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cloudstack/server/src/com/cloud/network/ExternalLoadBalancerDeviceManagerImpl.java
Nicolas Vazquez 90ef67bab9 CLOUDSTACK-10109: Enable dedication of public IPs to SSVM and CPVM (#2295) 
This feature allow admins to dedicate a range of public IP addresses to the SSVM and CPVM, such that they can be subject to specific external firewall rules. The option to dedicate a public IP range to the System VMs (SSVM & CPVM) is added to the createVlanIpRange API method and the UI.

Solution:
Global setting 'system.vm.public.ip.reservation.mode.strictness' is added to determine if the use of the system VM reservation is strict (when true) or preferred (false), false by default.
When a range has been dedicated to System VMs, CloudStack should apply IPs from that range to
the public interfaces of the CPVM and the SSVM depending on global setting's value:

If the global setting is set to false: then CloudStack will use any unused and unreserved public IP
addresses for system VMs only when the pool of reserved IPs has been exhausted
If the global setting is set to true: then CloudStack will fail to deploy the system VM when the pool
of reserved IPs has been exhausted, citing the lack of available IPs.
UI Changes
Under Infrastructure -> Zone -> Physical Network -> Public -> IP Ranges, button 'Account' label is refactored to 'Set reservation'.

When that button is clicked, dialog displayed is also refactored, including a new checkbox 'System VMs' which indicates if range should be dedicated for CPVM and SSVM, and a note indicating its usage.

When clicking on button for any created range, UI dialog displayed indicates whether IP range is dedicated for system vms or not.
2018-01-06 23:14:30 +05:30

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// 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.network;
import java.net.URI;
import java.net.URISyntaxException;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.UUID;
import javax.inject.Inject;
import javax.naming.ConfigurationException;
import org.apache.log4j.Logger;
import org.apache.cloudstack.api.ApiConstants;
import org.apache.cloudstack.api.response.ExternalLoadBalancerResponse;
import org.apache.cloudstack.engine.orchestration.service.NetworkOrchestrationService;
import org.apache.cloudstack.framework.config.dao.ConfigurationDao;
import org.apache.cloudstack.network.ExternalNetworkDeviceManager.NetworkDevice;
import com.cloud.agent.AgentManager;
import com.cloud.agent.api.Answer;
import com.cloud.agent.api.StartupCommand;
import com.cloud.agent.api.StartupExternalLoadBalancerCommand;
import com.cloud.agent.api.routing.CreateLoadBalancerApplianceCommand;
import com.cloud.agent.api.routing.DestroyLoadBalancerApplianceCommand;
import com.cloud.agent.api.routing.HealthCheckLBConfigAnswer;
import com.cloud.agent.api.routing.HealthCheckLBConfigCommand;
import com.cloud.agent.api.routing.IpAssocCommand;
import com.cloud.agent.api.routing.LoadBalancerConfigCommand;
import com.cloud.agent.api.routing.NetworkElementCommand;
import com.cloud.agent.api.to.IpAddressTO;
import com.cloud.agent.api.to.LoadBalancerTO;
import com.cloud.configuration.Config;
import com.cloud.dc.DataCenter;
import com.cloud.dc.DataCenterIpAddressVO;
import com.cloud.dc.DataCenterVO;
import com.cloud.dc.Pod;
import com.cloud.dc.Vlan.VlanType;
import com.cloud.dc.VlanVO;
import com.cloud.dc.dao.DataCenterDao;
import com.cloud.dc.dao.HostPodDao;
import com.cloud.dc.dao.VlanDao;
import com.cloud.exception.InsufficientCapacityException;
import com.cloud.exception.InsufficientNetworkCapacityException;
import com.cloud.exception.InvalidParameterValueException;
import com.cloud.exception.ResourceUnavailableException;
import com.cloud.host.DetailVO;
import com.cloud.host.Host;
import com.cloud.host.Host.Type;
import com.cloud.host.HostVO;
import com.cloud.host.dao.HostDao;
import com.cloud.host.dao.HostDetailsDao;
import com.cloud.network.Network.Provider;
import com.cloud.network.Network.Service;
import com.cloud.network.Networks.BroadcastDomainType;
import com.cloud.network.Networks.TrafficType;
import com.cloud.network.addr.PublicIp;
import com.cloud.network.dao.ExternalFirewallDeviceDao;
import com.cloud.network.dao.ExternalLoadBalancerDeviceDao;
import com.cloud.network.dao.ExternalLoadBalancerDeviceVO;
import com.cloud.network.dao.ExternalLoadBalancerDeviceVO.LBDeviceAllocationState;
import com.cloud.network.dao.ExternalLoadBalancerDeviceVO.LBDeviceState;
import com.cloud.network.dao.IPAddressDao;
import com.cloud.network.dao.IPAddressVO;
import com.cloud.network.dao.InlineLoadBalancerNicMapDao;
import com.cloud.network.dao.InlineLoadBalancerNicMapVO;
import com.cloud.network.dao.LoadBalancerDao;
import com.cloud.network.dao.NetworkDao;
import com.cloud.network.dao.NetworkExternalFirewallDao;
import com.cloud.network.dao.NetworkExternalLoadBalancerDao;
import com.cloud.network.dao.NetworkExternalLoadBalancerVO;
import com.cloud.network.dao.NetworkServiceMapDao;
import com.cloud.network.dao.PhysicalNetworkDao;
import com.cloud.network.dao.PhysicalNetworkServiceProviderDao;
import com.cloud.network.dao.PhysicalNetworkServiceProviderVO;
import com.cloud.network.dao.PhysicalNetworkVO;
import com.cloud.network.dao.VirtualRouterProviderDao;
import com.cloud.network.element.IpDeployer;
import com.cloud.network.element.NetworkElement;
import com.cloud.network.element.StaticNatServiceProvider;
import com.cloud.network.lb.LoadBalancingRule;
import com.cloud.network.lb.LoadBalancingRule.LbDestination;
import com.cloud.network.resource.CreateLoadBalancerApplianceAnswer;
import com.cloud.network.resource.DestroyLoadBalancerApplianceAnswer;
import com.cloud.network.rules.FirewallRule;
import com.cloud.network.rules.FirewallRule.Purpose;
import com.cloud.network.rules.StaticNat;
import com.cloud.network.rules.StaticNatImpl;
import com.cloud.network.rules.dao.PortForwardingRulesDao;
import com.cloud.offering.NetworkOffering;
import com.cloud.offerings.NetworkOfferingVO;
import com.cloud.offerings.dao.NetworkOfferingDao;
import com.cloud.resource.ResourceManager;
import com.cloud.resource.ResourceState;
import com.cloud.resource.ResourceStateAdapter;
import com.cloud.resource.ServerResource;
import com.cloud.resource.UnableDeleteHostException;
import com.cloud.service.dao.ServiceOfferingDao;
import com.cloud.storage.dao.VMTemplateDao;
import com.cloud.user.Account;
import com.cloud.user.AccountManager;
import com.cloud.user.dao.AccountDao;
import com.cloud.user.dao.UserStatisticsDao;
import com.cloud.utils.NumbersUtil;
import com.cloud.utils.component.AdapterBase;
import com.cloud.utils.db.DB;
import com.cloud.utils.db.GlobalLock;
import com.cloud.utils.db.Transaction;
import com.cloud.utils.db.TransactionCallback;
import com.cloud.utils.db.TransactionCallbackWithException;
import com.cloud.utils.db.TransactionStatus;
import com.cloud.utils.exception.CloudRuntimeException;
import com.cloud.utils.net.NetUtils;
import com.cloud.utils.net.UrlUtil;
import com.cloud.vm.Nic;
import com.cloud.vm.Nic.ReservationStrategy;
import com.cloud.vm.NicVO;
import com.cloud.vm.VirtualMachineManager;
import com.cloud.vm.dao.DomainRouterDao;
import com.cloud.vm.dao.NicDao;
import com.cloud.vm.dao.VMInstanceDao;
public abstract class ExternalLoadBalancerDeviceManagerImpl extends AdapterBase implements ExternalLoadBalancerDeviceManager, ResourceStateAdapter {
@Inject
NetworkExternalLoadBalancerDao _networkExternalLBDao;
@Inject
ExternalLoadBalancerDeviceDao _externalLoadBalancerDeviceDao;
@Inject
HostDao _hostDao;
@Inject
DataCenterDao _dcDao;
@Inject
NetworkModel _networkModel;
@Inject
NetworkOrchestrationService _networkMgr;
@Inject
InlineLoadBalancerNicMapDao _inlineLoadBalancerNicMapDao;
@Inject
NicDao _nicDao;
@Inject
AgentManager _agentMgr;
@Inject
ResourceManager _resourceMgr;
@Inject
IPAddressDao _ipAddressDao;
@Inject
VlanDao _vlanDao;
@Inject
NetworkOfferingDao _networkOfferingDao;
@Inject
AccountDao _accountDao;
@Inject
PhysicalNetworkDao _physicalNetworkDao;
@Inject
PhysicalNetworkServiceProviderDao _physicalNetworkServiceProviderDao;
@Inject
AccountManager _accountMgr;
@Inject
UserStatisticsDao _userStatsDao;
@Inject
NetworkDao _networkDao;
@Inject
DomainRouterDao _routerDao;
@Inject
LoadBalancerDao _loadBalancerDao;
@Inject
PortForwardingRulesDao _portForwardingRulesDao;
@Inject
ConfigurationDao _configDao;
@Inject
HostDetailsDao _hostDetailDao;
@Inject
NetworkExternalLoadBalancerDao _networkLBDao;
@Inject
NetworkServiceMapDao _ntwkSrvcProviderDao;
@Inject
NetworkExternalFirewallDao _networkExternalFirewallDao;
@Inject
ExternalFirewallDeviceDao _externalFirewallDeviceDao;
@Inject
protected HostPodDao _podDao = null;
@Inject
IpAddressManager _ipAddrMgr;
@Inject
protected
VirtualMachineManager _itMgr;
@Inject
VMInstanceDao _vmDao;
@Inject
VMTemplateDao _templateDao;
@Inject
ServiceOfferingDao _serviceOfferingDao;
@Inject
PhysicalNetworkServiceProviderDao _physicalProviderDao;
@Inject
VirtualRouterProviderDao _vrProviderDao;
private long _defaultLbCapacity;
private static final org.apache.log4j.Logger s_logger = Logger.getLogger(ExternalLoadBalancerDeviceManagerImpl.class);
@Override
@DB
public ExternalLoadBalancerDeviceVO addExternalLoadBalancer(long physicalNetworkId, String url, String username, String password, final String deviceName,
ServerResource resource, final boolean gslbProvider, final boolean exclusiveGslbProivider,
final String gslbSitePublicIp, final String gslbSitePrivateIp) {
PhysicalNetworkVO pNetwork = null;
final NetworkDevice ntwkDevice = NetworkDevice.getNetworkDevice(deviceName);
long zoneId;
if ((ntwkDevice == null) || (url == null) || (username == null) || (resource == null) || (password == null)) {
throw new InvalidParameterValueException("Atleast one of the required parameters (url, username, password,"
+ " server resource, zone id/physical network id) is not specified or a valid parameter.");
}
pNetwork = _physicalNetworkDao.findById(physicalNetworkId);
if (pNetwork == null) {
throw new InvalidParameterValueException("Could not find phyical network with ID: " + physicalNetworkId);
}
zoneId = pNetwork.getDataCenterId();
PhysicalNetworkServiceProviderVO ntwkSvcProvider =
_physicalNetworkServiceProviderDao.findByServiceProvider(pNetwork.getId(), ntwkDevice.getNetworkServiceProvder());
ntwkSvcProvider = _physicalNetworkServiceProviderDao.findByServiceProvider(pNetwork.getId(), ntwkDevice.getNetworkServiceProvder());
if (ntwkSvcProvider == null) {
throw new CloudRuntimeException("Network Service Provider: " + ntwkDevice.getNetworkServiceProvder() + " is not enabled in the physical network: " +
physicalNetworkId + "to add this device");
} else if (ntwkSvcProvider.getState() == PhysicalNetworkServiceProvider.State.Shutdown) {
throw new CloudRuntimeException("Network Service Provider: " + ntwkSvcProvider.getProviderName() + " is in shutdown state in the physical network: " +
physicalNetworkId + "to add this device");
}
if (gslbProvider) {
ExternalLoadBalancerDeviceVO zoneGslbProvider =
_externalLoadBalancerDeviceDao.findGslbServiceProvider(physicalNetworkId, ntwkDevice.getNetworkServiceProvder());
if (zoneGslbProvider != null) {
throw new CloudRuntimeException("There is a GSLB service provider configured in the zone alredy.");
}
}
URI uri;
try {
uri = new URI(url);
} catch (Exception e) {
s_logger.debug(e);
throw new InvalidParameterValueException(e.getMessage());
}
String ipAddress = uri.getHost();
Map hostDetails = new HashMap<String, String>();
String hostName = getExternalLoadBalancerResourceGuid(pNetwork.getId(), deviceName, ipAddress);
hostDetails.put("name", hostName);
hostDetails.put("guid", UUID.randomUUID().toString());
hostDetails.put("zoneId", String.valueOf(pNetwork.getDataCenterId()));
hostDetails.put("ip", ipAddress);
hostDetails.put("physicalNetworkId", String.valueOf(pNetwork.getId()));
hostDetails.put("username", username);
hostDetails.put("password", password);
hostDetails.put("deviceName", deviceName);
// leave parameter validation to be part server resource configure
Map<String, String> configParams = new HashMap<String, String>();
UrlUtil.parseQueryParameters(uri.getQuery(), false, configParams);
hostDetails.putAll(configParams);
try {
resource.configure(hostName, hostDetails);
final Host host = _resourceMgr.addHost(zoneId, resource, Host.Type.ExternalLoadBalancer, hostDetails);
if (host != null) {
final boolean dedicatedUse =
(configParams.get(ApiConstants.LOAD_BALANCER_DEVICE_DEDICATED) != null) ? Boolean.parseBoolean(configParams.get(ApiConstants.LOAD_BALANCER_DEVICE_DEDICATED))
: false;
long capacity = NumbersUtil.parseLong(configParams.get(ApiConstants.LOAD_BALANCER_DEVICE_CAPACITY), 0);
if (capacity == 0) {
capacity = _defaultLbCapacity;
}
final long capacityFinal = capacity;
final PhysicalNetworkVO pNetworkFinal = pNetwork;
return Transaction.execute(new TransactionCallback<ExternalLoadBalancerDeviceVO>() {
@Override
public ExternalLoadBalancerDeviceVO doInTransaction(TransactionStatus status) {
ExternalLoadBalancerDeviceVO lbDeviceVO =
new ExternalLoadBalancerDeviceVO(host.getId(), pNetworkFinal.getId(), ntwkDevice.getNetworkServiceProvder(), deviceName, capacityFinal,
dedicatedUse, gslbProvider);
if (gslbProvider) {
lbDeviceVO.setGslbSitePublicIP(gslbSitePublicIp);
lbDeviceVO.setGslbSitePrivateIP(gslbSitePrivateIp);
lbDeviceVO.setExclusiveGslbProvider(exclusiveGslbProivider);
}
_externalLoadBalancerDeviceDao.persist(lbDeviceVO);
DetailVO hostDetail = new DetailVO(host.getId(), ApiConstants.LOAD_BALANCER_DEVICE_ID, String.valueOf(lbDeviceVO.getId()));
_hostDetailDao.persist(hostDetail);
return lbDeviceVO;
}
});
} else {
throw new CloudRuntimeException("Failed to add load balancer device due to internal error.");
}
} catch (ConfigurationException e) {
throw new CloudRuntimeException(e.getMessage());
}
}
@Override
public boolean deleteExternalLoadBalancer(long hostId) {
HostVO externalLoadBalancer = _hostDao.findById(hostId);
if (externalLoadBalancer == null) {
throw new InvalidParameterValueException("Could not find an external load balancer with ID: " + hostId);
}
DetailVO lbHostDetails = _hostDetailDao.findDetail(hostId, ApiConstants.LOAD_BALANCER_DEVICE_ID);
long lbDeviceId = Long.parseLong(lbHostDetails.getValue());
ExternalLoadBalancerDeviceVO lbDeviceVo = _externalLoadBalancerDeviceDao.findById(lbDeviceId);
if (lbDeviceVo.getAllocationState() == LBDeviceAllocationState.Provider) {
// check if cloudstack has provisioned any load balancer appliance on the device before deleting
List<ExternalLoadBalancerDeviceVO> lbDevices = _externalLoadBalancerDeviceDao.listAll();
if (lbDevices != null) {
for (ExternalLoadBalancerDeviceVO lbDevice : lbDevices) {
if (lbDevice.getParentHostId() == hostId) {
throw new CloudRuntimeException(
"This load balancer device can not be deleted as there are one or more load balancers applainces provisioned by cloudstack on the device.");
}
}
}
} else {
// check if any networks are using this load balancer device
List<NetworkExternalLoadBalancerVO> networks = _networkLBDao.listByLoadBalancerDeviceId(lbDeviceId);
if ((networks != null) && !networks.isEmpty()) {
throw new CloudRuntimeException("Delete can not be done as there are networks using this load balancer device ");
}
}
try {
// put the host in maintenance state in order for it to be deleted
externalLoadBalancer.setResourceState(ResourceState.Maintenance);
_hostDao.update(hostId, externalLoadBalancer);
_resourceMgr.deleteHost(hostId, false, false);
// delete the external load balancer entry
_externalLoadBalancerDeviceDao.remove(lbDeviceId);
return true;
} catch (Exception e) {
s_logger.debug(e);
return false;
}
}
@Override
public List<Host> listExternalLoadBalancers(long physicalNetworkId, String deviceName) {
List<Host> lbHosts = new ArrayList<Host>();
NetworkDevice lbNetworkDevice = NetworkDevice.getNetworkDevice(deviceName);
PhysicalNetworkVO pNetwork = null;
pNetwork = _physicalNetworkDao.findById(physicalNetworkId);
if ((pNetwork == null) || (lbNetworkDevice == null)) {
throw new InvalidParameterValueException("Atleast one of the required parameter physical networkId, device name is invalid.");
}
PhysicalNetworkServiceProviderVO ntwkSvcProvider =
_physicalNetworkServiceProviderDao.findByServiceProvider(pNetwork.getId(), lbNetworkDevice.getNetworkServiceProvder());
// if provider not configured in to physical network, then there can be no instances
if (ntwkSvcProvider == null) {
return null;
}
List<ExternalLoadBalancerDeviceVO> lbDevices =
_externalLoadBalancerDeviceDao.listByPhysicalNetworkAndProvider(physicalNetworkId, ntwkSvcProvider.getProviderName());
for (ExternalLoadBalancerDeviceVO provderInstance : lbDevices) {
lbHosts.add(_hostDao.findById(provderInstance.getHostId()));
}
return lbHosts;
}
public ExternalLoadBalancerResponse createExternalLoadBalancerResponse(Host externalLoadBalancer) {
Map<String, String> lbDetails = _hostDetailDao.findDetails(externalLoadBalancer.getId());
ExternalLoadBalancerResponse response = new ExternalLoadBalancerResponse();
response.setId(externalLoadBalancer.getUuid());
response.setIpAddress(externalLoadBalancer.getPrivateIpAddress());
response.setUsername(lbDetails.get("username"));
response.setPublicInterface(lbDetails.get("publicInterface"));
response.setPrivateInterface(lbDetails.get("privateInterface"));
response.setNumRetries(lbDetails.get("numRetries"));
return response;
}
public String getExternalLoadBalancerResourceGuid(long physicalNetworkId, String deviceName, String ip) {
return physicalNetworkId + "-" + deviceName + "-" + ip;
}
@Override
public ExternalLoadBalancerDeviceVO getExternalLoadBalancerForNetwork(Network network) {
NetworkExternalLoadBalancerVO lbDeviceForNetwork = _networkExternalLBDao.findByNetworkId(network.getId());
if (lbDeviceForNetwork != null) {
long lbDeviceId = lbDeviceForNetwork.getExternalLBDeviceId();
ExternalLoadBalancerDeviceVO lbDeviceVo = _externalLoadBalancerDeviceDao.findById(lbDeviceId);
assert (lbDeviceVo != null);
return lbDeviceVo;
}
return null;
}
public void setExternalLoadBalancerForNetwork(Network network, long externalLBDeviceID) {
NetworkExternalLoadBalancerVO lbDeviceForNetwork = new NetworkExternalLoadBalancerVO(network.getId(), externalLBDeviceID);
_networkExternalLBDao.persist(lbDeviceForNetwork);
}
@DB
protected ExternalLoadBalancerDeviceVO allocateLoadBalancerForNetwork(final Network guestConfig) throws InsufficientCapacityException {
boolean retry = true;
boolean tryLbProvisioning = false;
ExternalLoadBalancerDeviceVO lbDevice = null;
long physicalNetworkId = guestConfig.getPhysicalNetworkId();
NetworkOfferingVO offering = _networkOfferingDao.findById(guestConfig.getNetworkOfferingId());
String provider = _ntwkSrvcProviderDao.getProviderForServiceInNetwork(guestConfig.getId(), Service.Lb);
while (retry) {
GlobalLock deviceMapLock = GlobalLock.getInternLock("LoadBalancerAllocLock");
try {
if (deviceMapLock.lock(120)) {
try {
final boolean dedicatedLB = offering.getDedicatedLB(); // does network offering supports a dedicated load balancer?
try {
lbDevice = Transaction.execute(new TransactionCallbackWithException<ExternalLoadBalancerDeviceVO, InsufficientCapacityException>() {
@Override
public ExternalLoadBalancerDeviceVO doInTransaction(TransactionStatus status) throws InsufficientCapacityException {
// FIXME: should the device allocation be done during network implement phase or do a
// lazy allocation when first rule for the network is configured??
// find a load balancer device for this network as per the network offering
ExternalLoadBalancerDeviceVO lbDevice = findSuitableLoadBalancerForNetwork(guestConfig, dedicatedLB);
long lbDeviceId = lbDevice.getId();
// persist the load balancer device id that will be used for this network. Once a network
// is implemented on a LB device then later on all rules will be programmed on to same device
NetworkExternalLoadBalancerVO networkLB = new NetworkExternalLoadBalancerVO(guestConfig.getId(), lbDeviceId);
_networkExternalLBDao.persist(networkLB);
// mark device to be either dedicated or shared use
lbDevice.setAllocationState(dedicatedLB ? LBDeviceAllocationState.Dedicated : LBDeviceAllocationState.Shared);
_externalLoadBalancerDeviceDao.update(lbDeviceId, lbDevice);
return lbDevice;
}
});
// allocated load balancer for the network, so skip retry
tryLbProvisioning = false;
retry = false;
} catch (InsufficientCapacityException exception) {
// if already attempted to provision load balancer then throw out of capacity exception,
if (tryLbProvisioning) {
retry = false;
// TODO: throwing warning instead of error for now as its possible another provider can service this network
s_logger.warn("There are no load balancer device with the capacity for implementing this network");
throw exception;
} else {
tryLbProvisioning = true; // if possible provision a LB appliance in to the physical network
}
}
} finally {
deviceMapLock.unlock();
}
}
} finally {
deviceMapLock.releaseRef();
}
// there are no LB devices or there is no free capacity on the devices in the physical network so provision a new LB appliance
if (tryLbProvisioning) {
// check if LB appliance can be dynamically provisioned
List<ExternalLoadBalancerDeviceVO> providerLbDevices =
_externalLoadBalancerDeviceDao.listByProviderAndDeviceAllocationState(physicalNetworkId, provider, LBDeviceAllocationState.Provider);
if ((providerLbDevices != null) && (!providerLbDevices.isEmpty())) {
for (ExternalLoadBalancerDeviceVO lbProviderDevice : providerLbDevices) {
if (lbProviderDevice.getState() == LBDeviceState.Enabled) {
// acquire a private IP from the data center which will be used as management IP of provisioned LB appliance,
DataCenterIpAddressVO dcPrivateIp = _dcDao.allocatePrivateIpAddress(guestConfig.getDataCenterId(), lbProviderDevice.getUuid());
if (dcPrivateIp == null) {
throw new InsufficientNetworkCapacityException("failed to acquire a priavate IP in the zone " + guestConfig.getDataCenterId() +
" needed for management IP of the load balancer appliance", DataCenter.class, guestConfig.getDataCenterId());
}
Pod pod = _podDao.findById(dcPrivateIp.getPodId());
String lbIP = dcPrivateIp.getIpAddress();
String netmask = NetUtils.getCidrNetmask(pod.getCidrSize());
String gateway = pod.getGateway();
// send CreateLoadBalancerApplianceCommand to the host capable of provisioning
CreateLoadBalancerApplianceCommand lbProvisionCmd = new CreateLoadBalancerApplianceCommand(lbIP, netmask, gateway);
CreateLoadBalancerApplianceAnswer createLbAnswer = null;
try {
createLbAnswer = (CreateLoadBalancerApplianceAnswer)_agentMgr.easySend(lbProviderDevice.getHostId(), lbProvisionCmd);
if (createLbAnswer == null || !createLbAnswer.getResult()) {
s_logger.error("Could not provision load balancer instance on the load balancer device " + lbProviderDevice.getId());
continue;
}
} catch (Exception agentException) {
s_logger.error("Could not provision load balancer instance on the load balancer device " + lbProviderDevice.getId() + " due to " +
agentException.getMessage());
continue;
}
String username = createLbAnswer.getUsername();
String password = createLbAnswer.getPassword();
String publicIf = createLbAnswer.getPublicInterface();
String privateIf = createLbAnswer.getPrivateInterface();
// we have provisioned load balancer so add the appliance as cloudstack provisioned external load balancer
String dedicatedLb = offering.getDedicatedLB() ? "true" : "false";
String capacity = Long.toString(lbProviderDevice.getCapacity());
// acquire a public IP to associate with lb appliance (used as subnet IP to make the appliance part of private network)
PublicIp publicIp =
_ipAddrMgr.assignPublicIpAddress(guestConfig.getDataCenterId(), null, _accountMgr.getSystemAccount(), VlanType.VirtualNetwork, null,
null, false, false);
String publicIPNetmask = publicIp.getVlanNetmask();
String publicIPgateway = publicIp.getVlanGateway();
String publicIP = publicIp.getAddress().toString();
String publicIPVlanTag="";
try {
publicIPVlanTag = BroadcastDomainType.getValue(publicIp.getVlanTag());
} catch (URISyntaxException e) {
s_logger.error("Failed to parse public ip vlan tag" + e.getMessage());
}
String url =
"https://" + lbIP + "?publicinterface=" + publicIf + "&privateinterface=" + privateIf + "&lbdevicededicated=" + dedicatedLb +
"&cloudmanaged=true" + "&publicip=" + publicIP + "&publicipnetmask=" + publicIPNetmask + "&lbdevicecapacity=" + capacity +
"&publicipvlan=" + publicIPVlanTag + "&publicipgateway=" + publicIPgateway;
ExternalLoadBalancerDeviceVO lbAppliance = null;
try {
lbAppliance =
addExternalLoadBalancer(physicalNetworkId, url, username, password, createLbAnswer.getDeviceName(),
createLbAnswer.getServerResource(), false, false, null, null);
} catch (Exception e) {
s_logger.error("Failed to add load balancer appliance in to cloudstack due to " + e.getMessage() +
". So provisioned load balancer appliance will be destroyed.");
}
if (lbAppliance != null) {
// mark the load balancer as cloudstack managed and set parent host id on which lb appliance is provisioned
ExternalLoadBalancerDeviceVO managedLb = _externalLoadBalancerDeviceDao.findById(lbAppliance.getId());
managedLb.setIsManagedDevice(true);
managedLb.setParentHostId(lbProviderDevice.getHostId());
_externalLoadBalancerDeviceDao.update(lbAppliance.getId(), managedLb);
} else {
// failed to add the provisioned load balancer into cloudstack so destroy the appliance
DestroyLoadBalancerApplianceCommand lbDeleteCmd = new DestroyLoadBalancerApplianceCommand(lbIP);
DestroyLoadBalancerApplianceAnswer answer = null;
try {
answer = (DestroyLoadBalancerApplianceAnswer)_agentMgr.easySend(lbProviderDevice.getHostId(), lbDeleteCmd);
if (answer == null || !answer.getResult()) {
s_logger.warn("Failed to destroy load balancer appliance created");
} else {
// release the public & private IP back to dc pool, as the load balancer appliance is now destroyed
_dcDao.releasePrivateIpAddress(lbIP, guestConfig.getDataCenterId(), null);
_ipAddrMgr.disassociatePublicIpAddress(publicIp.getId(), _accountMgr.getSystemUser().getId(), _accountMgr.getSystemAccount());
}
} catch (Exception e) {
s_logger.warn("Failed to destroy load balancer appliance created for the network" + guestConfig.getId() + " due to " + e.getMessage());
}
}
}
}
}
}
}
return lbDevice;
}
@Override
public ExternalLoadBalancerDeviceVO findSuitableLoadBalancerForNetwork(Network network, boolean dedicatedLb) throws InsufficientCapacityException {
long physicalNetworkId = network.getPhysicalNetworkId();
List<ExternalLoadBalancerDeviceVO> lbDevices = null;
String provider = _ntwkSrvcProviderDao.getProviderForServiceInNetwork(network.getId(), Service.Lb);
assert (provider != null);
if (dedicatedLb) {
lbDevices = _externalLoadBalancerDeviceDao.listByProviderAndDeviceAllocationState(physicalNetworkId, provider, LBDeviceAllocationState.Free);
if (lbDevices != null && !lbDevices.isEmpty()) {
// return first device that is free, fully configured and meant for dedicated use
for (ExternalLoadBalancerDeviceVO lbdevice : lbDevices) {
if (lbdevice.getState() == LBDeviceState.Enabled && lbdevice.getIsDedicatedDevice()) {
return lbdevice;
}
}
}
} else {
// get the LB devices that are already allocated for shared use
lbDevices = _externalLoadBalancerDeviceDao.listByProviderAndDeviceAllocationState(physicalNetworkId, provider, LBDeviceAllocationState.Shared);
if (lbDevices != null) {
ExternalLoadBalancerDeviceVO maxFreeCapacityLbdevice = null;
long maxFreeCapacity = 0;
// loop through the LB device in the physical network and pick the one with maximum free capacity
for (ExternalLoadBalancerDeviceVO lbdevice : lbDevices) {
// skip if device is not enabled
if (lbdevice.getState() != LBDeviceState.Enabled) {
continue;
}
// get the used capacity from the list of guest networks that are mapped to this load balancer
List<NetworkExternalLoadBalancerVO> mappedNetworks = _networkExternalLBDao.listByLoadBalancerDeviceId(lbdevice.getId());
long usedCapacity = ((mappedNetworks == null) || (mappedNetworks.isEmpty())) ? 0 : mappedNetworks.size();
// get the configured capacity for this device
long fullCapacity = lbdevice.getCapacity();
if (fullCapacity == 0) {
fullCapacity = _defaultLbCapacity; // if capacity not configured then use the default
}
long freeCapacity = fullCapacity - usedCapacity;
if (freeCapacity > 0) {
if (maxFreeCapacityLbdevice == null) {
maxFreeCapacityLbdevice = lbdevice;
maxFreeCapacity = freeCapacity;
} else if (freeCapacity > maxFreeCapacity) {
maxFreeCapacityLbdevice = lbdevice;
maxFreeCapacity = freeCapacity;
}
}
}
// return the device with maximum free capacity and is meant for shared use
if (maxFreeCapacityLbdevice != null) {
return maxFreeCapacityLbdevice;
}
}
// if we are here then there are no existing LB devices in shared use or the devices in shared use has no
// free capacity left
// so allocate a new load balancer configured for shared use from the pool of free LB devices
lbDevices = _externalLoadBalancerDeviceDao.listByProviderAndDeviceAllocationState(physicalNetworkId, provider, LBDeviceAllocationState.Free);
if (lbDevices != null && !lbDevices.isEmpty()) {
for (ExternalLoadBalancerDeviceVO lbdevice : lbDevices) {
if (lbdevice.getState() == LBDeviceState.Enabled && !lbdevice.getIsDedicatedDevice()) {
return lbdevice;
}
}
}
}
// there are no devices which capacity
throw new InsufficientNetworkCapacityException("Unable to find a load balancing provider with sufficient capcity " + " to implement the network", Network.class,
network.getId());
}
@DB
protected boolean freeLoadBalancerForNetwork(final Network guestConfig) {
GlobalLock deviceMapLock = GlobalLock.getInternLock("LoadBalancerAllocLock");
try {
if (deviceMapLock.lock(120)) {
ExternalLoadBalancerDeviceVO lbDevice = Transaction.execute(new TransactionCallback<ExternalLoadBalancerDeviceVO>() {
@Override
public ExternalLoadBalancerDeviceVO doInTransaction(TransactionStatus status) {
// since network is shutdown remove the network mapping to the load balancer device
NetworkExternalLoadBalancerVO networkLBDevice = _networkExternalLBDao.findByNetworkId(guestConfig.getId());
long lbDeviceId = networkLBDevice.getExternalLBDeviceId();
_networkExternalLBDao.remove(networkLBDevice.getId());
List<NetworkExternalLoadBalancerVO> ntwksMapped = _networkExternalLBDao.listByLoadBalancerDeviceId(networkLBDevice.getExternalLBDeviceId());
ExternalLoadBalancerDeviceVO lbDevice = _externalLoadBalancerDeviceDao.findById(lbDeviceId);
boolean lbInUse = !(ntwksMapped == null || ntwksMapped.isEmpty());
boolean lbCloudManaged = lbDevice.getIsManagedDevice();
if (!lbInUse && !lbCloudManaged) {
// this is the last network mapped to the load balancer device so set device allocation state to be free
lbDevice.setAllocationState(LBDeviceAllocationState.Free);
_externalLoadBalancerDeviceDao.update(lbDevice.getId(), lbDevice);
}
// commit the changes before sending agent command to destroy cloudstack managed LB
if (!lbInUse && lbCloudManaged) {
return lbDevice;
} else {
return null;
}
}
});
if (lbDevice != null) {
// send DestroyLoadBalancerApplianceCommand to the host where load balancer appliance is provisioned
Host lbHost = _hostDao.findById(lbDevice.getHostId());
String lbIP = lbHost.getPrivateIpAddress();
DestroyLoadBalancerApplianceCommand lbDeleteCmd = new DestroyLoadBalancerApplianceCommand(lbIP);
DestroyLoadBalancerApplianceAnswer answer = null;
try {
answer = (DestroyLoadBalancerApplianceAnswer)_agentMgr.easySend(lbDevice.getParentHostId(), lbDeleteCmd);
if (answer == null || !answer.getResult()) {
s_logger.warn("Failed to destoy load balancer appliance used by the network"
+ guestConfig.getId() + " due to " + answer == null ? "communication error with agent"
: answer.getDetails());
}
} catch (Exception e) {
s_logger.warn("Failed to destroy load balancer appliance used by the network" + guestConfig.getId() + " due to " + e.getMessage());
}
if (s_logger.isDebugEnabled()) {
s_logger.debug("Successfully destroyed load balancer appliance used for the network" + guestConfig.getId());
}
deviceMapLock.unlock();
// remove the provisioned load balancer appliance from cloudstack
deleteExternalLoadBalancer(lbHost.getId());
// release the private IP back to dc pool, as the load balancer appliance is now destroyed
_dcDao.releasePrivateIpAddress(lbHost.getPrivateIpAddress(), guestConfig.getDataCenterId(), null);
// release the public IP allocated for this LB appliance
DetailVO publicIpDetail = _hostDetailDao.findDetail(lbHost.getId(), "publicip");
IPAddressVO ipVo = _ipAddressDao.findByIpAndDcId(guestConfig.getDataCenterId(), publicIpDetail.toString());
_ipAddrMgr.disassociatePublicIpAddress(ipVo.getId(), _accountMgr.getSystemUser().getId(), _accountMgr.getSystemAccount());
} else {
deviceMapLock.unlock();
}
return true;
} else {
s_logger.error("Failed to release load balancer device for the network" + guestConfig.getId() + "as failed to acquire lock ");
return false;
}
} catch (Exception exception) {
s_logger.error("Failed to release load balancer device for the network" + guestConfig.getId() + " due to " + exception.getMessage());
} finally {
deviceMapLock.releaseRef();
}
return false;
}
private void applyStaticNatRuleForInlineLBRule(DataCenterVO zone, Network network, boolean revoked, String publicIp, String privateIp)
throws ResourceUnavailableException {
List<StaticNat> staticNats = new ArrayList<StaticNat>();
IPAddressVO ipVO = _ipAddressDao.listByDcIdIpAddress(zone.getId(), publicIp).get(0);
StaticNatImpl staticNat = new StaticNatImpl(ipVO.getAllocatedToAccountId(), ipVO.getAllocatedInDomainId(), network.getId(), ipVO.getId(), privateIp, revoked);
staticNats.add(staticNat);
StaticNatServiceProvider element = _networkMgr.getStaticNatProviderForNetwork(network);
element.applyStaticNats(network, staticNats);
}
private enum MappingState {
Create, Remove, Unchanged,
};
private class MappingNic {
private Nic nic;
private MappingState state;
public Nic getNic() {
return nic;
}
public void setNic(Nic nic) {
this.nic = nic;
}
public MappingState getState() {
return state;
}
public void setState(MappingState state) {
this.state = state;
}
};
private MappingNic getLoadBalancingIpNic(DataCenterVO zone, Network network, long sourceIpId, boolean revoked, String existedGuestIp)
throws ResourceUnavailableException {
String srcIp = _networkModel.getIp(sourceIpId).getAddress().addr();
InlineLoadBalancerNicMapVO mapping = _inlineLoadBalancerNicMapDao.findByPublicIpAddress(srcIp);
Nic loadBalancingIpNic = null;
MappingNic nic = new MappingNic();
nic.setState(MappingState.Unchanged);
if (!revoked) {
if (mapping == null) {
// Acquire a new guest IP address and save it as the load balancing IP address
String loadBalancingIpAddress = existedGuestIp;
if (loadBalancingIpAddress == null) {
if (network.getGuestType() == Network.GuestType.Isolated) {
loadBalancingIpAddress = _ipAddrMgr.acquireGuestIpAddress(network, null);
} else if (network.getGuestType() == Network.GuestType.Shared) {
try {
PublicIp directIp =
_ipAddrMgr.assignPublicIpAddress(network.getDataCenterId(), null, _accountDao.findById(network.getAccountId()), VlanType.DirectAttached,
network.getId(), null, true, false);
loadBalancingIpAddress = directIp.getAddress().addr();
} catch (InsufficientCapacityException capException) {
String msg = "Ran out of guest IP addresses from the shared network.";
s_logger.error(msg);
throw new ResourceUnavailableException(msg, DataCenter.class, network.getDataCenterId());
}
}
}
if (loadBalancingIpAddress == null) {
String msg = "Ran out of guest IP addresses.";
s_logger.error(msg);
throw new ResourceUnavailableException(msg, DataCenter.class, network.getDataCenterId());
}
// If a NIC doesn't exist for the load balancing IP address, create one
loadBalancingIpNic = _nicDao.findByIp4AddressAndNetworkId(loadBalancingIpAddress, network.getId());
if (loadBalancingIpNic == null) {
loadBalancingIpNic = _networkMgr.savePlaceholderNic(network, loadBalancingIpAddress, null, null);
}
// Save a mapping between the source IP address and the load balancing IP address NIC
mapping = new InlineLoadBalancerNicMapVO(srcIp, loadBalancingIpNic.getId());
_inlineLoadBalancerNicMapDao.persist(mapping);
// On the firewall provider for the network, create a static NAT rule between the source IP
// address and the load balancing IP address
try {
applyStaticNatRuleForInlineLBRule(zone, network, revoked, srcIp, loadBalancingIpNic.getIPv4Address());
} catch (ResourceUnavailableException ex) {
// Rollback db operation
_inlineLoadBalancerNicMapDao.expunge(mapping.getId());
_nicDao.expunge(loadBalancingIpNic.getId());
throw ex;
}
s_logger.debug("Created static nat rule for inline load balancer");
nic.setState(MappingState.Create);
} else {
loadBalancingIpNic = _nicDao.findById(mapping.getNicId());
}
} else {
if (mapping != null) {
// Find the NIC that the mapping refers to
loadBalancingIpNic = _nicDao.findById(mapping.getNicId());
int count = _ipAddrMgr.getRuleCountForIp(sourceIpId, Purpose.LoadBalancing, FirewallRule.State.Active);
if (count == 0) {
// On the firewall provider for the network, delete the static NAT rule between the source IP
// address and the load balancing IP address
applyStaticNatRuleForInlineLBRule(zone, network, revoked, srcIp, loadBalancingIpNic.getIPv4Address());
// Delete the mapping between the source IP address and the load balancing IP address
_inlineLoadBalancerNicMapDao.expunge(mapping.getId());
// Delete the NIC
_nicDao.expunge(loadBalancingIpNic.getId());
s_logger.debug("Revoked static nat rule for inline load balancer");
nic.setState(MappingState.Remove);
}
} else {
s_logger.debug("Revoking a rule for an inline load balancer that has not been programmed yet.");
nic.setNic(null);
return nic;
}
}
nic.setNic(loadBalancingIpNic);
return nic;
}
public boolean isNccServiceProvider(Network network) {
NetworkOffering networkOffering = _networkOfferingDao.findById(network.getNetworkOfferingId());
if(null!= networkOffering && networkOffering.getServicePackage() != null ) {
return true;
}
else {
return false;
}
}
public HostVO getNetScalerControlCenterForNetwork(Network guestConfig) {
long zoneId = guestConfig.getDataCenterId();
return _hostDao.findByTypeNameAndZoneId(zoneId, "NetscalerControlCenter", Type.NetScalerControlCenter);
}
@Override
public boolean applyLoadBalancerRules(Network network, List<LoadBalancingRule> loadBalancingRules) throws ResourceUnavailableException {
// Find the external load balancer in this zone
long zoneId = network.getDataCenterId();
DataCenterVO zone = _dcDao.findById(zoneId);
if (loadBalancingRules == null || loadBalancingRules.isEmpty()) {
return true;
}
HostVO externalLoadBalancer = null;
if(isNccServiceProvider(network)) {
externalLoadBalancer = getNetScalerControlCenterForNetwork(network);
} else {
ExternalLoadBalancerDeviceVO lbDeviceVO = getExternalLoadBalancerForNetwork(network);
if (lbDeviceVO == null) {
s_logger.warn("There is no external load balancer device assigned to this network either network is not implement are already shutdown so just returning");
return true;
} else {
externalLoadBalancer = _hostDao.findById(lbDeviceVO.getHostId());
}
}
boolean externalLoadBalancerIsInline = _networkMgr.isNetworkInlineMode(network);
if (network.getState() == Network.State.Allocated) {
s_logger.debug("External load balancer was asked to apply LB rules for network with ID " + network.getId() +
"; this network is not implemented. Skipping backend commands.");
return true;
}
List<LoadBalancerTO> loadBalancersToApply = new ArrayList<LoadBalancerTO>();
List<MappingState> mappingStates = new ArrayList<MappingState>();
for (int i = 0; i < loadBalancingRules.size(); i++) {
LoadBalancingRule rule = loadBalancingRules.get(i);
boolean revoked = (rule.getState().equals(FirewallRule.State.Revoke));
String protocol = rule.getProtocol();
String algorithm = rule.getAlgorithm();
String uuid = rule.getUuid();
String srcIp = rule.getSourceIp().addr();
String srcIpVlan = null;
String srcIpGateway = null;
String srcIpNetmask = null;
Long vlanid = _networkModel.getPublicIpAddress(rule.getSourceIp().addr(), network.getDataCenterId()).getVlanId();
if(vlanid != null ) {
VlanVO publicVlan = _vlanDao.findById(vlanid);
srcIpVlan = publicVlan.getVlanTag();
srcIpGateway = publicVlan.getVlanGateway();
srcIpNetmask = publicVlan.getVlanNetmask();
}
int srcPort = rule.getSourcePortStart();
List<LbDestination> destinations = rule.getDestinations();
if (externalLoadBalancerIsInline) {
long ipId = _networkModel.getPublicIpAddress(rule.getSourceIp().addr(), network.getDataCenterId()).getId();
MappingNic nic = getLoadBalancingIpNic(zone, network, ipId, revoked, null);
mappingStates.add(nic.getState());
Nic loadBalancingIpNic = nic.getNic();
if (loadBalancingIpNic == null) {
continue;
}
// Change the source IP address for the load balancing rule to be the load balancing IP address
srcIp = loadBalancingIpNic.getIPv4Address();
}
if ((destinations != null && !destinations.isEmpty()) || rule.isAutoScaleConfig()) {
boolean inline = _networkMgr.isNetworkInlineMode(network);
LoadBalancerTO loadBalancer =
new LoadBalancerTO(uuid, srcIp, srcPort, protocol, algorithm, revoked, false, inline, destinations, rule.getStickinessPolicies(),
rule.getHealthCheckPolicies(), rule.getLbSslCert(), rule.getLbProtocol());
loadBalancer.setNetworkId(network.getId());
loadBalancer.setSrcIpVlan(srcIpVlan);
loadBalancer.setSrcIpNetmask(srcIpNetmask);
loadBalancer.setSrcIpGateway(srcIpGateway);
if (rule.isAutoScaleConfig()) {
loadBalancer.setAutoScaleVmGroup(rule.getAutoScaleVmGroup());
}
loadBalancersToApply.add(loadBalancer);
}
}
try {
if (loadBalancersToApply.size() > 0) {
int numLoadBalancersForCommand = loadBalancersToApply.size();
LoadBalancerTO[] loadBalancersForCommand = loadBalancersToApply.toArray(new LoadBalancerTO[numLoadBalancersForCommand]);
LoadBalancerConfigCommand cmd = new LoadBalancerConfigCommand(loadBalancersForCommand, null);
long guestVlanTag = Integer.parseInt(BroadcastDomainType.getValue(network.getBroadcastUri()));
cmd.setAccessDetail(NetworkElementCommand.GUEST_VLAN_TAG, String.valueOf(guestVlanTag));
Answer answer = _agentMgr.easySend(externalLoadBalancer.getId(), cmd);
if (answer == null || !answer.getResult()) {
String details = (answer != null) ? answer.getDetails() : "details unavailable";
String msg = "Unable to apply load balancer rules to the external load balancer appliance in zone " + zone.getName() + " due to: " + details + ".";
s_logger.error(msg);
throw new ResourceUnavailableException(msg, DataCenter.class, network.getDataCenterId());
}
}
} catch (Exception ex) {
if (externalLoadBalancerIsInline) {
s_logger.error("Rollbacking static nat operation of inline mode load balancing due to error on applying LB rules!");
String existedGuestIp = loadBalancersToApply.get(0).getSrcIp();
// Rollback static NAT operation in current session
for (int i = 0; i < loadBalancingRules.size(); i++) {
LoadBalancingRule rule = loadBalancingRules.get(i);
MappingState state = mappingStates.get(i);
boolean revoke;
if (state == MappingState.Create) {
revoke = true;
} else if (state == MappingState.Remove) {
revoke = false;
} else {
continue;
}
long sourceIpId = _networkModel.getPublicIpAddress(rule.getSourceIp().addr(), network.getDataCenterId()).getId();
getLoadBalancingIpNic(zone, network, sourceIpId, revoke, existedGuestIp);
}
}
throw new ResourceUnavailableException(ex.getMessage(), DataCenter.class, network.getDataCenterId());
}
return true;
}
@Override
public boolean manageGuestNetworkWithExternalLoadBalancer(boolean add, Network guestConfig) throws ResourceUnavailableException, InsufficientCapacityException {
if (guestConfig.getTrafficType() != TrafficType.Guest) {
s_logger.trace("External load balancer can only be used for guest networks.");
return false;
}
long zoneId = guestConfig.getDataCenterId();
DataCenterVO zone = _dcDao.findById(zoneId);
HostVO externalLoadBalancer = null;
if (add) {
ExternalLoadBalancerDeviceVO lbDeviceVO = null;
// on restart network, device could have been allocated already, skip allocation if a device is assigned
lbDeviceVO = getExternalLoadBalancerForNetwork(guestConfig);
if (lbDeviceVO == null) {
// allocate a load balancer device for the network
lbDeviceVO = allocateLoadBalancerForNetwork(guestConfig);
if (lbDeviceVO == null) {
String msg = "failed to alloacate a external load balancer for the network " + guestConfig.getId();
s_logger.error(msg);
throw new InsufficientNetworkCapacityException(msg, DataCenter.class, guestConfig.getDataCenterId());
}
}
externalLoadBalancer = _hostDao.findById(lbDeviceVO.getHostId());
s_logger.debug("Allocated external load balancer device:" + lbDeviceVO.getId() + " for the network: " + guestConfig.getId());
} else {
// find the load balancer device allocated for the network
ExternalLoadBalancerDeviceVO lbDeviceVO = getExternalLoadBalancerForNetwork(guestConfig);
if (lbDeviceVO == null) {
s_logger.warn("Network shutdwon requested on external load balancer element, which did not implement the network."
+ " Either network implement failed half way through or already network shutdown is completed. So just returning.");
return true;
}
externalLoadBalancer = _hostDao.findById(lbDeviceVO.getHostId());
assert (externalLoadBalancer != null) : "There is no device assigned to this network how did shutdown network ended up here??";
}
// Send a command to the external load balancer to implement or shutdown the guest network
String guestVlanTag = BroadcastDomainType.getValue(guestConfig.getBroadcastUri());
String selfIp = null;
String guestVlanNetmask = NetUtils.cidr2Netmask(guestConfig.getCidr());
Integer networkRate = _networkModel.getNetworkRate(guestConfig.getId(), null);
if (add) {
// on restart network, network could have already been implemented. If already implemented then return
Nic selfipNic = getPlaceholderNic(guestConfig);
if (selfipNic != null) {
return true;
}
// Acquire a self-ip address from the guest network IP address range
selfIp = _ipAddrMgr.acquireGuestIpAddress(guestConfig, null);
if (selfIp == null) {
String msg = "failed to acquire guest IP address so not implementing the network on the external load balancer ";
s_logger.error(msg);
throw new InsufficientNetworkCapacityException(msg, Network.class, guestConfig.getId());
}
} else {
// get the self-ip used by the load balancer
Nic selfipNic = getPlaceholderNic(guestConfig);
if (selfipNic == null) {
s_logger.warn("Network shutdwon requested on external load balancer element, which did not implement the network."
+ " Either network implement failed half way through or already network shutdown is completed. So just returning.");
return true;
}
selfIp = selfipNic.getIPv4Address();
}
// It's a hack, using isOneToOneNat field for indicate if it's inline or not
boolean inline = _networkMgr.isNetworkInlineMode(guestConfig);
IpAddressTO ip =
new IpAddressTO(guestConfig.getAccountId(), null, add, false, true, guestVlanTag, selfIp, guestVlanNetmask, null, networkRate, inline);
IpAddressTO[] ips = new IpAddressTO[1];
ips[0] = ip;
IpAssocCommand cmd = new IpAssocCommand(ips);
Answer answer = _agentMgr.easySend(externalLoadBalancer.getId(), cmd);
if (answer == null || !answer.getResult()) {
String action = add ? "implement" : "shutdown";
String answerDetails = (answer != null) ? answer.getDetails() : null;
answerDetails = (answerDetails != null) ? " due to " + answerDetails : "";
String msg = "External load balancer was unable to " + action + " the guest network on the external load balancer in zone " + zone.getName() + answerDetails;
s_logger.error(msg);
throw new ResourceUnavailableException(msg, Network.class, guestConfig.getId());
}
if (add) {
// Insert a new NIC for this guest network to reserve the self IP
_networkMgr.savePlaceholderNic(guestConfig, selfIp, null, null);
} else {
// release the self-ip obtained from guest network
Nic selfipNic = getPlaceholderNic(guestConfig);
_nicDao.remove(selfipNic.getId());
// release the load balancer allocated for the network
boolean releasedLB = freeLoadBalancerForNetwork(guestConfig);
if (!releasedLB) {
String msg = "Failed to release the external load balancer used for the network: " + guestConfig.getId();
s_logger.error(msg);
}
}
if (s_logger.isDebugEnabled()) {
Account account = _accountDao.findByIdIncludingRemoved(guestConfig.getAccountId());
String action = add ? "implemented" : "shut down";
s_logger.debug("External load balancer has " + action + " the guest network for account " + account.getAccountName() + "(id = " + account.getAccountId() +
") with VLAN tag " + guestVlanTag);
}
return true;
}
@Override
public boolean configure(String name, Map<String, Object> params) throws ConfigurationException {
super.configure(name, params);
_defaultLbCapacity = NumbersUtil.parseLong(_configDao.getValue(Config.DefaultExternalLoadBalancerCapacity.key()), 50);
_resourceMgr.registerResourceStateAdapter(this.getClass().getSimpleName(), this);
return true;
}
@Override
public boolean start() {
return true;
}
@Override
public boolean stop() {
return true;
}
@Override
public HostVO createHostVOForConnectedAgent(HostVO host, StartupCommand[] cmd) {
// TODO Auto-generated method stub
return null;
}
@Override
public HostVO createHostVOForDirectConnectAgent(HostVO host, StartupCommand[] startup, ServerResource resource, Map<String, String> details, List<String> hostTags) {
if (!(startup[0] instanceof StartupExternalLoadBalancerCommand)) {
return null;
}
if(host.getName().equalsIgnoreCase("NetScalerControlCenter")) {
host.setType(Host.Type.NetScalerControlCenter);
}
else {
host.setType(Host.Type.ExternalLoadBalancer);
}
return host;
}
@Override
public DeleteHostAnswer deleteHost(HostVO host, boolean isForced, boolean isForceDeleteStorage) throws UnableDeleteHostException {
if (host.getType() != com.cloud.host.Host.Type.ExternalLoadBalancer) {
return null;
}
return new DeleteHostAnswer(true);
}
protected IpDeployer getIpDeployerForInlineMode(Network network) {
//We won't deploy IP, instead the firewall in front of us would do it
List<Provider> providers = _networkMgr.getProvidersForServiceInNetwork(network, Service.Firewall);
//Only support one provider now
if (providers == null) {
s_logger.error("Cannot find firewall provider for network " + network.getId());
return null;
}
if (providers.size() != 1) {
s_logger.error("Found " + providers.size() + " firewall provider for network " + network.getId());
return null;
}
NetworkElement element = _networkModel.getElementImplementingProvider(providers.get(0).getName());
if (!(element instanceof IpDeployer)) {
s_logger.error("The firewall provider for network " + network.getName() + " don't have ability to deploy IP address!");
return null;
}
s_logger.info("Let " + element.getName() + " handle ip association for " + getName() + " in network " + network.getId());
return (IpDeployer)element;
}
@Override
public List<LoadBalancerTO> getLBHealthChecks(Network network, List<LoadBalancingRule> loadBalancingRules) throws ResourceUnavailableException {
// Find the external load balancer in this zone
long zoneId = network.getDataCenterId();
DataCenterVO zone = _dcDao.findById(zoneId);
if (loadBalancingRules == null || loadBalancingRules.isEmpty()) {
return null;
}
HostVO externalLoadBalancer = null;
if(isNccServiceProvider(network)) {
externalLoadBalancer = getNetScalerControlCenterForNetwork(network);
} else {
ExternalLoadBalancerDeviceVO lbDeviceVO = getExternalLoadBalancerForNetwork(network);
if (lbDeviceVO == null) {
s_logger.warn("There is no external load balancer device assigned to this network either network is not implement are already shutdown so just returning");
return null;
} else {
externalLoadBalancer = _hostDao.findById(lbDeviceVO.getHostId());
}
}
boolean externalLoadBalancerIsInline = _networkMgr.isNetworkInlineMode(network);
if (network.getState() == Network.State.Allocated) {
s_logger.debug("External load balancer was asked to apply LB rules for network with ID " + network.getId() +
"; this network is not implemented. Skipping backend commands.");
return null;
}
List<LoadBalancerTO> loadBalancersToApply = new ArrayList<LoadBalancerTO>();
List<MappingState> mappingStates = new ArrayList<MappingState>();
for (final LoadBalancingRule rule : loadBalancingRules) {
boolean revoked = (FirewallRule.State.Revoke.equals(rule.getState()));
String protocol = rule.getProtocol();
String algorithm = rule.getAlgorithm();
String uuid = rule.getUuid();
String srcIp = rule.getSourceIp().addr();
int srcPort = rule.getSourcePortStart();
List<LbDestination> destinations = rule.getDestinations();
if (externalLoadBalancerIsInline) {
long sourceIpId = _networkModel.getPublicIpAddress(rule.getSourceIp().addr(), network.getDataCenterId()).getId();
MappingNic nic = getLoadBalancingIpNic(zone, network, sourceIpId, revoked, null);
mappingStates.add(nic.getState());
Nic loadBalancingIpNic = nic.getNic();
if (loadBalancingIpNic == null) {
continue;
}
// Change the source IP address for the load balancing rule to
// be the load balancing IP address
srcIp = loadBalancingIpNic.getIPv4Address();
}
if ((destinations != null && !destinations.isEmpty()) || !rule.isAutoScaleConfig()) {
boolean inline = _networkMgr.isNetworkInlineMode(network);
LoadBalancerTO loadBalancer =
new LoadBalancerTO(uuid, srcIp, srcPort, protocol, algorithm, revoked, false, inline, destinations, rule.getStickinessPolicies(),
rule.getHealthCheckPolicies(), rule.getLbSslCert(), rule.getLbProtocol());
loadBalancersToApply.add(loadBalancer);
}
}
try {
if (loadBalancersToApply.size() > 0) {
int numLoadBalancersForCommand = loadBalancersToApply.size();
LoadBalancerTO[] loadBalancersForCommand = loadBalancersToApply.toArray(new LoadBalancerTO[numLoadBalancersForCommand]);
HealthCheckLBConfigCommand cmd = new HealthCheckLBConfigCommand(loadBalancersForCommand, network.getId());
long guestVlanTag = Integer.parseInt(BroadcastDomainType.getValue(network.getBroadcastUri()));
cmd.setAccessDetail(NetworkElementCommand.GUEST_VLAN_TAG, String.valueOf(guestVlanTag));
HealthCheckLBConfigAnswer answer = (HealthCheckLBConfigAnswer) _agentMgr.easySend(externalLoadBalancer.getId(), cmd);
// easySend will return null on error
return answer == null ? null : answer.getLoadBalancers();
}
} catch (Exception ex) {
s_logger.error("Exception Occured ", ex);
}
//null return is handled by clients
return null;
}
private NicVO getPlaceholderNic(Network network) {
List<NicVO> guestIps = _nicDao.listByNetworkId(network.getId());
for (NicVO guestIp : guestIps) {
// only external firewall and external load balancer will create NicVO with PlaceHolder reservation strategy
if (guestIp.getReservationStrategy().equals(ReservationStrategy.PlaceHolder) && guestIp.getVmType() == null && guestIp.getReserver() == null &&
!guestIp.getIPv4Address().equals(network.getGateway())) {
return guestIp;
}
}
return null;
}
}
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