Examples of com.cloud.hypervisor.vmware.mo.VirtualMachineMO

• com.cloud.hypervisor.vmware.mo.VirtualMachineMO

            s_logger.info("Executing resource AttachIsoCommand: " + _gson.toJson(cmd));
        }

        try {
            VmwareHypervisorHost hyperHost = getHyperHost(getServiceContext());
            VirtualMachineMO vmMo = hyperHost.findVmOnHyperHost(cmd.getVmName());
            if (vmMo == null) {
                String msg = "Unable to find VM in vSphere to execute AttachIsoCommand, vmName: " + cmd.getVmName();
                s_logger.error(msg);
                throw new Exception(msg);
            }

            String storeUrl = cmd.getStoreUrl();
            if (storeUrl == null) {
                if (!cmd.getIsoPath().equalsIgnoreCase("vmware-tools.iso")) {
                    String msg = "ISO store root url is not found in AttachIsoCommand";
                    s_logger.error(msg);
                    throw new Exception(msg);
                } else {
                    if (cmd.isAttach()) {
                        vmMo.mountToolsInstaller();
                    } else {
                        try{
                            if (!vmMo.unmountToolsInstaller()) {
                                return new Answer(cmd, false,
                                        "Failed to unmount vmware-tools installer ISO as the corresponding CDROM device is locked by VM. Please unmount the CDROM device inside the VM and ret-try.");
                            }
                        }catch(Throwable e){
                            vmMo.detachIso(null);
                        }
                    }

                    return new Answer(cmd);
                }
            }

            ManagedObjectReference morSecondaryDs = prepareSecondaryDatastoreOnHost(storeUrl);
            String isoPath = cmd.getIsoPath();
            if (!isoPath.startsWith(storeUrl)) {
                assert (false);
                String msg = "ISO path does not start with the secondary storage root";
                s_logger.error(msg);
                throw new Exception(msg);
            }

            int isoNameStartPos = isoPath.lastIndexOf('/');
            String isoFileName = isoPath.substring(isoNameStartPos + 1);
            String isoStorePathFromRoot = isoPath.substring(storeUrl.length(), isoNameStartPos);

            // TODO, check if iso is already attached, or if there is a previous
            // attachment
            DatastoreMO secondaryDsMo = new DatastoreMO(getServiceContext(), morSecondaryDs);
            String storeName = secondaryDsMo.getName();
            String isoDatastorePath = String.format("[%s] %s%s", storeName, isoStorePathFromRoot, isoFileName);

            if (cmd.isAttach()) {
                vmMo.attachIso(isoDatastorePath, morSecondaryDs, true, false);
            } else {
                vmMo.detachIso(isoDatastorePath);
            }

            return new Answer(cmd);
        } catch (Throwable e) {
            if (e instanceof RemoteException) {

            VmwareContext context = getServiceContext();
            VmwareHypervisorHost hyperHost = getHyperHost(context);
            assert(hyperHost instanceof HostMO);
            VmwareManager mgr = context.getStockObject(VmwareManager.CONTEXT_STOCK_NAME);

            VirtualMachineMO vmMo = hyperHost.findVmOnHyperHost(cmd.getName());
            if (vmMo == null) {
                if (s_logger.isDebugEnabled()) {
                    s_logger.debug("Unable to find the owner VM for GetVncPortCommand on host " + hyperHost.getHyperHostName() + ", try within datacenter");
                }

                vmMo = hyperHost.findVmOnPeerHyperHost(cmd.getName());

                if (vmMo == null) {
                    throw new Exception("Unable to find VM in vSphere, vm: " + cmd.getName());
                }
            }

            Pair<String, Integer> portInfo = vmMo.getVncPort(mgr.getManagementPortGroupByHost((HostMO)hyperHost));

            if (s_logger.isTraceEnabled()) {
                s_logger.trace("Found vnc port info. vm: " + cmd.getName() + " host: " + portInfo.first() + ", vnc port: " + portInfo.second());
            }
            return new GetVncPortAnswer(cmd, portInfo.first(), portInfo.second());

        }

        VmwareContext context = getServiceContext();
        VmwareHypervisorHost hyperHost = getHyperHost(context);
        try {
            VirtualMachineMO vmMo = hyperHost.findVmOnHyperHost(cmd.getVmName());
            if (vmMo != null) {
                try {
                    context.getService().unregisterVM(vmMo.getMor());
                    return new Answer(cmd, true, "unregister succeeded");
                } catch(Exception e) {
                    s_logger.warn("We are not able to unregister VM " + VmwareHelper.getExceptionMessage(e));
                }

            ClusterMO clusterMo = new ClusterMO(context, morCluster);

            if (vol.getVolumeType() == Volume.Type.ROOT) {
                String vmName = vol.getVmName();
                if (vmName != null) {
                    VirtualMachineMO vmMo = clusterMo.findVmOnHyperHost(vmName);
                    if (vmMo != null) {
                        if (s_logger.isInfoEnabled()) {
                            s_logger.info("Destroy root volume and VM itself. vmName " + vmName);
                        }

                        HostMO hostMo = vmMo.getRunningHost();
                        List<NetworkDetails> networks = vmMo.getNetworksWithDetails();

                        // tear down all devices first before we destroy the VM to avoid accidently delete disk backing files
                        if (getVmPowerState(vmMo) != PowerState.PowerOff)
                            vmMo.safePowerOff(_shutdown_waitMs);
                        vmMo.tearDownDevices(new Class<?>[] { /* VirtualDisk.class, */ VirtualEthernetCard.class });
                        vmMo.destroy();

                        for (NetworkDetails netDetails : networks) {
                            if (netDetails.getGCTag() != null && netDetails.getGCTag().equalsIgnoreCase("true")) {
                                if (netDetails.getVMMorsOnNetwork() == null || netDetails.getVMMorsOnNetwork().length == 1) {
                                    cleanupNetwork(hostMo, netDetails);
                                }
                            }
                        }
                    }

                    if (s_logger.isInfoEnabled())
                        s_logger.info("Destroy volume by original name: " + vol.getPath() + ".vmdk");
                    dsMo.deleteFile(vol.getPath() + ".vmdk", morDc, true);

                    // root volume may be created via linked-clone, delete the delta disk as well
                    if (_fullCloneFlag) {
                        if (s_logger.isInfoEnabled()) {
                            s_logger.info("Destroy volume by derived name: " + vol.getPath() + "-flat.vmdk");
                        }
                        dsMo.deleteFile(vol.getPath() + "-flat.vmdk", morDc, true);
                    } else {
                        if (s_logger.isInfoEnabled()) {
                            s_logger.info("Destroy volume by derived name: " + vol.getPath() + "-delta.vmdk");
                        }
                        dsMo.deleteFile(vol.getPath() + "-delta.vmdk", morDc, true);
                    }
                    return new Answer(cmd, true, "Success");
                }

                if (s_logger.isInfoEnabled()) {
                    s_logger.info("Destroy root volume directly from datastore");
                }
            } else {
                // evitTemplate will be converted into DestroyCommand, test if we are running in this case
                VirtualMachineMO vmMo = clusterMo.findVmOnHyperHost(vol.getPath());
                if (vmMo != null) {
                    if (s_logger.isInfoEnabled())
                        s_logger.info("Destroy template volume " + vol.getPath());

                    vmMo.destroy();
                    return new Answer(cmd, true, "Success");
                }
            }

            String chainInfo = vol.getChainInfo();

        long newSize = cmd.getNewSize() / 1024;

        try {
            VmwareHypervisorHost hyperHost = getHyperHost(getServiceContext());
            // find VM through datacenter (VM is not at the target host yet)
            VirtualMachineMO vmMo = hyperHost.findVmOnPeerHyperHost(vmName);
            if (vmMo == null) {
                String msg = "VM " + vmName + " does not exist in VMware datacenter";
                s_logger.error(msg);
                throw new Exception(msg);
            }

            Pair<VirtualDisk, String> vdisk = vmMo.getDiskDevice(path, false);
            if (vdisk == null) {
                if (s_logger.isTraceEnabled())
                    s_logger.trace("resize volume done (failed)");
                throw new Exception("No such disk device: " + path);
            }
            VirtualDisk disk = vdisk.first();
            long oldSize = disk.getCapacityInKB();
            if (newSize < oldSize) {
                throw new Exception("VMware doesn't support shrinking volume from larger size: " + oldSize + " MB to a smaller size: " + newSize + " MB");
            } else if (newSize == oldSize) {
                return new ResizeVolumeAnswer(cmd, true, "success", newSize * 1024);
            }
            disk.setCapacityInKB(newSize);

            VirtualMachineConfigSpec vmConfigSpec = new VirtualMachineConfigSpec();
            VirtualDeviceConfigSpec deviceConfigSpec = new VirtualDeviceConfigSpec();
            deviceConfigSpec.setDevice(disk);
            deviceConfigSpec.setOperation(VirtualDeviceConfigSpecOperation.EDIT);
            vmConfigSpec.getDeviceChange().add(deviceConfigSpec);
            if (!vmMo.configureVm(vmConfigSpec)) {
                throw new Exception("Failed to configure VM to resize disk. vmName: " + vmName);
            }

            return new ResizeVolumeAnswer(cmd, true, "success", newSize * 1024);
        } catch (Exception e) {

        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 = "Router " + vmName + " no longer exists to execute PlugNic command";
                s_logger.error(msg);
                throw new Exception(msg);
            }

            /*
            if(!isVMWareToolsInstalled(vmMo)){
                String errMsg = "vmware tools is not installed or not running, cannot add nic to vm " + vmName;
                s_logger.debug(errMsg);
                return new PlugNicAnswer(cmd, false, "Unable to execute PlugNicCommand due to " + errMsg);
            }
             */
            // TODO need a way to specify the control of NIC device type
            VirtualEthernetCardType nicDeviceType = VirtualEthernetCardType.E1000;

            // find a usable device number in VMware environment
            VirtualDevice[] nicDevices = vmMo.getNicDevices();
            int deviceNumber = -1;
            for (VirtualDevice device : nicDevices) {
                if (device.getUnitNumber() > deviceNumber)
                    deviceNumber = device.getUnitNumber();
            }
            deviceNumber++;

            NicTO nicTo = cmd.getNic();
            VirtualDevice nic;
            Pair<ManagedObjectReference, String> networkInfo = prepareNetworkFromNicInfo(vmMo.getRunningHost(), nicTo, false, cmd.getVMType());
            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(), deviceNumber,
                                deviceNumber + 1, true, true);
            } else {
                s_logger.info("Preparing NIC device on network " + networkInfo.second());
                nic =
                        VmwareHelper.prepareNicDevice(vmMo, networkInfo.first(), nicDeviceType, networkInfo.second(), nicTo.getMac(), deviceNumber, deviceNumber + 1, true,
                                true);
            }

            VirtualMachineConfigSpec vmConfigSpec = new VirtualMachineConfigSpec();
            //VirtualDeviceConfigSpec[] deviceConfigSpecArray = new VirtualDeviceConfigSpec[1];
            VirtualDeviceConfigSpec deviceConfigSpec = new VirtualDeviceConfigSpec();
            deviceConfigSpec.setDevice(nic);
            deviceConfigSpec.setOperation(VirtualDeviceConfigSpecOperation.ADD);

            vmConfigSpec.getDeviceChange().add(deviceConfigSpec);
            if (!vmMo.configureVm(vmConfigSpec)) {
                throw new Exception("Failed to configure devices when running PlugNicCommand");
            }

            return new PlugNicAnswer(cmd, true, "success");
        } catch (Exception e) {

        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) {

            IpAddressTO[] ips = cmd.getIpAddresses();
            String routerName = cmd.getAccessDetail(NetworkElementCommand.ROUTER_NAME);
            String controlIp = VmwareResource.getRouterSshControlIp(cmd);

            VirtualMachineMO vmMo = hyperHost.findVmOnHyperHost(routerName);

            // command may sometimes be redirect to a wrong host, we relax
            // the check and will try to find it within cluster
            if (vmMo == null) {
                if (hyperHost instanceof HostMO) {
                    ClusterMO clusterMo = new ClusterMO(hyperHost.getContext(), ((HostMO)hyperHost).getParentMor());
                    vmMo = clusterMo.findVmOnHyperHost(routerName);
                }
            }

            if (vmMo == null) {
                String msg = "Router " + routerName + " no longer exists to execute IPAssoc command";
                s_logger.error(msg);
                throw new Exception(msg);
            }

            for (IpAddressTO ip : ips) {
                /**
                 * TODO support other networks
                 */
                URI broadcastUri = BroadcastDomainType.fromString(ip.getBroadcastUri());
                if (BroadcastDomainType.getSchemeValue(broadcastUri) != BroadcastDomainType.Vlan) {
                    throw new InternalErrorException("Unable to assign a public IP to a VIF on network " + ip.getBroadcastUri());
                }
                String vlanId = BroadcastDomainType.getValue(broadcastUri);

                String publicNeworkName = HypervisorHostHelper.getPublicNetworkNamePrefix(vlanId);
                Pair<Integer, VirtualDevice> publicNicInfo = vmMo.getNicDeviceIndex(publicNeworkName);

                if (s_logger.isDebugEnabled()) {
                    s_logger.debug("Find public NIC index, public network name: " + publicNeworkName + ", index: " + publicNicInfo.first());
                }

                boolean addVif = false;
                if (ip.isAdd() && publicNicInfo.first().intValue() == -1) {
                    if (s_logger.isDebugEnabled()) {
                        s_logger.debug("Plug new NIC to associate" + controlIp + " to " + ip.getPublicIp());
                    }
                    addVif = true;
                }

                if (addVif) {
                    plugPublicNic(vmMo, vlanId, ip.getVifMacAddress());
                    publicNicInfo = vmMo.getNicDeviceIndex(publicNeworkName);
                    if (publicNicInfo.first().intValue() >= 0) {
                        networkUsage(controlIp, "addVif", "eth" + publicNicInfo.first());
                    }
                }

        VmwareContext context = getServiceContext();
        VirtualMachineTO vmSpec = cmd.getVirtualMachine();
        try {
            VmwareHypervisorHost hyperHost = getHyperHost(context);
            VirtualMachineMO vmMo = hyperHost.findVmOnHyperHost(cmd.getVmName());
            VirtualMachineConfigSpec vmConfigSpec = new VirtualMachineConfigSpec();
            int ramMb = (int)(vmSpec.getMinRam() / (1024 * 1024));
            long hotaddIncrementSizeInMb;
            long hotaddMemoryLimitInMb;
            long requestedMaxMemoryInMb = vmSpec.getMaxRam() / (1024 * 1024);

            // Check if VM is really running on hypervisor host
            if (getVmPowerState(vmMo) != PowerState.PowerOn) {
                throw new CloudRuntimeException("Found that the VM " + vmMo.getVmName() + " is not running. Unable to scale-up this VM");
            }

            // Check max hot add limit
            hotaddIncrementSizeInMb = vmMo.getHotAddMemoryIncrementSizeInMb();
            hotaddMemoryLimitInMb = vmMo.getHotAddMemoryLimitInMb();
            if (requestedMaxMemoryInMb > hotaddMemoryLimitInMb) {
                throw new CloudRuntimeException("Memory of VM " + vmMo.getVmName() + " cannot be scaled to " + requestedMaxMemoryInMb + "MB." +
                        " Requested memory limit is beyond the hotadd memory limit for this VM at the moment is " + hotaddMemoryLimitInMb + "MB.");
            }

            // Check increment is multiple of increment size
            long reminder = requestedMaxMemoryInMb % hotaddIncrementSizeInMb;
            if (reminder != 0) {
                requestedMaxMemoryInMb = requestedMaxMemoryInMb + hotaddIncrementSizeInMb - reminder;
            }

            // Check if license supports the feature
            VmwareHelper.isFeatureLicensed(hyperHost, FeatureKeyConstants.HOTPLUG);
            VmwareHelper.setVmScaleUpConfig(vmConfigSpec, vmSpec.getCpus(), vmSpec.getMaxSpeed(), vmSpec.getMinSpeed(), (int)requestedMaxMemoryInMb, ramMb,
                    vmSpec.getLimitCpuUse());

            if (!vmMo.configureVm(vmConfigSpec)) {
                throw new Exception("Unable to execute ScaleVmCommand");
            }
        } catch (Exception e) {
            s_logger.error("Unexpected exception: ", e);
            return new ScaleVmAnswer(cmd, false, "Unable to execute ScaleVmCommand due to " + e.toString());

                throw new Exception(msg);
            }

            DatacenterMO dcMo = new DatacenterMO(hyperHost.getContext(), hyperHost.getHyperHostDatacenter());
            VirtualMachineDiskInfoBuilder diskInfoBuilder = null;
            VirtualMachineMO vmMo = hyperHost.findVmOnHyperHost(vmInternalCSName);
            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});
                vmMo.ensureScsiDeviceController();
            } 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});
                    vmMo.ensureScsiDeviceController();
                } else {
                    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);

                    if (rootDiskDataStoreDetails.second().folderExists(String.format("[%s]", rootDiskDataStoreDetails.second().getName()), vmNameOnVcenter)) {
                        registerVm(vmNameOnVcenter, dsRootVolumeIsOn);
                        vmMo = hyperHost.findVmOnHyperHost(vmInternalCSName);
                        tearDownVm(vmMo);
                    }else if (!hyperHost.createBlankVm(vmNameOnVcenter, vmInternalCSName, vmSpec.getCpus(), vmSpec.getMaxSpeed().intValue(),
                            getReservedCpuMHZ(vmSpec), vmSpec.getLimitCpuUse(), (int)(vmSpec.getMaxRam() / (1024 * 1024)), getReservedMemoryMb(vmSpec),
                            translateGuestOsIdentifier(vmSpec.getArch(), vmSpec.getOs(), vmSpec.getPlatformEmulator()).value(), rootDiskDataStoreDetails.first(), false)) {
                        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();
            String guestOsId = translateGuestOsIdentifier(vmSpec.getArch(), vmSpec.getOs(), vmSpec.getPlatformEmulator()).value();

            VmwareHelper.setBasicVmConfig(vmConfigSpec, vmSpec.getCpus(), vmSpec.getMaxSpeed(),
                    getReservedCpuMHZ(vmSpec), (int)(vmSpec.getMaxRam() / (1024 * 1024)), getReservedMemoryMb(vmSpec),
                    guestOsId, vmSpec.getLimitCpuUse());

            // Check for hotadd settings
            vmConfigSpec.setMemoryHotAddEnabled(vmMo.isMemoryHotAddSupported(guestOsId));
            vmConfigSpec.setCpuHotAddEnabled(vmMo.isCpuHotAddSupported(guestOsId));
            configNestedHVSupport(vmMo, vmSpec, vmConfigSpec);

            // Check for multi-cores per socket settings
            String coresPerSocket = vmSpec.getDetails().get("cpu.corespersocket");
            if (coresPerSocket != null) {
                vmConfigSpec.setNumCoresPerSocket(NumbersUtil.parseInt(coresPerSocket, 1));
            }

            VirtualDeviceConfigSpec[] deviceConfigSpecArray = new VirtualDeviceConfigSpec[totalChangeDevices];
            int i = 0;
            int ideUnitNumber = 0;
            int scsiUnitNumber = 0;
            int nicUnitNumber = 0;
            int ideControllerKey = vmMo.getIDEDeviceControllerKey();
            int scsiControllerKey = vmMo.getScsiDeviceControllerKey();
            int controllerKey;

            //
            // Setup ISO device
            //

            // prepare systemvm patch ISO
            if (vmSpec.getType() != VirtualMachine.Type.User) {
                // attach ISO (for patching of system VM)
                String secStoreUrl = mgr.getSecondaryStorageStoreUrl(Long.parseLong(_dcId));
                if (secStoreUrl == null) {
                    String msg = "secondary storage for dc " + _dcId + " is not ready yet?";
                    throw new Exception(msg);
                }
                mgr.prepareSecondaryStorageStore(secStoreUrl);

                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);
                controllerKey = getDiskController(matchingExistingDisk, vol, vmSpec, ideControllerKey, scsiControllerKey);

                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 == ideControllerKey) ? ideUnitNumber++ : scsiUnitNumber++, i + 1);

                    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 == ideControllerKey)
                        ideUnitNumber++;
                    else
                        scsiUnitNumber++;
                }
            }

            //
            // 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);

            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 (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);
                } 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);
                }

                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);
            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)));

            //
            // Configure VM
            //
            if (!vmMo.configureVm(vmConfigSpec)) {
                throw new Exception("Failed to configure VM before start. vmName: " + vmInternalCSName);
            }

            //
            // 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);

            //
            // Power-on VM
            //
            if (!vmMo.powerOn()) {
                throw new Exception("Failed to start VM. vmName: " + vmInternalCSName + " with hostname " + vmNameOnVcenter);
            }

            state = State.Running;