Examples with VirtualDeviceConfigSpec com.vmware.vim25.VirtualDeviceConfigSpec used on opensource projects

Example 36 with VirtualDeviceConfigSpec

use of com.vmware.vim25.VirtualDeviceConfigSpec in project cloudstack by apache.

the class VirtualMachineMO method plugDevice.

public void plugDevice(VirtualDevice device) throws Exception {
    VirtualMachineConfigSpec vmConfigSpec = new VirtualMachineConfigSpec();
    VirtualDeviceConfigSpec deviceConfigSpec = new VirtualDeviceConfigSpec();
    deviceConfigSpec.setDevice(device);
    deviceConfigSpec.setOperation(VirtualDeviceConfigSpecOperation.ADD);
    vmConfigSpec.getDeviceChange().add(deviceConfigSpec);
    if (!configureVm(vmConfigSpec)) {
        throw new Exception("Failed to add devices");
    }
}

Example 37 with VirtualDeviceConfigSpec

use of com.vmware.vim25.VirtualDeviceConfigSpec in project cloudstack by apache.

the class VirtualMachineMO method detachAllDisks.

public void detachAllDisks() throws Exception {
    if (s_logger.isTraceEnabled())
        s_logger.trace("vCenter API trace - detachAllDisk(). target MOR: " + _mor.getValue());
    VirtualDisk[] disks = getAllDiskDevice();
    if (disks.length > 0) {
        VirtualMachineConfigSpec reConfigSpec = new VirtualMachineConfigSpec();
        VirtualDeviceConfigSpec[] deviceConfigSpecArray = new VirtualDeviceConfigSpec[disks.length];
        for (int i = 0; i < disks.length; i++) {
            deviceConfigSpecArray[i] = new VirtualDeviceConfigSpec();
            deviceConfigSpecArray[i].setDevice(disks[i]);
            deviceConfigSpecArray[i].setOperation(VirtualDeviceConfigSpecOperation.REMOVE);
        }
        reConfigSpec.getDeviceChange().addAll(Arrays.asList(deviceConfigSpecArray));
        ManagedObjectReference morTask = _context.getService().reconfigVMTask(_mor, reConfigSpec);
        boolean result = _context.getVimClient().waitForTask(morTask);
        if (!result) {
            if (s_logger.isTraceEnabled())
                s_logger.trace("vCenter API trace - detachAllDisk() done(failed)");
            throw new Exception("Failed to detach disk due to " + TaskMO.getTaskFailureInfo(_context, morTask));
        }
        _context.waitForTaskProgressDone(morTask);
    }
    if (s_logger.isTraceEnabled())
        s_logger.trace("vCenter API trace - detachAllDisk() done(successfully)");
}

Example 38 with VirtualDeviceConfigSpec

use of com.vmware.vim25.VirtualDeviceConfigSpec in project cloudstack by apache.

the class VirtualMachineMO method createDisk.

// vmdkDatastorePath: [datastore name] vmdkFilePath
public void createDisk(String vmdkDatastorePath, VirtualDiskType diskType, VirtualDiskMode diskMode, String rdmDeviceName, int sizeInMb, ManagedObjectReference morDs, int controllerKey) throws Exception {
    if (s_logger.isTraceEnabled())
        s_logger.trace("vCenter API trace - createDisk(). target MOR: " + _mor.getValue() + ", vmdkDatastorePath: " + vmdkDatastorePath + ", sizeInMb: " + sizeInMb + ", diskType: " + diskType + ", diskMode: " + diskMode + ", rdmDeviceName: " + rdmDeviceName + ", datastore: " + morDs.getValue() + ", controllerKey: " + controllerKey);
    assert (vmdkDatastorePath != null);
    assert (morDs != null);
    int ideControllerKey = getIDEDeviceControllerKey();
    if (controllerKey < 0) {
        controllerKey = ideControllerKey;
    }
    VirtualDisk newDisk = new VirtualDisk();
    if (diskType == VirtualDiskType.THIN || diskType == VirtualDiskType.PREALLOCATED || diskType == VirtualDiskType.EAGER_ZEROED_THICK) {
        VirtualDiskFlatVer2BackingInfo backingInfo = new VirtualDiskFlatVer2BackingInfo();
        backingInfo.setDiskMode(VirtualDiskMode.PERSISTENT.value());
        if (diskType == VirtualDiskType.THIN) {
            backingInfo.setThinProvisioned(true);
        } else {
            backingInfo.setThinProvisioned(false);
        }
        if (diskType == VirtualDiskType.EAGER_ZEROED_THICK) {
            backingInfo.setEagerlyScrub(true);
        } else {
            backingInfo.setEagerlyScrub(false);
        }
        backingInfo.setDatastore(morDs);
        backingInfo.setFileName(vmdkDatastorePath);
        newDisk.setBacking(backingInfo);
    } else if (diskType == VirtualDiskType.RDM || diskType == VirtualDiskType.RDMP) {
        VirtualDiskRawDiskMappingVer1BackingInfo backingInfo = new VirtualDiskRawDiskMappingVer1BackingInfo();
        if (diskType == VirtualDiskType.RDM) {
            backingInfo.setCompatibilityMode("virtualMode");
        } else {
            backingInfo.setCompatibilityMode("physicalMode");
        }
        backingInfo.setDeviceName(rdmDeviceName);
        if (diskType == VirtualDiskType.RDM) {
            backingInfo.setDiskMode(VirtualDiskMode.PERSISTENT.value());
        }
        backingInfo.setDatastore(morDs);
        backingInfo.setFileName(vmdkDatastorePath);
        newDisk.setBacking(backingInfo);
    }
    int deviceNumber = getNextDeviceNumber(controllerKey);
    newDisk.setControllerKey(controllerKey);
    newDisk.setKey(-deviceNumber);
    newDisk.setUnitNumber(deviceNumber);
    newDisk.setCapacityInKB(sizeInMb * 1024);
    VirtualMachineConfigSpec reConfigSpec = new VirtualMachineConfigSpec();
    VirtualDeviceConfigSpec deviceConfigSpec = new VirtualDeviceConfigSpec();
    deviceConfigSpec.setDevice(newDisk);
    deviceConfigSpec.setFileOperation(VirtualDeviceConfigSpecFileOperation.CREATE);
    deviceConfigSpec.setOperation(VirtualDeviceConfigSpecOperation.ADD);
    reConfigSpec.getDeviceChange().add(deviceConfigSpec);
    ManagedObjectReference morTask = _context.getService().reconfigVMTask(_mor, reConfigSpec);
    boolean result = _context.getVimClient().waitForTask(morTask);
    if (!result) {
        if (s_logger.isTraceEnabled())
            s_logger.trace("vCenter API trace - createDisk() done(failed)");
        throw new Exception("Unable to create disk " + vmdkDatastorePath + " due to " + TaskMO.getTaskFailureInfo(_context, morTask));
    }
    _context.waitForTaskProgressDone(morTask);
    if (s_logger.isTraceEnabled())
        s_logger.trace("vCenter API trace - createDisk() done(successfully)");
}

Example 39 with VirtualDeviceConfigSpec

use of com.vmware.vim25.VirtualDeviceConfigSpec in project cloudstack by apache.

the class VmwareResource method execute.

protected StartAnswer execute(StartCommand cmd) {
    if (s_logger.isInfoEnabled()) {
        s_logger.info("Executing resource StartCommand: " + _gson.toJson(cmd));
    }
    VirtualMachineTO vmSpec = cmd.getVirtualMachine();
    boolean vmAlreadyExistsInVcenter = false;
    String existingVmName = null;
    VirtualMachineFileInfo existingVmFileInfo = null;
    VirtualMachineFileLayoutEx existingVmFileLayout = null;
    Pair<String, String> names = composeVmNames(vmSpec);
    String vmInternalCSName = names.first();
    String vmNameOnVcenter = names.second();
    String dataDiskController = vmSpec.getDetails().get(VmDetailConstants.DATA_DISK_CONTROLLER);
    String rootDiskController = vmSpec.getDetails().get(VmDetailConstants.ROOT_DISK_CONTROLLER);
    DiskTO rootDiskTO = null;
    // This helps avoid mix of different scsi subtype controllers in instance.
    if (DiskControllerType.lsilogic == DiskControllerType.getType(rootDiskController)) {
        dataDiskController = DiskControllerType.scsi.toString();
    }
    // Validate the controller types
    dataDiskController = DiskControllerType.getType(dataDiskController).toString();
    rootDiskController = DiskControllerType.getType(rootDiskController).toString();
    if (DiskControllerType.getType(rootDiskController) == DiskControllerType.none) {
        throw new CloudRuntimeException("Invalid root disk controller detected : " + rootDiskController);
    }
    if (DiskControllerType.getType(dataDiskController) == DiskControllerType.none) {
        throw new CloudRuntimeException("Invalid data disk controller detected : " + dataDiskController);
    }
    Pair<String, String> controllerInfo = new Pair<String, String>(rootDiskController, dataDiskController);
    Boolean systemVm = vmSpec.getType().isUsedBySystem();
    // Thus, vmInternalCSName always holds i-x-y, the cloudstack generated internal VM name.
    VmwareContext context = getServiceContext();
    DatacenterMO dcMo = null;
    try {
        VmwareManager mgr = context.getStockObject(VmwareManager.CONTEXT_STOCK_NAME);
        VmwareHypervisorHost hyperHost = getHyperHost(context);
        dcMo = new DatacenterMO(hyperHost.getContext(), hyperHost.getHyperHostDatacenter());
        // Validate VM name is unique in Datacenter
        VirtualMachineMO vmInVcenter = dcMo.checkIfVmAlreadyExistsInVcenter(vmNameOnVcenter, vmInternalCSName);
        if (vmInVcenter != null) {
            vmAlreadyExistsInVcenter = true;
            String msg = "VM with name: " + vmNameOnVcenter + " already exists in vCenter.";
            s_logger.error(msg);
            throw new Exception(msg);
        }
        String guestOsId = translateGuestOsIdentifier(vmSpec.getArch(), vmSpec.getOs(), vmSpec.getPlatformEmulator()).value();
        DiskTO[] disks = validateDisks(vmSpec.getDisks());
        assert (disks.length > 0);
        NicTO[] nics = vmSpec.getNics();
        HashMap<String, Pair<ManagedObjectReference, DatastoreMO>> dataStoresDetails = inferDatastoreDetailsFromDiskInfo(hyperHost, context, disks, cmd);
        if ((dataStoresDetails == null) || (dataStoresDetails.isEmpty())) {
            String msg = "Unable to locate datastore details of the volumes to be attached";
            s_logger.error(msg);
            throw new Exception(msg);
        }
        DatastoreMO dsRootVolumeIsOn = getDatastoreThatRootDiskIsOn(dataStoresDetails, disks);
        if (dsRootVolumeIsOn == null) {
            String msg = "Unable to locate datastore details of root volume";
            s_logger.error(msg);
            throw new Exception(msg);
        }
        VirtualMachineDiskInfoBuilder diskInfoBuilder = null;
        VirtualMachineMO vmMo = hyperHost.findVmOnHyperHost(vmInternalCSName);
        DiskControllerType systemVmScsiControllerType = DiskControllerType.lsilogic;
        int firstScsiControllerBusNum = 0;
        int numScsiControllerForSystemVm = 1;
        boolean hasSnapshot = false;
        if (vmMo != null) {
            s_logger.info("VM " + vmInternalCSName + " already exists, tear down devices for reconfiguration");
            if (getVmPowerState(vmMo) != PowerState.PowerOff)
                vmMo.safePowerOff(_shutdownWaitMs);
            // retrieve disk information before we tear down
            diskInfoBuilder = vmMo.getDiskInfoBuilder();
            hasSnapshot = vmMo.hasSnapshot();
            if (!hasSnapshot)
                vmMo.tearDownDevices(new Class<?>[] { VirtualDisk.class, VirtualEthernetCard.class });
            else
                vmMo.tearDownDevices(new Class<?>[] { VirtualEthernetCard.class });
            if (systemVm) {
                ensureScsiDiskControllers(vmMo, systemVmScsiControllerType.toString(), numScsiControllerForSystemVm, firstScsiControllerBusNum);
            } else {
                ensureDiskControllers(vmMo, controllerInfo);
            }
        } else {
            ManagedObjectReference morDc = hyperHost.getHyperHostDatacenter();
            assert (morDc != null);
            vmMo = hyperHost.findVmOnPeerHyperHost(vmInternalCSName);
            if (vmMo != null) {
                if (s_logger.isInfoEnabled()) {
                    s_logger.info("Found vm " + vmInternalCSName + " at other host, relocate to " + hyperHost.getHyperHostName());
                }
                takeVmFromOtherHyperHost(hyperHost, vmInternalCSName);
                if (getVmPowerState(vmMo) != PowerState.PowerOff)
                    vmMo.safePowerOff(_shutdownWaitMs);
                diskInfoBuilder = vmMo.getDiskInfoBuilder();
                hasSnapshot = vmMo.hasSnapshot();
                if (!hasSnapshot)
                    vmMo.tearDownDevices(new Class<?>[] { VirtualDisk.class, VirtualEthernetCard.class });
                else
                    vmMo.tearDownDevices(new Class<?>[] { VirtualEthernetCard.class });
                if (systemVm) {
                    // System volumes doesn't require more than 1 SCSI controller as there is no requirement for data volumes.
                    ensureScsiDiskControllers(vmMo, systemVmScsiControllerType.toString(), numScsiControllerForSystemVm, firstScsiControllerBusNum);
                } else {
                    ensureDiskControllers(vmMo, controllerInfo);
                }
            } else {
                // If a VM with the same name is found in a different cluster in the DC, unregister the old VM and configure a new VM (cold-migration).
                VirtualMachineMO existingVmInDc = dcMo.findVm(vmInternalCSName);
                if (existingVmInDc != null) {
                    s_logger.debug("Found VM: " + vmInternalCSName + " on a host in a different cluster. Unregistering the exisitng VM.");
                    existingVmName = existingVmInDc.getName();
                    existingVmFileInfo = existingVmInDc.getFileInfo();
                    existingVmFileLayout = existingVmInDc.getFileLayout();
                    existingVmInDc.unregisterVm();
                }
                Pair<ManagedObjectReference, DatastoreMO> rootDiskDataStoreDetails = null;
                for (DiskTO vol : disks) {
                    if (vol.getType() == Volume.Type.ROOT) {
                        Map<String, String> details = vol.getDetails();
                        boolean managed = false;
                        if (details != null) {
                            managed = Boolean.parseBoolean(details.get(DiskTO.MANAGED));
                        }
                        if (managed) {
                            String datastoreName = VmwareResource.getDatastoreName(details.get(DiskTO.IQN));
                            rootDiskDataStoreDetails = dataStoresDetails.get(datastoreName);
                        } else {
                            DataStoreTO primaryStore = vol.getData().getDataStore();
                            rootDiskDataStoreDetails = dataStoresDetails.get(primaryStore.getUuid());
                        }
                    }
                }
                assert (vmSpec.getMinSpeed() != null) && (rootDiskDataStoreDetails != null);
                boolean vmFolderExists = rootDiskDataStoreDetails.second().folderExists(String.format("[%s]", rootDiskDataStoreDetails.second().getName()), vmNameOnVcenter);
                String vmxFileFullPath = dsRootVolumeIsOn.searchFileInSubFolders(vmNameOnVcenter + ".vmx", false);
                if (vmFolderExists && vmxFileFullPath != null) {
                    // VM can be registered only if .vmx is present.
                    registerVm(vmNameOnVcenter, dsRootVolumeIsOn);
                    vmMo = hyperHost.findVmOnHyperHost(vmInternalCSName);
                    if (vmMo != null) {
                        if (s_logger.isDebugEnabled()) {
                            s_logger.debug("Found registered vm " + vmInternalCSName + " at host " + hyperHost.getHyperHostName());
                        }
                    }
                    tearDownVm(vmMo);
                } else if (!hyperHost.createBlankVm(vmNameOnVcenter, vmInternalCSName, vmSpec.getCpus(), vmSpec.getMaxSpeed().intValue(), getReservedCpuMHZ(vmSpec), vmSpec.getLimitCpuUse(), (int) (vmSpec.getMaxRam() / (1024 * 1024)), getReservedMemoryMb(vmSpec), guestOsId, rootDiskDataStoreDetails.first(), false, controllerInfo, systemVm)) {
                    throw new Exception("Failed to create VM. vmName: " + vmInternalCSName);
                }
            }
            vmMo = hyperHost.findVmOnHyperHost(vmInternalCSName);
            if (vmMo == null) {
                throw new Exception("Failed to find the newly create or relocated VM. vmName: " + vmInternalCSName);
            }
        }
        int totalChangeDevices = disks.length + nics.length;
        DiskTO volIso = null;
        if (vmSpec.getType() != VirtualMachine.Type.User) {
            // system VM needs a patch ISO
            totalChangeDevices++;
        } else {
            volIso = getIsoDiskTO(disks);
            if (volIso == null)
                totalChangeDevices++;
        }
        VirtualMachineConfigSpec vmConfigSpec = new VirtualMachineConfigSpec();
        VmwareHelper.setBasicVmConfig(vmConfigSpec, vmSpec.getCpus(), vmSpec.getMaxSpeed(), getReservedCpuMHZ(vmSpec), (int) (vmSpec.getMaxRam() / (1024 * 1024)), getReservedMemoryMb(vmSpec), guestOsId, vmSpec.getLimitCpuUse());
        // Check for multi-cores per socket settings
        int numCoresPerSocket = 1;
        String coresPerSocket = vmSpec.getDetails().get("cpu.corespersocket");
        if (coresPerSocket != null) {
            String apiVersion = HypervisorHostHelper.getVcenterApiVersion(vmMo.getContext());
            // Property 'numCoresPerSocket' is supported since vSphere API 5.0
            if (apiVersion.compareTo("5.0") >= 0) {
                numCoresPerSocket = NumbersUtil.parseInt(coresPerSocket, 1);
                vmConfigSpec.setNumCoresPerSocket(numCoresPerSocket);
            }
        }
        // Check for hotadd settings
        vmConfigSpec.setMemoryHotAddEnabled(vmMo.isMemoryHotAddSupported(guestOsId));
        String hostApiVersion = ((HostMO) hyperHost).getHostAboutInfo().getApiVersion();
        if (numCoresPerSocket > 1 && hostApiVersion.compareTo("5.0") < 0) {
            s_logger.warn("Dynamic scaling of CPU is not supported for Virtual Machines with multi-core vCPUs in case of ESXi hosts 4.1 and prior. Hence CpuHotAdd will not be" + " enabled for Virtual Machine: " + vmInternalCSName);
            vmConfigSpec.setCpuHotAddEnabled(false);
        } else {
            vmConfigSpec.setCpuHotAddEnabled(vmMo.isCpuHotAddSupported(guestOsId));
        }
        configNestedHVSupport(vmMo, vmSpec, vmConfigSpec);
        VirtualDeviceConfigSpec[] deviceConfigSpecArray = new VirtualDeviceConfigSpec[totalChangeDevices];
        int i = 0;
        int ideUnitNumber = 0;
        int scsiUnitNumber = 0;
        int nicUnitNumber = 0;
        int ideControllerKey = vmMo.getIDEDeviceControllerKey();
        int scsiControllerKey = vmMo.getGenericScsiDeviceControllerKeyNoException();
        int controllerKey;
        // prepare systemvm patch ISO
        if (vmSpec.getType() != VirtualMachine.Type.User) {
            // attach ISO (for patching of system VM)
            Pair<String, Long> secStoreUrlAndId = mgr.getSecondaryStorageStoreUrlAndId(Long.parseLong(_dcId));
            String secStoreUrl = secStoreUrlAndId.first();
            Long secStoreId = secStoreUrlAndId.second();
            if (secStoreUrl == null) {
                String msg = "secondary storage for dc " + _dcId + " is not ready yet?";
                throw new Exception(msg);
            }
            mgr.prepareSecondaryStorageStore(secStoreUrl, secStoreId);
            ManagedObjectReference morSecDs = prepareSecondaryDatastoreOnHost(secStoreUrl);
            if (morSecDs == null) {
                String msg = "Failed to prepare secondary storage on host, secondary store url: " + secStoreUrl;
                throw new Exception(msg);
            }
            DatastoreMO secDsMo = new DatastoreMO(hyperHost.getContext(), morSecDs);
            deviceConfigSpecArray[i] = new VirtualDeviceConfigSpec();
            Pair<VirtualDevice, Boolean> isoInfo = VmwareHelper.prepareIsoDevice(vmMo, String.format("[%s] systemvm/%s", secDsMo.getName(), mgr.getSystemVMIsoFileNameOnDatastore()), secDsMo.getMor(), true, true, ideUnitNumber++, i + 1);
            deviceConfigSpecArray[i].setDevice(isoInfo.first());
            if (isoInfo.second()) {
                if (s_logger.isDebugEnabled())
                    s_logger.debug("Prepare ISO volume at new device " + _gson.toJson(isoInfo.first()));
                deviceConfigSpecArray[i].setOperation(VirtualDeviceConfigSpecOperation.ADD);
            } else {
                if (s_logger.isDebugEnabled())
                    s_logger.debug("Prepare ISO volume at existing device " + _gson.toJson(isoInfo.first()));
                deviceConfigSpecArray[i].setOperation(VirtualDeviceConfigSpecOperation.EDIT);
            }
        } else {
            // Note: we will always plug a CDROM device
            if (volIso != null) {
                TemplateObjectTO iso = (TemplateObjectTO) volIso.getData();
                if (iso.getPath() != null && !iso.getPath().isEmpty()) {
                    DataStoreTO imageStore = iso.getDataStore();
                    if (!(imageStore instanceof NfsTO)) {
                        s_logger.debug("unsupported protocol");
                        throw new Exception("unsupported protocol");
                    }
                    NfsTO nfsImageStore = (NfsTO) imageStore;
                    String isoPath = nfsImageStore.getUrl() + File.separator + iso.getPath();
                    Pair<String, ManagedObjectReference> isoDatastoreInfo = getIsoDatastoreInfo(hyperHost, isoPath);
                    assert (isoDatastoreInfo != null);
                    assert (isoDatastoreInfo.second() != null);
                    deviceConfigSpecArray[i] = new VirtualDeviceConfigSpec();
                    Pair<VirtualDevice, Boolean> isoInfo = VmwareHelper.prepareIsoDevice(vmMo, isoDatastoreInfo.first(), isoDatastoreInfo.second(), true, true, ideUnitNumber++, i + 1);
                    deviceConfigSpecArray[i].setDevice(isoInfo.first());
                    if (isoInfo.second()) {
                        if (s_logger.isDebugEnabled())
                            s_logger.debug("Prepare ISO volume at new device " + _gson.toJson(isoInfo.first()));
                        deviceConfigSpecArray[i].setOperation(VirtualDeviceConfigSpecOperation.ADD);
                    } else {
                        if (s_logger.isDebugEnabled())
                            s_logger.debug("Prepare ISO volume at existing device " + _gson.toJson(isoInfo.first()));
                        deviceConfigSpecArray[i].setOperation(VirtualDeviceConfigSpecOperation.EDIT);
                    }
                }
            } else {
                deviceConfigSpecArray[i] = new VirtualDeviceConfigSpec();
                Pair<VirtualDevice, Boolean> isoInfo = VmwareHelper.prepareIsoDevice(vmMo, null, null, true, true, ideUnitNumber++, i + 1);
                deviceConfigSpecArray[i].setDevice(isoInfo.first());
                if (isoInfo.second()) {
                    if (s_logger.isDebugEnabled())
                        s_logger.debug("Prepare ISO volume at existing device " + _gson.toJson(isoInfo.first()));
                    deviceConfigSpecArray[i].setOperation(VirtualDeviceConfigSpecOperation.ADD);
                } else {
                    if (s_logger.isDebugEnabled())
                        s_logger.debug("Prepare ISO volume at existing device " + _gson.toJson(isoInfo.first()));
                    deviceConfigSpecArray[i].setOperation(VirtualDeviceConfigSpecOperation.EDIT);
                }
            }
        }
        i++;
        //
        // Setup ROOT/DATA disk devices
        //
        DiskTO[] sortedDisks = sortVolumesByDeviceId(disks);
        for (DiskTO vol : sortedDisks) {
            if (vol.getType() == Volume.Type.ISO)
                continue;
            VirtualMachineDiskInfo matchingExistingDisk = getMatchingExistingDisk(diskInfoBuilder, vol, hyperHost, context);
            controllerKey = getDiskController(matchingExistingDisk, vol, vmSpec, ideControllerKey, scsiControllerKey);
            String diskController = getDiskController(vmMo, matchingExistingDisk, vol, new Pair<String, String>(rootDiskController, dataDiskController));
            if (DiskControllerType.getType(diskController) == DiskControllerType.osdefault) {
                diskController = vmMo.getRecommendedDiskController(null);
            }
            if (DiskControllerType.getType(diskController) == DiskControllerType.ide) {
                controllerKey = vmMo.getIDEControllerKey(ideUnitNumber);
                if (vol.getType() == Volume.Type.DATADISK) {
                    // Ensure maximum of 2 data volumes over IDE controller, 3 includeing root volume
                    if (vmMo.getNumberOfVirtualDisks() > 3) {
                        throw new CloudRuntimeException("Found more than 3 virtual disks attached to this VM [" + vmMo.getVmName() + "]. Unable to implement the disks over " + diskController + " controller, as maximum number of devices supported over IDE controller is 4 includeing CDROM device.");
                    }
                }
            } else {
                controllerKey = vmMo.getScsiDiskControllerKeyNoException(diskController);
                if (controllerKey == -1) {
                    // This may happen for ROOT legacy VMs which doesn't have recommended disk controller when global configuration parameter 'vmware.root.disk.controller' is set to "osdefault"
                    // Retrieve existing controller and use.
                    Ternary<Integer, Integer, DiskControllerType> vmScsiControllerInfo = vmMo.getScsiControllerInfo();
                    DiskControllerType existingControllerType = vmScsiControllerInfo.third();
                    controllerKey = vmMo.getScsiDiskControllerKeyNoException(existingControllerType.toString());
                }
            }
            if (!hasSnapshot) {
                deviceConfigSpecArray[i] = new VirtualDeviceConfigSpec();
                VolumeObjectTO volumeTO = (VolumeObjectTO) vol.getData();
                DataStoreTO primaryStore = volumeTO.getDataStore();
                Map<String, String> details = vol.getDetails();
                boolean managed = false;
                String iScsiName = null;
                if (details != null) {
                    managed = Boolean.parseBoolean(details.get(DiskTO.MANAGED));
                    iScsiName = details.get(DiskTO.IQN);
                }
                // if the storage is managed, iScsiName should not be null
                String datastoreName = managed ? VmwareResource.getDatastoreName(iScsiName) : primaryStore.getUuid();
                Pair<ManagedObjectReference, DatastoreMO> volumeDsDetails = dataStoresDetails.get(datastoreName);
                assert (volumeDsDetails != null);
                String[] diskChain = syncDiskChain(dcMo, vmMo, vmSpec, vol, matchingExistingDisk, dataStoresDetails);
                if (controllerKey == scsiControllerKey && VmwareHelper.isReservedScsiDeviceNumber(scsiUnitNumber))
                    scsiUnitNumber++;
                VirtualDevice device = VmwareHelper.prepareDiskDevice(vmMo, null, controllerKey, diskChain, volumeDsDetails.first(), (controllerKey == vmMo.getIDEControllerKey(ideUnitNumber)) ? ((ideUnitNumber++) % VmwareHelper.MAX_IDE_CONTROLLER_COUNT) : scsiUnitNumber++, i + 1);
                if (vol.getType() == Volume.Type.ROOT)
                    rootDiskTO = vol;
                deviceConfigSpecArray[i].setDevice(device);
                deviceConfigSpecArray[i].setOperation(VirtualDeviceConfigSpecOperation.ADD);
                if (s_logger.isDebugEnabled())
                    s_logger.debug("Prepare volume at new device " + _gson.toJson(device));
                i++;
            } else {
                if (controllerKey == scsiControllerKey && VmwareHelper.isReservedScsiDeviceNumber(scsiUnitNumber))
                    scsiUnitNumber++;
                if (controllerKey == vmMo.getIDEControllerKey(ideUnitNumber))
                    ideUnitNumber++;
                else
                    scsiUnitNumber++;
            }
        }
        //
        if (guestOsId.startsWith("darwin")) {
            //Mac OS
            VirtualDevice[] devices = vmMo.getMatchedDevices(new Class<?>[] { VirtualUSBController.class });
            if (devices.length == 0) {
                s_logger.debug("No USB Controller device on VM Start. Add USB Controller device for Mac OS VM " + vmInternalCSName);
                //For Mac OS X systems, the EHCI+UHCI controller is enabled by default and is required for USB mouse and keyboard access.
                VirtualDevice usbControllerDevice = VmwareHelper.prepareUSBControllerDevice();
                deviceConfigSpecArray[i] = new VirtualDeviceConfigSpec();
                deviceConfigSpecArray[i].setDevice(usbControllerDevice);
                deviceConfigSpecArray[i].setOperation(VirtualDeviceConfigSpecOperation.ADD);
                if (s_logger.isDebugEnabled())
                    s_logger.debug("Prepare USB controller at new device " + _gson.toJson(deviceConfigSpecArray[i]));
                i++;
            } else {
                s_logger.debug("USB Controller device exists on VM Start for Mac OS VM " + vmInternalCSName);
            }
        }
        //
        // Setup NIC devices
        //
        VirtualDevice nic;
        int nicMask = 0;
        int nicCount = 0;
        VirtualEthernetCardType nicDeviceType = VirtualEthernetCardType.valueOf(vmSpec.getDetails().get(VmDetailConstants.NIC_ADAPTER));
        if (s_logger.isDebugEnabled())
            s_logger.debug("VM " + vmInternalCSName + " will be started with NIC device type: " + nicDeviceType);
        NiciraNvpApiVersion.logNiciraApiVersion();
        Map<String, String> nicUuidToDvSwitchUuid = new HashMap<String, String>();
        for (NicTO nicTo : sortNicsByDeviceId(nics)) {
            s_logger.info("Prepare NIC device based on NicTO: " + _gson.toJson(nicTo));
            boolean configureVServiceInNexus = (nicTo.getType() == TrafficType.Guest) && (vmSpec.getDetails().containsKey("ConfigureVServiceInNexus"));
            VirtualMachine.Type vmType = cmd.getVirtualMachine().getType();
            Pair<ManagedObjectReference, String> networkInfo = prepareNetworkFromNicInfo(vmMo.getRunningHost(), nicTo, configureVServiceInNexus, vmType);
            if ((nicTo.getBroadcastType() != BroadcastDomainType.Lswitch) || (nicTo.getBroadcastType() == BroadcastDomainType.Lswitch && NiciraNvpApiVersion.isApiVersionLowerThan("4.2"))) {
                if (VmwareHelper.isDvPortGroup(networkInfo.first())) {
                    String dvSwitchUuid;
                    ManagedObjectReference dcMor = hyperHost.getHyperHostDatacenter();
                    DatacenterMO dataCenterMo = new DatacenterMO(context, dcMor);
                    ManagedObjectReference dvsMor = dataCenterMo.getDvSwitchMor(networkInfo.first());
                    dvSwitchUuid = dataCenterMo.getDvSwitchUuid(dvsMor);
                    s_logger.info("Preparing NIC device on dvSwitch : " + dvSwitchUuid);
                    nic = VmwareHelper.prepareDvNicDevice(vmMo, networkInfo.first(), nicDeviceType, networkInfo.second(), dvSwitchUuid, nicTo.getMac(), nicUnitNumber++, i + 1, true, true);
                    if (nicTo.getUuid() != null) {
                        nicUuidToDvSwitchUuid.put(nicTo.getUuid(), dvSwitchUuid);
                    }
                } else {
                    s_logger.info("Preparing NIC device on network " + networkInfo.second());
                    nic = VmwareHelper.prepareNicDevice(vmMo, networkInfo.first(), nicDeviceType, networkInfo.second(), nicTo.getMac(), nicUnitNumber++, i + 1, true, true);
                }
            } else {
                //if NSX API VERSION >= 4.2, connect to br-int (nsx.network), do not create portgroup else previous behaviour
                nic = VmwareHelper.prepareNicOpaque(vmMo, nicDeviceType, networkInfo.second(), nicTo.getMac(), nicUnitNumber++, i + 1, true, true);
            }
            deviceConfigSpecArray[i] = new VirtualDeviceConfigSpec();
            deviceConfigSpecArray[i].setDevice(nic);
            deviceConfigSpecArray[i].setOperation(VirtualDeviceConfigSpecOperation.ADD);
            if (s_logger.isDebugEnabled())
                s_logger.debug("Prepare NIC at new device " + _gson.toJson(deviceConfigSpecArray[i]));
            // this is really a hacking for DomR, upon DomR startup, we will reset all the NIC allocation after eth3
            if (nicCount < 3)
                nicMask |= (1 << nicCount);
            i++;
            nicCount++;
        }
        for (int j = 0; j < i; j++) vmConfigSpec.getDeviceChange().add(deviceConfigSpecArray[j]);
        //
        // Setup VM options
        //
        // pass boot arguments through machine.id & perform customized options to VMX
        ArrayList<OptionValue> extraOptions = new ArrayList<OptionValue>();
        configBasicExtraOption(extraOptions, vmSpec);
        configNvpExtraOption(extraOptions, vmSpec, nicUuidToDvSwitchUuid);
        configCustomExtraOption(extraOptions, vmSpec);
        // config VNC
        String keyboardLayout = null;
        if (vmSpec.getDetails() != null)
            keyboardLayout = vmSpec.getDetails().get(VmDetailConstants.KEYBOARD);
        vmConfigSpec.getExtraConfig().addAll(Arrays.asList(configureVnc(extraOptions.toArray(new OptionValue[0]), hyperHost, vmInternalCSName, vmSpec.getVncPassword(), keyboardLayout)));
        // config video card
        configureVideoCard(vmMo, vmSpec, vmConfigSpec);
        //
        if (!vmMo.configureVm(vmConfigSpec)) {
            throw new Exception("Failed to configure VM before start. vmName: " + vmInternalCSName);
        }
        if (vmSpec.getType() == VirtualMachine.Type.DomainRouter) {
            hyperHost.setRestartPriorityForVM(vmMo, DasVmPriority.HIGH.value());
        }
        //For resizing root disk.
        if (rootDiskTO != null && !hasSnapshot) {
            resizeRootDisk(vmMo, rootDiskTO, hyperHost, context);
        }
        //
        // Post Configuration
        //
        vmMo.setCustomFieldValue(CustomFieldConstants.CLOUD_NIC_MASK, String.valueOf(nicMask));
        postNvpConfigBeforeStart(vmMo, vmSpec);
        Map<String, String> iqnToPath = new HashMap<String, String>();
        postDiskConfigBeforeStart(vmMo, vmSpec, sortedDisks, ideControllerKey, scsiControllerKey, iqnToPath, hyperHost, context);
        //
        if (!vmMo.powerOn()) {
            throw new Exception("Failed to start VM. vmName: " + vmInternalCSName + " with hostname " + vmNameOnVcenter);
        }
        StartAnswer startAnswer = new StartAnswer(cmd);
        startAnswer.setIqnToPath(iqnToPath);
        // Since VM was successfully powered-on, if there was an existing VM in a different cluster that was unregistered, delete all the files associated with it.
        if (existingVmName != null && existingVmFileLayout != null) {
            deleteUnregisteredVmFiles(existingVmFileLayout, dcMo, true);
        }
        return startAnswer;
    } catch (Throwable e) {
        if (e instanceof RemoteException) {
            s_logger.warn("Encounter remote exception to vCenter, invalidate VMware session context");
            invalidateServiceContext();
        }
        String msg = "StartCommand failed due to " + VmwareHelper.getExceptionMessage(e);
        s_logger.warn(msg, e);
        StartAnswer startAnswer = new StartAnswer(cmd, msg);
        if (vmAlreadyExistsInVcenter) {
            startAnswer.setContextParam("stopRetry", "true");
        }
        // Since VM start failed, if there was an existing VM in a different cluster that was unregistered, register it back.
        if (existingVmName != null && existingVmFileInfo != null) {
            s_logger.debug("Since VM start failed, registering back an existing VM: " + existingVmName + " that was unregistered");
            try {
                DatastoreFile fileInDatastore = new DatastoreFile(existingVmFileInfo.getVmPathName());
                DatastoreMO existingVmDsMo = new DatastoreMO(dcMo.getContext(), dcMo.findDatastore(fileInDatastore.getDatastoreName()));
                registerVm(existingVmName, existingVmDsMo);
            } catch (Exception ex) {
                String message = "Failed to register an existing VM: " + existingVmName + " due to " + VmwareHelper.getExceptionMessage(ex);
                s_logger.warn(message, ex);
            }
        }
        return startAnswer;
    } finally {
    }
}

Example 40 with VirtualDeviceConfigSpec

use of com.vmware.vim25.VirtualDeviceConfigSpec in project cloudstack by apache.

the class VmwareResource method execute.

private UnPlugNicAnswer execute(UnPlugNicCommand cmd) {
    if (s_logger.isInfoEnabled()) {
        s_logger.info("Executing resource UnPlugNicCommand " + _gson.toJson(cmd));
    }
    VmwareContext context = getServiceContext();
    try {
        VmwareHypervisorHost hyperHost = getHyperHost(context);
        String vmName = cmd.getVmName();
        VirtualMachineMO vmMo = hyperHost.findVmOnHyperHost(vmName);
        if (vmMo == null) {
            if (hyperHost instanceof HostMO) {
                ClusterMO clusterMo = new ClusterMO(hyperHost.getContext(), ((HostMO) hyperHost).getParentMor());
                vmMo = clusterMo.findVmOnHyperHost(vmName);
            }
        }
        if (vmMo == null) {
            String msg = "VM " + vmName + " no longer exists to execute UnPlugNic command";
            s_logger.error(msg);
            throw new Exception(msg);
        }
        /*
            if(!isVMWareToolsInstalled(vmMo)){
                String errMsg = "vmware tools not installed or not running, cannot remove nic from vm " + vmName;
                s_logger.debug(errMsg);
                return new UnPlugNicAnswer(cmd, false, "Unable to execute unPlugNicCommand due to " + errMsg);
            }
             */
        VirtualDevice nic = findVirtualNicDevice(vmMo, cmd.getNic().getMac());
        if (nic == null) {
            return new UnPlugNicAnswer(cmd, true, "success");
        }
        VirtualMachineConfigSpec vmConfigSpec = new VirtualMachineConfigSpec();
        //VirtualDeviceConfigSpec[] deviceConfigSpecArray = new VirtualDeviceConfigSpec[1];
        VirtualDeviceConfigSpec deviceConfigSpec = new VirtualDeviceConfigSpec();
        deviceConfigSpec.setDevice(nic);
        deviceConfigSpec.setOperation(VirtualDeviceConfigSpecOperation.REMOVE);
        vmConfigSpec.getDeviceChange().add(deviceConfigSpec);
        if (!vmMo.configureVm(vmConfigSpec)) {
            throw new Exception("Failed to configure devices when running unplugNicCommand");
        }
        return new UnPlugNicAnswer(cmd, true, "success");
    } catch (Exception e) {
        s_logger.error("Unexpected exception: ", e);
        return new UnPlugNicAnswer(cmd, false, "Unable to execute unPlugNicCommand due to " + e.toString());
    }
}