com.yunshan.cloudstack.vmware.util.VmwareHelper.java Source code

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package com.yunshan.cloudstack.vmware.util;

import java.io.BufferedWriter;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.OutputStreamWriter;
import java.io.PrintWriter;
import java.io.StringWriter;
import java.lang.reflect.Method;
import java.util.ArrayList;
import java.util.List;
import java.util.Random;
import java.util.UUID;

import org.apache.commons.lang.StringUtils;
import org.apache.log4j.Logger;

import com.vmware.vim25.DistributedVirtualSwitchPortConnection;
import com.vmware.vim25.DynamicProperty;
import com.vmware.vim25.ManagedObjectReference;
import com.vmware.vim25.MethodFault;
import com.vmware.vim25.ObjectContent;
import com.vmware.vim25.OptionValue;
import com.vmware.vim25.ResourceAllocationInfo;
import com.vmware.vim25.VirtualCdrom;
import com.vmware.vim25.VirtualCdromIsoBackingInfo;
import com.vmware.vim25.VirtualCdromRemotePassthroughBackingInfo;
import com.vmware.vim25.VirtualDevice;
import com.vmware.vim25.VirtualDeviceBackingInfo;
import com.vmware.vim25.VirtualDeviceConnectInfo;
import com.vmware.vim25.VirtualDisk;
import com.vmware.vim25.VirtualDiskFlatVer1BackingInfo;
import com.vmware.vim25.VirtualDiskFlatVer2BackingInfo;
import com.vmware.vim25.VirtualDiskMode;
import com.vmware.vim25.VirtualDiskRawDiskMappingVer1BackingInfo;
import com.vmware.vim25.VirtualDiskSparseVer1BackingInfo;
import com.vmware.vim25.VirtualDiskSparseVer2BackingInfo;
import com.vmware.vim25.VirtualE1000;
import com.vmware.vim25.VirtualEthernetCard;
import com.vmware.vim25.VirtualEthernetCardDistributedVirtualPortBackingInfo;
import com.vmware.vim25.VirtualEthernetCardNetworkBackingInfo;
import com.vmware.vim25.VirtualMachineConfigSpec;
import com.vmware.vim25.VirtualMachineSnapshotTree;
import com.vmware.vim25.VirtualPCNet32;
import com.vmware.vim25.VirtualVmxnet2;
import com.vmware.vim25.VirtualVmxnet3;

import com.yunshan.cloudstack.utils.Pair;
import com.yunshan.cloudstack.utils.Ternary;
import com.yunshan.cloudstack.utils.exception.ExceptionUtil;
import com.yunshan.cloudstack.vmware.mo.LicenseAssignmentManagerMO;
import com.yunshan.cloudstack.vmware.mo.VirtualEthernetCardType;
import com.yunshan.cloudstack.vmware.mo.VirtualMachineMO;
import com.yunshan.cloudstack.vmware.mo.VmwareHypervisorHost;
import com.yunshan.cloudstack.vmware.mo.HostMO;

public class VmwareHelper {

    @SuppressWarnings("unused")
    private static final Logger s_logger = Logger.getLogger(VmwareHelper.class);

    public static boolean isReservedScsiDeviceNumber(int deviceNumber) {
        return deviceNumber == 7;
    }

    public static VirtualDevice prepareNicDevice(VirtualMachineMO vmMo, ManagedObjectReference morNetwork,
            VirtualEthernetCardType deviceType, String portGroupName, String macAddress, int deviceNumber,
            int contextNumber, boolean conntected, boolean connectOnStart) throws Exception {

        VirtualEthernetCard nic;
        switch (deviceType) {
        case E1000:
            nic = new VirtualE1000();
            break;

        case PCNet32:
            nic = new VirtualPCNet32();
            break;

        case Vmxnet2:
            nic = new VirtualVmxnet2();
            break;

        case Vmxnet3:
            nic = new VirtualVmxnet3();
            break;

        default:
            assert (false);
            nic = new VirtualE1000();
        }

        VirtualEthernetCardNetworkBackingInfo nicBacking = new VirtualEthernetCardNetworkBackingInfo();
        nicBacking.setDeviceName(portGroupName);
        nicBacking.setNetwork(morNetwork);
        nic.setBacking(nicBacking);

        VirtualDeviceConnectInfo connectInfo = new VirtualDeviceConnectInfo();
        connectInfo.setAllowGuestControl(true);
        connectInfo.setConnected(conntected);
        connectInfo.setStartConnected(connectOnStart);
        nic.setAddressType("Manual");
        nic.setConnectable(connectInfo);
        nic.setMacAddress(macAddress);
        nic.setUnitNumber(deviceNumber);
        nic.setKey(-contextNumber);
        return nic;
    }

    public static VirtualDevice prepareDvNicDevice(VirtualMachineMO vmMo, ManagedObjectReference morNetwork,
            VirtualEthernetCardType deviceType, String dvPortGroupName, String dvSwitchUuid, String macAddress,
            int deviceNumber, int contextNumber, boolean conntected, boolean connectOnStart) throws Exception {

        VirtualEthernetCard nic;
        switch (deviceType) {
        case E1000:
            nic = new VirtualE1000();
            break;

        case PCNet32:
            nic = new VirtualPCNet32();
            break;

        case Vmxnet2:
            nic = new VirtualVmxnet2();
            break;

        case Vmxnet3:
            nic = new VirtualVmxnet3();
            break;

        default:
            assert (false);
            nic = new VirtualE1000();
        }

        final VirtualEthernetCardDistributedVirtualPortBackingInfo dvPortBacking = new VirtualEthernetCardDistributedVirtualPortBackingInfo();
        final DistributedVirtualSwitchPortConnection dvPortConnection = new DistributedVirtualSwitchPortConnection();
        final VirtualDeviceConnectInfo connectInfo = new VirtualDeviceConnectInfo();

        dvPortConnection.setSwitchUuid(dvSwitchUuid);
        dvPortConnection.setPortgroupKey(morNetwork.getValue());
        dvPortBacking.setPort(dvPortConnection);
        nic.setBacking(dvPortBacking);
        nic.setKey(30);

        connectInfo.setAllowGuestControl(true);
        connectInfo.setConnected(conntected);
        connectInfo.setStartConnected(connectOnStart);
        nic.setAddressType("Manual");
        nic.setConnectable(connectInfo);
        nic.setMacAddress(macAddress);

        nic.setUnitNumber(deviceNumber);
        nic.setKey(-contextNumber);
        return nic;
    }

    // vmdkDatastorePath: [datastore name] vmdkFilePath
    public static VirtualDevice prepareDiskDevice(VirtualMachineMO vmMo, int controllerKey,
            String vmdkDatastorePath, int sizeInMb, ManagedObjectReference morDs, int deviceNumber,
            int contextNumber) throws Exception {

        VirtualDisk disk = new VirtualDisk();

        VirtualDiskFlatVer2BackingInfo backingInfo = new VirtualDiskFlatVer2BackingInfo();
        backingInfo.setDiskMode(VirtualDiskMode.PERSISTENT.value());
        backingInfo.setThinProvisioned(true);
        backingInfo.setEagerlyScrub(false);
        backingInfo.setDatastore(morDs);
        backingInfo.setFileName(vmdkDatastorePath);
        disk.setBacking(backingInfo);

        int ideControllerKey = vmMo.getIDEDeviceControllerKey();
        if (controllerKey < 0)
            controllerKey = ideControllerKey;
        if (deviceNumber < 0) {
            deviceNumber = vmMo.getNextDeviceNumber(controllerKey);
        }
        disk.setControllerKey(controllerKey);

        disk.setKey(-contextNumber);
        disk.setUnitNumber(deviceNumber);
        disk.setCapacityInKB(sizeInMb * 1024);

        VirtualDeviceConnectInfo connectInfo = new VirtualDeviceConnectInfo();
        connectInfo.setConnected(true);
        connectInfo.setStartConnected(true);
        disk.setConnectable(connectInfo);

        return disk;
    }

    // vmdkDatastorePath: [datastore name] vmdkFilePath, create delta disk based
    // on disk from template
    public static VirtualDevice prepareDiskDevice(VirtualMachineMO vmMo, int controllerKey,
            String vmdkDatastorePath, int sizeInMb, ManagedObjectReference morDs, VirtualDisk templateDisk,
            int deviceNumber, int contextNumber) throws Exception {

        assert (templateDisk != null);
        VirtualDeviceBackingInfo parentBacking = templateDisk.getBacking();
        assert (parentBacking != null);

        // TODO Not sure if we need to check if the disk in template and the new
        // disk needs to share the
        // same datastore
        VirtualDisk disk = new VirtualDisk();
        if (parentBacking instanceof VirtualDiskFlatVer1BackingInfo) {
            VirtualDiskFlatVer1BackingInfo backingInfo = new VirtualDiskFlatVer1BackingInfo();
            backingInfo.setDiskMode(((VirtualDiskFlatVer1BackingInfo) parentBacking).getDiskMode());
            backingInfo.setDatastore(morDs);
            backingInfo.setFileName(vmdkDatastorePath);
            backingInfo.setParent((VirtualDiskFlatVer1BackingInfo) parentBacking);
            disk.setBacking(backingInfo);
        } else if (parentBacking instanceof VirtualDiskFlatVer2BackingInfo) {
            VirtualDiskFlatVer2BackingInfo backingInfo = new VirtualDiskFlatVer2BackingInfo();
            backingInfo.setDiskMode(((VirtualDiskFlatVer2BackingInfo) parentBacking).getDiskMode());
            backingInfo.setDatastore(morDs);
            backingInfo.setFileName(vmdkDatastorePath);
            backingInfo.setParent((VirtualDiskFlatVer2BackingInfo) parentBacking);
            disk.setBacking(backingInfo);
        } else if (parentBacking instanceof VirtualDiskRawDiskMappingVer1BackingInfo) {
            VirtualDiskRawDiskMappingVer1BackingInfo backingInfo = new VirtualDiskRawDiskMappingVer1BackingInfo();
            backingInfo.setDiskMode(((VirtualDiskRawDiskMappingVer1BackingInfo) parentBacking).getDiskMode());
            backingInfo.setDatastore(morDs);
            backingInfo.setFileName(vmdkDatastorePath);
            backingInfo.setParent((VirtualDiskRawDiskMappingVer1BackingInfo) parentBacking);
            disk.setBacking(backingInfo);
        } else if (parentBacking instanceof VirtualDiskSparseVer1BackingInfo) {
            VirtualDiskSparseVer1BackingInfo backingInfo = new VirtualDiskSparseVer1BackingInfo();
            backingInfo.setDiskMode(((VirtualDiskSparseVer1BackingInfo) parentBacking).getDiskMode());
            backingInfo.setDatastore(morDs);
            backingInfo.setFileName(vmdkDatastorePath);
            backingInfo.setParent((VirtualDiskSparseVer1BackingInfo) parentBacking);
            disk.setBacking(backingInfo);
        } else if (parentBacking instanceof VirtualDiskSparseVer2BackingInfo) {
            VirtualDiskSparseVer2BackingInfo backingInfo = new VirtualDiskSparseVer2BackingInfo();
            backingInfo.setDiskMode(((VirtualDiskSparseVer2BackingInfo) parentBacking).getDiskMode());
            backingInfo.setDatastore(morDs);
            backingInfo.setFileName(vmdkDatastorePath);
            backingInfo.setParent((VirtualDiskSparseVer2BackingInfo) parentBacking);
            disk.setBacking(backingInfo);
        } else {
            throw new Exception("Unsupported disk backing: " + parentBacking.getClass().getCanonicalName());
        }

        int ideControllerKey = vmMo.getIDEDeviceControllerKey();
        if (controllerKey < 0)
            controllerKey = ideControllerKey;
        disk.setControllerKey(controllerKey);
        if (deviceNumber < 0) {
            deviceNumber = vmMo.getNextDeviceNumber(controllerKey);
        }

        disk.setKey(-contextNumber);
        disk.setUnitNumber(deviceNumber);
        disk.setCapacityInKB(sizeInMb * 1024);

        VirtualDeviceConnectInfo connectInfo = new VirtualDeviceConnectInfo();
        connectInfo.setConnected(true);
        connectInfo.setStartConnected(true);
        disk.setConnectable(connectInfo);
        return disk;
    }

    // vmdkDatastorePath: [datastore name] vmdkFilePath
    public static VirtualDevice prepareDiskDevice(VirtualMachineMO vmMo, VirtualDisk device, int controllerKey,
            String vmdkDatastorePathChain[], ManagedObjectReference morDs, int deviceNumber, int contextNumber)
            throws Exception {

        assert (vmdkDatastorePathChain != null);
        assert (vmdkDatastorePathChain.length >= 1);

        VirtualDisk disk;
        VirtualDiskFlatVer2BackingInfo backingInfo;
        if (device != null) {
            disk = device;
            backingInfo = (VirtualDiskFlatVer2BackingInfo) disk.getBacking();
        } else {
            disk = new VirtualDisk();
            backingInfo = new VirtualDiskFlatVer2BackingInfo();
            backingInfo.setDatastore(morDs);
            backingInfo.setDiskMode(VirtualDiskMode.PERSISTENT.value());
            disk.setBacking(backingInfo);

            int ideControllerKey = vmMo.getIDEDeviceControllerKey();
            if (controllerKey < 0)
                controllerKey = ideControllerKey;
            if (deviceNumber < 0) {
                deviceNumber = vmMo.getNextDeviceNumber(controllerKey);
            }

            disk.setControllerKey(controllerKey);
            disk.setKey(-contextNumber);
            disk.setUnitNumber(deviceNumber);

            VirtualDeviceConnectInfo connectInfo = new VirtualDeviceConnectInfo();
            connectInfo.setConnected(true);
            connectInfo.setStartConnected(true);
            disk.setConnectable(connectInfo);
        }

        backingInfo.setFileName(vmdkDatastorePathChain[0]);
        if (vmdkDatastorePathChain.length > 1) {
            String[] parentDisks = new String[vmdkDatastorePathChain.length - 1];
            for (int i = 0; i < vmdkDatastorePathChain.length - 1; i++)
                parentDisks[i] = vmdkDatastorePathChain[i + 1];

            setParentBackingInfo(backingInfo, morDs, parentDisks);
        }

        return disk;
    }

    @SuppressWarnings("unchecked")
    public static VirtualDevice prepareDiskDevice(VirtualMachineMO vmMo, int controllerKey,
            Pair<String, ManagedObjectReference>[] vmdkDatastorePathChain, int deviceNumber, int contextNumber)
            throws Exception {

        assert (vmdkDatastorePathChain != null);
        assert (vmdkDatastorePathChain.length >= 1);

        VirtualDisk disk = new VirtualDisk();

        VirtualDiskFlatVer2BackingInfo backingInfo = new VirtualDiskFlatVer2BackingInfo();
        backingInfo.setDatastore(vmdkDatastorePathChain[0].second());
        backingInfo.setFileName(vmdkDatastorePathChain[0].first());
        backingInfo.setDiskMode(VirtualDiskMode.PERSISTENT.value());
        if (vmdkDatastorePathChain.length > 1) {
            Pair<String, ManagedObjectReference>[] parentDisks = new Pair[vmdkDatastorePathChain.length - 1];
            for (int i = 0; i < vmdkDatastorePathChain.length - 1; i++)
                parentDisks[i] = vmdkDatastorePathChain[i + 1];

            setParentBackingInfo(backingInfo, parentDisks);
        }

        disk.setBacking(backingInfo);

        int ideControllerKey = vmMo.getIDEDeviceControllerKey();
        if (controllerKey < 0)
            controllerKey = ideControllerKey;
        if (deviceNumber < 0) {
            deviceNumber = vmMo.getNextDeviceNumber(controllerKey);
        }

        disk.setControllerKey(controllerKey);
        disk.setKey(-contextNumber);
        disk.setUnitNumber(deviceNumber);

        VirtualDeviceConnectInfo connectInfo = new VirtualDeviceConnectInfo();
        connectInfo.setConnected(true);
        connectInfo.setStartConnected(true);
        disk.setConnectable(connectInfo);

        return disk;
    }

    private static void setParentBackingInfo(VirtualDiskFlatVer2BackingInfo backingInfo,
            ManagedObjectReference morDs, String[] parentDatastorePathList) {

        VirtualDiskFlatVer2BackingInfo parentBacking = new VirtualDiskFlatVer2BackingInfo();
        parentBacking.setDatastore(morDs);
        parentBacking.setDiskMode(VirtualDiskMode.PERSISTENT.value());

        if (parentDatastorePathList.length > 1) {
            String[] nextDatastorePathList = new String[parentDatastorePathList.length - 1];
            for (int i = 0; i < parentDatastorePathList.length - 1; i++)
                nextDatastorePathList[i] = parentDatastorePathList[i + 1];
            setParentBackingInfo(parentBacking, morDs, nextDatastorePathList);
        }
        parentBacking.setFileName(parentDatastorePathList[0]);

        backingInfo.setParent(parentBacking);
    }

    @SuppressWarnings("unchecked")
    private static void setParentBackingInfo(VirtualDiskFlatVer2BackingInfo backingInfo,
            Pair<String, ManagedObjectReference>[] parentDatastorePathList) {

        VirtualDiskFlatVer2BackingInfo parentBacking = new VirtualDiskFlatVer2BackingInfo();
        parentBacking.setDatastore(parentDatastorePathList[0].second());
        parentBacking.setDiskMode(VirtualDiskMode.PERSISTENT.value());

        if (parentDatastorePathList.length > 1) {
            Pair<String, ManagedObjectReference>[] nextDatastorePathList = new Pair[parentDatastorePathList.length
                    - 1];
            for (int i = 0; i < parentDatastorePathList.length - 1; i++)
                nextDatastorePathList[i] = parentDatastorePathList[i + 1];
            setParentBackingInfo(parentBacking, nextDatastorePathList);
        }
        parentBacking.setFileName(parentDatastorePathList[0].first());

        backingInfo.setParent(parentBacking);
    }

    public static Pair<VirtualDevice, Boolean> prepareIsoDevice(VirtualMachineMO vmMo, String isoDatastorePath,
            ManagedObjectReference morDs, boolean connect, boolean connectAtBoot, int deviceNumber,
            int contextNumber) throws Exception {

        boolean newCdRom = false;
        VirtualCdrom cdRom = (VirtualCdrom) vmMo.getIsoDevice();
        if (cdRom == null) {
            newCdRom = true;
            cdRom = new VirtualCdrom();

            assert (vmMo.getIDEDeviceControllerKey() >= 0);
            cdRom.setControllerKey(vmMo.getIDEDeviceControllerKey());
            if (deviceNumber < 0)
                deviceNumber = vmMo.getNextIDEDeviceNumber();

            cdRom.setUnitNumber(deviceNumber);
            cdRom.setKey(-contextNumber);
        }

        VirtualDeviceConnectInfo cInfo = new VirtualDeviceConnectInfo();
        cInfo.setConnected(connect);
        cInfo.setStartConnected(connectAtBoot);
        cdRom.setConnectable(cInfo);

        if (isoDatastorePath != null) {
            VirtualCdromIsoBackingInfo backingInfo = new VirtualCdromIsoBackingInfo();
            backingInfo.setFileName(isoDatastorePath);
            backingInfo.setDatastore(morDs);
            cdRom.setBacking(backingInfo);
        } else {
            VirtualCdromRemotePassthroughBackingInfo backingInfo = new VirtualCdromRemotePassthroughBackingInfo();
            backingInfo.setDeviceName("");
            cdRom.setBacking(backingInfo);
        }

        return new Pair<VirtualDevice, Boolean>(cdRom, newCdRom);
    }

    public static VirtualDisk getRootDisk(VirtualDisk[] disks) {
        if (disks.length == 1)
            return disks[0];

        // TODO : for now, always return the first disk as root disk
        return disks[0];
    }

    public static ManagedObjectReference findSnapshotInTree(List<VirtualMachineSnapshotTree> snapTree,
            String findName) {
        assert (findName != null);

        ManagedObjectReference snapMor = null;
        if (snapTree == null)
            return snapMor;

        for (int i = 0; i < snapTree.size() && snapMor == null; i++) {
            VirtualMachineSnapshotTree node = snapTree.get(i);

            if (node.getName().equals(findName)) {
                snapMor = node.getSnapshot();
            } else {
                List<VirtualMachineSnapshotTree> childTree = node.getChildSnapshotList();
                snapMor = findSnapshotInTree(childTree, findName);
            }
        }
        return snapMor;
    }

    public static byte[] composeDiskInfo(List<Ternary<String, String, String>> diskInfo, int disksInChain,
            boolean includeBase) throws IOException {

        BufferedWriter out = null;
        ByteArrayOutputStream bos = new ByteArrayOutputStream();

        try {
            out = new BufferedWriter(new OutputStreamWriter(bos));

            out.write("disksInChain=" + disksInChain);
            out.newLine();

            out.write("disksInBackup=" + diskInfo.size());
            out.newLine();

            out.write("baseDiskIncluded=" + includeBase);
            out.newLine();

            int seq = disksInChain - 1;
            for (Ternary<String, String, String> item : diskInfo) {
                out.write(String.format("disk%d.fileName=%s", seq, item.first()));
                out.newLine();

                out.write(String.format("disk%d.baseFileName=%s", seq, item.second()));
                out.newLine();

                if (item.third() != null) {
                    out.write(String.format("disk%d.parentFileName=%s", seq, item.third()));
                    out.newLine();
                }
                seq--;
            }

            out.newLine();
        } finally {
            if (out != null)
                out.close();
        }

        return bos.toByteArray();
    }

    public static OptionValue[] composeVncOptions(OptionValue[] optionsToMerge, boolean enableVnc,
            String vncPassword, int vncPort, String keyboardLayout) {

        int numOptions = 3;
        boolean needKeyboardSetup = false;
        if (keyboardLayout != null && !keyboardLayout.isEmpty()) {
            numOptions++;
            needKeyboardSetup = true;
        }

        if (optionsToMerge != null)
            numOptions += optionsToMerge.length;

        OptionValue[] options = new OptionValue[numOptions];
        int i = 0;
        if (optionsToMerge != null) {
            for (int j = 0; j < optionsToMerge.length; j++)
                options[i++] = optionsToMerge[j];
        }

        options[i] = new OptionValue();
        options[i].setKey("RemoteDisplay.vnc.enabled");
        options[i++].setValue(enableVnc ? "true" : "false");

        options[i] = new OptionValue();
        options[i].setKey("RemoteDisplay.vnc.password");
        options[i++].setValue(vncPassword);

        options[i] = new OptionValue();
        options[i].setKey("RemoteDisplay.vnc.port");
        options[i++].setValue("" + vncPort);

        if (needKeyboardSetup) {
            options[i] = new OptionValue();
            options[i].setKey("RemoteDisplay.vnc.keymap");
            options[i++].setValue(keyboardLayout);
        }

        return options;
    }

    public static void setVmScaleUpConfig(VirtualMachineConfigSpec vmConfig, int cpuCount, int cpuSpeedMHz,
            int cpuReservedMhz, int memoryMB, int memoryReserveMB, boolean limitCpuUse) {

        // VM config for scaling up
        vmConfig.setMemoryMB((long) memoryMB);
        vmConfig.setNumCPUs(cpuCount);

        ResourceAllocationInfo cpuInfo = new ResourceAllocationInfo();
        if (limitCpuUse) {
            cpuInfo.setLimit((long) (cpuSpeedMHz * cpuCount));
        } else {
            cpuInfo.setLimit(-1L);
        }

        cpuInfo.setReservation((long) cpuReservedMhz);
        vmConfig.setCpuAllocation(cpuInfo);

        ResourceAllocationInfo memInfo = new ResourceAllocationInfo();
        memInfo.setLimit((long) memoryMB);
        memInfo.setReservation((long) memoryReserveMB);
        vmConfig.setMemoryAllocation(memInfo);

    }

    public static void setBasicVmConfig(VirtualMachineConfigSpec vmConfig, int cpuCount, int cpuSpeedMHz,
            int cpuReservedMhz, int memoryMB, int memoryReserveMB, String guestOsIdentifier, boolean limitCpuUse) {

        // VM config basics
        vmConfig.setMemoryMB((long) memoryMB);
        vmConfig.setNumCPUs(cpuCount);

        ResourceAllocationInfo cpuInfo = new ResourceAllocationInfo();
        if (limitCpuUse) {
            cpuInfo.setLimit(((long) cpuSpeedMHz * cpuCount));
        } else {
            cpuInfo.setLimit(-1L);
        }

        cpuInfo.setReservation((long) cpuReservedMhz);
        vmConfig.setCpuAllocation(cpuInfo);
        if (cpuSpeedMHz != cpuReservedMhz) {
            vmConfig.setCpuHotAddEnabled(true);
        }
        if (memoryMB != memoryReserveMB) {
            vmConfig.setMemoryHotAddEnabled(true);
        }
        ResourceAllocationInfo memInfo = new ResourceAllocationInfo();
        memInfo.setLimit((long) memoryMB);
        memInfo.setReservation((long) memoryReserveMB);
        vmConfig.setMemoryAllocation(memInfo);

        vmConfig.setGuestId(guestOsIdentifier);
    }

    public static ManagedObjectReference getDiskDeviceDatastore(VirtualDisk diskDevice) throws Exception {
        VirtualDeviceBackingInfo backingInfo = diskDevice.getBacking();
        assert (backingInfo instanceof VirtualDiskFlatVer2BackingInfo);
        return ((VirtualDiskFlatVer2BackingInfo) backingInfo).getDatastore();
    }

    public static Object getPropValue(ObjectContent oc, String name) {
        List<DynamicProperty> props = oc.getPropSet();

        for (DynamicProperty prop : props) {
            if (prop.getName().equalsIgnoreCase(name))
                return prop.getVal();
        }

        return null;
    }

    public static String getFileExtension(String fileName, String defaultExtension) {
        int pos = fileName.lastIndexOf('.');
        if (pos < 0)
            return defaultExtension;

        return fileName.substring(pos);
    }

    public static boolean isSameHost(String ipAddress, String destName) {
        // TODO : may need to do DNS lookup to compare IP address exactly
        return ipAddress.equals(destName);
    }

    public static String getExceptionMessage(Throwable e) {
        return getExceptionMessage(e, false);
    }

    public static String getExceptionMessage(Throwable e, boolean printStack) {
        // TODO: in vim 5.1, exceptions do not have a base exception class,
        // MethodFault becomes a FaultInfo that we can only get
        // from individual exception through getFaultInfo, so we have to use
        // reflection here to get MethodFault information.
        try {
            Class<? extends Throwable> cls = e.getClass();
            Method mth = cls.getDeclaredMethod("getFaultInfo", (Class<?>) null);
            if (mth != null) {
                Object fault = mth.invoke(e, (Object[]) null);
                if (fault instanceof MethodFault) {
                    final StringWriter writer = new StringWriter();
                    writer.append("Exception: " + fault.getClass().getName() + "\n");
                    writer.append("message: " + ((MethodFault) fault).getFaultMessage() + "\n");

                    if (printStack) {
                        writer.append("stack: ");
                        e.printStackTrace(new PrintWriter(writer));
                    }
                    return writer.toString();
                }
            }
        } catch (Exception ex) {

        }

        return ExceptionUtil.toString(e, printStack);
    }

    public static VirtualMachineMO pickOneVmOnRunningHost(List<VirtualMachineMO> vmList, boolean bFirstFit)
            throws Exception {
        List<VirtualMachineMO> candidates = new ArrayList<VirtualMachineMO>();

        for (VirtualMachineMO vmMo : vmList) {
            HostMO hostMo = vmMo.getRunningHost();
            if (hostMo.isHyperHostConnected())
                candidates.add(vmMo);
        }

        if (candidates.size() == 0)
            return null;

        if (bFirstFit)
            return candidates.get(0);

        Random random = new Random();
        return candidates.get(random.nextInt(candidates.size()));
    }

    public static boolean isDvPortGroup(ManagedObjectReference networkMor) {
        return "DistributedVirtualPortgroup".equalsIgnoreCase(networkMor.getType());
    }

    public static boolean isFeatureLicensed(VmwareHypervisorHost hyperHost, String featureKey) throws Exception {
        boolean hotplugSupportedByLicense = false;
        String licenseName;
        LicenseAssignmentManagerMO licenseAssignmentMgrMo;

        licenseAssignmentMgrMo = hyperHost.getLicenseAssignmentManager();
        // Check if license supports the feature
        hotplugSupportedByLicense = licenseAssignmentMgrMo.isFeatureSupported(featureKey, hyperHost.getMor());
        // Fetch license name
        licenseName = licenseAssignmentMgrMo.getHostLicenseName(hyperHost.getMor());

        if (!hotplugSupportedByLicense) {
            throw new Exception("hotplug feature is not supported by license : [" + licenseName
                    + "] assigned to host : " + hyperHost.getHyperHostName());
        }

        return hotplugSupportedByLicense;
    }

    public static String getVCenterSafeUuid() {
        // Object name that is greater than 32 is not safe in vCenter
        return UUID.randomUUID().toString().replaceAll("-", "");
    }

    public static String trimSnapshotDeltaPostfix(String name) {
        String[] tokens = name.split("-");
        if (tokens.length > 1 && tokens[tokens.length - 1].matches("[0-9]{6,}")) {
            List<String> trimmedTokens = new ArrayList<String>();
            for (int i = 0; i < tokens.length - 1; i++)
                trimmedTokens.add(tokens[i]);
            return StringUtils.join(trimmedTokens, "-");
        }
        return name;
    }

}