/// <summary> /// Starts RP Unplanned failover. /// </summary> private void StartRpUnplannedFailover() { // Refresh RP Object var rp = this.RecoveryServicesClient.GetAzureSiteRecoveryRecoveryPlan( this.RecoveryPlan.Name); var recoveryPlanUnplannedFailoverInputProperties = new RecoveryPlanUnplannedFailoverInputProperties { FailoverDirection = this.Direction == PossibleOperationsDirections.PrimaryToRecovery.ToString() ? PossibleOperationsDirections.PrimaryToRecovery : PossibleOperationsDirections.RecoveryToPrimary, SourceSiteOperations = this.PerformSourceSideAction ? SourceSiteOperations.Required : SourceSiteOperations.NotRequired, //Required|NotRequired ProviderSpecificDetails = new List <RecoveryPlanProviderSpecificFailoverInput>() }; foreach (var replicationProvider in rp.Properties.ReplicationProviders) { if (0 == string.Compare( replicationProvider, Constants.HyperVReplicaAzure, StringComparison.OrdinalIgnoreCase)) { if (this.Direction == Constants.PrimaryToRecovery) { var recoveryPlanHyperVReplicaAzureFailoverInput = new RecoveryPlanHyperVReplicaAzureFailoverInput { PrimaryKekCertificatePfx = this.primaryKekCertpfx, SecondaryKekCertificatePfx = this.secondaryKekCertpfx, VaultLocation = "dummy" }; recoveryPlanUnplannedFailoverInputProperties.ProviderSpecificDetails.Add( recoveryPlanHyperVReplicaAzureFailoverInput); } } } var recoveryPlanUnplannedFailoverInput = new RecoveryPlanUnplannedFailoverInput { Properties = recoveryPlanUnplannedFailoverInputProperties }; var response = this.RecoveryServicesClient.StartAzureSiteRecoveryUnplannedFailover( this.RecoveryPlan.Name, recoveryPlanUnplannedFailoverInput); var jobResponse = this.RecoveryServicesClient.GetAzureSiteRecoveryJobDetails( PSRecoveryServicesClient.GetJobIdFromReponseLocation(response.Location)); this.WriteObject(new ASRJob(jobResponse)); }
/// <summary> /// Starts Azure Site Recovery Unplanned failover. /// </summary> /// <param name="recoveryPlanName">Recovery Plan Name</param> /// <param name="input">Recovery Plan Unplanned Failover Input</param> /// <returns>Job response</returns> public PSSiteRecoveryLongRunningOperation StartAzureSiteRecoveryUnplannedFailover( string recoveryPlanName, RecoveryPlanUnplannedFailoverInput input) { var op = this.GetSiteRecoveryClient() .ReplicationRecoveryPlans.BeginUnplannedFailoverWithHttpMessagesAsync( recoveryPlanName, input, this.GetRequestHeaders(true)) .GetAwaiter() .GetResult(); var result = Mapper.Map <PSSiteRecoveryLongRunningOperation>(op); return(result); }
/// <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 recovery plan unplanned failover. /// </summary> private void StartRpUnplannedFailover() { // Refresh RP Object var rp = this.RecoveryServicesClient.GetAzureSiteRecoveryRecoveryPlan( this.RecoveryPlan.Name); var recoveryPlanUnplannedFailoverInputProperties = new RecoveryPlanUnplannedFailoverInputProperties { FailoverDirection = this.Direction == PossibleOperationsDirections.PrimaryToRecovery.ToString() ? PossibleOperationsDirections.PrimaryToRecovery : PossibleOperationsDirections.RecoveryToPrimary, SourceSiteOperations = this.PerformSourceSideAction ? SourceSiteOperations.Required : SourceSiteOperations.NotRequired, //Required|NotRequired ProviderSpecificDetails = new List <RecoveryPlanProviderSpecificFailoverInput>() }; foreach (var replicationProvider in rp.Properties.ReplicationProviders) { if (0 == string.Compare( replicationProvider, Constants.HyperVReplicaAzure, StringComparison.OrdinalIgnoreCase)) { if (this.Direction == Constants.PrimaryToRecovery) { var recoveryPlanHyperVReplicaAzureFailoverInput = new RecoveryPlanHyperVReplicaAzureFailoverInput { PrimaryKekCertificatePfx = this.primaryKekCertpfx, SecondaryKekCertificatePfx = this.secondaryKekCertpfx, VaultLocation = "dummy" }; if (this.RecoveryTag != null) { var recoveryPointType = this.RecoveryTag == Constants.RecoveryTagLatestAvailableApplicationConsistent ? HyperVReplicaAzureRpRecoveryPointType.LatestApplicationConsistent : this.RecoveryTag == Constants.RecoveryTagLatestAvailable ? HyperVReplicaAzureRpRecoveryPointType.LatestProcessed : HyperVReplicaAzureRpRecoveryPointType.Latest; recoveryPlanHyperVReplicaAzureFailoverInput.RecoveryPointType = recoveryPointType; } recoveryPlanUnplannedFailoverInputProperties.ProviderSpecificDetails.Add( recoveryPlanHyperVReplicaAzureFailoverInput); } } else if (string.Compare( replicationProvider, Constants.InMageAzureV2, StringComparison.OrdinalIgnoreCase) == 0) { // Check if the Direction is PrimaryToRecovery. if (this.Direction == Constants.PrimaryToRecovery) { // Set the Recovery Point Types for InMage. var recoveryPointType = this.RecoveryTag == Constants.RecoveryTagLatestAvailableApplicationConsistent ? InMageV2RpRecoveryPointType.LatestApplicationConsistent : this.RecoveryTag == Constants.RecoveryTagLatestAvailable ? InMageV2RpRecoveryPointType.LatestProcessed : this.RecoveryTag == Constants.RecoveryTagLatestAvailableCrashConsistent ? InMageV2RpRecoveryPointType.LatestCrashConsistent : InMageV2RpRecoveryPointType.Latest; // Create the InMageAzureV2 Provider specific input. var recoveryPlanInMageAzureV2FailoverInput = new RecoveryPlanInMageAzureV2FailoverInput { RecoveryPointType = recoveryPointType, VaultLocation = "dummy" }; // Add the InMageAzureV2 Provider specific input in the Planned Failover Input. recoveryPlanUnplannedFailoverInputProperties.ProviderSpecificDetails.Add( recoveryPlanInMageAzureV2FailoverInput); } } else if (string.Compare( replicationProvider, Constants.InMage, StringComparison.OrdinalIgnoreCase) == 0) { // Check if the Direction is RecoveryToPrimary. if (this.Direction == Constants.RecoveryToPrimary) { // Set the Recovery Point Types for InMage. var recoveryPointType = this.RecoveryTag == Constants.RecoveryTagLatestAvailableApplicationConsistent ? RpInMageRecoveryPointType.LatestTag : RpInMageRecoveryPointType.LatestTime; // Create the InMage Provider specific input. var recoveryPlanInMageFailoverInput = new RecoveryPlanInMageFailoverInput { RecoveryPointType = recoveryPointType }; // Add the InMage Provider specific input in the Planned Failover Input. recoveryPlanUnplannedFailoverInputProperties.ProviderSpecificDetails.Add( recoveryPlanInMageFailoverInput); } } else if (0 == string.Compare( replicationProvider, Constants.A2A, StringComparison.OrdinalIgnoreCase)) { A2ARpRecoveryPointType recoveryPointType = A2ARpRecoveryPointType.Latest; switch (this.RecoveryTag) { case Constants.RecoveryTagLatestAvailableCrashConsistent: recoveryPointType = A2ARpRecoveryPointType.LatestCrashConsistent; break; case Constants.RecoveryTagLatestAvailableApplicationConsistent: recoveryPointType = A2ARpRecoveryPointType.LatestApplicationConsistent; break; case Constants.RecoveryTagLatestAvailable: recoveryPointType = A2ARpRecoveryPointType.LatestProcessed; break; case Constants.RecoveryTagLatest: recoveryPointType = A2ARpRecoveryPointType.Latest; break; } var recoveryPlanA2AFailoverInput = new RecoveryPlanA2AFailoverInput() { RecoveryPointType = recoveryPointType }; recoveryPlanUnplannedFailoverInputProperties.ProviderSpecificDetails.Add(recoveryPlanA2AFailoverInput); } } var recoveryPlanUnplannedFailoverInput = new RecoveryPlanUnplannedFailoverInput { Properties = recoveryPlanUnplannedFailoverInputProperties }; var response = this.RecoveryServicesClient.StartAzureSiteRecoveryUnplannedFailover( this.RecoveryPlan.Name, recoveryPlanUnplannedFailoverInput); var jobResponse = this.RecoveryServicesClient.GetAzureSiteRecoveryJobDetails( PSRecoveryServicesClient.GetJobIdFromReponseLocation(response.Location)); this.WriteObject(new ASRJob(jobResponse)); }
/// <summary> /// Starts recovery plan unplanned failover. /// </summary> private void StartRpUnplannedFailover() { // Refresh RP Object var rp = this.RecoveryServicesClient.GetAzureSiteRecoveryRecoveryPlan( this.RecoveryPlan.Name); var recoveryPlanUnplannedFailoverInputProperties = new RecoveryPlanUnplannedFailoverInputProperties { FailoverDirection = this.Direction == PossibleOperationsDirections.PrimaryToRecovery.ToString() ? PossibleOperationsDirections.PrimaryToRecovery : PossibleOperationsDirections.RecoveryToPrimary, SourceSiteOperations = this.PerformSourceSideAction ? SourceSiteOperations.Required : SourceSiteOperations.NotRequired, //Required|NotRequired ProviderSpecificDetails = new List <RecoveryPlanProviderSpecificFailoverInput>() }; foreach (var replicationProvider in rp.Properties.ReplicationProviders) { if (0 == string.Compare( replicationProvider, Constants.HyperVReplicaAzure, StringComparison.OrdinalIgnoreCase)) { if (this.Direction == Constants.PrimaryToRecovery) { var recoveryPlanHyperVReplicaAzureFailoverInput = new RecoveryPlanHyperVReplicaAzureFailoverInput { PrimaryKekCertificatePfx = this.primaryKekCertpfx, SecondaryKekCertificatePfx = this.secondaryKekCertpfx }; if (this.RecoveryTag != null) { var recoveryPointType = this.RecoveryTag == Constants.RecoveryTagLatestAvailableApplicationConsistent ? HyperVReplicaAzureRpRecoveryPointType.LatestApplicationConsistent : this.RecoveryTag == Constants.RecoveryTagLatestAvailable ? HyperVReplicaAzureRpRecoveryPointType.LatestProcessed : HyperVReplicaAzureRpRecoveryPointType.Latest; recoveryPlanHyperVReplicaAzureFailoverInput.RecoveryPointType = recoveryPointType; } recoveryPlanUnplannedFailoverInputProperties.ProviderSpecificDetails.Add( recoveryPlanHyperVReplicaAzureFailoverInput); } } else if (string.Compare( replicationProvider, Constants.InMageAzureV2, StringComparison.OrdinalIgnoreCase) == 0) { // Check if the Direction is PrimaryToRecovery. if (this.Direction == Constants.PrimaryToRecovery) { // Set the Recovery Point Types for InMage. var recoveryPointType = this.RecoveryTag == Constants.RecoveryTagLatestAvailableApplicationConsistent ? InMageV2RpRecoveryPointType.LatestApplicationConsistent : this.RecoveryTag == Constants.RecoveryTagLatestAvailable ? InMageV2RpRecoveryPointType.LatestProcessed : this.RecoveryTag == Constants.RecoveryTagLatestAvailableCrashConsistent ? InMageV2RpRecoveryPointType.LatestCrashConsistent : InMageV2RpRecoveryPointType.Latest; // Create the InMageAzureV2 Provider specific input. var recoveryPlanInMageAzureV2FailoverInput = new RecoveryPlanInMageAzureV2FailoverInput { RecoveryPointType = recoveryPointType }; // Add the InMageAzureV2 Provider specific input in the Planned Failover Input. recoveryPlanUnplannedFailoverInputProperties.ProviderSpecificDetails.Add( recoveryPlanInMageAzureV2FailoverInput); } } else if (string.Compare( replicationProvider, Constants.InMage, StringComparison.OrdinalIgnoreCase) == 0) { // Check if the Direction is RecoveryToPrimary. if (this.Direction == Constants.RecoveryToPrimary) { // Set the Recovery Point Types for InMage. var recoveryPointType = this.RecoveryTag == Constants.RecoveryTagLatestAvailableApplicationConsistent ? RpInMageRecoveryPointType.LatestTag : RpInMageRecoveryPointType.LatestTime; // Create the InMage Provider specific input. var recoveryPlanInMageFailoverInput = new RecoveryPlanInMageFailoverInput { RecoveryPointType = recoveryPointType }; // Add the InMage Provider specific input in the Planned Failover Input. recoveryPlanUnplannedFailoverInputProperties.ProviderSpecificDetails.Add( recoveryPlanInMageFailoverInput); } } else if (0 == string.Compare( replicationProvider, Constants.A2A, StringComparison.OrdinalIgnoreCase)) { string recoveryPointType = A2ARpRecoveryPointType.Latest; switch (this.RecoveryTag) { case Constants.RecoveryTagLatestAvailableCrashConsistent: recoveryPointType = A2ARpRecoveryPointType.LatestCrashConsistent; break; case Constants.RecoveryTagLatestAvailableApplicationConsistent: recoveryPointType = A2ARpRecoveryPointType.LatestApplicationConsistent; break; case Constants.RecoveryTagLatestAvailable: recoveryPointType = A2ARpRecoveryPointType.LatestProcessed; break; case Constants.RecoveryTagLatest: recoveryPointType = A2ARpRecoveryPointType.Latest; break; } var recoveryPlanA2AFailoverInput = new RecoveryPlanA2AFailoverInput() { RecoveryPointType = recoveryPointType }; recoveryPlanUnplannedFailoverInputProperties.ProviderSpecificDetails.Add(recoveryPlanA2AFailoverInput); } else if (string.Compare( replicationProvider, Constants.InMageRcm, StringComparison.OrdinalIgnoreCase) == 0) { var recoveryPointType = this.RecoveryTag == Constants.RecoveryTagLatestAvailableApplicationConsistent ? RecoveryPlanPointType.LatestApplicationConsistent : this.RecoveryTag == Constants.RecoveryTagLatest ? RecoveryPlanPointType.Latest : this.RecoveryTag == Constants.RecoveryTagLatestAvailableCrashConsistent ? RecoveryPlanPointType.LatestCrashConsistent : RecoveryPlanPointType.LatestProcessed; this.MultiVmSyncPoint = this.MyInvocation.BoundParameters.ContainsKey( Utilities.GetMemberName(() => this.MultiVmSyncPoint)) ? this.MultiVmSyncPoint : Constants.Disable; // Check if the direction is PrimaryToRecovery. if (this.Direction == Constants.PrimaryToRecovery) { // Create the InMageRcm provider specific input. var recoveryPlanInMageRcmFailoverInput = new RecoveryPlanInMageRcmFailoverInput { RecoveryPointType = recoveryPointType, UseMultiVmSyncPoint = this.MultiVmSyncPoint == Constants.Enable ? Constants.True : Constants.False }; // Add the InMagRcm provider specific input in the unplanned failover input. recoveryPlanUnplannedFailoverInputProperties.ProviderSpecificDetails.Add( recoveryPlanInMageRcmFailoverInput); } } else if (string.Compare( this.ReplicationProtectedItem.ReplicationProvider, Constants.InMageRcmFailback, StringComparison.OrdinalIgnoreCase) == 0) { throw new InvalidOperationException( string.Format( Resources.UnsupportedReplicationProviderForUnplannedFailover, this.ReplicationProtectedItem.ReplicationProvider)); } } var recoveryPlanUnplannedFailoverInput = new RecoveryPlanUnplannedFailoverInput { Properties = recoveryPlanUnplannedFailoverInputProperties }; var response = this.RecoveryServicesClient.StartAzureSiteRecoveryUnplannedFailover( this.RecoveryPlan.Name, recoveryPlanUnplannedFailoverInput); var jobResponse = this.RecoveryServicesClient.GetAzureSiteRecoveryJobDetails( PSRecoveryServicesClient.GetJobIdFromReponseLocation(response.Location)); this.WriteObject(new ASRJob(jobResponse)); }
/// <summary> /// Execute unplanned failover of the recovery plan. /// </summary> /// <remarks> /// The operation to start the unplanned failover of a recovery plan. /// </remarks> /// <param name='operations'> /// The operations group for this extension method. /// </param> /// <param name='recoveryPlanName'> /// Recovery plan name. /// </param> /// <param name='input'> /// Recovery plan unplanned failover input. /// </param> /// <param name='cancellationToken'> /// The cancellation token. /// </param> public static async Task <RecoveryPlan> BeginUnplannedFailoverAsync(this IReplicationRecoveryPlansOperations operations, string recoveryPlanName, RecoveryPlanUnplannedFailoverInput input, CancellationToken cancellationToken = default(CancellationToken)) { using (var _result = await operations.BeginUnplannedFailoverWithHttpMessagesAsync(recoveryPlanName, input, null, cancellationToken).ConfigureAwait(false)) { return(_result.Body); } }
/// <summary> /// Execute unplanned failover of the recovery plan. /// </summary> /// <remarks> /// The operation to start the unplanned failover of a recovery plan. /// </remarks> /// <param name='operations'> /// The operations group for this extension method. /// </param> /// <param name='recoveryPlanName'> /// Recovery plan name. /// </param> /// <param name='input'> /// Recovery plan unplanned failover input. /// </param> public static RecoveryPlan BeginUnplannedFailover(this IReplicationRecoveryPlansOperations operations, string recoveryPlanName, RecoveryPlanUnplannedFailoverInput input) { return(operations.BeginUnplannedFailoverAsync(recoveryPlanName, input).GetAwaiter().GetResult()); }
public void RecoveryPlan_ValidateE2E() { using (UndoContext context = UndoContext.Current) { context.Start(); var client = GetSiteRecoveryClient(CustomHttpHandler); var fabrics = client.Fabrics.List(RequestHeaders).Fabrics.ToList(); var containers = client.ProtectionContainer.List( fabrics.First().Name, RequestHeaders) .ProtectionContainers .ToList(); var vms = client.ReplicationProtectedItem.List( fabrics.First().Name, containers.First().Name, RequestHeaders) .ReplicationProtectedItems .ToList(); // Create one recovery plan. var rpName = "Test-" + Guid.NewGuid().ToString(); var input = GetE2EInput(fabrics.First().Id, vms.First().Id); client.RecoveryPlan.Create(rpName, input, RequestHeaders); // Test failover. var tfoInput = new RecoveryPlanTestFailoverInput() { Properties = new RecoveryPlanTestFailoverInputProperties() { FailoverDirection = "PrimaryToRecovery", NetworkType = "NoNetworkAttachAsInput" } }; client.RecoveryPlan.TestFailover(rpName, tfoInput, RequestHeaders); // Planned failover. var pfoInput = new RecoveryPlanPlannedFailoverInput() { Properties = new RecoveryPlanPlannedFailoverInputProperties() { FailoverDirection = "PrimaryToRecovery" } }; client.RecoveryPlan.PlannedFailover(rpName, pfoInput, RequestHeaders); // Commit failover. client.RecoveryPlan.CommitFailover(rpName, RequestHeaders); // Reverse replicate. client.RecoveryPlan.Reprotect(rpName, RequestHeaders); // Unplanned failover. var ufoInput = new RecoveryPlanUnplannedFailoverInput() { Properties = new RecoveryPlanUnplannedFailoverInputProperties() { FailoverDirection = "RecoveryToPrimary", SourceSiteOperations = "NotRequired" } }; client.RecoveryPlan.UnplannedFailover(rpName, ufoInput, RequestHeaders); // Reverse replicate. client.RecoveryPlan.Reprotect(rpName, RequestHeaders); } }
public void RecoveryPlan_ValidateE2A() { using (UndoContext context = UndoContext.Current) { context.Start(); var client = GetSiteRecoveryClient(CustomHttpHandler); var fabrics = client.Fabrics.List(RequestHeaders).Fabrics.ToList(); var containers = client.ProtectionContainer.List( fabrics.First().Name, RequestHeaders) .ProtectionContainers .ToList(); var vms = client.ReplicationProtectedItem.List( fabrics.First().Name, containers.First().Name, RequestHeaders) .ReplicationProtectedItems .ToList(); // Create one recovery plan. var rpName = "Test-" + Guid.NewGuid().ToString(); var input = GetE2AInput(fabrics.First().Id, vms.First().Id); client.RecoveryPlan.Create(rpName, input, RequestHeaders); // Test failover. var tfoInput = new RecoveryPlanTestFailoverInput() { Properties = new RecoveryPlanTestFailoverInputProperties() { FailoverDirection = "PrimaryToRecovery", NetworkType = "NoNetworkAttachAsInput", ProviderSpecificDetails = new List <RecoveryPlanProviderSpecificFailoverInput>() { new RecoveryPlanHyperVReplicaAzureFailoverInput() { VaultLocation = "Southeast Asia" } } } }; client.RecoveryPlan.TestFailover(rpName, tfoInput, RequestHeaders); // Planned failover. var pfoInput = new RecoveryPlanPlannedFailoverInput() { Properties = new RecoveryPlanPlannedFailoverInputProperties() { FailoverDirection = "PrimaryToRecovery", ProviderSpecificDetails = new List <RecoveryPlanProviderSpecificFailoverInput>() { new RecoveryPlanHyperVReplicaAzureFailoverInput() { VaultLocation = "Southeast Asia" } } } }; client.RecoveryPlan.PlannedFailover(rpName, pfoInput, RequestHeaders); // Commit failover. client.RecoveryPlan.CommitFailover(rpName, RequestHeaders); // Planned failback. var fbInput = new RecoveryPlanPlannedFailoverInput() { Properties = new RecoveryPlanPlannedFailoverInputProperties() { FailoverDirection = "RecoveryToPrimary", ProviderSpecificDetails = new List <RecoveryPlanProviderSpecificFailoverInput>() { new RecoveryPlanHyperVReplicaAzureFailbackInput() { DataSyncOption = "ForSyncronization", RecoveryVmCreationOption = "NoAction" } } } }; client.RecoveryPlan.PlannedFailover(rpName, fbInput, RequestHeaders); // Commit failover. client.RecoveryPlan.CommitFailover(rpName, RequestHeaders); // Reverse replicate. client.RecoveryPlan.Reprotect(rpName, RequestHeaders); // Unplanned failover. var ufoInput = new RecoveryPlanUnplannedFailoverInput() { Properties = new RecoveryPlanUnplannedFailoverInputProperties() { FailoverDirection = "PrimaryToRecovery", SourceSiteOperations = "NotRequired", ProviderSpecificDetails = new List <RecoveryPlanProviderSpecificFailoverInput>() { new RecoveryPlanHyperVReplicaAzureFailoverInput() { VaultLocation = "Southeast Asia" } } } }; client.RecoveryPlan.UnplannedFailover(rpName, ufoInput, RequestHeaders); } }
/// <summary> /// Starts Azure Site Recovery Unplanned failover. /// </summary> /// <param name="recoveryPlanName">Recovery Plan Name</param> /// <param name="input">Recovery Plan Unplanned Failover Input</param> /// <returns>Job response</returns> public LongRunningOperationResponse StartAzureSiteRecoveryUnplannedFailover(string recoveryPlanName, RecoveryPlanUnplannedFailoverInput input) { return(this.GetSiteRecoveryClient().RecoveryPlan.BeginUnplannedFailover( recoveryPlanName, input, this.GetRequestHeaders())); }