// Licensed to the Apache Software Foundation (ASF) under one // or more contributor license agreements. See the NOTICE file // distributed with this work for additional information // regarding copyright ownership. The ASF licenses this file // to you under the Apache License, Version 2.0 (the // "License"); you may not use this file except in compliance // with the License. You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, // software distributed under the License is distributed on an // "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY // KIND, either express or implied. See the License for the // specific language governing permissions and limitations // under the License. package com.cloud.hypervisor; import java.util.List; import java.util.Map; import javax.inject.Inject; import com.cloud.agent.api.Command; import com.cloud.agent.api.to.DiskTO; import com.cloud.agent.api.to.NicTO; import com.cloud.agent.api.to.VirtualMachineTO; import com.cloud.configuration.Config; import com.cloud.offering.ServiceOffering; import com.cloud.server.ConfigurationServer; import com.cloud.storage.dao.VMTemplateDetailsDao; import com.cloud.utils.Pair; import com.cloud.utils.component.AdapterBase; import com.cloud.vm.NicProfile; import com.cloud.vm.NicVO; import com.cloud.vm.VMInstanceVO; import com.cloud.vm.VirtualMachine; import com.cloud.vm.VirtualMachineProfile; import com.cloud.vm.dao.NicDao; import com.cloud.vm.dao.NicSecondaryIpDao; import com.cloud.vm.dao.VMInstanceDao; public abstract class HypervisorGuruBase extends AdapterBase implements HypervisorGuru { @Inject VMTemplateDetailsDao _templateDetailsDao; @Inject NicDao _nicDao; @Inject VMInstanceDao _virtualMachineDao; @Inject NicSecondaryIpDao _nicSecIpDao; @Inject ConfigurationServer _configServer; protected HypervisorGuruBase() { super(); } @Override public NicTO toNicTO(NicProfile profile) { NicTO to = new NicTO(); to.setDeviceId(profile.getDeviceId()); to.setBroadcastType(profile.getBroadcastType()); to.setType(profile.getTrafficType()); to.setIp(profile.getIp4Address()); to.setNetmask(profile.getNetmask()); to.setMac(profile.getMacAddress()); to.setDns1(profile.getDns1()); to.setDns2(profile.getDns2()); to.setGateway(profile.getGateway()); to.setDefaultNic(profile.isDefaultNic()); to.setBroadcastUri(profile.getBroadCastUri()); to.setIsolationuri(profile.getIsolationUri()); to.setNetworkRateMbps(profile.getNetworkRate()); to.setName(profile.getName()); to.setSecurityGroupEnabled(profile.isSecurityGroupEnabled()); // Workaround to make sure the TO has the UUID we need for Niciri integration NicVO nicVO = _nicDao.findById(profile.getId()); to.setUuid(nicVO.getUuid()); //check whether the this nic has secondary ip addresses set //set nic secondary ip address in NicTO which are used for security group // configuration. Use full when vm stop/start List secIps = null; if (nicVO.getSecondaryIp()) { secIps = _nicSecIpDao.getSecondaryIpAddressesForNic(nicVO.getId()); } to.setNicSecIps(secIps); return to; } protected VirtualMachineTO toVirtualMachineTO(VirtualMachineProfile vmProfile) { ServiceOffering offering = vmProfile.getServiceOffering(); VirtualMachine vm = vmProfile.getVirtualMachine(); Long minMemory = (long) (offering.getRamSize() / vmProfile.getMemoryOvercommitRatio()); int minspeed = (int) (offering.getSpeed() / vmProfile.getCpuOvercommitRatio()); int maxspeed = (offering.getSpeed()); VirtualMachineTO to = new VirtualMachineTO(vm.getId(), vm.getInstanceName(), vm.getType(), offering.getCpu(), minspeed, maxspeed, minMemory * 1024l * 1024l, offering.getRamSize() * 1024l * 1024l, null, null, vm.isHaEnabled(), vm.limitCpuUse(), vm.getVncPassword()); to.setBootArgs(vmProfile.getBootArgs()); List nicProfiles = vmProfile.getNics(); NicTO[] nics = new NicTO[nicProfiles.size()]; int i = 0; for (NicProfile nicProfile : nicProfiles) { nics[i++] = toNicTO(nicProfile); } to.setNics(nics); to.setDisks(vmProfile.getDisks().toArray(new DiskTO[vmProfile.getDisks().size()])); if(vmProfile.getTemplate().getBits() == 32) { to.setArch("i686"); } else { to.setArch("x86_64"); } long templateId = vm.getTemplateId(); Map details = _templateDetailsDao.findDetails(templateId); assert(details != null); Map detailsInVm = vm.getDetails(); if(detailsInVm != null) { details.putAll(detailsInVm); } if (details.get(VirtualMachine.IsDynamicScalingEnabled) == null || details.get(VirtualMachine.IsDynamicScalingEnabled).isEmpty()) { to.setEnableDynamicallyScaleVm(false); } else { // check if XStools/VMWare tools are present in the VM and dynamic scaling feature is enabled (per zone/global) to.setEnableDynamicallyScaleVm(details.get(VirtualMachine.IsDynamicScalingEnabled).equals("true") && Boolean.parseBoolean(_configServer.getConfigValue(Config.EnableDynamicallyScaleVm.key(), Config.ConfigurationParameterScope.zone.toString(), vm.getDataCenterId()))); } to.setDetails(details); // Workaround to make sure the TO has the UUID we need for Niciri integration VMInstanceVO vmInstance = _virtualMachineDao.findById(to.getId()); to.setUuid(vmInstance.getUuid()); // return to; } @Override public Pair getCommandHostDelegation(long hostId, Command cmd) { return new Pair(Boolean.FALSE, new Long(hostId)); } @Override public List finalizeExpunge(VirtualMachine vm) { return null; } @Override public List finalizeExpungeNics(VirtualMachine vm, List nics) { return null; } }