public string Restore(string containerName, string protectedItemName, string recoveryPointName, string sourceResourceId, string storageAccountId)
{
RestoreRequestResource request = new RestoreRequestResource()
{
Properties = new IaasVMRestoreRequest()
{
CreateNewCloudService = false,
RecoveryPointId = recoveryPointName,
RecoveryType = RecoveryType.RestoreDisks,
Region = Location,
SourceResourceId = sourceResourceId,
StorageAccountId = storageAccountId,
}
};
var response = BackupClient.Restores.TriggerWithHttpMessagesAsync(
VaultName, ResourceGroup, FabricName, containerName, protectedItemName, recoveryPointName, request).Result;
ValidateOperationResponse(response);
var jobResponse = GetOperationResponse <ProtectedItemResource, OperationStatusJobExtendedInfo>(
containerName, protectedItemName, response,
operationId => BackupClient.ProtectedItemOperationResults.GetWithHttpMessagesAsync(
VaultName, ResourceGroup, FabricName, containerName, protectedItemName, operationId).Result,
operationId => BackupClient.ProtectedItemOperationStatuses.GetWithHttpMessagesAsync(
VaultName, ResourceGroup, FabricName, containerName, protectedItemName, operationId).Result);
Assert.NotNull(jobResponse.JobId);
return(jobResponse.JobId);
}
/// <summary>
/// Restores the disk based on the recovery point and other input parameters
/// </summary>
/// <param name="rp">Recovery point to restore the disk to</param>
/// <param name="storageAccountId">ID of the storage account where to restore the disk</param>
/// <param name="storageAccountLocation">Location of the storage account where to restore the disk</param>
/// <param name="storageAccountType">Type of the storage account where to restore the disk</param>
/// <returns>Job created by this operation</returns>
public RestAzureNS.AzureOperationResponse RestoreDisk(
AzureRecoveryPoint rp,
string storageAccountLocation,
RestoreRequestResource triggerRestoreRequest,
string vaultName = null,
string resourceGroupName = null,
string vaultLocation = null)
{
Dictionary <UriEnums, string> uriDict = HelperUtils.ParseUri(rp.Id);
string containerUri = HelperUtils.GetContainerUri(uriDict, rp.Id);
string protectedItemUri = HelperUtils.GetProtectedItemUri(uriDict, rp.Id);
string recoveryPointId = rp.RecoveryPointId;
//validtion block
if (storageAccountLocation != vaultLocation)
{
throw new Exception(Resources.TriggerRestoreIncorrectRegion);
}
var response = BmsAdapter.Client.Restores.TriggerWithHttpMessagesAsync(
vaultName ?? BmsAdapter.GetResourceName(),
resourceGroupName ?? BmsAdapter.GetResourceGroupName(),
AzureFabricName,
containerUri,
protectedItemUri,
recoveryPointId,
triggerRestoreRequest,
cancellationToken: BmsAdapter.CmdletCancellationToken).Result;
return(response);
}
/// <summary>
/// Restores the disk based on the recovery point and other input parameters
/// </summary>
/// <param name="rp">Recovery point to restore the disk to</param>
/// <param name="storageAccountId">ID of the storage account where to restore the disk</param>
/// <param name="storageAccountLocation">Location of the storage account where to restore the disk</param>
/// <param name="storageAccountType">Type of the storage account where to restore the disk</param>
/// <returns>Job created by this operation</returns>
public RestAzureNS.AzureOperationResponse RestoreDisk(
AzureVmRecoveryPoint rp,
string storageAccountId,
string storageAccountLocation,
string storageAccountType,
bool osaOption)
{
var useOsa = ShouldUseOsa(rp, osaOption);
string resourceGroupName = BmsAdapter.GetResourceGroupName();
string resourceName = BmsAdapter.GetResourceName();
string vaultLocation = BmsAdapter.GetResourceLocation();
Dictionary <UriEnums, string> uriDict = HelperUtils.ParseUri(rp.Id);
string containerUri = HelperUtils.GetContainerUri(uriDict, rp.Id);
string protectedItemUri = HelperUtils.GetProtectedItemUri(uriDict, rp.Id);
string recoveryPointId = rp.RecoveryPointId;
//validtion block
if (storageAccountLocation != vaultLocation)
{
throw new Exception(Resources.RestoreDiskIncorrectRegion);
}
string vmType = containerUri.Split(';')[1].Equals("iaasvmcontainer", StringComparison.OrdinalIgnoreCase)
? "Classic" : "Compute";
string strType = storageAccountType.Equals("Microsoft.ClassicStorage/StorageAccounts",
StringComparison.OrdinalIgnoreCase) ? "Classic" : "Compute";
if (vmType != strType)
{
throw new Exception(string.Format(Resources.RestoreDiskStorageTypeError, vmType));
}
IaasVMRestoreRequest restoreRequest = new IaasVMRestoreRequest()
{
CreateNewCloudService = false,
RecoveryPointId = recoveryPointId,
RecoveryType = RecoveryType.RestoreDisks,
Region = vaultLocation,
StorageAccountId = storageAccountId,
SourceResourceId = rp.SourceResourceId,
OriginalStorageAccountOption = useOsa,
};
RestoreRequestResource triggerRestoreRequest = new RestoreRequestResource();
triggerRestoreRequest.Properties = restoreRequest;
var response = BmsAdapter.Client.Restores.TriggerWithHttpMessagesAsync(
resourceName,
resourceGroupName,
AzureFabricName,
containerUri,
protectedItemUri,
recoveryPointId,
triggerRestoreRequest,
cancellationToken: BmsAdapter.CmdletCancellationToken).Result;
return(response);
}
/// <summary>
/// Restores the specified backed up data. This is an asynchronous operation.
/// To know the status of this API call, use
/// GetProtectedItemOperationResult API.
/// </summary>
/// <param name='vaultName'>
/// The name of the recovery services vault.
/// </param>
/// <param name='resourceGroupName'>
/// The name of the resource group where the recovery services vault is
/// present.
/// </param>
/// <param name='fabricName'>
/// Fabric name associated with the backed up items.
/// </param>
/// <param name='containerName'>
/// Container name associated with the backed up items.
/// </param>
/// <param name='protectedItemName'>
/// Backed up item to be restored.
/// </param>
/// <param name='recoveryPointId'>
/// Recovery point ID which represents the backed up data to be restored.
/// </param>
/// <param name='parameters'>
/// resource restore request
/// </param>
/// <param name='customHeaders'>
/// The headers that will be added to request.
/// </param>
/// <param name='cancellationToken'>
/// The cancellation token.
/// </param>
public async Task <AzureOperationResponse> TriggerWithHttpMessagesAsync(string vaultName, string resourceGroupName, string fabricName, string containerName, string protectedItemName, string recoveryPointId, RestoreRequestResource parameters, Dictionary <string, List <string> > customHeaders = null, CancellationToken cancellationToken = default(CancellationToken))
{
// Send request
AzureOperationResponse _response = await BeginTriggerWithHttpMessagesAsync(vaultName, resourceGroupName, fabricName, containerName, protectedItemName, recoveryPointId, parameters, customHeaders, cancellationToken).ConfigureAwait(false);
return(await Client.GetPostOrDeleteOperationResultAsync(_response, customHeaders, cancellationToken).ConfigureAwait(false));
}
/// <summary>
/// Restores the specified backed up data. This is an asynchronous operation.
/// To know the status of this API call, use
/// GetProtectedItemOperationResult API.
/// </summary>
/// <param name='vaultName'>
/// The name of the recovery services vault.
/// </param>
/// <param name='resourceGroupName'>
/// The name of the resource group where the recovery services vault is
/// present.
/// </param>
/// <param name='fabricName'>
/// Fabric name associated with the backed up items.
/// </param>
/// <param name='containerName'>
/// Container name associated with the backed up items.
/// </param>
/// <param name='protectedItemName'>
/// Backed up item to be restored.
/// </param>
/// <param name='recoveryPointId'>
/// Recovery point ID which represents the backed up data to be restored.
/// </param>
/// <param name='parameters'>
/// resource restore request
/// </param>
/// <param name='customHeaders'>
/// Headers that will be added to request.
/// </param>
/// <param name='cancellationToken'>
/// The cancellation token.
/// </param>
/// <exception cref="CloudException">
/// Thrown when the operation returned an invalid status code
/// </exception>
/// <exception cref="ValidationException">
/// Thrown when a required parameter is null
/// </exception>
/// <exception cref="System.ArgumentNullException">
/// Thrown when a required parameter is null
/// </exception>
/// <return>
/// A response object containing the response body and response headers.
/// </return>
public async Task <AzureOperationResponse> BeginTriggerWithHttpMessagesAsync(string vaultName, string resourceGroupName, string fabricName, string containerName, string protectedItemName, string recoveryPointId, RestoreRequestResource parameters, Dictionary <string, List <string> > customHeaders = null, CancellationToken cancellationToken = default(CancellationToken))
{
if (vaultName == null)
{
throw new ValidationException(ValidationRules.CannotBeNull, "vaultName");
}
if (resourceGroupName == null)
{
throw new ValidationException(ValidationRules.CannotBeNull, "resourceGroupName");
}
if (Client.SubscriptionId == null)
{
throw new ValidationException(ValidationRules.CannotBeNull, "this.Client.SubscriptionId");
}
if (fabricName == null)
{
throw new ValidationException(ValidationRules.CannotBeNull, "fabricName");
}
if (containerName == null)
{
throw new ValidationException(ValidationRules.CannotBeNull, "containerName");
}
if (protectedItemName == null)
{
throw new ValidationException(ValidationRules.CannotBeNull, "protectedItemName");
}
if (recoveryPointId == null)
{
throw new ValidationException(ValidationRules.CannotBeNull, "recoveryPointId");
}
if (parameters == null)
{
throw new ValidationException(ValidationRules.CannotBeNull, "parameters");
}
string apiVersion = "2021-03-01";
// Tracing
bool _shouldTrace = ServiceClientTracing.IsEnabled;
string _invocationId = null;
if (_shouldTrace)
{
_invocationId = ServiceClientTracing.NextInvocationId.ToString();
Dictionary <string, object> tracingParameters = new Dictionary <string, object>();
tracingParameters.Add("apiVersion", apiVersion);
tracingParameters.Add("vaultName", vaultName);
tracingParameters.Add("resourceGroupName", resourceGroupName);
tracingParameters.Add("fabricName", fabricName);
tracingParameters.Add("containerName", containerName);
tracingParameters.Add("protectedItemName", protectedItemName);
tracingParameters.Add("recoveryPointId", recoveryPointId);
tracingParameters.Add("parameters", parameters);
tracingParameters.Add("cancellationToken", cancellationToken);
ServiceClientTracing.Enter(_invocationId, this, "BeginTrigger", tracingParameters);
}
// Construct URL
var _baseUrl = Client.BaseUri.AbsoluteUri;
var _url = new System.Uri(new System.Uri(_baseUrl + (_baseUrl.EndsWith("/") ? "" : "/")), "subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.RecoveryServices/vaults/{vaultName}/backupFabrics/{fabricName}/protectionContainers/{containerName}/protectedItems/{protectedItemName}/recoveryPoints/{recoveryPointId}/restore").ToString();
_url = _url.Replace("{vaultName}", System.Uri.EscapeDataString(vaultName));
_url = _url.Replace("{resourceGroupName}", System.Uri.EscapeDataString(resourceGroupName));
_url = _url.Replace("{subscriptionId}", System.Uri.EscapeDataString(Client.SubscriptionId));
_url = _url.Replace("{fabricName}", System.Uri.EscapeDataString(fabricName));
_url = _url.Replace("{containerName}", System.Uri.EscapeDataString(containerName));
_url = _url.Replace("{protectedItemName}", System.Uri.EscapeDataString(protectedItemName));
_url = _url.Replace("{recoveryPointId}", System.Uri.EscapeDataString(recoveryPointId));
List <string> _queryParameters = new List <string>();
if (apiVersion != null)
{
_queryParameters.Add(string.Format("api-version={0}", System.Uri.EscapeDataString(apiVersion)));
}
if (_queryParameters.Count > 0)
{
_url += (_url.Contains("?") ? "&" : "?") + string.Join("&", _queryParameters);
}
// Create HTTP transport objects
var _httpRequest = new HttpRequestMessage();
HttpResponseMessage _httpResponse = null;
_httpRequest.Method = new HttpMethod("POST");
_httpRequest.RequestUri = new System.Uri(_url);
// Set Headers
if (Client.GenerateClientRequestId != null && Client.GenerateClientRequestId.Value)
{
_httpRequest.Headers.TryAddWithoutValidation("x-ms-client-request-id", System.Guid.NewGuid().ToString());
}
if (Client.AcceptLanguage != null)
{
if (_httpRequest.Headers.Contains("accept-language"))
{
_httpRequest.Headers.Remove("accept-language");
}
_httpRequest.Headers.TryAddWithoutValidation("accept-language", Client.AcceptLanguage);
}
if (customHeaders != null)
{
foreach (var _header in customHeaders)
{
if (_httpRequest.Headers.Contains(_header.Key))
{
_httpRequest.Headers.Remove(_header.Key);
}
_httpRequest.Headers.TryAddWithoutValidation(_header.Key, _header.Value);
}
}
// Serialize Request
string _requestContent = null;
if (parameters != null)
{
_requestContent = Rest.Serialization.SafeJsonConvert.SerializeObject(parameters, Client.SerializationSettings);
_httpRequest.Content = new StringContent(_requestContent, System.Text.Encoding.UTF8);
_httpRequest.Content.Headers.ContentType = System.Net.Http.Headers.MediaTypeHeaderValue.Parse("application/json; charset=utf-8");
}
// Set Credentials
if (Client.Credentials != null)
{
cancellationToken.ThrowIfCancellationRequested();
await Client.Credentials.ProcessHttpRequestAsync(_httpRequest, cancellationToken).ConfigureAwait(false);
}
// Send Request
if (_shouldTrace)
{
ServiceClientTracing.SendRequest(_invocationId, _httpRequest);
}
cancellationToken.ThrowIfCancellationRequested();
_httpResponse = await Client.HttpClient.SendAsync(_httpRequest, cancellationToken).ConfigureAwait(false);
if (_shouldTrace)
{
ServiceClientTracing.ReceiveResponse(_invocationId, _httpResponse);
}
System.Net.HttpStatusCode _statusCode = _httpResponse.StatusCode;
cancellationToken.ThrowIfCancellationRequested();
string _responseContent = null;
if ((int)_statusCode != 202)
{
var ex = new CloudException(string.Format("Operation returned an invalid status code '{0}'", _statusCode));
try
{
_responseContent = await _httpResponse.Content.ReadAsStringAsync().ConfigureAwait(false);
CloudError _errorBody = Rest.Serialization.SafeJsonConvert.DeserializeObject <CloudError>(_responseContent, Client.DeserializationSettings);
if (_errorBody != null)
{
ex = new CloudException(_errorBody.Message);
ex.Body = _errorBody;
}
}
catch (JsonException)
{
// Ignore the exception
}
ex.Request = new HttpRequestMessageWrapper(_httpRequest, _requestContent);
ex.Response = new HttpResponseMessageWrapper(_httpResponse, _responseContent);
if (_httpResponse.Headers.Contains("x-ms-request-id"))
{
ex.RequestId = _httpResponse.Headers.GetValues("x-ms-request-id").FirstOrDefault();
}
if (_shouldTrace)
{
ServiceClientTracing.Error(_invocationId, ex);
}
_httpRequest.Dispose();
if (_httpResponse != null)
{
_httpResponse.Dispose();
}
throw ex;
}
// Create Result
var _result = new AzureOperationResponse();
_result.Request = _httpRequest;
_result.Response = _httpResponse;
if (_httpResponse.Headers.Contains("x-ms-request-id"))
{
_result.RequestId = _httpResponse.Headers.GetValues("x-ms-request-id").FirstOrDefault();
}
if (_shouldTrace)
{
ServiceClientTracing.Exit(_invocationId, _result);
}
return(_result);
}
public RestAzureNS.AzureOperationResponse TriggerRestore()
{
string vaultName = (string)ProviderData[VaultParams.VaultName];
string resourceGroupName = (string)ProviderData[VaultParams.ResourceGroupName];
string vaultLocation = (string)ProviderData[VaultParams.VaultLocation];
RecoveryConfigBase wLRecoveryConfigBase =
(RecoveryConfigBase)ProviderData[RestoreWLBackupItemParams.WLRecoveryConfig];
AzureWorkloadRecoveryConfig wLRecoveryConfig =
(AzureWorkloadRecoveryConfig)ProviderData[RestoreWLBackupItemParams.WLRecoveryConfig];
RestoreRequestResource triggerRestoreRequest = new RestoreRequestResource();
if (wLRecoveryConfig.RecoveryPoint.ContainerName != null && wLRecoveryConfig.FullRP == null)
{
// validate container name to be a full name
AzureWorkloadProviderHelper.ValidateContainerName(wLRecoveryConfig.RecoveryPoint.ContainerName);
AzureWorkloadSQLRestoreRequest azureWorkloadSQLRestoreRequest =
new AzureWorkloadSQLRestoreRequest();
azureWorkloadSQLRestoreRequest.SourceResourceId = wLRecoveryConfig.SourceResourceId;
azureWorkloadSQLRestoreRequest.ShouldUseAlternateTargetLocation =
string.Compare(wLRecoveryConfig.RestoreRequestType, "Original WL Restore") != 0 ? true : false;
azureWorkloadSQLRestoreRequest.IsNonRecoverable =
string.Compare(wLRecoveryConfig.NoRecoveryMode, "Enabled") == 0 ? true : false;
azureWorkloadSQLRestoreRequest.RecoveryType =
string.Compare(wLRecoveryConfig.RestoreRequestType, "Original WL Restore") == 0 ?
RecoveryType.OriginalLocation : RecoveryType.AlternateLocation;
if (azureWorkloadSQLRestoreRequest.RecoveryType == RecoveryType.AlternateLocation)
{
azureWorkloadSQLRestoreRequest.TargetInfo = new TargetRestoreInfo()
{
OverwriteOption = string.Compare(wLRecoveryConfig.OverwriteWLIfpresent, "No") == 0 ?
OverwriteOptions.FailOnConflict : OverwriteOptions.Overwrite,
DatabaseName = wLRecoveryConfig.TargetInstance + "/" + wLRecoveryConfig.RestoredDBName,
ContainerId = wLRecoveryConfig.ContainerId
};
azureWorkloadSQLRestoreRequest.AlternateDirectoryPaths = wLRecoveryConfig.targetPhysicalPath;
}
if (wLRecoveryConfig.RecoveryMode == "FileRecovery")
{
azureWorkloadSQLRestoreRequest.RecoveryMode = "FileRecovery";
azureWorkloadSQLRestoreRequest.TargetInfo = new TargetRestoreInfo()
{
OverwriteOption = string.Compare(wLRecoveryConfig.OverwriteWLIfpresent, "No") == 0 ?
OverwriteOptions.FailOnConflict : OverwriteOptions.Overwrite,
ContainerId = wLRecoveryConfig.ContainerId,
TargetDirectoryForFileRestore = wLRecoveryConfig.FilePath
};
}
triggerRestoreRequest.Properties = azureWorkloadSQLRestoreRequest;
}
else
{
AzureWorkloadSQLPointInTimeRestoreRequest azureWorkloadSQLPointInTimeRestoreRequest =
new AzureWorkloadSQLPointInTimeRestoreRequest();
azureWorkloadSQLPointInTimeRestoreRequest.SourceResourceId = wLRecoveryConfig.SourceResourceId;
azureWorkloadSQLPointInTimeRestoreRequest.ShouldUseAlternateTargetLocation =
string.Compare(wLRecoveryConfig.RestoreRequestType, "Original WL Restore") != 0 ? true : false;
azureWorkloadSQLPointInTimeRestoreRequest.IsNonRecoverable =
string.Compare(wLRecoveryConfig.NoRecoveryMode, "Enabled") == 0 ? true : false;
azureWorkloadSQLPointInTimeRestoreRequest.RecoveryType =
string.Compare(wLRecoveryConfig.RestoreRequestType, "Original WL Restore") == 0 ?
RecoveryType.OriginalLocation : RecoveryType.AlternateLocation;
if (azureWorkloadSQLPointInTimeRestoreRequest.RecoveryType == RecoveryType.AlternateLocation)
{
azureWorkloadSQLPointInTimeRestoreRequest.TargetInfo = new TargetRestoreInfo()
{
OverwriteOption = string.Compare(wLRecoveryConfig.OverwriteWLIfpresent, "No") == 0 ?
OverwriteOptions.FailOnConflict : OverwriteOptions.Overwrite,
DatabaseName = wLRecoveryConfig.TargetInstance + "/" + wLRecoveryConfig.RestoredDBName,
ContainerId = wLRecoveryConfig.ContainerId
};
azureWorkloadSQLPointInTimeRestoreRequest.AlternateDirectoryPaths = wLRecoveryConfig.targetPhysicalPath;
}
if (wLRecoveryConfig.RecoveryMode == "FileRecovery")
{
azureWorkloadSQLPointInTimeRestoreRequest.RecoveryMode = "FileRecovery";
azureWorkloadSQLPointInTimeRestoreRequest.TargetInfo = new TargetRestoreInfo()
{
OverwriteOption = string.Compare(wLRecoveryConfig.OverwriteWLIfpresent, "No") == 0 ?
OverwriteOptions.FailOnConflict : OverwriteOptions.Overwrite,
ContainerId = wLRecoveryConfig.ContainerId,
TargetDirectoryForFileRestore = wLRecoveryConfig.FilePath
};
}
azureWorkloadSQLPointInTimeRestoreRequest.PointInTime = wLRecoveryConfig.PointInTime;
triggerRestoreRequest.Properties = azureWorkloadSQLPointInTimeRestoreRequest;
}
var response = ServiceClientAdapter.RestoreDisk(
(AzureRecoveryPoint)wLRecoveryConfig.RecoveryPoint,
"LocationNotRequired",
triggerRestoreRequest,
vaultName: vaultName,
resourceGroupName: resourceGroupName,
vaultLocation: vaultLocation);
return(response);
}
public RestAzureNS.AzureOperationResponse TriggerRestore()
{
string vaultName = (string)ProviderData[VaultParams.VaultName];
string resourceGroupName = (string)ProviderData[VaultParams.ResourceGroupName];
string vaultLocation = (string)ProviderData[VaultParams.VaultLocation];
CmdletModel.AzureFileShareRecoveryPoint recoveryPoint = ProviderData[RestoreBackupItemParams.RecoveryPoint]
as CmdletModel.AzureFileShareRecoveryPoint;
string copyOptions = (string)ProviderData[RestoreFSBackupItemParams.ResolveConflict];
string sourceFilePath = ProviderData.ContainsKey(RestoreFSBackupItemParams.SourceFilePath) ?
(string)ProviderData[RestoreFSBackupItemParams.SourceFilePath] : null;
string sourceFileType = ProviderData.ContainsKey(RestoreFSBackupItemParams.SourceFileType) ?
(string)ProviderData[RestoreFSBackupItemParams.SourceFileType] : null;
string targetStorageAccountName =
ProviderData.ContainsKey(RestoreFSBackupItemParams.TargetStorageAccountName) ?
(string)ProviderData[RestoreFSBackupItemParams.TargetStorageAccountName] : null;
string targetFileShareName = ProviderData.ContainsKey(RestoreFSBackupItemParams.TargetFileShareName) ?
(string)ProviderData[RestoreFSBackupItemParams.TargetFileShareName] : null;
string targetFolder = ProviderData.ContainsKey(RestoreFSBackupItemParams.TargetFolder) ?
(string)ProviderData[RestoreFSBackupItemParams.TargetFolder] : null;
string[] multipleSourceFilePaths = ProviderData.ContainsKey(RestoreFSBackupItemParams.MultipleSourceFilePath) ?
(string[])ProviderData[RestoreFSBackupItemParams.MultipleSourceFilePath] : null;
//validate file recovery request
ValidateFileRestoreRequest(sourceFilePath, sourceFileType, multipleSourceFilePaths);
//validate alternate location restore request
ValidateLocationRestoreRequest(targetFileShareName, targetStorageAccountName, targetFolder);
if (targetFileShareName != null && targetStorageAccountName != null && targetFolder == null)
{
targetFolder = "/";
}
GenericResource storageAccountResource = ServiceClientAdapter.GetStorageAccountResource(recoveryPoint.ContainerName.Split(';')[2]);
GenericResource targetStorageAccountResource = null;
string targetStorageAccountLocation = null;
if (targetStorageAccountName != null)
{
targetStorageAccountResource = ServiceClientAdapter.GetStorageAccountResource(targetStorageAccountName);
targetStorageAccountLocation = targetStorageAccountResource.Location;
}
List <RestoreFileSpecs> restoreFileSpecs = null;
TargetAFSRestoreInfo targetDetails = null;
RestoreFileSpecs restoreFileSpec = new RestoreFileSpecs();
AzureFileShareRestoreRequest restoreRequest = new AzureFileShareRestoreRequest();
restoreRequest.CopyOptions = copyOptions;
restoreRequest.SourceResourceId = storageAccountResource.Id;
if (sourceFilePath != null)
{
restoreFileSpec.Path = sourceFilePath;
restoreFileSpec.FileSpecType = sourceFileType;
restoreRequest.RestoreRequestType = RestoreRequestType.ItemLevelRestore;
if (targetFolder != null)
{
//scenario : item level restore for alternate location
restoreFileSpec.TargetFolderPath = targetFolder;
targetDetails = new TargetAFSRestoreInfo();
targetDetails.Name = targetFileShareName;
targetDetails.TargetResourceId = targetStorageAccountResource.Id;
restoreRequest.RecoveryType = RecoveryType.AlternateLocation;
}
else
{
//scenario : item level restore for original location
restoreFileSpec.TargetFolderPath = null;
restoreRequest.RecoveryType = RecoveryType.OriginalLocation;
}
restoreFileSpecs = new List <RestoreFileSpecs>();
restoreFileSpecs.Add(restoreFileSpec);
}
else if (multipleSourceFilePaths != null)
{
restoreFileSpecs = new List <RestoreFileSpecs>();
foreach (string filepath in multipleSourceFilePaths)
{
RestoreFileSpecs fileSpec = new RestoreFileSpecs();
fileSpec.Path = filepath;
fileSpec.FileSpecType = sourceFileType;
restoreRequest.RestoreRequestType = RestoreRequestType.ItemLevelRestore;
if (targetFolder != null)
{
fileSpec.TargetFolderPath = targetFolder;
targetDetails = new TargetAFSRestoreInfo();
targetDetails.Name = targetFileShareName;
targetDetails.TargetResourceId = targetStorageAccountResource.Id;
restoreRequest.RecoveryType = RecoveryType.AlternateLocation;
}
else
{
fileSpec.TargetFolderPath = null;
restoreRequest.RecoveryType = RecoveryType.OriginalLocation;
}
restoreFileSpecs.Add(fileSpec);
}
}
else
{
restoreRequest.RestoreRequestType = RestoreRequestType.FullShareRestore;
if (targetFolder != null)
{
//scenario : full level restore for alternate location
restoreFileSpec.Path = null;
restoreFileSpec.TargetFolderPath = targetFolder;
restoreFileSpec.FileSpecType = null;
restoreFileSpecs = new List <RestoreFileSpecs>();
restoreFileSpecs.Add(restoreFileSpec);
targetDetails = new TargetAFSRestoreInfo();
targetDetails.Name = targetFileShareName;
targetDetails.TargetResourceId = targetStorageAccountResource.Id;
restoreRequest.RecoveryType = RecoveryType.AlternateLocation;
}
else
{
//scenario : full level restore for original location
restoreRequest.RecoveryType = RecoveryType.OriginalLocation;
}
}
restoreRequest.RestoreFileSpecs = restoreFileSpecs;
restoreRequest.TargetDetails = targetDetails;
RestoreRequestResource triggerRestoreRequest = new RestoreRequestResource();
triggerRestoreRequest.Properties = restoreRequest;
var response = ServiceClientAdapter.RestoreDisk(
recoveryPoint,
targetStorageAccountLocation = targetStorageAccountLocation ?? storageAccountResource.Location,
triggerRestoreRequest,
vaultName: vaultName,
resourceGroupName: resourceGroupName,
vaultLocation: vaultLocation ?? ServiceClientAdapter.BmsAdapter.GetResourceLocation());
return(response);
}
public RestAzureNS.AzureOperationResponse TriggerRestore()
{
string vaultName = (string)ProviderData[VaultParams.VaultName];
string resourceGroupName = (string)ProviderData[VaultParams.ResourceGroupName];
string vaultLocation = (string)ProviderData[VaultParams.VaultLocation];
RecoveryConfigBase wLRecoveryConfigBase =
(RecoveryConfigBase)ProviderData[RestoreWLBackupItemParams.WLRecoveryConfig];
AzureWorkloadRecoveryConfig wLRecoveryConfig =
(AzureWorkloadRecoveryConfig)ProviderData[RestoreWLBackupItemParams.WLRecoveryConfig];
RestoreRequestResource triggerRestoreRequest = new RestoreRequestResource();
bool useSecondaryRegion = (bool)ProviderData[CRRParams.UseSecondaryRegion];
String secondaryRegion = useSecondaryRegion ? (string)ProviderData[CRRParams.SecondaryRegion] : null;
if (wLRecoveryConfig.RecoveryPoint.ContainerName != null && wLRecoveryConfig.FullRP == null)
{
AzureWorkloadSQLRestoreRequest azureWorkloadSQLRestoreRequest =
new AzureWorkloadSQLRestoreRequest();
azureWorkloadSQLRestoreRequest.SourceResourceId = wLRecoveryConfig.SourceResourceId;
azureWorkloadSQLRestoreRequest.ShouldUseAlternateTargetLocation =
string.Compare(wLRecoveryConfig.RestoreRequestType, "Original WL Restore") != 0 ? true : false;
azureWorkloadSQLRestoreRequest.IsNonRecoverable =
string.Compare(wLRecoveryConfig.NoRecoveryMode, "Enabled") == 0 ? true : false;
azureWorkloadSQLRestoreRequest.RecoveryType =
string.Compare(wLRecoveryConfig.RestoreRequestType, "Original WL Restore") == 0 ?
RecoveryType.OriginalLocation : RecoveryType.AlternateLocation;
if (azureWorkloadSQLRestoreRequest.RecoveryType == RecoveryType.AlternateLocation)
{
azureWorkloadSQLRestoreRequest.TargetInfo = new TargetRestoreInfo()
{
OverwriteOption = string.Compare(wLRecoveryConfig.OverwriteWLIfpresent, "No") == 0 ?
OverwriteOptions.FailOnConflict : OverwriteOptions.Overwrite,
DatabaseName = wLRecoveryConfig.TargetInstance + "/" + wLRecoveryConfig.RestoredDBName,
ContainerId = wLRecoveryConfig.ContainerId
};
azureWorkloadSQLRestoreRequest.AlternateDirectoryPaths = wLRecoveryConfig.targetPhysicalPath;
if (wLRecoveryConfig.TargetVirtualMachineId != null && wLRecoveryConfig.TargetVirtualMachineId != "")
{
azureWorkloadSQLRestoreRequest.TargetVirtualMachineId = wLRecoveryConfig.TargetVirtualMachineId;
}
else
{
throw new ArgumentException(Resources.TargetVirtualMachineIdRequiredException);
}
}
if (wLRecoveryConfig.RecoveryMode == "FileRecovery")
{
azureWorkloadSQLRestoreRequest.RecoveryMode = "FileRecovery";
azureWorkloadSQLRestoreRequest.TargetInfo = new TargetRestoreInfo()
{
OverwriteOption = string.Compare(wLRecoveryConfig.OverwriteWLIfpresent, "No") == 0 ?
OverwriteOptions.FailOnConflict : OverwriteOptions.Overwrite,
ContainerId = wLRecoveryConfig.ContainerId,
TargetDirectoryForFileRestore = wLRecoveryConfig.FilePath
};
}
triggerRestoreRequest.Properties = azureWorkloadSQLRestoreRequest;
}
else
{
AzureWorkloadSQLPointInTimeRestoreRequest azureWorkloadSQLPointInTimeRestoreRequest =
new AzureWorkloadSQLPointInTimeRestoreRequest();
azureWorkloadSQLPointInTimeRestoreRequest.SourceResourceId = wLRecoveryConfig.SourceResourceId;
azureWorkloadSQLPointInTimeRestoreRequest.ShouldUseAlternateTargetLocation =
string.Compare(wLRecoveryConfig.RestoreRequestType, "Original WL Restore") != 0 ? true : false;
azureWorkloadSQLPointInTimeRestoreRequest.IsNonRecoverable =
string.Compare(wLRecoveryConfig.NoRecoveryMode, "Enabled") == 0 ? true : false;
azureWorkloadSQLPointInTimeRestoreRequest.RecoveryType =
string.Compare(wLRecoveryConfig.RestoreRequestType, "Original WL Restore") == 0 ?
RecoveryType.OriginalLocation : RecoveryType.AlternateLocation;
if (azureWorkloadSQLPointInTimeRestoreRequest.RecoveryType == RecoveryType.AlternateLocation)
{
azureWorkloadSQLPointInTimeRestoreRequest.TargetInfo = new TargetRestoreInfo()
{
OverwriteOption = string.Compare(wLRecoveryConfig.OverwriteWLIfpresent, "No") == 0 ?
OverwriteOptions.FailOnConflict : OverwriteOptions.Overwrite,
DatabaseName = wLRecoveryConfig.TargetInstance + "/" + wLRecoveryConfig.RestoredDBName,
ContainerId = wLRecoveryConfig.ContainerId
};
azureWorkloadSQLPointInTimeRestoreRequest.AlternateDirectoryPaths = wLRecoveryConfig.targetPhysicalPath;
if (wLRecoveryConfig.TargetVirtualMachineId != null && wLRecoveryConfig.TargetVirtualMachineId != "")
{
azureWorkloadSQLPointInTimeRestoreRequest.TargetVirtualMachineId = wLRecoveryConfig.TargetVirtualMachineId;
}
else
{
throw new ArgumentException(Resources.TargetVirtualMachineIdRequiredException);
}
}
if (wLRecoveryConfig.RecoveryMode == "FileRecovery")
{
azureWorkloadSQLPointInTimeRestoreRequest.RecoveryMode = "FileRecovery";
azureWorkloadSQLPointInTimeRestoreRequest.TargetInfo = new TargetRestoreInfo()
{
OverwriteOption = string.Compare(wLRecoveryConfig.OverwriteWLIfpresent, "No") == 0 ?
OverwriteOptions.FailOnConflict : OverwriteOptions.Overwrite,
ContainerId = wLRecoveryConfig.ContainerId,
TargetDirectoryForFileRestore = wLRecoveryConfig.FilePath
};
}
azureWorkloadSQLPointInTimeRestoreRequest.PointInTime = wLRecoveryConfig.PointInTime;
triggerRestoreRequest.Properties = azureWorkloadSQLPointInTimeRestoreRequest;
}
if (useSecondaryRegion)
{
AzureRecoveryPoint rp = (AzureRecoveryPoint)wLRecoveryConfig.RecoveryPoint;
// get access token
CrrAccessToken accessToken = ServiceClientAdapter.GetCRRAccessToken(rp, secondaryRegion, vaultName: vaultName, resourceGroupName: resourceGroupName, ServiceClientModel.BackupManagementType.AzureWorkload);
// AzureWorkload CRR Request
Logger.Instance.WriteDebug("Triggering Restore to secondary region: " + secondaryRegion);
CrossRegionRestoreRequest crrRestoreRequest = new CrossRegionRestoreRequest();
crrRestoreRequest.CrossRegionRestoreAccessDetails = accessToken;
crrRestoreRequest.RestoreRequest = triggerRestoreRequest.Properties;
// storage account location isn't required in case of workload restore
var response = ServiceClientAdapter.RestoreDiskSecondryRegion(
rp,
triggerCRRRestoreRequest: crrRestoreRequest,
secondaryRegion: secondaryRegion);
return(response);
}
else
{
var response = ServiceClientAdapter.RestoreDisk(
(AzureRecoveryPoint)wLRecoveryConfig.RecoveryPoint,
"LocationNotRequired",
triggerRestoreRequest,
vaultName: vaultName,
resourceGroupName: resourceGroupName,
vaultLocation: vaultLocation);
return(response);
}
}
/// <summary>
/// Restores the specified backed up data. This is an asynchronous operation.
/// To know the status of this API call, use
/// GetProtectedItemOperationResult API.
/// </summary>
/// <param name='operations'>
/// The operations group for this extension method.
/// </param>
/// <param name='vaultName'>
/// The name of the recovery services vault.
/// </param>
/// <param name='resourceGroupName'>
/// The name of the resource group where the recovery services vault is
/// present.
/// </param>
/// <param name='fabricName'>
/// Fabric name associated with the backed up items.
/// </param>
/// <param name='containerName'>
/// Container name associated with the backed up items.
/// </param>
/// <param name='protectedItemName'>
/// Backed up item to be restored.
/// </param>
/// <param name='recoveryPointId'>
/// Recovery point ID which represents the backed up data to be restored.
/// </param>
/// <param name='parameters'>
/// resource restore request
/// </param>
/// <param name='cancellationToken'>
/// The cancellation token.
/// </param>
public static async Task TriggerAsync(this IRestoresOperations operations, string vaultName, string resourceGroupName, string fabricName, string containerName, string protectedItemName, string recoveryPointId, RestoreRequestResource parameters, CancellationToken cancellationToken = default(CancellationToken))
{
(await operations.TriggerWithHttpMessagesAsync(vaultName, resourceGroupName, fabricName, containerName, protectedItemName, recoveryPointId, parameters, null, cancellationToken).ConfigureAwait(false)).Dispose();
}
/// <summary>
/// Restores the specified backed up data. This is an asynchronous operation.
/// To know the status of this API call, use
/// GetProtectedItemOperationResult API.
/// </summary>
/// <param name='operations'>
/// The operations group for this extension method.
/// </param>
/// <param name='vaultName'>
/// The name of the recovery services vault.
/// </param>
/// <param name='resourceGroupName'>
/// The name of the resource group where the recovery services vault is
/// present.
/// </param>
/// <param name='fabricName'>
/// Fabric name associated with the backed up items.
/// </param>
/// <param name='containerName'>
/// Container name associated with the backed up items.
/// </param>
/// <param name='protectedItemName'>
/// Backed up item to be restored.
/// </param>
/// <param name='recoveryPointId'>
/// Recovery point ID which represents the backed up data to be restored.
/// </param>
/// <param name='parameters'>
/// resource restore request
/// </param>
public static void Trigger(this IRestoresOperations operations, string vaultName, string resourceGroupName, string fabricName, string containerName, string protectedItemName, string recoveryPointId, RestoreRequestResource parameters)
{
operations.TriggerAsync(vaultName, resourceGroupName, fabricName, containerName, protectedItemName, recoveryPointId, parameters).GetAwaiter().GetResult();
}