/// <summary>
/// Lists the XenServer storage repositories.
/// </summary>
/// <returns>The list of storage repositories.</returns>
public List <XenStorageRepository> List()
{
var response = client.InvokeItems("sr-list", "params=all");
var repositories = new List <XenStorageRepository>();
foreach (var result in response.Results)
{
repositories.Add(new XenStorageRepository(result));
}
return(repositories);
}
/// <summary>
/// <para>
/// Creates a virtual machine from a template, optionally initializing its memory and
/// disk size.
/// </para>
/// <note>
/// This does not start the machine.
/// </note>
/// </summary>
/// <param name="name">Name for the new virtual machine.</param>
/// <param name="templateName">Identifies the template.</param>
/// <param name="processors">Optionally specifies the number of processors to assign. This defaults to <b>2</b>.</param>
/// <param name="memoryBytes">Optionally specifies the memory assigned to the machine (overriding the template).</param>
/// <param name="diskBytes">Optionally specifies the disk assigned to the machine (overriding the template).</param>
/// <param name="snapshot">Optionally specifies that the virtual machine should snapshot the template. This defaults to <c>false</c>.</param>
/// <param name="extraDrives">
/// Optionally specifies any additional virtual drives to be created and
/// then attached to the new virtual machine (e.g. for Ceph OSD).
/// </param>
/// <param name="primaryStorageRepository">
/// Optionally specifies the storage repository where the virtual machine's
/// primary disk will be created. This defaults to <b>Local storage</b>.
/// </param>
/// <param name="extraStorageRespository">
/// Optionally specifies the storage repository where any extra drives for
/// the virtual machine will be created. This defaults to <b>Local storage</b>.
/// </param>
/// <returns>The new <see cref="XenVirtualMachine"/>.</returns>
/// <exception cref="XenException">Thrown if the operation failed.</exception>
/// <remarks>
/// <note>
/// <paramref name="snapshot"/> is ignored if the virtual machine template is not
/// hosted by the same storage repository where the virtual machine is to be created.
/// </note>
/// </remarks>
public XenVirtualMachine Create(
string name,
string templateName,
int processors = 2,
long memoryBytes = 0,
long diskBytes = 0,
bool snapshot = false,
IEnumerable <XenVirtualDrive> extraDrives = null,
string primaryStorageRepository = "Local storage",
string extraStorageRespository = "Local storage")
{
Covenant.Requires <ArgumentNullException>(!string.IsNullOrEmpty(templateName));
Covenant.Requires <ArgumentException>(processors > 0);
Covenant.Requires <ArgumentException>(memoryBytes >= 0);
Covenant.Requires <ArgumentException>(diskBytes >= 0);
Covenant.Requires <ArgumentNullException>(!string.IsNullOrEmpty(primaryStorageRepository));
Covenant.Requires <ArgumentNullException>(!string.IsNullOrEmpty(extraStorageRespository));
if (client.Template.Find(templateName) == null)
{
throw new XenException($"Template [{templateName}] does not exist.");
}
// We need to determine whether the VM template is persisted to the same storage
// repository as the desired target for the VM. If the storage repos are the same,
// we won't pass the [sr-uuid] parameter so that XenServer will do a fast clone.
// This is necessary because the xe command looks like it never does a fast clone
// when [sr-uuid] is passed, even if the template and target VM storage repositories
// are the same.
//
// https://github.com/jefflill/NeonForge/issues/326
//
// Unfortunately, there doesn't appear to be a clean way to inspect a VM template
// to list its disks and determine where they live. So we'll list the virtual disk
// interfaces and look for the disk named like:
//
// <template-name> 0
//
// where <template-name> identifies the template and "0" indicates the disk number.
//
// NOTE: This assumes that neonHIVE VM templates have only a single disk, which
// will probably always be the case since we only add disks after the VMs
// are created.
var primarySR = client.Repository.Find(name: primaryStorageRepository, mustExist: true);
var vdiListResponse = client.InvokeItems("vdi-list");
var templateVdiName = $"{templateName} 0";
var templateSrUuid = (string)null;
var srUuidArg = (string)null;
foreach (var vdiProperties in vdiListResponse.Results)
{
if (vdiProperties["name-label"] == templateVdiName)
{
templateSrUuid = vdiProperties["sr-uuid"];
break;
}
}
if (!snapshot || templateSrUuid != primarySR.Uuid)
{
srUuidArg = $"sr-uuid={primarySR.Uuid}";
}
// Create the VM.
var vmInstallResponse = client.SafeInvoke("vm-install", $"template={templateName}", $"new-name-label={name}", srUuidArg);
var uuid = vmInstallResponse.OutputText.Trim();
// Configure processors
client.SafeInvoke("vm-param-set",
$"uuid={uuid}",
$"VCPUs-at-startup={processors}",
$"VCPUs-max={processors}");
// Configure memory.
if (memoryBytes > 0)
{
client.SafeInvoke("vm-memory-limits-set",
$"uuid={uuid}",
$"dynamic-max={memoryBytes}",
$"dynamic-min={memoryBytes}",
$"static-max={memoryBytes}",
$"static-min={memoryBytes}");
}
// Configure the primary disk.
if (diskBytes > 0)
{
var disks = client.SafeInvokeItems("vm-disk-list", $"uuid={uuid}").Results;
var vdi = disks.FirstOrDefault(items => items.ContainsKey("Disk 0 VDI"));
if (vdi == null)
{
throw new XenException($"Cannot locate disk for [{name}] virtual machine.");
}
var vdiUuid = vdi["uuid"];
client.SafeInvoke("vdi-resize", $"uuid={vdiUuid}", $"disk-size={diskBytes}");
}
// Configure any additional disks.
if (extraDrives != null && extraDrives.Count() > 0)
{
var driveIndex = 1; // The boot device has index=0
var extraSR = client.Repository.Find(name: extraStorageRespository, mustExist: true);
foreach (var drive in extraDrives)
{
client.SafeInvoke("vm-disk-add", $"uuid={uuid}", $"sr-uuid={extraSR.Uuid}", $"disk-size={drive.Size}", $"device={driveIndex}");
driveIndex++;
}
}
return(client.Machine.Find(uuid: uuid));
}