDetails(PSRecoveryServicesClient.GetJobIdFromReponseLocation(response.Location)); WriteObject(new ASRJob(jobResponse.Job)); }
/// <summary> /// Starts RP Unplanned failover. /// </summary> private void StartRpUnplannedFailover() { // Refresh RP Object var rp = RecoveryServicesClient.GetAzureSiteRecoveryRecoveryPlan(this.RecoveryPlan.Name); var recoveryPlanUnplannedFailoverInputProperties = new RecoveryPlanUnplannedFailoverInputProperties() { FailoverDirection = this.Direction, SourceSiteOperations = this.PerformSourceSideActions ? "Required" : "NotRequired", //Required|NotRequired ProviderSpecificDetails = new List<RecoveryPlanProviderSpecificFailoverInput>() }; foreach (string replicationProvider in rp.RecoveryPlan.Properties.ReplicationProviders) { if (0 == string.Compare( replicationProvider, Constants.HyperVReplicaAzure, StringComparison.OrdinalIgnoreCase)) { if (this.Direction == Constants.PrimaryToRecovery) { var recoveryPlanHyperVReplicaAzureFailoverInput = new RecoveryPlanHyperVReplicaAzureFailoverInput() { InstanceType = replicationProvider, PrimaryKekCertificatePfx = primaryKekCertpfx, SecondaryKekCertificatePfx = secondaryKekCertpfx, VaultLocation = this.GetCurrentVaultLocation() }; recoveryPlanUnplannedFailoverInputProperties.ProviderSpecificDetails.Add(recoveryPlanHyperVReplicaAzureFailoverInput); } } } var recoveryPlanUnplannedFailoverInput = new RecoveryPlanUnplannedFailoverInput() { Properties = recoveryPlanUnplannedFailoverInputProperties }; LongRunningOperationResponse response = RecoveryServicesClient.StartAzureSiteRecoveryUnplannedFailover( this.RecoveryPlan.Name, recoveryPlanUnplannedFailoverInput); JobResponse jobResponse = RecoveryServicesClient .GetAzureSiteRecoveryJobDetails(PSRecoveryServicesClient.GetJobIdFromReponseLocation(response.Location)); WriteObject(new ASRJob(jobResponse.Job)); }
/// <summary> /// Starts RP Test failover. /// </summary> private void StartRpTestFailover() { // Refresh RP Object var rp = RecoveryServicesClient.GetAzureSiteRecoveryRecoveryPlan(this.RecoveryPlan.Name); var recoveryPlanTestFailoverInputProperties = new RecoveryPlanTestFailoverInputProperties() { FailoverDirection = this.Direction, NetworkId = this.networkId, NetworkType = this.networkType, ProviderSpecificDetails = new List<RecoveryPlanProviderSpecificFailoverInput>() }; foreach (string replicationProvider in rp.RecoveryPlan.Properties.ReplicationProviders) { if (0 == string.Compare( replicationProvider, Constants.HyperVReplicaAzure, StringComparison.OrdinalIgnoreCase)) { if (this.Direction == Constants.PrimaryToRecovery) { var recoveryPlanHyperVReplicaAzureFailoverInput = new RecoveryPlanHyperVReplicaAzureFailoverInput() { InstanceType = replicationProvider, PrimaryKekCertificatePfx = primaryKekCertpfx, SecondaryKekCertificatePfx = secondaryKekCertpfx, VaultLocation = this.GetCurrentVaultLocation() }; recoveryPlanTestFailoverInputProperties.ProviderSpecificDetails.Add(recoveryPlanHyperVReplicaAzureFailoverInput); } else { new ArgumentException(Properties.Resources.UnsupportedDirectionForTFO);// Throw Unsupported Direction Exception } } } var recoveryPlanTestFailoverInput = new RecoveryPlanTestFailoverInput() { Properties = recoveryPlanTestFailoverInputProperties }; LongRunningOperationResponse response = RecoveryServicesClient.StartAzureSiteRecoveryTestFailover( this.RecoveryPlan.Name, recoveryPlanTestFailoverInput); JobResponse jobResponse = RecoveryServicesClient .GetAzureSiteRecoveryJobDetails(PSRecoveryServicesClient.GetJobIdFromReponseLocation(response.Location)); WriteObject(new ASRJob(jobResponse.Job)); }