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// 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
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// under the License.
package com.cloud.network.element;
import java.net.URI;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import javax.ejb.Local;
import org.apache.log4j.Logger;
import com.cloud.agent.AgentManager;
import com.cloud.agent.api.Answer;
import com.cloud.agent.api.routing.LoadBalancerConfigCommand;
import com.cloud.agent.api.routing.SetStaticNatRulesAnswer;
import com.cloud.agent.api.routing.SetStaticNatRulesCommand;
import com.cloud.agent.api.to.LoadBalancerTO;
import com.cloud.agent.api.to.StaticNatRuleTO;
import com.cloud.api.ApiConstants;
import com.cloud.api.commands.AddNetscalerLoadBalancerCmd;
import com.cloud.api.commands.ConfigureNetscalerLoadBalancerCmd;
import com.cloud.api.commands.DeleteNetscalerLoadBalancerCmd;
import com.cloud.api.commands.ListNetscalerLoadBalancerNetworksCmd;
import com.cloud.api.commands.ListNetscalerLoadBalancersCmd;
import com.cloud.api.response.NetscalerLoadBalancerResponse;
import com.cloud.configuration.Config;
import com.cloud.configuration.ConfigurationManager;
import com.cloud.configuration.dao.ConfigurationDao;
import com.cloud.dc.DataCenter;
import com.cloud.dc.DataCenter.NetworkType;
import com.cloud.dc.DataCenterIpAddressVO;
import com.cloud.dc.HostPodVO;
import com.cloud.dc.dao.DataCenterDao;
import com.cloud.dc.dao.DataCenterIpAddressDao;
import com.cloud.deploy.DeployDestination;
import com.cloud.exception.ConcurrentOperationException;
import com.cloud.exception.InsufficientCapacityException;
import com.cloud.exception.InsufficientNetworkCapacityException;
import com.cloud.exception.InvalidParameterValueException;
import com.cloud.exception.ResourceUnavailableException;
import com.cloud.host.Host;
import com.cloud.host.HostVO;
import com.cloud.host.dao.HostDao;
import com.cloud.host.dao.HostDetailsDao;
import com.cloud.network.ExternalLoadBalancerDeviceManager;
import com.cloud.network.ExternalLoadBalancerDeviceManagerImpl;
import com.cloud.network.ExternalLoadBalancerDeviceVO;
import com.cloud.network.ExternalLoadBalancerDeviceVO.LBDeviceState;
import com.cloud.network.ExternalNetworkDeviceManager.NetworkDevice;
import com.cloud.network.IpAddress;
import com.cloud.network.NetScalerPodVO;
import com.cloud.network.Network;
import com.cloud.network.Network.Capability;
import com.cloud.network.Network.Provider;
import com.cloud.network.Network.Service;
import com.cloud.network.NetworkExternalLoadBalancerVO;
import com.cloud.network.NetworkManager;
import com.cloud.network.NetworkVO;
import com.cloud.network.Networks.TrafficType;
import com.cloud.network.PhysicalNetworkServiceProvider;
import com.cloud.network.PhysicalNetworkVO;
import com.cloud.network.PublicIpAddress;
import com.cloud.network.dao.ExternalLoadBalancerDeviceDao;
import com.cloud.network.dao.NetScalerPodDao;
import com.cloud.network.dao.NetworkDao;
import com.cloud.network.dao.NetworkExternalLoadBalancerDao;
import com.cloud.network.dao.NetworkServiceMapDao;
import com.cloud.network.dao.PhysicalNetworkDao;
import com.cloud.network.lb.LoadBalancingRule;
import com.cloud.network.lb.LoadBalancingRule.LbDestination;
import com.cloud.network.resource.NetscalerResource;
import com.cloud.network.rules.FirewallRule;
import com.cloud.network.rules.FirewallRule.Purpose;
import com.cloud.network.rules.LbStickinessMethod;
import com.cloud.network.rules.LbStickinessMethod.StickinessMethodType;
import com.cloud.network.rules.StaticNat;
import com.cloud.offering.NetworkOffering;
import com.cloud.resource.ServerResource;
import com.cloud.utils.NumbersUtil;
import com.cloud.utils.component.Inject;
import com.cloud.utils.db.DB;
import com.cloud.utils.db.Transaction;
import com.cloud.utils.exception.CloudRuntimeException;
import com.cloud.utils.net.UrlUtil;
import com.cloud.vm.NicProfile;
import com.cloud.vm.ReservationContext;
import com.cloud.vm.VirtualMachine;
import com.cloud.vm.VirtualMachineProfile;
import com.google.gson.Gson;
@Local(value = NetworkElement.class)
public class NetscalerElement extends ExternalLoadBalancerDeviceManagerImpl implements LoadBalancingServiceProvider, NetscalerLoadBalancerElementService, ExternalLoadBalancerDeviceManager, IpDeployer,
StaticNatServiceProvider {
private static final Logger s_logger = Logger.getLogger(NetscalerElement.class);
@Inject
NetworkManager _networkManager;
@Inject
ConfigurationManager _configMgr;
@Inject
NetworkServiceMapDao _ntwkSrvcDao;
@Inject
AgentManager _agentMgr;
@Inject
NetworkManager _networkMgr;
@Inject
HostDao _hostDao;
@Inject
DataCenterDao _dcDao;
@Inject
ExternalLoadBalancerDeviceDao _lbDeviceDao;
@Inject
NetworkExternalLoadBalancerDao _networkLBDao;
@Inject
PhysicalNetworkDao _physicalNetworkDao;
@Inject
NetworkDao _networkDao;
@Inject
HostDetailsDao _detailsDao;
@Inject
ConfigurationDao _configDao;
@Inject
NetScalerPodDao _netscalerPodDao;
@Inject
DataCenterIpAddressDao _privateIpAddressDao;
private boolean canHandle(Network config, Service service) {
DataCenter zone = _dcDao.findById(config.getDataCenterId());
boolean handleInAdvanceZone = (zone.getNetworkType() == NetworkType.Advanced && config.getGuestType() == Network.GuestType.Isolated && config.getTrafficType() == TrafficType.Guest);
boolean handleInBasicZone = (zone.getNetworkType() == NetworkType.Basic && config.getGuestType() == Network.GuestType.Shared && config.getTrafficType() == TrafficType.Guest);
if (!(handleInAdvanceZone || handleInBasicZone)) {
s_logger.trace("Not handling network with Type " + config.getGuestType() + " and traffic type " + config.getTrafficType() + " in zone of type " + zone.getNetworkType());
return false;
}
return (_networkManager.isProviderForNetwork(getProvider(), config.getId()) && _ntwkSrvcDao.canProviderSupportServiceInNetwork(config.getId(), service, Network.Provider.Netscaler));
}
private boolean isBasicZoneNetwok(Network config) {
DataCenter zone = _dcDao.findById(config.getDataCenterId());
return (zone.getNetworkType() == NetworkType.Basic && config.getGuestType() == Network.GuestType.Shared && config.getTrafficType() == TrafficType.Guest);
}
@Override
public boolean implement(Network guestConfig, NetworkOffering offering, DeployDestination dest, ReservationContext context) throws ResourceUnavailableException, ConcurrentOperationException,
InsufficientNetworkCapacityException {
if (!canHandle(guestConfig, Service.Lb)) {
return false;
}
if (_ntwkSrvcDao.canProviderSupportServiceInNetwork(guestConfig.getId(), Service.StaticNat, Network.Provider.Netscaler) && !isBasicZoneNetwok(guestConfig)) {
s_logger.error("NetScaler provider can not be Static Nat service provider for the network " + guestConfig.getGuestType() +
" and traffic type " + guestConfig.getTrafficType());
return false;
}
try {
return manageGuestNetworkWithExternalLoadBalancer(true, guestConfig);
} catch (InsufficientCapacityException capacityException) {
throw new ResourceUnavailableException("There are no NetScaler load balancer devices with the free capacity for implementing this network", DataCenter.class, guestConfig.getDataCenterId());
}
}
@Override
public boolean prepare(Network config, NicProfile nic, VirtualMachineProfile<? extends VirtualMachine> vm, DeployDestination dest, ReservationContext context) throws ConcurrentOperationException,
InsufficientNetworkCapacityException, ResourceUnavailableException {
return true;
}
@Override
public boolean release(Network config, NicProfile nic, VirtualMachineProfile<? extends VirtualMachine> vm, ReservationContext context) {
return true;
}
@Override
public boolean shutdown(Network guestConfig, ReservationContext context, boolean cleanup) throws ResourceUnavailableException, ConcurrentOperationException {
if (!canHandle(guestConfig, Service.Lb)) {
return false;
}
try {
return manageGuestNetworkWithExternalLoadBalancer(false, guestConfig);
} catch (InsufficientCapacityException capacityException) {
// TODO: handle out of capacity exception gracefully in case of multple providers available
return false;
}
}
@Override
public boolean destroy(Network config) {
return true;
}
@Override
public boolean validateLBRule(Network network, LoadBalancingRule rule) {
return true;
}
@Override
public boolean applyLBRules(Network config, List<LoadBalancingRule> rules) throws ResourceUnavailableException {
if (!canHandle(config, Service.Lb)) {
return false;
}
if (isBasicZoneNetwok(config)) {
return applyElasticLoadBalancerRules(config, rules);
} else {
return applyLoadBalancerRules(config, rules);
}
}
@Override
public Map<Service, Map<Capability, String>> getCapabilities() {
Map<Service, Map<Capability, String>> capabilities = new HashMap<Service, Map<Capability, String>>();
// Set capabilities for LB service
Map<Capability, String> lbCapabilities = new HashMap<Capability, String>();
// Specifies that the RoundRobin and Leastconn algorithms are supported for load balancing rules
lbCapabilities.put(Capability.SupportedLBAlgorithms, "roundrobin,leastconn");
// specifies that Netscaler network element can provided both shared and isolation modes
lbCapabilities.put(Capability.SupportedLBIsolation, "dedicated, shared");
// Specifies that load balancing rules can be made for either TCP or UDP traffic
lbCapabilities.put(Capability.SupportedProtocols, "tcp,udp");
// Specifies that this element can measure network usage on a per public IP basis
lbCapabilities.put(Capability.TrafficStatistics, "per public ip");
// Specifies that load balancing rules can only be made with public IPs that aren't source NAT IPs
lbCapabilities.put(Capability.LoadBalancingSupportedIps, "additional");
LbStickinessMethod method;
List<LbStickinessMethod> methodList = new ArrayList<LbStickinessMethod>();
method = new LbStickinessMethod(StickinessMethodType.LBCookieBased, "This is cookie based sticky method, can be used only for http");
methodList.add(method);
method.addParam("holdtime", false, "time period in minutes for which persistence is in effect.", false);
method = new LbStickinessMethod(StickinessMethodType.AppCookieBased, "This is app session based sticky method, can be used only for http");
methodList.add(method);
method.addParam("name", true, "cookie name passed in http header by apllication to the client", false);
method = new LbStickinessMethod(StickinessMethodType.SourceBased, "This is source based sticky method, can be used for any type of protocol.");
methodList.add(method);
method.addParam("holdtime", false, "time period for which persistence is in effect.", false);
Gson gson = new Gson();
String stickyMethodList = gson.toJson(methodList);
lbCapabilities.put(Capability.SupportedStickinessMethods, stickyMethodList);
lbCapabilities.put(Capability.ElasticLb, "true");
capabilities.put(Service.Lb, lbCapabilities);
Map<Capability, String> staticNatCapabilities = new HashMap<Capability, String>();
staticNatCapabilities.put(Capability.ElasticIp, "true");
capabilities.put(Service.StaticNat, staticNatCapabilities);
// TODO - Murali, please put correct capabilities here
Map<Capability, String> firewallCapabilities = new HashMap<Capability, String>();
firewallCapabilities.put(Capability.TrafficStatistics, "per public ip");
firewallCapabilities.put(Capability.SupportedProtocols, "tcp,udp,icmp");
firewallCapabilities.put(Capability.MultipleIps, "true");
capabilities.put(Service.Firewall, firewallCapabilities);
return capabilities;
}
@Override
public ExternalLoadBalancerDeviceVO addNetscalerLoadBalancer(AddNetscalerLoadBalancerCmd cmd) {
String deviceName = cmd.getDeviceType();
if (!isNetscalerDevice(deviceName)) {
throw new InvalidParameterValueException("Invalid Netscaler device type");
}
URI uri;
try {
uri = new URI(cmd.getUrl());
} catch (Exception e) {
String msg = "Error parsing the url parameter specified in addNetscalerLoadBalancer command due to " + e.getMessage();
s_logger.debug(msg);
throw new InvalidParameterValueException(msg);
}
Map<String, String> configParams = new HashMap<String, String>();
UrlUtil.parseQueryParameters(uri.getQuery(), false, configParams);
boolean dedicatedUse = (configParams.get(ApiConstants.LOAD_BALANCER_DEVICE_DEDICATED) != null) ? Boolean.parseBoolean(configParams.get(ApiConstants.LOAD_BALANCER_DEVICE_DEDICATED)) : false;
if (dedicatedUse && !deviceName.equals(NetworkDevice.NetscalerVPXLoadBalancer.getName())) {
String msg = "Only Netscaler VPX load balancers can be specified for dedicated use";
s_logger.debug(msg);
throw new InvalidParameterValueException(msg);
}
ExternalLoadBalancerDeviceVO lbDeviceVO = addExternalLoadBalancer(cmd.getPhysicalNetworkId(), cmd.getUrl(), cmd.getUsername(), cmd.getPassword(), deviceName, (ServerResource) new NetscalerResource());
return lbDeviceVO;
}
@Override
public boolean deleteNetscalerLoadBalancer(DeleteNetscalerLoadBalancerCmd cmd) {
Long lbDeviceId = cmd.getLoadBalancerDeviceId();
ExternalLoadBalancerDeviceVO lbDeviceVo = _lbDeviceDao.findById(lbDeviceId);
if ((lbDeviceVo == null) || !isNetscalerDevice(lbDeviceVo.getDeviceName())) {
throw new InvalidParameterValueException("No netscaler device found with ID: " + lbDeviceId);
}
return deleteExternalLoadBalancer(lbDeviceVo.getHostId());
}
@Override
public ExternalLoadBalancerDeviceVO configureNetscalerLoadBalancer(ConfigureNetscalerLoadBalancerCmd cmd) {
Long lbDeviceId = cmd.getLoadBalancerDeviceId();
Boolean dedicatedUse = cmd.getLoadBalancerDedicated();
Boolean inline = cmd.getLoadBalancerInline();
Long capacity = cmd.getLoadBalancerCapacity();
List<Long> podIds = cmd.getPodIds();
try {
return configureNetscalerLoadBalancer(lbDeviceId, capacity, inline, dedicatedUse, podIds);
} catch (Exception e) {
throw new CloudRuntimeException("failed to configure netscaler device due to " + e.getMessage());
}
}
@DB
private ExternalLoadBalancerDeviceVO configureNetscalerLoadBalancer(long lbDeviceId, Long capacity, Boolean inline, Boolean dedicatedUse, List<Long> newPodsConfig) {
ExternalLoadBalancerDeviceVO lbDeviceVo = _lbDeviceDao.findById(lbDeviceId);
Map<String, String> lbDetails = _detailsDao.findDetails(lbDeviceVo.getHostId());
if ((lbDeviceVo == null) || !isNetscalerDevice(lbDeviceVo.getDeviceName())) {
throw new InvalidParameterValueException("No netscaler device found with ID: " + lbDeviceId);
}
List<Long> currentPodsConfig = new ArrayList<Long>();
List<NetScalerPodVO> currentPodVOs = _netscalerPodDao.listByNetScalerDeviceId(lbDeviceVo.getId());
if (currentPodVOs != null && currentPodVOs.size() > 0) {
for (NetScalerPodVO nsPodVo: currentPodVOs) {
currentPodsConfig.add(nsPodVo.getPodId());
}
}
List<Long> podsToAssociate = new ArrayList<Long>();
if (newPodsConfig != null && newPodsConfig.size() > 0) {
for (Long podId: newPodsConfig) {
HostPodVO pod = _podDao.findById(podId);
if (pod == null) {
throw new InvalidParameterValueException("Can't find pod by id " + podId);
}
}
for (Long podId: newPodsConfig) {
if (!currentPodsConfig.contains(podId)) {
podsToAssociate.add(podId);
}
}
}
List<Long> podsToDeassociate = new ArrayList<Long>();
for (Long podId: currentPodsConfig) {
if (!newPodsConfig.contains(podId)) {
podsToDeassociate.add(podId);
}
}
String deviceName = lbDeviceVo.getDeviceName();
if (dedicatedUse != null || capacity != null || inline != null) {
if (NetworkDevice.NetscalerSDXLoadBalancer.getName().equalsIgnoreCase(deviceName) ||
NetworkDevice.NetscalerMPXLoadBalancer.getName().equalsIgnoreCase(deviceName)) {
if (dedicatedUse != null && dedicatedUse == true) {
throw new InvalidParameterValueException("Netscaler MPX and SDX device should be shared and can not be dedicated to a single account.");
}
}
// check if any networks are using this netscaler device
List<NetworkExternalLoadBalancerVO> networks = _networkLBDao.listByLoadBalancerDeviceId(lbDeviceId);
if ((networks != null) && !networks.isEmpty()) {
if (capacity != null && capacity < networks.size()) {
throw new CloudRuntimeException("There are more number of networks already using this netscaler device than configured capacity");
}
if (dedicatedUse != null && dedicatedUse == true) {
throw new CloudRuntimeException("There are networks already using this netscaler device to make device dedicated");
}
if (inline != null) {
boolean _setInline = Boolean.parseBoolean((String) lbDetails.get("inline"));
if (inline != _setInline) {
throw new CloudRuntimeException("There are networks already using this netscaler device to change the device inline or side-by-side configuration");
}
}
}
}
if (!NetworkDevice.NetscalerSDXLoadBalancer.getName().equalsIgnoreCase(deviceName)) {
if (capacity != null) {
lbDeviceVo.setCapacity(capacity);
}
} else {
// FIXME how to interpret configured capacity of the SDX device
}
if (dedicatedUse != null) {
lbDeviceVo.setIsDedicatedDevice(dedicatedUse);
}
if (inline != null && inline == true) {
lbDeviceVo.setIsInlineMode(true);
lbDetails.put("inline", "true");
} else {
lbDeviceVo.setIsInlineMode(false);
lbDetails.put("inline", "false");
}
Transaction txn = Transaction.currentTxn();
txn.start();
_lbDeviceDao.update(lbDeviceId, lbDeviceVo);
for (Long podId: podsToAssociate) {
NetScalerPodVO nsPodVo = new NetScalerPodVO(lbDeviceId, podId);
_netscalerPodDao.persist(nsPodVo);
}
for (Long podId: podsToDeassociate) {
NetScalerPodVO nsPodVo = _netscalerPodDao.findByPodId(podId);
_netscalerPodDao.remove(nsPodVo.getId());
}
// FIXME get the row lock to avoid race condition
_detailsDao.persist(lbDeviceVo.getHostId(), lbDetails);
HostVO host = _hostDao.findById(lbDeviceVo.getHostId());
txn.commit();
_agentMgr.reconnect(host.getId());
return lbDeviceVo;
}
@Override
public String getPropertiesFile() {
return "netscalerloadbalancer_commands.properties";
}
@Override
public List<? extends Network> listNetworks(ListNetscalerLoadBalancerNetworksCmd cmd) {
Long lbDeviceId = cmd.getLoadBalancerDeviceId();
List<NetworkVO> networks = new ArrayList<NetworkVO>();
ExternalLoadBalancerDeviceVO lbDeviceVo = _lbDeviceDao.findById(lbDeviceId);
if (lbDeviceVo == null || !isNetscalerDevice(lbDeviceVo.getDeviceName())) {
throw new InvalidParameterValueException("Could not find Netscaler load balancer device with ID " + lbDeviceId);
}
List<NetworkExternalLoadBalancerVO> networkLbMaps = _networkLBDao.listByLoadBalancerDeviceId(lbDeviceId);
if (networkLbMaps != null && !networkLbMaps.isEmpty()) {
for (NetworkExternalLoadBalancerVO networkLbMap : networkLbMaps) {
NetworkVO network = _networkDao.findById(networkLbMap.getNetworkId());
networks.add(network);
}
}
return networks;
}
@Override
public List<ExternalLoadBalancerDeviceVO> listNetscalerLoadBalancers(ListNetscalerLoadBalancersCmd cmd) {
Long physcialNetworkId = cmd.getPhysicalNetworkId();
Long lbDeviceId = cmd.getLoadBalancerDeviceId();
PhysicalNetworkVO pNetwork = null;
List<ExternalLoadBalancerDeviceVO> lbDevices = new ArrayList<ExternalLoadBalancerDeviceVO>();
if (physcialNetworkId == null && lbDeviceId == null) {
throw new InvalidParameterValueException("Either physical network Id or load balancer device Id must be specified");
}
if (lbDeviceId != null) {
ExternalLoadBalancerDeviceVO lbDeviceVo = _lbDeviceDao.findById(lbDeviceId);
if (lbDeviceVo == null || !isNetscalerDevice(lbDeviceVo.getDeviceName())) {
throw new InvalidParameterValueException("Could not find Netscaler load balancer device with ID: " + lbDeviceId);
}
lbDevices.add(lbDeviceVo);
return lbDevices;
}
if (physcialNetworkId != null) {
pNetwork = _physicalNetworkDao.findById(physcialNetworkId);
if (pNetwork == null) {
throw new InvalidParameterValueException("Could not find phyical network with ID: " + physcialNetworkId);
}
lbDevices = _lbDeviceDao.listByPhysicalNetworkAndProvider(physcialNetworkId, Provider.Netscaler.getName());
return lbDevices;
}
return null;
}
@Override
public NetscalerLoadBalancerResponse createNetscalerLoadBalancerResponse(ExternalLoadBalancerDeviceVO lbDeviceVO) {
NetscalerLoadBalancerResponse response = new NetscalerLoadBalancerResponse();
Host lbHost = _hostDao.findById(lbDeviceVO.getHostId());
Map<String, String> lbDetails = _detailsDao.findDetails(lbDeviceVO.getHostId());
response.setId(lbDeviceVO.getId());
response.setIpAddress(lbHost.getPrivateIpAddress());
response.setPhysicalNetworkId(lbDeviceVO.getPhysicalNetworkId());
response.setPublicInterface(lbDetails.get("publicInterface"));
response.setPrivateInterface(lbDetails.get("privateInterface"));
response.setDeviceName(lbDeviceVO.getDeviceName());
if (lbDeviceVO.getCapacity() == 0) {
long defaultLbCapacity = NumbersUtil.parseLong(_configDao.getValue(Config.DefaultExternalLoadBalancerCapacity.key()), 50);
response.setDeviceCapacity(defaultLbCapacity);
} else {
response.setDeviceCapacity(lbDeviceVO.getCapacity());
}
response.setInlineMode(lbDeviceVO.getIsInLineMode());
response.setDedicatedLoadBalancer(lbDeviceVO.getIsDedicatedDevice());
response.setProvider(lbDeviceVO.getProviderName());
response.setDeviceState(lbDeviceVO.getState().name());
response.setObjectName("netscalerloadbalancer");
List<Long> associatedPods = new ArrayList<Long>();
List<NetScalerPodVO> currentPodVOs = _netscalerPodDao.listByNetScalerDeviceId(lbDeviceVO.getId());
if (currentPodVOs != null && currentPodVOs.size() > 0) {
for (NetScalerPodVO nsPodVo: currentPodVOs) {
associatedPods.add(nsPodVo.getPodId());
}
}
response.setAssociatedPods(associatedPods);
return response;
}
@Override
public Provider getProvider() {
return Provider.Netscaler;
}
@Override
public boolean isReady(PhysicalNetworkServiceProvider provider) {
List<ExternalLoadBalancerDeviceVO> lbDevices = _lbDeviceDao.listByPhysicalNetworkAndProvider(provider.getPhysicalNetworkId(), Provider.Netscaler.getName());
// true if at-least one Netscaler device is added in to physical network and is in configured (in enabled state)
// state
if (lbDevices != null && !lbDevices.isEmpty()) {
for (ExternalLoadBalancerDeviceVO lbDevice : lbDevices) {
if (lbDevice.getState() == LBDeviceState.Enabled) {
return true;
}
}
}
return false;
}
@Override
public boolean shutdownProviderInstances(PhysicalNetworkServiceProvider provider, ReservationContext context) throws ConcurrentOperationException,
ResourceUnavailableException {
// TODO reset the configuration on all of the netscaler devices in this physical network
return true;
}
@Override
public boolean canEnableIndividualServices() {
return true;
}
private boolean isNetscalerDevice(String deviceName) {
if ((deviceName == null) || ((!deviceName.equalsIgnoreCase(NetworkDevice.NetscalerMPXLoadBalancer.getName())) &&
(!deviceName.equalsIgnoreCase(NetworkDevice.NetscalerSDXLoadBalancer.getName())) &&
(!deviceName.equalsIgnoreCase(NetworkDevice.NetscalerVPXLoadBalancer.getName())))) {
return false;
} else {
return true;
}
}
@Override
public boolean verifyServicesCombination(Set<Service> services) {
Set<Service> netscalerServices = new HashSet<Service>();
netscalerServices.add(Service.Lb);
netscalerServices.add(Service.StaticNat);
// NetScaler can only act as Lb and Static Nat service provider
if (services != null && !services.isEmpty() && !netscalerServices.containsAll(services)) {
String servicesList = "";
for (Service service : services) {
servicesList += service.getName() + " ";
}
s_logger.warn("NetScaler network element can only support LB and Static NAT services and service combination "
+ servicesList + " is not supported.");
return false;
}
return true;
}
@Override
public boolean applyIps(Network network, List<? extends PublicIpAddress> ipAddress, Set<Service> service) throws ResourceUnavailableException {
// return true, as IP will be associated as part of LB rule configuration
return true;
}
@Override
public IpDeployer getIpDeployer(Network network) {
return this;
}
public boolean applyElasticLoadBalancerRules(Network network, List<? extends FirewallRule> rules) throws ResourceUnavailableException {
List<LoadBalancingRule> loadBalancingRules = new ArrayList<LoadBalancingRule>();
for (FirewallRule rule : rules) {
if (rule.getPurpose().equals(Purpose.LoadBalancing)) {
loadBalancingRules.add((LoadBalancingRule) rule);
}
}
if (loadBalancingRules == null || loadBalancingRules.isEmpty()) {
return true;
}
String errMsg = null;
ExternalLoadBalancerDeviceVO lbDeviceVO = getExternalLoadBalancerForNetwork(network);
if (lbDeviceVO == null) {
try {
lbDeviceVO = allocateLoadBalancerForNetwork(network);
} catch (Exception e) {
errMsg = "Could not allocate a NetSclaer load balancer for configuring elastic load balancer rules due to " + e.getMessage();
s_logger.error(errMsg);
throw new ResourceUnavailableException(errMsg, this.getClass(), 0);
}
}
if (!isNetscalerDevice(lbDeviceVO.getDeviceName())) {
errMsg = "There are no NetScaler load balancer assigned for this network. So NetScaler element can not be handle elastic load balancer rules.";
s_logger.error(errMsg);
throw new ResourceUnavailableException(errMsg, this.getClass(), 0);
}
List<LoadBalancerTO> loadBalancersToApply = new ArrayList<LoadBalancerTO>();
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 srcIp = _networkMgr.getIp(rule.getSourceIpAddressId()).getAddress().addr();
int srcPort = rule.getSourcePortStart();
List<LbDestination> destinations = rule.getDestinations();
if (destinations != null && !destinations.isEmpty()) {
LoadBalancerTO loadBalancer = new LoadBalancerTO(srcIp, srcPort, protocol, algorithm, revoked, false, destinations, rule.getStickinessPolicies());
loadBalancersToApply.add(loadBalancer);
}
}
if (loadBalancersToApply.size() > 0) {
int numLoadBalancersForCommand = loadBalancersToApply.size();
LoadBalancerTO[] loadBalancersForCommand = loadBalancersToApply.toArray(new LoadBalancerTO[numLoadBalancersForCommand]);
LoadBalancerConfigCommand cmd = new LoadBalancerConfigCommand(loadBalancersForCommand, null);
HostVO externalLoadBalancer = _hostDao.findById(lbDeviceVO.getHostId());
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 elastic load balancer rules to the external load balancer appliance in zone " + network.getDataCenterId() + " due to: " + details + ".";
s_logger.error(msg);
throw new ResourceUnavailableException(msg, DataCenter.class, network.getDataCenterId());
}
}
return true;
}
@Override
public boolean applyStaticNats(Network config, List<? extends StaticNat> rules) throws ResourceUnavailableException {
if (!canHandle(config, Service.StaticNat)) {
return false;
}
boolean multiNetScalerDeployment = Boolean.valueOf(_configDao.getValue(Config.EIPWithMultipleNetScalersEnabled.key()));
try {
if (!multiNetScalerDeployment) {
String errMsg;
ExternalLoadBalancerDeviceVO lbDevice = getExternalLoadBalancerForNetwork(config);
if (lbDevice == null) {
try {
lbDevice = allocateLoadBalancerForNetwork(config);
} catch (Exception e) {
errMsg = "Could not allocate a NetSclaer load balancer for configuring static NAT rules due to" + e.getMessage();
s_logger.error(errMsg);
throw new ResourceUnavailableException(errMsg, this.getClass(), 0);
}
}
if (!isNetscalerDevice(lbDevice.getDeviceName())) {
errMsg = "There are no NetScaler load balancer assigned for this network. So NetScaler element will not be handling the static nat rules.";
s_logger.error(errMsg);
throw new ResourceUnavailableException(errMsg, this.getClass(), 0);
}
SetStaticNatRulesAnswer answer = null;
List<StaticNatRuleTO> rulesTO = null;
if (rules != null) {
rulesTO = new ArrayList<StaticNatRuleTO>();
for (StaticNat rule : rules) {
IpAddress sourceIp = _networkMgr.getIp(rule.getSourceIpAddressId());
StaticNatRuleTO ruleTO = new StaticNatRuleTO(0, sourceIp.getAddress().addr(), null, null, rule.getDestIpAddress(), null, null, null, rule.isForRevoke(), false);
rulesTO.add(ruleTO);
}
}
SetStaticNatRulesCommand cmd = new SetStaticNatRulesCommand(rulesTO, null);
answer = (SetStaticNatRulesAnswer) _agentMgr.send(lbDevice.getHostId(), cmd);
if (answer == null) {
return false;
} else {
return answer.getResult();
}
} else {
if (rules != null) {
for (StaticNat rule : rules) {
// validate if EIP rule can be configured.
ExternalLoadBalancerDeviceVO lbDevice = getNetScalerForEIP(rule);
if (lbDevice == null) {
String errMsg = "There is no NetScaler device configured to perform EIP to guest IP address: " + rule.getDestIpAddress();
s_logger.error(errMsg);
throw new ResourceUnavailableException(errMsg, this.getClass(), 0);
}
List<StaticNatRuleTO> rulesTO = new ArrayList<StaticNatRuleTO>();
IpAddress sourceIp = _networkMgr.getIp(rule.getSourceIpAddressId());
StaticNatRuleTO ruleTO = new StaticNatRuleTO(0, sourceIp.getAddress().addr(), null, null, rule.getDestIpAddress(), null, null, null, rule.isForRevoke(), false);
rulesTO.add(ruleTO);
SetStaticNatRulesCommand cmd = new SetStaticNatRulesCommand(rulesTO, null);
// send commands to configure INAT rule on the NetScaler device
SetStaticNatRulesAnswer answer = (SetStaticNatRulesAnswer) _agentMgr.send(lbDevice.getHostId(), cmd);
if (answer == null) {
String errMsg = "Failed to configure INAT rule on NetScaler device " + lbDevice.getHostId();
s_logger.error(errMsg);
throw new ResourceUnavailableException(errMsg, this.getClass(), 0);
}
}
return true;
}
}
return true;
} catch (Exception e) {
s_logger.error("Failed to configure StaticNat rule due to " + e.getMessage());
return false;
}
}
// returns configured NetScaler device that is associated with the pod that owns guest IP
private ExternalLoadBalancerDeviceVO getNetScalerForEIP(StaticNat rule) {
String guestIP = rule.getDestIpAddress();
List <DataCenterIpAddressVO> dcGuestIps = _privateIpAddressDao.listAll();
if (dcGuestIps != null) {
for (DataCenterIpAddressVO dcGuestIp: dcGuestIps) {
if (dcGuestIp.getIpAddress().equalsIgnoreCase(guestIP)) {
long podId = dcGuestIp.getPodId();
NetScalerPodVO nsPodVO = _netscalerPodDao.findByPodId(podId);
if (nsPodVO != null) {
ExternalLoadBalancerDeviceVO lbDeviceVO = _lbDeviceDao.findById(nsPodVO.getNetscalerDeviceId());
return lbDeviceVO;
}
}
}
}
return null;
}
}