private static GraphicsDevice getCompatibleGraphics(
VmDeviceType videoDeviceType, Version clusterVersion, VmBase vmBase) {
GraphicsDevice graphicsDevice = null;
GraphicsType compatibleType = null;
OsRepository osRepository = SimpleDependencyInjector.getInstance().get(OsRepository.class);
for (Pair<GraphicsType, DisplayType> graphicsDisplayPair :
osRepository.getGraphicsAndDisplays(vmBase.getOsId(), clusterVersion)) {
if (graphicsDisplayPair.getSecond().getDefaultVmDeviceType() == videoDeviceType) {
compatibleType = graphicsDisplayPair.getFirst();
// previously to spice+vnc, QXL was only used by spice, so prefer spice if available
if (videoDeviceType == VmDeviceType.QXL && compatibleType == GraphicsType.SPICE) {
break;
}
}
}
if (compatibleType != null) {
graphicsDevice = new GraphicsDevice(compatibleType.getCorrespondingDeviceType());
graphicsDevice.setId(new VmDeviceId(Guid.newGuid(), vmBase.getId()));
}
return graphicsDevice;
}
@Test
public void canAddVmWithVirtioScsiControllerNotSupportedOs() {
VM vm = createVm();
AddVmFromTemplateCommand<AddVmParameters> cmd = createVmFromTemplateCommand(vm);
cluster = createCluster();
vm.setClusterId(cluster.getId());
mockStorageDomainDaoGetForStoragePool();
mockVmTemplateDaoReturnVmTemplate();
mockVerifyAddVM(cmd);
mockConfig();
mockMaxPciSlots();
mockStorageDomainDaoGetAllStoragesForPool(20);
mockUninterestingMethods(cmd);
mockDisplayTypes(vm.getOs());
mockGraphicsDevices(vm.getId());
doReturn(true).when(cmd).checkCpuSockets();
doReturn(cluster).when(cmd).getCluster();
doReturn(createStoragePool()).when(cmd).getStoragePool();
cmd.getParameters().setVirtioScsiEnabled(true);
when(osRepository.isSoundDeviceEnabled(any(Integer.class), any(Version.class)))
.thenReturn(true);
when(osRepository.getArchitectureFromOS(any(Integer.class)))
.thenReturn(ArchitectureType.x86_64);
when(osRepository.getDiskInterfaces(any(Integer.class), any(Version.class)))
.thenReturn(new ArrayList<>(Collections.singletonList("VirtIO")));
mockGetAllSnapshots(cmd);
cmd.initEffectiveCompatibilityVersion();
ValidateTestUtils.runAndAssertValidateFailure(
cmd, EngineMessage.ACTION_TYPE_FAILED_ILLEGAL_OS_TYPE_DOES_NOT_SUPPORT_VIRTIO_SCSI);
}
@Test
public void validateFailedGuestOsIsNotSupported() {
mockInterfaceList();
VM vm = mockVmStatusUp();
vm.setVmOs(15); // rhel3x64
createVirtIODisk();
when(osRepository.getOsName(15)).thenReturn("RHEL3x64");
when(osRepository.getDiskHotpluggableInterfaces(any(Integer.class), any(Version.class)))
.thenReturn(Collections.emptySet());
ValidateTestUtils.runAndAssertValidateFailure(
command, EngineMessage.ACTION_TYPE_FAILED_GUEST_OS_VERSION_IS_NOT_SUPPORTED);
}
@Override
protected void readOsSection(XmlNode section) {
_vmTemplate.setId(new Guid(section.attributes.get("ovf:id").getValue()));
XmlNode node = section.SelectSingleNode("Description");
if (node != null) {
int osId = osRepository.getOsIdByUniqueName(node.innerText);
_vmTemplate.setOsId(osId);
_vmTemplate.setClusterArch(osRepository.getArchitectureFromOS(osId));
} else {
_vmTemplate.setClusterArch(ArchitectureType.undefined);
}
}
@Before
public void setUp() {
mockVds();
mockVmDevice(false);
doReturn(snapshotsValidator).when(command).getSnapshotsValidator();
doReturn(ValidationResult.VALID).when(snapshotsValidator).vmNotDuringSnapshot(any(Guid.class));
doReturn(ValidationResult.VALID).when(snapshotsValidator).vmNotInPreview(any(Guid.class));
doReturn(storageDomainValidator)
.when(command)
.getStorageDomainValidator(any(StorageDomain.class));
doReturn(ValidationResult.VALID).when(storageDomainValidator).isDomainExistAndActive();
doReturn(new ArrayList<>()).when(diskVmElementDao).getAllForVm(vmId);
doReturn(diskValidator).when(command).getDiskValidator(disk);
doReturn(diskVmElementValidator)
.when(command)
.getDiskVmElementValidator(any(Disk.class), any(DiskVmElement.class));
doReturn(ValidationResult.VALID).when(diskValidator).isDiskExists();
doReturn(ValidationResult.VALID).when(diskValidator).isDiskAttachedToVm(vm);
when(osRepository.getDiskHotpluggableInterfaces(any(Integer.class), any(Version.class)))
.thenReturn(new HashSet<>(DISK_HOTPLUGGABLE_INTERFACES));
SimpleDependencyInjector.getInstance().bind(VmDeviceUtils.class, vmDeviceUtils);
}
protected void mockInterfaceList() {
SimpleDependencyInjector.getInstance().bind(OsRepository.class, osRepository);
ArrayList<String> diskInterfaces =
new ArrayList<>(Arrays.asList(new String[] {"IDE", "VirtIO", "VirtIO_SCSI"}));
when(osRepository.getDiskInterfaces(anyInt(), any(Version.class))).thenReturn(diskInterfaces);
}
@Test
public void validateFailedVirtIODisk() throws Exception {
mockVmStatusUp();
mockInterfaceList();
when(osRepository.getOsName(0)).thenReturn("RHEL6");
createNotVirtIODisk();
ValidateTestUtils.runAndAssertValidateFailure(
command, EngineMessage.HOT_PLUG_IDE_DISK_IS_NOT_SUPPORTED);
}
private void mockDisplayTypes(int osId) {
Map<Integer, Map<Version, List<Pair<GraphicsType, DisplayType>>>> displayTypeMap =
new HashMap<>();
displayTypeMap.put(osId, new HashMap<>());
displayTypeMap
.get(osId)
.put(null, Collections.singletonList(new Pair<>(GraphicsType.SPICE, DisplayType.qxl)));
when(osRepository.getGraphicsAndDisplays()).thenReturn(displayTypeMap);
}
private void mockOsRepositoryGraphics(
int osId, Version ver, Pair<GraphicsType, DisplayType> supportedGraphicsAndDisplay) {
Map<Version, List<Pair<GraphicsType, DisplayType>>> value = new HashMap<>();
value.put(ver, Collections.singletonList(supportedGraphicsAndDisplay));
Map<Integer, Map<Version, List<Pair<GraphicsType, DisplayType>>>> g = new HashMap<>();
g.put(osId, value);
when(osRepository.getGraphicsAndDisplays()).thenReturn(g);
}
protected void runAddAndVerify(
VmNic iface,
boolean reserveExistingMac,
VerificationMode addMacVerification,
int osId,
Version version) {
OsRepository osRepository = mock(OsRepository.class);
when(vmInterfaceManager.getOsRepository()).thenReturn(osRepository);
when(osRepository.hasNicHotplugSupport(any(Integer.class), any(Version.class)))
.thenReturn(true);
vmInterfaceManager.add(
iface, NoOpCompensationContext.getInstance(), reserveExistingMac, osId, version);
if (reserveExistingMac) {
verify(macPoolManagerStrategy, times(1)).forceAddMac((iface.getMacAddress()));
} else {
verifyZeroInteractions(macPoolManagerStrategy);
}
verifyAddDelegatedCorrectly(iface, addMacVerification);
}
@Test
public void refuseSoundDeviceOnPPC() {
AddVmCommand<AddVmParameters> cmd = setupCanAddPpcTest();
cmd.getParameters().setSoundDeviceEnabled(true);
when(osRepository.isSoundDeviceEnabled(
cmd.getParameters().getVm().getVmOsId(), cmd.getCluster().getCompatibilityVersion()))
.thenReturn(false);
ValidateTestUtils.runAndAssertValidateFailure(
cmd, EngineMessage.SOUND_DEVICE_REQUESTED_ON_NOT_SUPPORTED_ARCH);
}
private String getTimeZoneForVm(VM vm) {
if (!StringUtils.isEmpty(vm.getTimeZone())) {
return vm.getTimeZone();
}
// else fallback to engine config default for given OS type
if (osRepository.isWindows(vm.getOs())) {
return Config.<String>getValue(ConfigValues.DefaultWindowsTimeZone);
} else {
return "Etc/GMT";
}
}
private void setDeviceByResource(XmlNode node, VmDevice vmDevice) {
int resourceType = getResourceType(node, OvfProperties.VMD_RESOURCE_TYPE);
int resourceSubType = getResourceType(node, OvfProperties.VMD_SUB_RESOURCE_TYPE);
if (resourceSubType == -1) {
// we need special handling for Monitor to define it as vnc or spice
if (Integer.parseInt(OvfHardware.Monitor) == resourceType) {
// if default display type is defined in the ovf, set the video device that is suitable for
// it
if (defaultDisplayType != null) {
vmDevice.setDevice(defaultDisplayType.getDefaultVmDeviceType().getName());
} else {
// get number of monitors from VirtualQuantity in OVF
if (selectSingleNode(node, OvfProperties.VMD_VIRTUAL_QUANTITY, _xmlNS) != null
&& !StringUtils.isEmpty(
selectSingleNode(node, OvfProperties.VMD_VIRTUAL_QUANTITY, _xmlNS).innerText)) {
int virtualQuantity =
Integer.parseInt(
selectSingleNode(node, OvfProperties.VMD_VIRTUAL_QUANTITY, _xmlNS).innerText);
if (virtualQuantity > 1) {
vmDevice.setDevice(VmDeviceType.QXL.getName());
} else {
// get first supported display device
List<Pair<GraphicsType, DisplayType>> supportedGraphicsAndDisplays =
osRepository.getGraphicsAndDisplays(vmBase.getOsId(), new Version(getVersion()));
if (!supportedGraphicsAndDisplays.isEmpty()) {
DisplayType firstDisplayType = supportedGraphicsAndDisplays.get(0).getSecond();
vmDevice.setDevice(firstDisplayType.getDefaultVmDeviceType().getName());
} else {
vmDevice.setDevice(VmDeviceType.QXL.getName());
}
}
} else { // default to spice if quantity not found
vmDevice.setDevice(VmDeviceType.QXL.getName());
}
}
} else {
vmDevice.setDevice(VmDeviceType.getoVirtDevice(resourceType).getName());
}
} else if (Integer.parseInt(OvfHardware.Network) == resourceType) {
// handle interfaces with different sub types : we have 0-5 as the VmInterfaceType enum
VmInterfaceType nicType = VmInterfaceType.forValue(resourceSubType);
if (nicType != null) {
if (nicType == VmInterfaceType.pciPassthrough) {
vmDevice.setDevice(VmDeviceType.HOST_DEVICE.getName());
} else {
vmDevice.setDevice(VmDeviceType.BRIDGE.getName());
}
} else {
vmDevice.setDevice(VmDeviceType.getoVirtDevice(resourceType).getName());
}
}
}
@Test
public void isVirtioScsiEnabledDefaultedToTrue() {
AddVmCommand<AddVmParameters> cmd = setupCanAddVmTests(0);
Cluster cluster = createCluster();
doReturn(cluster).when(cmd).getCluster();
cmd.getParameters().getVm().setClusterId(cluster.getId());
cmd.initEffectiveCompatibilityVersion();
when(osRepository.getDiskInterfaces(any(Integer.class), any(Version.class)))
.thenReturn(new ArrayList<>(Collections.singletonList("VirtIO_SCSI")));
assertTrue(
"isVirtioScsiEnabled hasn't been defaulted to true on cluster >= 3.3.",
cmd.isVirtioScsiEnabled());
}
private void addDefaultGraphicsDevice() {
VmDevice device =
VmDeviceCommonUtils.findVmDeviceByGeneralType(
vmBase.getManagedDeviceMap(), VmDeviceGeneralType.GRAPHICS);
if (device != null) {
return;
}
List<Pair<GraphicsType, DisplayType>> graphicsAndDisplays =
osRepository.getGraphicsAndDisplays(vmBase.getOsId(), new Version(getVersion()));
GraphicsType graphicsType =
vmBase.getDefaultDisplayType() == DisplayType.cirrus
? GraphicsType.VNC
: GraphicsType.SPICE;
GraphicsType supportedGraphicsType = null;
for (Pair<GraphicsType, DisplayType> pair : graphicsAndDisplays) {
if (pair.getSecond() == vmBase.getDefaultDisplayType()) {
if (pair.getFirst() == graphicsType) {
supportedGraphicsType = graphicsType;
break;
}
if (supportedGraphicsType == null) {
supportedGraphicsType = pair.getFirst();
}
}
}
if (supportedGraphicsType != null) {
device = new GraphicsDevice(supportedGraphicsType.getCorrespondingDeviceType());
device.setId(new VmDeviceId(Guid.newGuid(), vmBase.getId()));
addManagedVmDevice(device);
} else {
log.warn(
"Cannot find any graphics type for display type {} supported by OS {} in compatibility version {}",
vmBase.getDefaultDisplayType().name(),
osRepository.getOsName(vmBase.getOsId()),
getVersion());
}
}
@Test
public void testUnsupportedCpus() {
// prepare a command to pass validate
VM vm = createVm();
vm.setVmOs(OsRepository.DEFAULT_X86_OS);
cluster = createCluster();
vm.setClusterId(cluster.getId());
when(clusterDao.get(cluster.getId())).thenReturn(cluster);
AddVmFromTemplateCommand<AddVmParameters> cmd = createVmFromTemplateCommand(vm);
mockStorageDomainDaoGetForStoragePool();
mockVmTemplateDaoReturnVmTemplate();
mockVerifyAddVM(cmd);
mockConfig();
mockMaxPciSlots();
mockStorageDomainDaoGetAllStoragesForPool(20);
mockDisplayTypes(vm.getOs());
mockUninterestingMethods(cmd);
mockGetAllSnapshots(cmd);
when(osRepository.getArchitectureFromOS(0)).thenReturn(ArchitectureType.x86_64);
doReturn(createStoragePool()).when(cmd).getStoragePool();
// prepare the mock values
Map<Pair<Integer, Version>, Set<String>> unsupported = new HashMap<>();
Set<String> value = new HashSet<>();
value.add(CPU_ID);
unsupported.put(new Pair<>(vm.getVmOsId(), cluster.getCompatibilityVersion()), value);
when(osRepository.isCpuSupported(vm.getVmOsId(), cluster.getCompatibilityVersion(), CPU_ID))
.thenReturn(false);
when(osRepository.getUnsupportedCpus()).thenReturn(unsupported);
ValidateTestUtils.runAndAssertValidateFailure(
cmd, EngineMessage.CPU_TYPE_UNSUPPORTED_FOR_THE_GUEST_OS);
}
protected void buildVmTimeZone() {
// get vm timezone
String timeZone = getTimeZoneForVm(vm);
String javaZoneId = null;
if (osRepository.isWindows(vm.getOs())) {
// convert to java & calculate offset
javaZoneId = WindowsJavaTimezoneMapping.windowsToJava.get(timeZone);
} else {
javaZoneId = timeZone;
}
int offset = 0;
if (javaZoneId != null) {
offset = (TimeZone.getTimeZone(javaZoneId).getOffset(new Date().getTime()) / 1000);
}
createInfo.put(VdsProperties.utc_diff, "" + offset);
}
@Test
public void testLunDiskWithSgioCanBeAdded() {
LunDisk disk = createISCSILunDisk();
disk.setDiskInterface(DiskInterface.VirtIO_SCSI);
disk.setSgio(ScsiGenericIO.UNFILTERED);
AddDiskParameters parameters = createParameters();
parameters.setDiskInfo(disk);
initializeCommand(Guid.newGuid(), parameters);
VM vm = mockVm();
vm.setVdsGroupCompatibilityVersion(Version.v3_3);
mockMaxPciSlots();
when(osRepository.getDiskInterfaces(any(Integer.class), any(Version.class)))
.thenReturn(new ArrayList<>(Arrays.asList("VirtIO_SCSI")));
DiskValidator diskValidator = spyDiskValidator(disk);
doReturn(true).when(diskValidator).isVirtioScsiControllerAttached(any(Guid.class));
mockInterfaceList();
CanDoActionTestUtils.runAndAssertCanDoActionSuccess(command);
}
@Test
public void testVirtIoScsiNotSupportedByOs() {
DiskImage disk = createVirtIoScsiDiskImage();
AddDiskParameters parameters = createParameters();
parameters.setDiskInfo(disk);
Guid storageId = Guid.newGuid();
initializeCommand(storageId, parameters);
mockStorageDomain(storageId);
mockStoragePoolIsoMap();
VM vm = mockVm();
vm.setVdsGroupCompatibilityVersion(Version.v3_3);
mockMaxPciSlots();
when(osRepository.getDiskInterfaces(any(Integer.class), any(Version.class)))
.thenReturn(new ArrayList<>(Arrays.asList("VirtIO")));
DiskValidator diskValidator = spyDiskValidator(disk);
doReturn(true).when(diskValidator).isVirtioScsiControllerAttached(any(Guid.class));
CanDoActionTestUtils.runAndAssertCanDoActionFailure(
command, EngineMessage.ACTION_TYPE_FAILED_GUEST_OS_VERSION_IS_NOT_SUPPORTED);
}
protected void mockInterfaceList() {
ArrayList<String> diskInterfaces =
new ArrayList<>(Arrays.asList(new String[] {"IDE", "VirtIO", "VirtIO_SCSI"}));
when(osRepository.getDiskInterfaces(anyInt(), any(Version.class))).thenReturn(diskInterfaces);
}
protected void buildVmProperties() {
createInfo.put(VdsProperties.vm_guid, vm.getId().toString());
createInfo.put(VdsProperties.vm_name, vm.getName());
createInfo.put(VdsProperties.mem_size_mb, vm.getVmMemSizeMb());
createInfo.put(VdsProperties.mem_guaranteed_size_mb, vm.getMinAllocatedMem());
createInfo.put(VdsProperties.smartcardEnabled, Boolean.toString(vm.isSmartcardEnabled()));
createInfo.put(VdsProperties.num_of_cpus, String.valueOf(vm.getNumOfCpus()));
if (Config.<Boolean>getValue(ConfigValues.SendSMPOnRunVm)) {
createInfo.put(VdsProperties.cores_per_socket, (Integer.toString(vm.getCpuPerSocket())));
if (FeatureSupported.supportedInConfig(
ConfigValues.HotPlugCpuSupported,
vm.getVdsGroupCompatibilityVersion(),
vm.getClusterArch())) {
createInfo.put(
VdsProperties.max_number_of_cpus,
String.valueOf(
Config.<Integer>getValue(
ConfigValues.MaxNumOfVmCpus, vm.getVdsGroupCompatibilityVersion().getValue())));
}
}
final String compatibilityVersion = vm.getVdsGroupCompatibilityVersion().toString();
addCpuPinning(compatibilityVersion);
createInfo.put(VdsProperties.emulatedMachine, getVdsGroup().getEmulatedMachine());
// send cipher suite and spice secure channels parameters only if ssl
// enabled.
if (Config.<Boolean>getValue(ConfigValues.SSLEnabled)) {
createInfo.put(
VdsProperties.spiceSslCipherSuite, Config.<String>getValue(ConfigValues.CipherSuite));
createInfo.put(
VdsProperties.SpiceSecureChannels,
Config.<String>getValue(ConfigValues.SpiceSecureChannels, compatibilityVersion));
}
createInfo.put(VdsProperties.kvmEnable, vm.getKvmEnable().toString().toLowerCase());
createInfo.put(VdsProperties.acpiEnable, vm.getAcpiEnable().toString().toLowerCase());
createInfo.put(
VdsProperties.Custom,
VmPropertiesUtils.getInstance()
.getVMProperties(vm.getVdsGroupCompatibilityVersion(), vm.getStaticData()));
createInfo.put(VdsProperties.vm_type, "kvm"); // "qemu", "kvm"
if (vm.isRunAndPause()) {
createInfo.put(VdsProperties.launch_paused_param, "true");
}
if (vm.isUseHostCpuFlags()) {
createInfo.put(VdsProperties.cpuType, "hostPassthrough");
} else if (vm.getVdsGroupCpuFlagsData() != null) {
createInfo.put(VdsProperties.cpuType, vm.getVdsGroupCpuFlagsData());
}
createInfo.put(VdsProperties.niceLevel, String.valueOf(vm.getNiceLevel()));
if (vm.getCpuShares() > 0) {
createInfo.put(VdsProperties.cpuShares, String.valueOf(vm.getCpuShares()));
}
if (!StringUtils.isEmpty(vm.getHibernationVolHandle())) {
createInfo.put(VdsProperties.hiberVolHandle, vm.getHibernationVolHandle());
}
String keyboardLayout = vm.getDynamicData().getVncKeyboardLayout();
if (keyboardLayout == null) {
keyboardLayout = vm.getDefaultVncKeyboardLayout();
if (keyboardLayout == null) {
keyboardLayout = Config.<String>getValue(ConfigValues.VncKeyboardLayout);
}
}
createInfo.put(VdsProperties.KeyboardLayout, keyboardLayout);
if (osRepository.isLinux(vm.getVmOsId())) {
createInfo.put(VdsProperties.PitReinjection, "false");
}
if (vm.getDisplayType() == DisplayType.vnc) {
createInfo.put(VdsProperties.TabletEnable, "true");
}
createInfo.put(
VdsProperties.transparent_huge_pages, vm.isTransparentHugePages() ? "true" : "false");
}
protected void mockOsRepository() {
SimpleDependencyInjector.getInstance().bind(OsRepository.class, osRepository);
VmHandler.init();
when(osRepository.isWindows(0)).thenReturn(true);
when(osRepository.isCpuSupported(anyInt(), any(Version.class), anyString())).thenReturn(true);
}
protected void readGeneralData() {
XmlNode content = selectSingleNode(_document, "//*/Content");
XmlNode node;
vmBase.setVmInit(new VmInit());
// set ovf version to the ovf object
vmBase.setOvfVersion(getVersion());
node = selectSingleNode(content, OvfProperties.DESCRIPTION);
if (node != null) {
vmBase.setDescription(node.innerText);
}
node = selectSingleNode(content, OvfProperties.COMMENT);
if (node != null) {
vmBase.setComment(node.innerText);
}
node = selectSingleNode(content, OvfProperties.DOMAIN);
if (node != null) {
vmBase.getVmInit().setDomain(node.innerText);
}
node = selectSingleNode(content, OvfProperties.CREATION_DATE);
if (node != null) {
Date creationDate = OvfParser.utcDateStringToLocaDate(node.innerText);
if (creationDate != null) {
vmBase.setCreationDate(creationDate);
}
}
node = selectSingleNode(content, OvfProperties.EXPORT_DATE);
if (node != null) {
Date exportDate = OvfParser.utcDateStringToLocaDate(node.innerText);
if (exportDate != null) {
vmBase.setExportDate(exportDate);
}
}
node = selectSingleNode(content, OvfProperties.DEFAULT_BOOT_SEQUENCE);
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setDefaultBootSequence(BootSequence.forValue(Integer.parseInt(node.innerText)));
}
}
node = selectSingleNode(content, OvfProperties.INITRD_URL);
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setInitrdUrl(node.innerText);
}
}
node = selectSingleNode(content, OvfProperties.KERNEL_URL);
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setKernelUrl(node.innerText);
}
}
node = selectSingleNode(content, OvfProperties.KERNEL_PARAMS);
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setKernelParams(node.innerText);
}
}
node = selectSingleNode(content, OvfProperties.GENERATION);
if (node != null) {
vmBase.setDbGeneration(Long.parseLong(node.innerText));
} else {
vmBase.setDbGeneration(1L);
}
node = selectSingleNode(content, OvfProperties.CUSTOM_COMPATIBILITY_VERSION);
if (node != null) {
vmBase.setCustomCompatibilityVersion(new Version(node.innerText));
}
Version originVersion = new Version(getVersion()); // the originating ENGINE version
node = selectSingleNode(content, OvfProperties.CLUSTER_COMPATIBILITY_VERSION);
if (node != null) {
originVersion = new Version(node.innerText);
}
vmBase.setClusterCompatibilityVersionOrigin(originVersion);
// Note: the fetching of 'default display type' should happen before reading
// the hardware section
node = selectSingleNode(content, getDefaultDisplayTypeStringRepresentation());
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setDefaultDisplayType(DisplayType.forValue(Integer.parseInt(node.innerText)));
}
}
XmlNodeList list = selectNodes(content, "Section");
if (list != null) {
// The Os need to be read before the hardware
node = getNode(list, "xsi:type", "ovf:OperatingSystemSection_Type");
if (node != null) {
readOsSection(node);
if (!osRepository.isLinux(vmBase.getOsId())
|| vmBase.getDefaultDisplayType() != DisplayType.qxl) {
vmBase.setSingleQxlPci(false);
}
}
node = getNode(list, "xsi:type", "ovf:VirtualHardwareSection_Type");
if (node != null) {
readHardwareSection(node);
}
node = getNode(list, "xsi:type", "ovf:SnapshotsSection_Type");
if (node != null) {
readSnapshotsSection(node);
}
}
// after reading the hardware section, if graphics device is still absent, add a default one
addDefaultGraphicsDevice();
// if boot order is not set, figure out some default based on the set of bootable disks
setDefaultBootDevice();
// due to dependency on vmBase.getOsId() must be read AFTER readOsSection
node = selectSingleNode(content, OvfProperties.TIMEZONE);
if (node != null && StringUtils.isNotEmpty(node.innerText)) {
vmBase.setTimeZone(node.innerText);
} else {
if (osRepository.isWindows(vmBase.getOsId())) {
vmBase.setTimeZone(Config.<String>getValue(ConfigValues.DefaultWindowsTimeZone));
} else {
vmBase.setTimeZone(Config.<String>getValue(ConfigValues.DefaultGeneralTimeZone));
}
}
node = selectSingleNode(content, OvfProperties.ORIGIN);
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setOrigin(OriginType.forValue(Integer.parseInt(node.innerText)));
}
}
node = selectSingleNode(content, OvfProperties.VM_TYPE);
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setVmType(VmType.forValue(Integer.parseInt(node.innerText)));
}
}
node = selectSingleNode(content, OvfProperties.IS_SMARTCARD_ENABLED);
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setSmartcardEnabled(Boolean.parseBoolean(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.NUM_OF_IOTHREADS);
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setNumOfIoThreads(Integer.parseInt(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.DELETE_PROTECTED);
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setDeleteProtected(Boolean.parseBoolean(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.SSO_METHOD);
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setSsoMethod(SsoMethod.fromString(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.TUNNEL_MIGRATION);
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setTunnelMigration(Boolean.parseBoolean(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.VNC_KEYBOARD_LAYOUT);
if (node != null) {
if (!StringUtils.isEmpty(node.innerText)) {
vmBase.setVncKeyboardLayout(node.innerText);
}
}
node = selectSingleNode(content, OvfProperties.MIN_ALLOCATED_MEMORY);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setMinAllocatedMem(Integer.parseInt(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.IS_STATELESS);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setStateless(Boolean.parseBoolean(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.IS_RUN_AND_PAUSE);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setRunAndPause(Boolean.parseBoolean(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.CREATED_BY_USER_ID);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setCreatedByUserId(Guid.createGuidFromString(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.MIGRATION_DOWNTIME);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setMigrationDowntime(Integer.parseInt(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.MIGRATION_SUPPORT);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
MigrationSupport migrationSupport =
MigrationSupport.forValue(Integer.parseInt(node.innerText));
vmBase.setMigrationSupport(migrationSupport);
}
}
// TODO dedicated to multiple hosts
readDedicatedHostsList();
node = selectSingleNode(content, OvfProperties.SERIAL_NUMBER_POLICY);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setSerialNumberPolicy(SerialNumberPolicy.forValue(Integer.parseInt(node.innerText)));
}
}
node = selectSingleNode(content, OvfProperties.CUSTOM_SERIAL_NUMBER);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setCustomSerialNumber(node.innerText);
}
}
node = selectSingleNode(content, OvfProperties.AUTO_STARTUP);
if (node != null) {
vmBase.setAutoStartup(Boolean.parseBoolean(node.innerText));
}
node = selectSingleNode(content, OvfProperties.PRIORITY);
if (node != null) {
vmBase.setPriority(Integer.parseInt(node.innerText));
}
node = selectSingleNode(content, OvfProperties.IS_BOOT_MENU_ENABLED);
if (node != null) {
vmBase.setBootMenuEnabled(Boolean.parseBoolean(node.innerText));
}
node = selectSingleNode(content, OvfProperties.IS_SPICE_FILE_TRANSFER_ENABLED);
if (node != null) {
vmBase.setSpiceFileTransferEnabled(Boolean.parseBoolean(node.innerText));
}
node = selectSingleNode(content, OvfProperties.IS_SPICE_COPY_PASTE_ENABLED);
if (node != null) {
vmBase.setSpiceCopyPasteEnabled(Boolean.parseBoolean(node.innerText));
}
node = selectSingleNode(content, OvfProperties.ALLOW_CONSOLE_RECONNECT);
if (node != null) {
vmBase.setAllowConsoleReconnect(Boolean.parseBoolean(node.innerText));
}
node = selectSingleNode(content, OvfProperties.IS_AUTO_CONVERGE);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setAutoConverge(Boolean.parseBoolean(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.IS_MIGRATE_COMPRESSED);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setMigrateCompressed(Boolean.parseBoolean(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.MIGRATION_POLICY_ID);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setMigrationPolicyId(Guid.createGuidFromString(node.innerText));
}
}
node = selectSingleNode(content, OvfProperties.CUSTOM_EMULATED_MACHINE);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setCustomEmulatedMachine(node.innerText);
}
}
node = selectSingleNode(content, OvfProperties.CUSTOM_CPU_NAME);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setCustomCpuName(node.innerText);
}
}
node = selectSingleNode(content, OvfProperties.PREDEFINED_PROPERTIES);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setPredefinedProperties(node.innerText);
}
}
node = selectSingleNode(content, OvfProperties.USER_DEFINED_PROPERTIES);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setUserDefinedProperties(node.innerText);
}
}
node = selectSingleNode(content, OvfProperties.MAX_MEMORY_SIZE_MB);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setMaxMemorySizeMb(Integer.parseInt(node.innerText));
}
}
vmBase.setCustomProperties(
VmPropertiesUtils.getInstance()
.customProperties(vmBase.getPredefinedProperties(), vmBase.getUserDefinedProperties()));
node = selectSingleNode(content, OvfProperties.VM_LEASE);
if (node != null) {
if (StringUtils.isNotEmpty(node.innerText)) {
vmBase.setLeaseStorageDomainId(new Guid(node.innerText));
}
}
readGeneralData(content);
readVmInit(content);
}
