use of com.cloud.vm.NicVO in project cloudstack by apache.
the class NetworkServiceImpl method updateGuestNetwork.
@Override
@DB
@ActionEvent(eventType = EventTypes.EVENT_NETWORK_UPDATE, eventDescription = "updating network", async = true)
public Network updateGuestNetwork(final long networkId, String name, String displayText, Account callerAccount, User callerUser, String domainSuffix, final Long networkOfferingId, Boolean changeCidr, String guestVmCidr, Boolean displayNetwork, String customId, boolean updateInSequence, boolean forced) {
boolean restartNetwork = false;
// verify input parameters
final NetworkVO network = _networksDao.findById(networkId);
if (network == null) {
// see NetworkVO.java
InvalidParameterValueException ex = new InvalidParameterValueException("Specified network id doesn't exist in the system");
ex.addProxyObject(String.valueOf(networkId), "networkId");
throw ex;
}
//perform below validation if the network is vpc network
if (network.getVpcId() != null && networkOfferingId != null) {
Vpc vpc = _entityMgr.findById(Vpc.class, network.getVpcId());
_vpcMgr.validateNtwkOffForNtwkInVpc(networkId, networkOfferingId, null, null, vpc, null, _accountMgr.getAccount(network.getAccountId()), network.getNetworkACLId());
}
// don't allow to update network in Destroy state
if (network.getState() == Network.State.Destroy) {
throw new InvalidParameterValueException("Don't allow to update network in state " + Network.State.Destroy);
}
// Don't allow to update system network
NetworkOffering offering = _networkOfferingDao.findByIdIncludingRemoved(network.getNetworkOfferingId());
if (offering.isSystemOnly()) {
throw new InvalidParameterValueException("Can't update system networks");
}
// allow to upgrade only Guest networks
if (network.getTrafficType() != Networks.TrafficType.Guest) {
throw new InvalidParameterValueException("Can't allow networks which traffic type is not " + TrafficType.Guest);
}
_accountMgr.checkAccess(callerAccount, null, true, network);
if (name != null) {
network.setName(name);
}
if (displayText != null) {
network.setDisplayText(displayText);
}
if (customId != null) {
network.setUuid(customId);
}
// display flag is not null and has changed
if (displayNetwork != null && displayNetwork != network.getDisplayNetwork()) {
// Update resource count if it needs to be updated
NetworkOffering networkOffering = _networkOfferingDao.findById(network.getNetworkOfferingId());
if (_networkMgr.resourceCountNeedsUpdate(networkOffering, network.getAclType())) {
_resourceLimitMgr.changeResourceCount(network.getAccountId(), Resource.ResourceType.network, displayNetwork);
}
network.setDisplayNetwork(displayNetwork);
}
// network offering and domain suffix can be updated for Isolated networks only in 3.0
if ((networkOfferingId != null || domainSuffix != null) && network.getGuestType() != GuestType.Isolated) {
throw new InvalidParameterValueException("NetworkOffering and domain suffix upgrade can be perfomed for Isolated networks only");
}
boolean networkOfferingChanged = false;
final long oldNetworkOfferingId = network.getNetworkOfferingId();
NetworkOffering oldNtwkOff = _networkOfferingDao.findByIdIncludingRemoved(oldNetworkOfferingId);
NetworkOfferingVO networkOffering = _networkOfferingDao.findById(networkOfferingId);
if (networkOfferingId != null) {
if (networkOffering == null || networkOffering.isSystemOnly()) {
InvalidParameterValueException ex = new InvalidParameterValueException("Unable to find network offering with specified id");
ex.addProxyObject(networkOfferingId.toString(), "networkOfferingId");
throw ex;
}
// network offering should be in Enabled state
if (networkOffering.getState() != NetworkOffering.State.Enabled) {
InvalidParameterValueException ex = new InvalidParameterValueException("Network offering with specified id is not in " + NetworkOffering.State.Enabled + " state, can't upgrade to it");
ex.addProxyObject(networkOffering.getUuid(), "networkOfferingId");
throw ex;
}
//can't update from vpc to non-vpc network offering
boolean forVpcNew = _configMgr.isOfferingForVpc(networkOffering);
boolean vorVpcOriginal = _configMgr.isOfferingForVpc(_entityMgr.findById(NetworkOffering.class, oldNetworkOfferingId));
if (forVpcNew != vorVpcOriginal) {
String errMsg = forVpcNew ? "a vpc offering " : "not a vpc offering";
throw new InvalidParameterValueException("Can't update as the new offering is " + errMsg);
}
if (networkOfferingId != oldNetworkOfferingId) {
Collection<String> newProviders = _networkMgr.finalizeServicesAndProvidersForNetwork(networkOffering, network.getPhysicalNetworkId()).values();
Collection<String> oldProviders = _networkMgr.finalizeServicesAndProvidersForNetwork(oldNtwkOff, network.getPhysicalNetworkId()).values();
if (providersConfiguredForExternalNetworking(newProviders) != providersConfiguredForExternalNetworking(oldProviders) && !changeCidr) {
throw new InvalidParameterValueException("Updating network failed since guest CIDR needs to be changed!");
}
if (changeCidr) {
if (!checkForNonStoppedVmInNetwork(network.getId())) {
InvalidParameterValueException ex = new InvalidParameterValueException("All user vm of network of specified id should be stopped before changing CIDR!");
ex.addProxyObject(network.getUuid(), "networkId");
throw ex;
}
}
// check if the network is upgradable
if (!canUpgrade(network, oldNetworkOfferingId, networkOfferingId)) {
throw new InvalidParameterValueException("Can't upgrade from network offering " + oldNtwkOff.getUuid() + " to " + networkOffering.getUuid() + "; check logs for more information");
}
restartNetwork = true;
networkOfferingChanged = true;
//Setting the new network's isReduntant to the new network offering's RedundantRouter.
network.setIsReduntant(_networkOfferingDao.findById(networkOfferingId).getRedundantRouter());
}
}
final Map<String, String> newSvcProviders = networkOfferingChanged ? _networkMgr.finalizeServicesAndProvidersForNetwork(_entityMgr.findById(NetworkOffering.class, networkOfferingId), network.getPhysicalNetworkId()) : new HashMap<String, String>();
// don't allow to modify network domain if the service is not supported
if (domainSuffix != null) {
// validate network domain
if (!NetUtils.verifyDomainName(domainSuffix)) {
throw new InvalidParameterValueException("Invalid network domain. Total length shouldn't exceed 190 chars. Each domain label must be between 1 and 63 characters long, can contain ASCII letters 'a' through 'z', the digits '0' through '9', " + "and the hyphen ('-'); can't start or end with \"-\"");
}
long offeringId = oldNetworkOfferingId;
if (networkOfferingId != null) {
offeringId = networkOfferingId;
}
Map<Network.Capability, String> dnsCapabilities = getNetworkOfferingServiceCapabilities(_entityMgr.findById(NetworkOffering.class, offeringId), Service.Dns);
String isUpdateDnsSupported = dnsCapabilities.get(Capability.AllowDnsSuffixModification);
if (isUpdateDnsSupported == null || !Boolean.valueOf(isUpdateDnsSupported)) {
// TBD: use uuid instead of networkOfferingId. May need to hardcode tablename in call to addProxyObject().
throw new InvalidParameterValueException("Domain name change is not supported by the network offering id=" + networkOfferingId);
}
network.setNetworkDomain(domainSuffix);
// have to restart the network
restartNetwork = true;
}
//IP reservation checks
// allow reservation only to Isolated Guest networks
DataCenter dc = _dcDao.findById(network.getDataCenterId());
String networkCidr = network.getNetworkCidr();
if (guestVmCidr != null) {
if (dc.getNetworkType() == NetworkType.Basic) {
throw new InvalidParameterValueException("Guest VM CIDR can't be specified for zone with " + NetworkType.Basic + " networking");
}
if (network.getGuestType() != GuestType.Isolated) {
throw new InvalidParameterValueException("Can only allow IP Reservation in networks with guest type " + GuestType.Isolated);
}
if (networkOfferingChanged == true) {
throw new InvalidParameterValueException("Cannot specify this nework offering change and guestVmCidr at same time. Specify only one.");
}
if (!(network.getState() == Network.State.Implemented)) {
throw new InvalidParameterValueException("The network must be in " + Network.State.Implemented + " state. IP Reservation cannot be applied in " + network.getState() + " state");
}
if (!NetUtils.isValidCIDR(guestVmCidr)) {
throw new InvalidParameterValueException("Invalid format of Guest VM CIDR.");
}
if (!NetUtils.validateGuestCidr(guestVmCidr)) {
throw new InvalidParameterValueException("Invalid format of Guest VM CIDR. Make sure it is RFC1918 compliant. ");
}
// But in case networkCidr is a non null value (IP reservation already exists), it implies network cidr is networkCidr
if (networkCidr != null) {
if (!NetUtils.isNetworkAWithinNetworkB(guestVmCidr, networkCidr)) {
throw new InvalidParameterValueException("Invalid value of Guest VM CIDR. For IP Reservation, Guest VM CIDR should be a subset of network CIDR : " + networkCidr);
}
} else {
if (!NetUtils.isNetworkAWithinNetworkB(guestVmCidr, network.getCidr())) {
throw new InvalidParameterValueException("Invalid value of Guest VM CIDR. For IP Reservation, Guest VM CIDR should be a subset of network CIDR : " + network.getCidr());
}
}
// This check makes sure there are no active IPs existing outside the guestVmCidr in the network
String[] guestVmCidrPair = guestVmCidr.split("\\/");
Long size = Long.valueOf(guestVmCidrPair[1]);
List<NicVO> nicsPresent = _nicDao.listByNetworkId(networkId);
String[] cidrIpRange = NetUtils.getIpRangeFromCidr(guestVmCidrPair[0], size);
s_logger.info("The start IP of the specified guest vm cidr is: " + cidrIpRange[0] + " and end IP is: " + cidrIpRange[1]);
long startIp = NetUtils.ip2Long(cidrIpRange[0]);
long endIp = NetUtils.ip2Long(cidrIpRange[1]);
long range = endIp - startIp + 1;
s_logger.info("The specified guest vm cidr has " + range + " IPs");
for (NicVO nic : nicsPresent) {
long nicIp = NetUtils.ip2Long(nic.getIPv4Address());
//check if nic IP is outside the guest vm cidr
if (nicIp < startIp || nicIp > endIp) {
if (!(nic.getState() == Nic.State.Deallocating)) {
throw new InvalidParameterValueException("Active IPs like " + nic.getIPv4Address() + " exist outside the Guest VM CIDR. Cannot apply reservation ");
}
}
}
// the IP ranges exactly matches, in these special cases make sure no Reservation gets applied
if (network.getNetworkCidr() == null) {
if (NetUtils.isSameIpRange(guestVmCidr, network.getCidr()) && !guestVmCidr.equals(network.getCidr())) {
throw new InvalidParameterValueException("The Start IP and End IP of guestvmcidr: " + guestVmCidr + " and CIDR: " + network.getCidr() + " are same, " + "even though both the cidrs appear to be different. As a precaution no IP Reservation will be applied.");
}
} else {
if (NetUtils.isSameIpRange(guestVmCidr, network.getNetworkCidr()) && !guestVmCidr.equals(network.getNetworkCidr())) {
throw new InvalidParameterValueException("The Start IP and End IP of guestvmcidr: " + guestVmCidr + " and Network CIDR: " + network.getNetworkCidr() + " are same, " + "even though both the cidrs appear to be different. As a precaution IP Reservation will not be affected. If you want to reset IP Reservation, " + "specify guestVmCidr to be: " + network.getNetworkCidr());
}
}
// Populate it with the actual network cidr
if (network.getNetworkCidr() == null) {
network.setNetworkCidr(network.getCidr());
}
// Condition for IP Reservation reset : guestVmCidr and network CIDR are same
if (network.getNetworkCidr().equals(guestVmCidr)) {
s_logger.warn("Guest VM CIDR and Network CIDR both are same, reservation will reset.");
network.setNetworkCidr(null);
}
// Finally update "cidr" with the guestVmCidr
// which becomes the effective address space for CloudStack guest VMs
network.setCidr(guestVmCidr);
_networksDao.update(networkId, network);
s_logger.info("IP Reservation has been applied. The new CIDR for Guests Vms is " + guestVmCidr);
}
ReservationContext context = new ReservationContextImpl(null, null, callerUser, callerAccount);
// 1) Shutdown all the elements and cleanup all the rules. Don't allow to shutdown network in intermediate
// states - Shutdown and Implementing
int resourceCount = 1;
if (updateInSequence && restartNetwork && _networkOfferingDao.findById(network.getNetworkOfferingId()).getRedundantRouter() && (networkOfferingId == null || _networkOfferingDao.findById(networkOfferingId).getRedundantRouter()) && network.getVpcId() == null) {
_networkMgr.canUpdateInSequence(network, forced);
NetworkDetailVO networkDetail = new NetworkDetailVO(network.getId(), Network.updatingInSequence, "true", true);
_networkDetailsDao.persist(networkDetail);
_networkMgr.configureUpdateInSequence(network);
resourceCount = _networkMgr.getResourceCount(network);
}
List<String> servicesNotInNewOffering = null;
if (networkOfferingId != null)
servicesNotInNewOffering = _networkMgr.getServicesNotSupportedInNewOffering(network, networkOfferingId);
if (!forced && servicesNotInNewOffering != null && !servicesNotInNewOffering.isEmpty()) {
NetworkOfferingVO newOffering = _networkOfferingDao.findById(networkOfferingId);
throw new CloudRuntimeException("The new offering:" + newOffering.getUniqueName() + " will remove the following services " + servicesNotInNewOffering + "along with all the related configuration currently in use. will not proceed with the network update." + "set forced parameter to true for forcing an update.");
}
try {
if (servicesNotInNewOffering != null && !servicesNotInNewOffering.isEmpty()) {
_networkMgr.cleanupConfigForServicesInNetwork(servicesNotInNewOffering, network);
}
} catch (Throwable e) {
s_logger.debug("failed to cleanup config related to unused services error:" + e.getMessage());
}
boolean validStateToShutdown = (network.getState() == Network.State.Implemented || network.getState() == Network.State.Setup || network.getState() == Network.State.Allocated);
try {
do {
if (restartNetwork) {
if (validStateToShutdown) {
if (!changeCidr) {
s_logger.debug("Shutting down elements and resources for network id=" + networkId + " as a part of network update");
if (!_networkMgr.shutdownNetworkElementsAndResources(context, true, network)) {
s_logger.warn("Failed to shutdown the network elements and resources as a part of network restart: " + network);
CloudRuntimeException ex = new CloudRuntimeException("Failed to shutdown the network elements and resources as a part of update to network of specified id");
ex.addProxyObject(network.getUuid(), "networkId");
throw ex;
}
} else {
// We need to shutdown the network, since we want to re-implement the network.
s_logger.debug("Shutting down network id=" + networkId + " as a part of network update");
//check if network has reservation
if (NetUtils.isNetworkAWithinNetworkB(network.getCidr(), network.getNetworkCidr())) {
s_logger.warn("Existing IP reservation will become ineffective for the network with id = " + networkId + " You need to reapply reservation after network reimplementation.");
//set cidr to the newtork cidr
network.setCidr(network.getNetworkCidr());
//set networkCidr to null to bring network back to no IP reservation state
network.setNetworkCidr(null);
}
if (!_networkMgr.shutdownNetwork(network.getId(), context, true)) {
s_logger.warn("Failed to shutdown the network as a part of update to network with specified id");
CloudRuntimeException ex = new CloudRuntimeException("Failed to shutdown the network as a part of update of specified network id");
ex.addProxyObject(network.getUuid(), "networkId");
throw ex;
}
}
} else {
CloudRuntimeException ex = new CloudRuntimeException("Failed to shutdown the network elements and resources as a part of update to network with specified id; network is in wrong state: " + network.getState());
ex.addProxyObject(network.getUuid(), "networkId");
throw ex;
}
}
// 2) Only after all the elements and rules are shutdown properly, update the network VO
// get updated network
Network.State networkState = _networksDao.findById(networkId).getState();
boolean validStateToImplement = (networkState == Network.State.Implemented || networkState == Network.State.Setup || networkState == Network.State.Allocated);
if (restartNetwork && !validStateToImplement) {
CloudRuntimeException ex = new CloudRuntimeException("Failed to implement the network elements and resources as a part of update to network with specified id; network is in wrong state: " + networkState);
ex.addProxyObject(network.getUuid(), "networkId");
throw ex;
}
if (networkOfferingId != null) {
if (networkOfferingChanged) {
Transaction.execute(new TransactionCallbackNoReturn() {
@Override
public void doInTransactionWithoutResult(TransactionStatus status) {
network.setNetworkOfferingId(networkOfferingId);
_networksDao.update(networkId, network, newSvcProviders);
// get all nics using this network
// log remove usage events for old offering
// log assign usage events for new offering
List<NicVO> nics = _nicDao.listByNetworkId(networkId);
for (NicVO nic : nics) {
long vmId = nic.getInstanceId();
VMInstanceVO vm = _vmDao.findById(vmId);
if (vm == null) {
s_logger.error("Vm for nic " + nic.getId() + " not found with Vm Id:" + vmId);
continue;
}
long isDefault = (nic.isDefaultNic()) ? 1 : 0;
String nicIdString = Long.toString(nic.getId());
UsageEventUtils.publishUsageEvent(EventTypes.EVENT_NETWORK_OFFERING_REMOVE, vm.getAccountId(), vm.getDataCenterId(), vm.getId(), nicIdString, oldNetworkOfferingId, null, isDefault, VirtualMachine.class.getName(), vm.getUuid(), vm.isDisplay());
UsageEventUtils.publishUsageEvent(EventTypes.EVENT_NETWORK_OFFERING_ASSIGN, vm.getAccountId(), vm.getDataCenterId(), vm.getId(), nicIdString, networkOfferingId, null, isDefault, VirtualMachine.class.getName(), vm.getUuid(), vm.isDisplay());
}
}
});
} else {
network.setNetworkOfferingId(networkOfferingId);
_networksDao.update(networkId, network, _networkMgr.finalizeServicesAndProvidersForNetwork(_entityMgr.findById(NetworkOffering.class, networkOfferingId), network.getPhysicalNetworkId()));
}
} else {
_networksDao.update(networkId, network);
}
// 3) Implement the elements and rules again
if (restartNetwork) {
if (network.getState() != Network.State.Allocated) {
DeployDestination dest = new DeployDestination(_dcDao.findById(network.getDataCenterId()), null, null, null);
s_logger.debug("Implementing the network " + network + " elements and resources as a part of network update");
try {
if (!changeCidr) {
_networkMgr.implementNetworkElementsAndResources(dest, context, network, _networkOfferingDao.findById(network.getNetworkOfferingId()));
} else {
_networkMgr.implementNetwork(network.getId(), dest, context);
}
} catch (Exception ex) {
s_logger.warn("Failed to implement network " + network + " elements and resources as a part of network update due to ", ex);
CloudRuntimeException e = new CloudRuntimeException("Failed to implement network (with specified id) elements and resources as a part of network update");
e.addProxyObject(network.getUuid(), "networkId");
throw e;
}
}
}
// implement the network if its not already
if (networkOfferingChanged && !oldNtwkOff.getIsPersistent() && networkOffering.getIsPersistent()) {
if (network.getState() == Network.State.Allocated) {
try {
DeployDestination dest = new DeployDestination(_dcDao.findById(network.getDataCenterId()), null, null, null);
_networkMgr.implementNetwork(network.getId(), dest, context);
} catch (Exception ex) {
s_logger.warn("Failed to implement network " + network + " elements and resources as a part o" + "f network update due to ", ex);
CloudRuntimeException e = new CloudRuntimeException("Failed to implement network (with specified" + " id) elements and resources as a part of network update");
e.addProxyObject(network.getUuid(), "networkId");
throw e;
}
}
}
resourceCount--;
} while (updateInSequence && resourceCount > 0);
} catch (Exception exception) {
if (updateInSequence)
_networkMgr.finalizeUpdateInSequence(network, false);
throw new CloudRuntimeException("failed to update network " + network.getUuid() + " due to " + exception.getMessage());
} finally {
if (updateInSequence) {
if (_networkDetailsDao.findDetail(networkId, Network.updatingInSequence) != null) {
_networkDetailsDao.removeDetail(networkId, Network.updatingInSequence);
}
}
}
return getNetwork(network.getId());
}
use of com.cloud.vm.NicVO in project cloudstack by apache.
the class NetworkServiceImpl method allocateSecondaryGuestIP.
@Override
@ActionEvent(eventType = EventTypes.EVENT_NIC_SECONDARY_IP_ASSIGN, eventDescription = "assigning secondary ip to nic", create = true)
public NicSecondaryIp allocateSecondaryGuestIP(final long nicId, String requestedIp) throws InsufficientAddressCapacityException {
Account caller = CallContext.current().getCallingAccount();
//check whether the nic belongs to user vm.
final NicVO nicVO = _nicDao.findById(nicId);
if (nicVO == null) {
throw new InvalidParameterValueException("There is no nic for the " + nicId);
}
if (nicVO.getVmType() != VirtualMachine.Type.User) {
throw new InvalidParameterValueException("The nic is not belongs to user vm");
}
VirtualMachine vm = _userVmDao.findById(nicVO.getInstanceId());
if (vm == null) {
throw new InvalidParameterValueException("There is no vm with the nic");
}
final long networkId = nicVO.getNetworkId();
final Account ipOwner = _accountMgr.getAccount(vm.getAccountId());
// verify permissions
_accountMgr.checkAccess(caller, null, true, vm);
Network network = _networksDao.findById(networkId);
if (network == null) {
throw new InvalidParameterValueException("Invalid network id is given");
}
int maxAllowedIpsPerNic = NumbersUtil.parseInt(_configDao.getValue(Config.MaxNumberOfSecondaryIPsPerNIC.key()), 10);
Long nicWiseIpCount = _nicSecondaryIpDao.countByNicId(nicId);
if (nicWiseIpCount.intValue() >= maxAllowedIpsPerNic) {
s_logger.error("Maximum Number of Ips \"vm.network.nic.max.secondary.ipaddresses = \"" + maxAllowedIpsPerNic + " per Nic has been crossed for the nic " + nicId + ".");
throw new InsufficientAddressCapacityException("Maximum Number of Ips per Nic has been crossed.", Nic.class, nicId);
}
s_logger.debug("Calling the ip allocation ...");
String ipaddr = null;
//Isolated network can exist in Basic zone only, so no need to verify the zone type
if (network.getGuestType() == Network.GuestType.Isolated) {
try {
ipaddr = _ipAddrMgr.allocateGuestIP(network, requestedIp);
} catch (InsufficientAddressCapacityException e) {
throw new InvalidParameterValueException("Allocating guest ip for nic failed");
}
} else if (network.getGuestType() == Network.GuestType.Shared) {
//for basic zone, need to provide the podId to ensure proper ip alloation
Long podId = null;
DataCenter dc = _dcDao.findById(network.getDataCenterId());
if (dc.getNetworkType() == NetworkType.Basic) {
VMInstanceVO vmi = (VMInstanceVO) vm;
podId = vmi.getPodIdToDeployIn();
if (podId == null) {
throw new InvalidParameterValueException("vm pod id is null in Basic zone; can't decide the range for ip allocation");
}
}
try {
ipaddr = _ipAddrMgr.allocatePublicIpForGuestNic(network, podId, ipOwner, requestedIp);
if (ipaddr == null) {
throw new InvalidParameterValueException("Allocating ip to guest nic " + nicId + " failed");
}
} catch (InsufficientAddressCapacityException e) {
s_logger.error("Allocating ip to guest nic " + nicId + " failed");
return null;
}
} else {
s_logger.error("AddIpToVMNic is not supported in this network...");
return null;
}
if (ipaddr != null) {
// we got the ip addr so up the nics table and secodary ip
final String addrFinal = ipaddr;
long id = Transaction.execute(new TransactionCallback<Long>() {
@Override
public Long doInTransaction(TransactionStatus status) {
boolean nicSecondaryIpSet = nicVO.getSecondaryIp();
if (!nicSecondaryIpSet) {
nicVO.setSecondaryIp(true);
// commit when previously set ??
s_logger.debug("Setting nics table ...");
_nicDao.update(nicId, nicVO);
}
s_logger.debug("Setting nic_secondary_ip table ...");
Long vmId = nicVO.getInstanceId();
NicSecondaryIpVO secondaryIpVO = new NicSecondaryIpVO(nicId, addrFinal, vmId, ipOwner.getId(), ipOwner.getDomainId(), networkId);
_nicSecondaryIpDao.persist(secondaryIpVO);
return secondaryIpVO.getId();
}
});
return getNicSecondaryIp(id);
} else {
return null;
}
}
use of com.cloud.vm.NicVO in project cloudstack by apache.
the class BigSwitchBcfUtils method getTopology.
public TopologyData getTopology(long physicalNetworkId) {
List<NetworkVO> networks;
List<NicVO> nics;
networks = _networkDao.listByPhysicalNetworkTrafficType(physicalNetworkId, TrafficType.Guest);
TopologyData topo = new TopologyData();
// handle external network first, only if NAT service is enabled
if (networks != null) {
if (!(networks.isEmpty()) && isNatEnabled()) {
// get public net info - needed to set up source nat gateway
NetworkVO pubNet = getPublicNetwork(physicalNetworkId);
// locate subnet info
SearchCriteria<VlanVO> sc = _vlanDao.createSearchCriteria();
sc.setParameters("network_id", pubNet.getId());
VlanVO vlanVO = _vlanDao.findOneBy(sc);
// add tenant external network external
TopologyData.Network network = topo.new Network();
network.setId("external");
network.setName("external");
network.setTenantId("external");
network.setTenantName("external");
String pubVlan = null;
try {
pubVlan = BroadcastDomainType.getValue(vlanVO.getVlanTag());
if (StringUtils.isNumeric(pubVlan)) {
network.setVlan(Integer.valueOf(pubVlan));
} else {
// untagged
pubVlan = "0";
}
} catch (URISyntaxException e) {
e.printStackTrace();
}
topo.addNetwork(network);
}
}
// routerMap used internally for multiple updates to same tenant's router
// add back to topo.routers after loop
HashMap<String, RouterData> routerMap = new HashMap<String, RouterData>();
for (NetworkVO netVO : networks) {
TopologyData.Network network = topo.new Network();
network.setId(netVO.getUuid());
network.setName(netVO.getName());
Integer vlan = null;
if (netVO.getBroadcastUri() != null) {
String vlanStr = BroadcastDomainType.getValue(netVO.getBroadcastUri());
if (StringUtils.isNumeric(vlanStr)) {
vlan = Integer.valueOf(vlanStr);
} else {
// untagged
vlan = 0;
}
}
network.setVlan(vlan);
network.setState(netVO.getState().name());
nics = _nicDao.listByNetworkId(netVO.getId());
List<Port> ports = new ArrayList<Port>();
String tenantId = null;
String tenantName = null;
// if VPC network, assign BCF tenant id with vpc uuid
Vpc vpc = null;
if (netVO.getVpcId() != null) {
vpc = _vpcDao.acquireInLockTable(netVO.getVpcId());
}
if (vpc != null) {
tenantId = vpc.getUuid();
tenantName = vpc.getName();
} else {
tenantId = netVO.getUuid();
tenantName = netVO.getName();
}
for (NicVO nic : nics) {
NetworkData netData = new NetworkData();
TopologyData.Port p = topo.new Port();
p.setAttachmentInfo(netData.new AttachmentInfo(nic.getUuid(), nic.getMacAddress()));
VMInstanceVO vm = _vmDao.findById(nic.getInstanceId());
HostVO host = _hostDao.findById(vm.getHostId());
// if host not found, ignore this nic
if (host == null) {
continue;
}
String hostname = host.getName();
long zoneId = netVO.getDataCenterId();
String vmwareVswitchLabel = _networkModel.getDefaultGuestTrafficLabel(zoneId, HypervisorType.VMware);
String[] labelArray = null;
String vswitchName = null;
if (vmwareVswitchLabel != null) {
labelArray = vmwareVswitchLabel.split(",");
vswitchName = labelArray[0];
}
// hypervisor type:
// kvm: ivs port name
// vmware: specific portgroup naming convention
String pgName = "";
if (host.getHypervisorType() == HypervisorType.KVM) {
pgName = hostname;
} else if (host.getHypervisorType() == HypervisorType.VMware) {
pgName = hostname + "-" + vswitchName;
}
p.setHostId(pgName);
p.setSegmentInfo(netData.new SegmentInfo(BroadcastDomainType.Vlan.name(), vlan));
p.setOwner(BigSwitchBcfApi.getCloudstackInstanceId());
List<AttachmentData.Attachment.IpAddress> ipList = new ArrayList<AttachmentData.Attachment.IpAddress>();
ipList.add(new AttachmentData().getAttachment().new IpAddress(nic.getIPv4Address()));
p.setIpAddresses(ipList);
p.setId(nic.getUuid());
p.setMac(nic.getMacAddress());
netData.getNetwork().setId(network.getId());
netData.getNetwork().setName(network.getName());
netData.getNetwork().setTenantId(tenantId);
netData.getNetwork().setTenantName(tenantName);
netData.getNetwork().setState(netVO.getState().name());
p.setNetwork(netData.getNetwork());
ports.add(p);
}
network.setTenantId(tenantId);
network.setTenantName(tenantName);
network.setPorts(ports);
topo.addNetwork(network);
// add router for network
RouterData routerData;
if (tenantId != null) {
if (!routerMap.containsKey(tenantId)) {
routerData = new RouterData(tenantId);
routerMap.put(tenantId, routerData);
} else {
routerData = routerMap.get(tenantId);
}
routerData.getRouter().getAcls().addAll(listACLbyNetwork(netVO));
if (vpc != null) {
routerData.getRouter().addExternalGateway(getPublicIpByVpc(vpc));
} else {
routerData.getRouter().addExternalGateway(getPublicIpByNetwork(netVO));
}
RouterInterfaceData intf = new RouterInterfaceData(tenantId, netVO.getGateway(), netVO.getCidr(), netVO.getUuid(), netVO.getName());
routerData.getRouter().addInterface(intf);
}
}
for (RouterData rd : routerMap.values()) {
topo.addRouter(rd.getRouter());
}
return topo;
}
use of com.cloud.vm.NicVO in project cloudstack by apache.
the class NuageVspGuestNetworkGuruTest method testDeallocate.
@Test
public void testDeallocate() throws Exception {
final NetworkVO network = mock(NetworkVO.class);
when(network.getId()).thenReturn(NETWORK_ID);
when(network.getUuid()).thenReturn("aaaaaa");
when(network.getNetworkOfferingId()).thenReturn(NETWORK_ID);
when(network.getPhysicalNetworkId()).thenReturn(NETWORK_ID);
when(network.getVpcId()).thenReturn(null);
when(network.getDomainId()).thenReturn(NETWORK_ID);
when(_networkDao.acquireInLockTable(NETWORK_ID, 1200)).thenReturn(network);
final NetworkOfferingVO offering = mock(NetworkOfferingVO.class);
when(offering.getId()).thenReturn(NETWORK_ID);
when(offering.getTrafficType()).thenReturn(TrafficType.Guest);
when(_networkOfferingDao.findById(NETWORK_ID)).thenReturn(offering);
final DomainVO domain = mock(DomainVO.class);
when(domain.getUuid()).thenReturn("aaaaaa");
when(_domainDao.findById(NETWORK_ID)).thenReturn(domain);
final NicVO nic = mock(NicVO.class);
when(nic.getId()).thenReturn(NETWORK_ID);
when(nic.getIPv4Address()).thenReturn("10.10.10.10");
when(nic.getMacAddress()).thenReturn("c8:60:00:56:e5:58");
when(_nicDao.findById(NETWORK_ID)).thenReturn(nic);
final NicProfile nicProfile = mock(NicProfile.class);
when(nicProfile.getId()).thenReturn(NETWORK_ID);
when(nicProfile.getIPv4Address()).thenReturn("10.10.10.10");
when(nicProfile.getMacAddress()).thenReturn("c8:60:00:56:e5:58");
final VirtualMachine vm = mock(VirtualMachine.class);
when(vm.getType()).thenReturn(VirtualMachine.Type.User);
when(vm.getState()).thenReturn(VirtualMachine.State.Expunging);
final VirtualMachineProfile vmProfile = mock(VirtualMachineProfile.class);
when(vmProfile.getUuid()).thenReturn("aaaaaa");
when(vmProfile.getInstanceName()).thenReturn("Test-VM");
when(vmProfile.getVirtualMachine()).thenReturn(vm);
_nuageVspGuestNetworkGuru.deallocate(network, nicProfile, vmProfile);
}
use of com.cloud.vm.NicVO in project cloudstack by apache.
the class CommandSetupHelper method createRedundantAssociateIPCommands.
public void createRedundantAssociateIPCommands(final VirtualRouter router, final List<? extends PublicIpAddress> ips, final Commands cmds, final String ipAssocCommand, final long vmId) {
// Ensure that in multiple vlans case we first send all ip addresses of
// vlan1, then all ip addresses of vlan2, etc..
final Map<String, ArrayList<PublicIpAddress>> vlanIpMap = new HashMap<String, ArrayList<PublicIpAddress>>();
for (final PublicIpAddress ipAddress : ips) {
final String vlanTag = ipAddress.getVlanTag();
ArrayList<PublicIpAddress> ipList = vlanIpMap.get(vlanTag);
if (ipList == null) {
ipList = new ArrayList<PublicIpAddress>();
}
// the state
if (ipAddress.isSourceNat() && ipAddress.getState() == IpAddress.State.Releasing) {
ipAddress.setState(IpAddress.State.Allocated);
}
ipList.add(ipAddress);
vlanIpMap.put(vlanTag, ipList);
}
final List<NicVO> nics = _nicDao.listByVmId(router.getId());
String baseMac = null;
for (final NicVO nic : nics) {
final NetworkVO nw = _networkDao.findById(nic.getNetworkId());
if (nw.getTrafficType() == TrafficType.Public) {
baseMac = nic.getMacAddress();
break;
}
}
for (final Map.Entry<String, ArrayList<PublicIpAddress>> vlanAndIp : vlanIpMap.entrySet()) {
final List<PublicIpAddress> ipAddrList = vlanAndIp.getValue();
// Source nat ip address should always be sent first
Collections.sort(ipAddrList, new Comparator<PublicIpAddress>() {
@Override
public int compare(final PublicIpAddress o1, final PublicIpAddress o2) {
final boolean s1 = o1.isSourceNat();
final boolean s2 = o2.isSourceNat();
return s1 ^ s2 ? s1 ^ true ? 1 : -1 : 0;
}
});
// Get network rate - required for IpAssoc
final Integer networkRate = _networkModel.getNetworkRate(ipAddrList.get(0).getNetworkId(), router.getId());
final Network network = _networkModel.getNetwork(ipAddrList.get(0).getNetworkId());
final IpAddressTO[] ipsToSend = new IpAddressTO[ipAddrList.size()];
int i = 0;
boolean firstIP = true;
for (final PublicIpAddress ipAddr : ipAddrList) {
final boolean add = ipAddr.getState() == IpAddress.State.Releasing ? false : true;
boolean sourceNat = ipAddr.isSourceNat();
/* enable sourceNAT for the first ip of the public interface */
if (firstIP) {
sourceNat = true;
}
final String vlanId = ipAddr.getVlanTag();
final String vlanGateway = ipAddr.getGateway();
final String vlanNetmask = ipAddr.getNetmask();
String vifMacAddress = null;
// first ip of other nics
if (router.getVpcId() != null) {
//vifMacAddress = NetUtils.generateMacOnIncrease(baseMac, ipAddr.getVlanId());
vifMacAddress = ipAddr.getMacAddress();
} else {
if (!sourceNat && ipAddr.getVlanId() != 0) {
vifMacAddress = NetUtils.generateMacOnIncrease(baseMac, ipAddr.getVlanId());
} else {
vifMacAddress = ipAddr.getMacAddress();
}
}
final IpAddressTO ip = new IpAddressTO(ipAddr.getAccountId(), ipAddr.getAddress().addr(), add, firstIP, sourceNat, vlanId, vlanGateway, vlanNetmask, vifMacAddress, networkRate, ipAddr.isOneToOneNat());
ip.setTrafficType(network.getTrafficType());
ip.setNetworkName(_networkModel.getNetworkTag(router.getHypervisorType(), network));
ipsToSend[i++] = ip;
/*
* send the firstIP = true for the first Add, this is to create
* primary on interface
*/
if (!firstIP || add) {
firstIP = false;
}
}
Long associatedWithNetworkId = ipAddrList.get(0).getAssociatedWithNetworkId();
if (associatedWithNetworkId == null || associatedWithNetworkId == 0) {
associatedWithNetworkId = ipAddrList.get(0).getNetworkId();
}
// for network if the ips does not have any rules, then only last ip
List<IPAddressVO> userIps = _ipAddressDao.listByAssociatedNetwork(associatedWithNetworkId, null);
int ipsWithrules = 0;
int ipsStaticNat = 0;
for (IPAddressVO ip : userIps) {
if (_rulesDao.countRulesByIpIdAndState(ip.getId(), FirewallRule.State.Active) > 0) {
ipsWithrules++;
}
// 1 static nat rule add
if (ip.isOneToOneNat() && ip.getRuleState() == null) {
ipsStaticNat++;
}
}
final IpAssocCommand cmd = new IpAssocCommand(ipsToSend);
cmd.setAccessDetail(NetworkElementCommand.ROUTER_IP, _routerControlHelper.getRouterControlIp(router.getId()));
cmd.setAccessDetail(NetworkElementCommand.ROUTER_GUEST_IP, _routerControlHelper.getRouterIpInNetwork(associatedWithNetworkId, router.getId()));
cmd.setAccessDetail(NetworkElementCommand.ROUTER_NAME, router.getInstanceName());
final DataCenterVO dcVo = _dcDao.findById(router.getDataCenterId());
cmd.setAccessDetail(NetworkElementCommand.ZONE_NETWORK_TYPE, dcVo.getNetworkType().toString());
// if there is 1 static nat then it will be checked for remove at the resource
if (ipsWithrules == 0 && ipsStaticNat == 0) {
// there is only one ip address for the network.
cmd.setAccessDetail(NetworkElementCommand.NETWORK_PUB_LAST_IP, "true");
} else {
cmd.setAccessDetail(NetworkElementCommand.NETWORK_PUB_LAST_IP, "false");
}
cmds.addCommand(ipAssocCommand, cmd);
}
}
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