public override void ExecuteCmdlet()
{
base.ExecuteCmdlet();
ExecuteClientAction(() =>
{
try
{
WriteVerbose("To be compatible with Azure, Add-AzVhd will automatically try to convert VHDX files to VHD and resize VHD files to N * Mib using Hyper-V Platform, a Windows native virtualization product. During the process the cmdlet will temporarily create a converted/resized file in the same directory as the provided VHD/VHDX file. \nFor more information visit https://aka.ms/usingAdd-AzVhd \n");
Program.SyncOutput = new PSSyncOutputEvents(this);
// 1. CONVERT VHDX TO VHD
if (this.LocalFilePath.Extension == ".vhdx")
{
convertVhd();
}
// 2. RESIZE VHD
CheckForInvalidVhd();
if (this.ParameterSetName == DirectUploadToManagedDiskSet)
{
// 3. DIRECT UPLOAD TO MANAGED DISK
// 3-1. CREATE DISK CONFIG
checkForExistingDisk(this.ResourceGroupName, this.DiskName);
var diskConfig = CreateDiskConfig();
// 3-2: CREATE DISK
createManagedDisk(this.ResourceGroupName, this.DiskName, diskConfig);
// 3-3: GENERATE SAS
WriteVerbose("Generating SAS");
var grantAccessData = new GrantAccessData();
grantAccessData.Access = "Write";
long gbInBytes = 1073741824;
int gb = (int)(this.LocalFilePath.Length / gbInBytes);
grantAccessData.DurationInSeconds = 86400 * Math.Max(gb / 100, 1); // 24h per 100gb
var accessUri = this.ComputeClient.ComputeManagementClient.Disks.GrantAccess(this.ResourceGroupName, this.DiskName, grantAccessData);
Uri sasUri = new Uri(accessUri.AccessSAS);
WriteVerbose("SAS generated: " + accessUri.AccessSAS);
// 3-4: UPLOAD
WriteVerbose("Preparing for Upload");
PSPageBlobClient managedDisk = new PSPageBlobClient(sasUri);
DiskUploadCreator diskUploadCreator = new DiskUploadCreator();
var uploadContext = diskUploadCreator.Create(this.LocalFilePath, managedDisk, false);
var synchronizer = new DiskSynchronizer(uploadContext, this.NumberOfUploaderThreads ?? DefaultNumberOfUploaderThreads);
WriteVerbose("Uploading");
if (synchronizer.Synchronize())
{
var result = new VhdUploadContext {
LocalFilePath = this.LocalFilePath, DestinationUri = sasUri
};
WriteObject(result);
}
else
{
WriteVerbose("Upload failed");
}
// 3-5: REVOKE SAS
WriteVerbose("Revoking SAS");
var RevokeResult = this.ComputeClient.ComputeManagementClient.Disks.RevokeAccessWithHttpMessagesAsync(this.ResourceGroupName, this.DiskName).GetAwaiter().GetResult();
PSOperationStatusResponse output = new PSOperationStatusResponse
{
StartTime = this.StartTime,
EndTime = DateTime.Now
};
if (RevokeResult != null && RevokeResult.Request != null && RevokeResult.Request.RequestUri != null)
{
output.Name = GetOperationIdFromUrlString(RevokeResult.Request.RequestUri.ToString());
}
WriteVerbose("SAS revoked.");
WriteVerbose("\nUpload complete.");
}
else
{
var parameters = ValidateParameters();
var vhdUploadContext = VhdUploaderModel.Upload(parameters);
WriteObject(vhdUploadContext);
}
}
finally
{
if (temporaryFileCreated)
{
WriteVerbose("Deleting file: " + this.LocalFilePath.FullName);
File.Delete(this.LocalFilePath.FullName);
}
}
});
}
public override void ExecuteCmdlet()
{
base.ExecuteCmdlet();
ExecuteClientAction(() =>
{
try
{
WriteVerbose("To be compatible with Azure, Add-AzVhd will automatically try to convert VHDX files to VHD and resize VHD files to N * Mib using Hyper-V Platform, a Windows native virtualization product. During the process, the cmdlet will temporarily create a converted/resized file in the same directory as the provided VHD/VHDX file. \nFor more information visit https://aka.ms/usingAdd-AzVhd \n");
Program.SyncOutput = new PSSyncOutputEvents(this);
PathIntrinsics currentPath = SessionState.Path;
vhdFileToBeUploaded = new FileInfo(currentPath.GetUnresolvedProviderPathFromPSPath(LocalFilePath.ToString()));
// 1. CONVERT VHDX TO VHD
if (vhdFileToBeUploaded.Extension == ".vhdx")
{
vhdFileToBeUploaded = ConvertVhd();
}
// 2. RESIZE VHD
long vdsLength = GetVirtualDiskStreamLength();
if (!this.SkipResizing.IsPresent && (vdsLength - 512) % 1048576 != 0)
{
long resizeTo = Convert.ToInt64(1048576 * Math.Ceiling((vdsLength - 512) / 1048576.0));
vhdFileToBeUploaded = ResizeVhdFile(vdsLength, resizeTo);
vdsLength = resizeTo + 512;
}
else if (this.SkipResizing.IsPresent)
{
WriteVerbose("Skipping VHD resizing.");
}
if (this.ParameterSetName == DirectUploadToManagedDiskSet)
{
// 3. DIRECT UPLOAD TO MANAGED DISK
// 3-1. CREATE DISK CONFIG
CheckForExistingDisk(this.ResourceGroupName, this.DiskName);
var diskConfig = CreateDiskConfig(vdsLength);
// 3-2: CREATE DISK
CreateManagedDisk(this.ResourceGroupName, this.DiskName, diskConfig);
// 3-3: GENERATE SAS
WriteVerbose("Generating SAS");
var accessUri = GenerateSAS();
Uri sasUri = new Uri(accessUri.AccessSAS);
WriteVerbose("SAS generated: " + accessUri.AccessSAS);
// 3-4: UPLOAD
WriteVerbose("Preparing for Upload");
ComputeTokenCredential tokenCredential = null;
if (this.DataAccessAuthMode == "AzureActiveDirectory")
{
// get token
tokenCredential = new ComputeTokenCredential(DefaultContext, "https://disk.azure.com/");
}
PSPageBlobClient managedDisk = new PSPageBlobClient(sasUri, tokenCredential);
DiskUploadCreator diskUploadCreator = new DiskUploadCreator();
var uploadContext = diskUploadCreator.Create(vhdFileToBeUploaded, managedDisk, false);
var synchronizer = new DiskSynchronizer(uploadContext, this.NumberOfUploaderThreads ?? DefaultNumberOfUploaderThreads);
WriteVerbose("Uploading");
if (synchronizer.Synchronize(tokenCredential))
{
var result = new VhdUploadContext {
LocalFilePath = vhdFileToBeUploaded, DestinationUri = sasUri
};
WriteObject(result);
}
else
{
RevokeSAS();
this.ComputeClient.ComputeManagementClient.Disks.Delete(this.ResourceGroupName, this.DiskName);
Exception outputEx = new Exception("Upload failed. Please try again later.");
ThrowTerminatingError(new ErrorRecord(
outputEx,
"Error uploading data.",
ErrorCategory.NotSpecified,
null));
}
// 3-5: REVOKE SAS
WriteVerbose("Revoking SAS");
RevokeSAS();
WriteVerbose("SAS revoked.");
WriteVerbose("\nUpload complete.");
}
else
{
var parameters = ValidateParameters();
var vhdUploadContext = VhdUploaderModel.Upload(parameters);
WriteObject(vhdUploadContext);
}
}
finally
{
if (temporaryFileCreated)
{
WriteVerbose("Deleting file: " + vhdFileToBeUploaded.FullName);
File.Delete(vhdFileToBeUploaded.FullName);
}
}
});
}
public override void ExecuteCmdlet()
{
base.ExecuteCmdlet();
ExecuteClientAction(() =>
{
Console.ForegroundColor = ConsoleColor.Yellow;
Console.WriteLine("To be compatible with Azure, Add-AzVhd will automatically try to convert VHDX files to VHD, and resize VHD files to N * Mib using Hyper-V Platform, a Windows naitive virtualization product. \nFor more information visit https://aka.ms/usingAdd-AzVhd \n");
Console.ResetColor();
Program.SyncOutput = new PSSyncOutputEvents(this);
// 1. CONVERT VHDX TO VHD
if (this.LocalFilePath.Extension == ".vhdx")
{
convertVhd();
}
checkForCorruptedAndDynamicallySizedVhd();
checkVhdFileSize(this.LocalFilePath);
// 2. RESIZE VHD
if (this.skipResizing.IsPresent)
{
Console.WriteLine("Skipping VHD resizing.");
}
else
{
if ((this.LocalFilePath.Length - 512) % 1048576 != 0)
{
resizeVhdFile();
}
else // does not need resizing
{
WriteVerbose("Vhd file already sized correctly. Proceeding to uploading.");
}
}
if (this.ParameterSetName == DirectUploadToManagedDiskSet)
{
// 3. DIRECT UPLOAD TO MANAGED DISK
// 3-1. CREATE DISK CONFIG
checkForExistingDisk(this.ResourceGroupName, this.DiskName);
var diskConfig = CreateDiskConfig();
// 3-2: CREATE DISK
createManagedDisk(this.ResourceGroupName, this.DiskName, diskConfig);
// 3-3: GENERATE SAS
Console.ForegroundColor = ConsoleColor.Yellow;
Console.WriteLine("Generating SAS");
Console.ResetColor();
var grantAccessData = new GrantAccessData();
grantAccessData.Access = "Write";
long gbInBytes = 1073741824;
int gb = (int)(this.LocalFilePath.Length / gbInBytes);
grantAccessData.DurationInSeconds = 86400 * Math.Max(gb / 100, 1); // 24h per 100gb
var accessUri = this.ComputeClient.ComputeManagementClient.Disks.GrantAccess(this.ResourceGroupName, this.DiskName, grantAccessData);
Uri sasUri = new Uri(accessUri.AccessSAS);
Console.WriteLine("SAS generated: " + accessUri.AccessSAS);
// 3-4: UPLOAD
Console.ForegroundColor = ConsoleColor.Yellow;
Console.WriteLine("Preparing for Upload");
Console.ResetColor();
PSPageBlobClient managedDisk = new PSPageBlobClient(sasUri);
DiskUploadCreator diskUploadCreator = new DiskUploadCreator();
var uploadContext = diskUploadCreator.Create(this.LocalFilePath, managedDisk, false);
var synchronizer = new DiskSynchronizer(uploadContext, this.NumberOfUploaderThreads ?? DefaultNumberOfUploaderThreads);
Console.ForegroundColor = ConsoleColor.Yellow;
Console.WriteLine("Uploading");
Console.ResetColor();
if (synchronizer.Synchronize())
{
var result = new VhdUploadContext {
LocalFilePath = this.LocalFilePath, DestinationUri = sasUri
};
WriteObject(result);
}
else
{
Console.ForegroundColor = ConsoleColor.Red;
Console.WriteLine("Upload failed");
Console.ResetColor();
}
// 3-5: REVOKE SAS
Console.ForegroundColor = ConsoleColor.Yellow;
Console.WriteLine("Revoking SAS");
Console.ResetColor();
var RevokeResult = this.ComputeClient.ComputeManagementClient.Disks.RevokeAccessWithHttpMessagesAsync(this.ResourceGroupName, this.DiskName).GetAwaiter().GetResult();
PSOperationStatusResponse output = new PSOperationStatusResponse
{
StartTime = this.StartTime,
EndTime = DateTime.Now
};
if (RevokeResult != null && RevokeResult.Request != null && RevokeResult.Request.RequestUri != null)
{
output.Name = GetOperationIdFromUrlString(RevokeResult.Request.RequestUri.ToString());
}
Console.WriteLine("SAS revoked.");
Console.ForegroundColor = ConsoleColor.Green;
Console.WriteLine("\nUpload complete.");
Console.ResetColor();
}
else
{
var parameters = ValidateParameters();
var vhdUploadContext = VhdUploaderModel.Upload(parameters);
WriteObject(vhdUploadContext);
}
});
}