use of org.opendaylight.yang.gen.v1.urn.opendaylight.params.xml.ns.yang.bgp.rib.rev180329.rib.tables.Routes in project netvirt by opendaylight.
the class NatTunnelInterfaceStateListener method hndlTepAddOnNaptSwitch.
private boolean hndlTepAddOnNaptSwitch(BigInteger srcDpnId, String tunnelType, String srcTepIp, String destTepIp, String tunnelName, long routerId, Optional<Routers> routerData, String nextHopIp, Uuid vpnName, ProviderTypes extNwProvType, WriteTransaction writeFlowInvTx) {
if (!routerData.isPresent()) {
LOG.warn("hndlTepAddOnNaptSwitch: routerData is not present");
return false;
}
Routers router = routerData.get();
String routerName = router.getRouterName();
LOG.debug("hndlTepAddOnNaptSwitch : SNAT -> Processing TEP add for the DPN {} having the router {} since " + "its THE NAPT switch for the TUNNEL TYPE {} b/w SRC IP {} and DST IP {} " + "and TUNNEL NAME {} ", srcDpnId, routerName, tunnelType, srcTepIp, destTepIp, tunnelName);
Uuid networkId = router.getNetworkId();
if (networkId == null) {
LOG.warn("hndlTepAddOnNaptSwitch : SNAT -> Ignoring TEP add since the router {} is not associated to the " + "external network", routerName);
return false;
}
LOG.debug("hndlTepAddOnNaptSwitch : SNAT -> Router {} is associated with Ext nw {}", routerId, networkId);
Long vpnId;
if (vpnName == null) {
LOG.debug("hndlTepAddOnNaptSwitch : SNAT -> Internal VPN associated to router {}", routerId);
vpnId = NatUtil.getNetworkVpnIdFromRouterId(dataBroker, routerId);
if (vpnId == NatConstants.INVALID_ID) {
LOG.error("hndlTepAddOnNaptSwitch : Invalid External VPN-ID returned for routerName {}", routerName);
return false;
}
LOG.debug("hndlTepAddOnNaptSwitch : SNAT -> Retrieved External VPN-ID {} for router {}", vpnId, routerId);
} else {
LOG.debug("hndlTepAddOnNaptSwitch : SNAT -> Private BGP VPN associated to router {}", routerId);
vpnId = NatUtil.getVpnId(dataBroker, vpnName.getValue());
if (vpnId == null || vpnId == NatConstants.INVALID_ID) {
LOG.error("hndlTepAddOnNaptSwitch : Invalid vpnId returned for routerName {}", routerName);
return false;
}
LOG.debug("hndlTepAddOnNaptSwitch : SNAT -> Retrieved vpnId {} for router {}", vpnId, routerId);
}
/*1) Withdraw the old route to the external IP from the BGP which was having the
next hop as the old TEP IP.
2) Advertise to the BGP about the new route to the external IP having the
new TEP IP as the next hop.
3) Populate a new FIB entry with the next hop IP as the new TEP IP using the
FIB manager.
*/
// Withdraw the old route to the external IP from the BGP which was having the
// next hop as the old TEP IP.
final String externalVpnName = NatUtil.getAssociatedVPN(dataBroker, networkId);
if (externalVpnName == null) {
LOG.error("hndlTepAddOnNaptSwitch : SNAT -> No VPN associated with ext nw {} in router {}", networkId, routerId);
return false;
}
Collection<String> externalIps = NatUtil.getExternalIpsForRouter(dataBroker, routerId);
LOG.debug("hndlTepAddOnNaptSwitch : Clearing the FIB entries but not the BGP routes");
for (String externalIp : externalIps) {
String rd = NatUtil.getVpnRd(dataBroker, externalVpnName);
LOG.debug("hndlTepAddOnNaptSwitch : Removing Fib entry rd {} prefix {}", rd, externalIp);
fibManager.removeFibEntry(rd, externalIp, null);
}
/*
Advertise to the BGP about the new route to the external IP having the
new TEP IP as the next hop.
Populate a new FIB entry with the next hop IP as the new TEP IP using the
FIB manager.
*/
String rd = NatUtil.getVpnRd(dataBroker, externalVpnName);
if (extNwProvType == null) {
return false;
}
String gwMacAddress = null;
long l3Vni = 0;
if (extNwProvType == ProviderTypes.VXLAN) {
// Get the External Gateway MAC Address which is Router gateway MAC address for SNAT
gwMacAddress = NatUtil.getExtGwMacAddFromRouterName(dataBroker, routerName);
if (gwMacAddress != null) {
LOG.debug("hndlTepAddOnNaptSwitch : External Gateway MAC address {} found for External Router ID {}", gwMacAddress, routerId);
} else {
LOG.error("hndlTepAddOnNaptSwitch : No External Gateway MAC address found for External Router ID {}", routerId);
return false;
}
// get l3Vni value for external VPN
l3Vni = NatEvpnUtil.getL3Vni(dataBroker, rd);
if (l3Vni == NatConstants.DEFAULT_L3VNI_VALUE) {
LOG.debug("hndlTepAddOnNaptSwitch : L3VNI value is not configured in Internet VPN {} and RD {} " + "Carve-out L3VNI value from OpenDaylight VXLAN VNI Pool and continue to installing " + "NAT flows", vpnName, rd);
l3Vni = NatOverVxlanUtil.getInternetVpnVni(idManager, externalVpnName, routerId).longValue();
}
}
for (final String externalIp : externalIps) {
long serviceId = 0;
String fibExternalIp = NatUtil.validateAndAddNetworkMask(externalIp);
if (extNwProvType == ProviderTypes.VXLAN) {
LOG.debug("hndlTepAddOnNaptSwitch : SNAT -> Advertise the route to the externalIp {} " + "having nextHopIp {}", externalIp, nextHopIp);
NatEvpnUtil.addRoutesForVxLanProvType(dataBroker, bgpManager, fibManager, externalVpnName, rd, externalIp, nextHopIp, l3Vni, tunnelName, gwMacAddress, writeFlowInvTx, RouteOrigin.STATIC, srcDpnId);
serviceId = l3Vni;
} else {
Long label = externalRouterListner.checkExternalIpLabel(routerId, externalIp);
if (label == null || label == NatConstants.INVALID_ID) {
LOG.error("hndlTepAddOnNaptSwitch : SNAT->Unable to advertise to the DC GW " + "since label is invalid");
return false;
}
LOG.debug("hndlTepAddOnNaptSwitch : SNAT -> Advertise the route to the externalIp {} " + "having nextHopIp {}", externalIp, nextHopIp);
long l3vni = 0;
if (NatUtil.isOpenStackVniSemanticsEnforcedForGreAndVxlan(elanManager, extNwProvType)) {
l3vni = NatOverVxlanUtil.getInternetVpnVni(idManager, externalVpnName, l3vni).longValue();
}
Uuid externalSubnetId = NatUtil.getExternalSubnetForRouterExternalIp(externalIp, router);
NatUtil.addPrefixToBGP(dataBroker, bgpManager, fibManager, externalVpnName, rd, externalSubnetId, fibExternalIp, nextHopIp, networkId.getValue(), null, /* mac-address */
label, l3vni, RouteOrigin.STATIC, srcDpnId);
serviceId = label;
}
LOG.debug("hndlTepAddOnNaptSwitch: SNAT -> Install custom FIB routes " + "(Table 21 -> Push MPLS label to Tunnel port");
List<Instruction> customInstructions = new ArrayList<>();
int customInstructionIndex = 0;
long externalSubnetVpnId = NatUtil.getExternalSubnetVpnIdForRouterExternalIp(dataBroker, externalIp, router);
if (externalSubnetVpnId != NatConstants.INVALID_ID) {
LOG.debug("hndlTepAddOnNaptSwitch : Will install custom FIB router with external subnet VPN ID {}", externalSubnetVpnId);
BigInteger subnetIdMetaData = MetaDataUtil.getVpnIdMetadata(externalSubnetVpnId);
customInstructions.add(new InstructionWriteMetadata(subnetIdMetaData, MetaDataUtil.METADATA_MASK_VRFID).buildInstruction(customInstructionIndex));
customInstructionIndex++;
}
customInstructions.add(new InstructionGotoTable(NwConstants.INBOUND_NAPT_TABLE).buildInstruction(customInstructionIndex));
CreateFibEntryInput input = new CreateFibEntryInputBuilder().setVpnName(externalVpnName).setSourceDpid(srcDpnId).setInstruction(customInstructions).setIpAddress(fibExternalIp).setServiceId(serviceId).setInstruction(customInstructions).build();
Future<RpcResult<Void>> future = fibRpcService.createFibEntry(input);
ListenableFuture<RpcResult<Void>> listenableFuture = JdkFutureAdapters.listenInPoolThread(future);
Futures.addCallback(listenableFuture, new FutureCallback<RpcResult<Void>>() {
@Override
public void onFailure(@Nonnull Throwable error) {
LOG.error("hndlTepAddOnNaptSwitch : SNAT->Error in generate label or fib install process", error);
}
@Override
public void onSuccess(@Nonnull RpcResult<Void> result) {
if (result.isSuccessful()) {
LOG.info("hndlTepAddOnNaptSwitch : SNAT -> Successfully installed custom FIB routes " + "for prefix {}", externalIp);
} else {
LOG.error("hndlTepAddOnNaptSwitch : SNAT -> Error in rpc call to create custom Fib entries " + "for prefix {} in DPN {}, {}", externalIp, srcDpnId, result.getErrors());
}
}
}, MoreExecutors.directExecutor());
}
return true;
}
use of org.opendaylight.yang.gen.v1.urn.opendaylight.params.xml.ns.yang.bgp.rib.rev180329.rib.tables.Routes in project netvirt by opendaylight.
the class VpnFloatingIpHandler method onAddFloatingIp.
@Override
public void onAddFloatingIp(final BigInteger dpnId, final String routerUuid, final long routerId, final Uuid networkId, final String interfaceName, final InternalToExternalPortMap mapping, WriteTransaction writeFlowInvTx) {
String externalIp = mapping.getExternalIp();
String internalIp = mapping.getInternalIp();
Uuid floatingIpId = mapping.getExternalId();
Uuid subnetId = NatUtil.getFloatingIpPortSubnetIdFromFloatingIpId(dataBroker, floatingIpId);
String floatingIpPortMacAddress = NatUtil.getFloatingIpPortMacFromFloatingIpId(dataBroker, floatingIpId);
if (floatingIpPortMacAddress == null) {
LOG.error("onAddFloatingIp: Unable to retrieve floatingIp port MAC address from floatingIpId {} for " + "router {} to handle floatingIp {}", floatingIpId, routerUuid, externalIp);
return;
}
Optional<Subnets> externalSubnet = NatUtil.getOptionalExternalSubnets(dataBroker, subnetId);
final String vpnName = externalSubnet.isPresent() ? subnetId.getValue() : NatUtil.getAssociatedVPN(dataBroker, networkId);
final String subnetVpnName = externalSubnet.isPresent() ? subnetId.getValue() : null;
if (vpnName == null) {
LOG.error("onAddFloatingIp: No VPN is associated with ext nw {} to handle add floating ip {} configuration " + "for router {}", networkId, externalIp, routerId);
return;
}
String rd = NatUtil.getVpnRd(dataBroker, vpnName);
if (rd == null) {
LOG.error("onAddFloatingIp: Unable to retrieve external (internet) VPN RD from external VPN {} for " + "router {} to handle floatingIp {}", vpnName, routerId, externalIp);
return;
}
ProviderTypes provType = NatEvpnUtil.getExtNwProvTypeFromRouterName(dataBroker, routerUuid, networkId);
if (provType == null) {
return;
}
/*
* For external network of type GRE, it is required to use "Internet VPN VNI" for intra-DC
* communication, but we still require "MPLS labels" to reach SNAT/DNAT VMs from external
* entities via MPLSOverGRE.
*
* MPLSOverGRE based external networks, the ``opendaylight-vni-ranges`` pool will be
* used to carve out a unique VNI per Internet VPN (GRE-provider-type) to be used in the
* datapath for traffic forwarding for ``SNAT-to-DNAT`` and ``DNAT-to-DNAT`` cases within the
* DataCenter.
*/
if (NatUtil.isOpenStackVniSemanticsEnforcedForGreAndVxlan(elanService, provType)) {
NatOverVxlanUtil.validateAndCreateVxlanVniPool(dataBroker, nvpnManager, idManager, NatConstants.ODL_VNI_POOL_NAME);
}
String nextHopIp = NatUtil.getEndpointIpAddressForDPN(dataBroker, dpnId);
LOG.debug("onAddFloatingIp: Nexthop ip for prefix {} is {}", externalIp, nextHopIp);
if (provType == ProviderTypes.VXLAN) {
Uuid floatingIpInterface = NatEvpnUtil.getFloatingIpInterfaceIdFromFloatingIpId(dataBroker, floatingIpId);
evpnDnatFlowProgrammer.onAddFloatingIp(dpnId, routerUuid, routerId, vpnName, internalIp, externalIp, networkId, interfaceName, floatingIpInterface.getValue(), floatingIpPortMacAddress, rd, nextHopIp, writeFlowInvTx);
return;
}
/*
* MPLS label will be used to advertise prefixes and in "L3_LFIB_TABLE" (table 20) taking the packet
* to "INBOUND_NAPT_TABLE" (table 44) and "PDNAT_TABLE" (table 25).
*/
GenerateVpnLabelInput labelInput = new GenerateVpnLabelInputBuilder().setVpnName(vpnName).setIpPrefix(externalIp).build();
Future<RpcResult<GenerateVpnLabelOutput>> labelFuture = vpnService.generateVpnLabel(labelInput);
ListenableFuture<RpcResult<Void>> future = Futures.transformAsync(JdkFutureAdapters.listenInPoolThread(labelFuture), (AsyncFunction<RpcResult<GenerateVpnLabelOutput>, RpcResult<Void>>) result -> {
if (result.isSuccessful()) {
GenerateVpnLabelOutput output = result.getResult();
long label = output.getLabel();
LOG.debug("onAddFloatingIp : Generated label {} for prefix {}", label, externalIp);
FloatingIPListener.updateOperationalDS(dataBroker, routerUuid, interfaceName, label, internalIp, externalIp);
long l3vni = 0;
if (NatUtil.isOpenStackVniSemanticsEnforcedForGreAndVxlan(elanService, provType)) {
l3vni = NatOverVxlanUtil.getInternetVpnVni(idManager, vpnName, l3vni).longValue();
}
String fibExternalIp = NatUtil.validateAndAddNetworkMask(externalIp);
NatUtil.addPrefixToBGP(dataBroker, bgpManager, fibManager, vpnName, rd, subnetId, fibExternalIp, nextHopIp, networkId.getValue(), floatingIpPortMacAddress, label, l3vni, RouteOrigin.STATIC, dpnId);
List<Instruction> instructions = new ArrayList<>();
List<ActionInfo> actionsInfos = new ArrayList<>();
actionsInfos.add(new ActionNxResubmit(NwConstants.PDNAT_TABLE));
instructions.add(new InstructionApplyActions(actionsInfos).buildInstruction(0));
makeTunnelTableEntry(vpnName, dpnId, label, instructions, writeFlowInvTx, provType);
List<ActionInfo> actionInfoFib = new ArrayList<>();
List<Instruction> customInstructions = new ArrayList<>();
actionInfoFib.add(new ActionSetFieldEthernetDestination(new MacAddress(floatingIpPortMacAddress)));
customInstructions.add(new InstructionApplyActions(actionInfoFib).buildInstruction(0));
customInstructions.add(new InstructionGotoTable(NwConstants.PDNAT_TABLE).buildInstruction(1));
makeLFibTableEntry(dpnId, label, floatingIpPortMacAddress, NwConstants.PDNAT_TABLE, writeFlowInvTx);
CreateFibEntryInput input = new CreateFibEntryInputBuilder().setVpnName(vpnName).setSourceDpid(dpnId).setInstruction(customInstructions).setIpAddress(fibExternalIp).setServiceId(label).setIpAddressSource(CreateFibEntryInput.IpAddressSource.FloatingIP).setInstruction(customInstructions).build();
Future<RpcResult<Void>> future1 = fibService.createFibEntry(input);
LOG.debug("onAddFloatingIp : Add Floating Ip {} , found associated to fixed port {}", externalIp, interfaceName);
String networkVpnName = NatUtil.getAssociatedVPN(dataBroker, networkId);
txRunner.callWithNewWriteOnlyTransactionAndSubmit(tx -> {
vpnManager.addSubnetMacIntoVpnInstance(networkVpnName, subnetVpnName, floatingIpPortMacAddress, dpnId, tx);
vpnManager.addArpResponderFlowsToExternalNetworkIps(routerUuid, Collections.singleton(externalIp), floatingIpPortMacAddress, dpnId, networkId, tx);
});
return JdkFutureAdapters.listenInPoolThread(future1);
} else {
String errMsg = String.format("onAddFloatingIp : Could not retrieve the label for prefix %s " + "in VPN %s, %s", externalIp, vpnName, result.getErrors());
LOG.error(errMsg);
return Futures.immediateFailedFuture(new RuntimeException(errMsg));
}
}, MoreExecutors.directExecutor());
Futures.addCallback(future, new FutureCallback<RpcResult<Void>>() {
@Override
public void onFailure(@Nonnull Throwable error) {
LOG.error("onAddFloatingIp : Error in generate label or fib install process", error);
}
@Override
public void onSuccess(@Nonnull RpcResult<Void> result) {
if (result.isSuccessful()) {
LOG.info("onAddFloatingIp : Successfully installed custom FIB routes for prefix {}", externalIp);
} else {
LOG.error("onAddFloatingIp : Error in rpc call to create custom Fib entries for prefix {} " + "in DPN {}, {}", externalIp, dpnId, result.getErrors());
}
}
}, MoreExecutors.directExecutor());
// Handle GARP transmission
final IpAddress extrenalAddress = IpAddressBuilder.getDefaultInstance(externalIp);
sendGarpOnInterface(dpnId, networkId, extrenalAddress, floatingIpPortMacAddress);
}
use of org.opendaylight.yang.gen.v1.urn.opendaylight.params.xml.ns.yang.bgp.rib.rev180329.rib.tables.Routes in project netvirt by opendaylight.
the class NaptSwitchHA method isNaptSwitchDown.
// TODO Clean up the exception handling
@SuppressWarnings("checkstyle:IllegalCatch")
public boolean isNaptSwitchDown(String routerName, Long routerId, BigInteger dpnId, BigInteger naptSwitch, Long routerVpnId, Collection<String> externalIpCache, boolean isClearBgpRts, WriteTransaction writeFlowInvTx) {
externalIpsCache = externalIpCache;
if (!naptSwitch.equals(dpnId)) {
LOG.debug("isNaptSwitchDown : DpnId {} is not a naptSwitch {} for Router {}", dpnId, naptSwitch, routerName);
return false;
}
LOG.debug("NaptSwitch {} is down for Router {}", naptSwitch, routerName);
if (routerId == NatConstants.INVALID_ID) {
LOG.error("isNaptSwitchDown : Invalid routerId returned for routerName {}", routerName);
return true;
}
Uuid networkId = NatUtil.getNetworkIdFromRouterName(dataBroker, routerName);
String vpnName = getExtNetworkVpnName(routerName, networkId);
// elect a new NaptSwitch
naptSwitch = naptSwitchSelector.selectNewNAPTSwitch(routerName);
if (natMode == NatMode.Conntrack) {
Routers extRouters = NatUtil.getRoutersFromConfigDS(dataBroker, routerName);
natServiceManager.notify(extRouters, dpnId, dpnId, SnatServiceManager.Action.SNAT_ALL_SWITCH_DISBL);
natServiceManager.notify(extRouters, naptSwitch, naptSwitch, SnatServiceManager.Action.SNAT_ALL_SWITCH_ENBL);
} else {
if (naptSwitch.equals(BigInteger.ZERO)) {
LOG.warn("isNaptSwitchDown : No napt switch is elected since all the switches for router {}" + " are down. SNAT IS NOT SUPPORTED FOR ROUTER {}", routerName, routerName);
boolean naptUpdatedStatus = updateNaptSwitch(routerName, naptSwitch);
if (!naptUpdatedStatus) {
LOG.debug("isNaptSwitchDown : Failed to update naptSwitch {} for router {} in ds", naptSwitch, routerName);
}
// clearBgpRoutes
if (externalIpsCache != null) {
if (vpnName != null) {
// if (externalIps != null) {
if (isClearBgpRts) {
LOG.debug("isNaptSwitchDown : Clearing both FIB entries and the BGP routes");
for (String externalIp : externalIpsCache) {
externalRouterListener.clearBgpRoutes(externalIp, vpnName);
}
} else {
LOG.debug("isNaptSwitchDown : Clearing the FIB entries but not the BGP routes");
String rd = NatUtil.getVpnRd(dataBroker, vpnName);
for (String externalIp : externalIpsCache) {
LOG.debug("isNaptSwitchDown : Removing Fib entry rd {} prefix {}", rd, externalIp);
fibManager.removeFibEntry(rd, externalIp, null);
}
}
} else {
LOG.debug("isNaptSwitchDown : vpn is not associated to extn/w for router {}", routerName);
}
} else {
LOG.debug("isNaptSwitchDown : No ExternalIps found for subnets under router {}, " + "no bgp routes need to be cleared", routerName);
}
return true;
}
// checking elected switch health status
if (!getSwitchStatus(naptSwitch)) {
LOG.error("isNaptSwitchDown : Newly elected Napt switch {} for router {} is down", naptSwitch, routerName);
return true;
}
LOG.debug("isNaptSwitchDown : New NaptSwitch {} is up for Router {} and can proceed for flow installation", naptSwitch, routerName);
// update napt model for new napt switch
boolean naptUpdated = updateNaptSwitch(routerName, naptSwitch);
if (naptUpdated) {
// update group of ordinary switch point to naptSwitch tunnel port
updateNaptSwitchBucketStatus(routerName, routerId, naptSwitch);
} else {
LOG.error("isNaptSwitchDown : Failed to update naptSwitch model for newNaptSwitch {} for router {}", naptSwitch, routerName);
}
// update table26 forward packets to table46(outbound napt table)
FlowEntity flowEntity = buildSnatFlowEntityForNaptSwitch(naptSwitch, routerName, routerVpnId, NatConstants.ADD_FLOW);
if (flowEntity == null) {
LOG.error("isNaptSwitchDown : Failed to populate flowentity for router {} in naptSwitch {}", routerName, naptSwitch);
} else {
LOG.debug("isNaptSwitchDown : Successfully installed flow in naptSwitch {} for router {}", naptSwitch, routerName);
mdsalManager.addFlowToTx(flowEntity, writeFlowInvTx);
}
installSnatFlows(routerName, routerId, naptSwitch, routerVpnId, writeFlowInvTx);
boolean flowInstalledStatus = handleNatFlowsInNewNaptSwitch(routerName, routerId, dpnId, naptSwitch, routerVpnId, networkId);
if (flowInstalledStatus) {
LOG.debug("isNaptSwitchDown :Installed all active session flows in newNaptSwitch {} for routerName {}", naptSwitch, routerName);
} else {
LOG.error("isNaptSwitchDown : Failed to install flows in newNaptSwitch {} for routerId {}", naptSwitch, routerId);
}
// remove group in new naptswitch, coz this switch acted previously as ordinary switch
long groupId = NatUtil.createGroupId(NatUtil.getGroupIdKey(routerName), idManager);
GroupEntity groupEntity = null;
try {
groupEntity = MDSALUtil.buildGroupEntity(naptSwitch, groupId, routerName, GroupTypes.GroupAll, Collections.emptyList());
LOG.info("isNaptSwitchDown : Removing NAPT Group in new naptSwitch {}", naptSwitch);
mdsalManager.removeGroup(groupEntity);
} catch (Exception ex) {
LOG.error("isNaptSwitchDown : Failed to remove group in new naptSwitch {}", groupEntity, ex);
}
}
return true;
}
use of org.opendaylight.yang.gen.v1.urn.opendaylight.params.xml.ns.yang.bgp.rib.rev180329.rib.tables.Routes in project netvirt by opendaylight.
the class VrfEntryListener method createRemoteFibEntry.
private void createRemoteFibEntry(final BigInteger remoteDpnId, final long vpnId, String rd, final VrfEntry vrfEntry, WriteTransaction tx) {
Boolean wrTxPresent = true;
if (tx == null) {
wrTxPresent = false;
tx = dataBroker.newWriteOnlyTransaction();
}
String vpnName = fibUtil.getVpnNameFromId(vpnId);
LOG.debug("createremotefibentry: adding route {} for rd {} on remoteDpnId {}", vrfEntry.getDestPrefix(), rd, remoteDpnId);
List<AdjacencyResult> adjacencyResults = baseVrfEntryHandler.resolveAdjacency(remoteDpnId, vpnId, vrfEntry, rd);
if (adjacencyResults.isEmpty()) {
LOG.error("Could not get interface for route-paths: {} in vpn {} on DPN {}", vrfEntry.getRoutePaths(), rd, remoteDpnId);
LOG.error("Failed to add Route: {} in vpn: {}", vrfEntry.getDestPrefix(), rd);
return;
}
List<String> usedRds = VpnExtraRouteHelper.getUsedRds(dataBroker, vpnId, vrfEntry.getDestPrefix());
List<Routes> vpnExtraRoutes = VpnExtraRouteHelper.getAllVpnExtraRoutes(dataBroker, vpnName, usedRds, vrfEntry.getDestPrefix());
// multiple VMs
if (!vpnExtraRoutes.isEmpty() && (vpnExtraRoutes.size() > 1 || vpnExtraRoutes.get(0).getNexthopIpList().size() > 1)) {
List<InstructionInfo> instructions = new ArrayList<>();
// Obtain the local routes for this particular dpn.
java.util.Optional<Routes> routes = vpnExtraRoutes.stream().filter(route -> {
Prefixes prefixToInterface = fibUtil.getPrefixToInterface(vpnId, fibUtil.getIpPrefix(route.getNexthopIpList().get(0)));
if (prefixToInterface == null) {
return false;
}
return remoteDpnId.equals(prefixToInterface.getDpnId());
}).findFirst();
long groupId = nextHopManager.createNextHopGroups(vpnId, rd, remoteDpnId, vrfEntry, routes.isPresent() ? routes.get() : null, vpnExtraRoutes);
if (groupId == FibConstants.INVALID_GROUP_ID) {
LOG.error("Unable to create Group for local prefix {} on rd {} on Node {}", vrfEntry.getDestPrefix(), rd, remoteDpnId.toString());
return;
}
List<ActionInfo> actionInfos = Collections.singletonList(new ActionGroup(groupId));
instructions.add(new InstructionApplyActions(actionInfos));
baseVrfEntryHandler.makeConnectedRoute(remoteDpnId, vpnId, vrfEntry, rd, instructions, NwConstants.ADD_FLOW, tx, null);
} else {
baseVrfEntryHandler.programRemoteFib(remoteDpnId, vpnId, vrfEntry, tx, rd, adjacencyResults, null);
}
if (!wrTxPresent) {
tx.submit();
}
LOG.debug("Successfully added FIB entry for prefix {} in vpnId {}", vrfEntry.getDestPrefix(), vpnId);
}
use of org.opendaylight.yang.gen.v1.urn.opendaylight.params.xml.ns.yang.bgp.rib.rev180329.rib.tables.Routes in project netvirt by opendaylight.
the class VrfEntryListener method cleanUpDpnForVpn.
public void cleanUpDpnForVpn(final BigInteger dpnId, final long vpnId, final String rd, final FutureCallback<List<Void>> callback) {
LOG.trace("cleanUpDpnForVpn: Remove dpn {} for vpn {} : cleanUpDpnForVpn", dpnId, rd);
InstanceIdentifier<VrfTables> id = buildVrfId(rd);
final VpnInstanceOpDataEntry vpnInstance = fibUtil.getVpnInstance(rd);
List<SubTransaction> txnObjects = new ArrayList<>();
final Optional<VrfTables> vrfTable = MDSALUtil.read(dataBroker, LogicalDatastoreType.CONFIGURATION, id);
jobCoordinator.enqueueJob(FibUtil.getJobKeyForVpnIdDpnId(vpnId, dpnId), () -> {
List<ListenableFuture<Void>> futures = new ArrayList<>();
if (vrfTable.isPresent()) {
synchronized (vpnInstance.getVpnInstanceName().intern()) {
futures.add(retryingTxRunner.callWithNewWriteOnlyTransactionAndSubmit(tx -> {
for (final VrfEntry vrfEntry : vrfTable.get().getVrfEntry()) {
/* Handle subnet routes here */
SubnetRoute subnetRoute = vrfEntry.getAugmentation(SubnetRoute.class);
if (subnetRoute != null) {
LOG.trace("SUBNETROUTE: cleanUpDpnForVpn: Cleaning subnetroute {} on dpn {}" + " for vpn {}", vrfEntry.getDestPrefix(), dpnId, rd);
baseVrfEntryHandler.makeConnectedRoute(dpnId, vpnId, vrfEntry, rd, null, NwConstants.DEL_FLOW, tx, null);
List<RoutePaths> routePaths = vrfEntry.getRoutePaths();
if (routePaths != null) {
for (RoutePaths routePath : routePaths) {
makeLFibTableEntry(dpnId, routePath.getLabel(), null, DEFAULT_FIB_FLOW_PRIORITY, NwConstants.DEL_FLOW, tx);
LOG.trace("SUBNETROUTE: cleanUpDpnForVpn: Released subnetroute label {}" + " for rd {} prefix {}", routePath.getLabel(), rd, vrfEntry.getDestPrefix());
}
}
installSubnetBroadcastAddrDropRule(dpnId, rd, vpnId, vrfEntry, NwConstants.DEL_FLOW, tx);
continue;
}
// ping responder for router interfaces
RouterInterface routerInt = vrfEntry.getAugmentation(RouterInterface.class);
if (routerInt != null) {
LOG.trace("Router augmented vrfentry found for rd:{}, uuid:{}, ip:{}, mac:{}", rd, routerInt.getUuid(), routerInt.getIpAddress(), routerInt.getMacAddress());
routerInterfaceVrfEntryHandler.installRouterFibEntry(vrfEntry, dpnId, vpnId, routerInt.getIpAddress(), new MacAddress(routerInt.getMacAddress()), NwConstants.DEL_FLOW);
continue;
}
// Handle local flow deletion for imports
if (RouteOrigin.value(vrfEntry.getOrigin()) == RouteOrigin.SELF_IMPORTED) {
java.util.Optional<Long> optionalLabel = FibUtil.getLabelFromRoutePaths(vrfEntry);
if (optionalLabel.isPresent()) {
List<String> nextHopList = FibHelper.getNextHopListFromRoutePaths(vrfEntry);
LabelRouteInfo lri = getLabelRouteInfo(optionalLabel.get());
if (isPrefixAndNextHopPresentInLri(vrfEntry.getDestPrefix(), nextHopList, lri) && lri.getDpnId().equals(dpnId)) {
deleteLocalFibEntry(vpnId, rd, vrfEntry);
}
}
}
// Passing null as we don't know the dpn
// to which prefix is attached at this point
List<String> usedRds = VpnExtraRouteHelper.getUsedRds(dataBroker, vpnInstance.getVpnId(), vrfEntry.getDestPrefix());
String vpnName = fibUtil.getVpnNameFromId(vpnInstance.getVpnId());
Optional<Routes> extraRouteOptional;
// an adjacency in the vpn
if (usedRds != null && !usedRds.isEmpty()) {
if (usedRds.size() > 1) {
LOG.error("The extra route prefix is still present in some DPNs");
return;
} else {
extraRouteOptional = VpnExtraRouteHelper.getVpnExtraroutes(dataBroker, vpnName, usedRds.get(0), vrfEntry.getDestPrefix());
}
} else {
extraRouteOptional = Optional.absent();
}
if (RouteOrigin.BGP.getValue().equals(vrfEntry.getOrigin())) {
bgpRouteVrfEntryHandler.deleteRemoteRoute(null, dpnId, vpnId, vrfTable.get().getKey(), vrfEntry, extraRouteOptional, tx, txnObjects);
} else {
baseVrfEntryHandler.deleteRemoteRoute(null, dpnId, vpnId, vrfTable.get().getKey(), vrfEntry, extraRouteOptional, tx);
}
}
}));
}
if (callback != null) {
ListenableFuture<List<Void>> listenableFuture = Futures.allAsList(futures);
Futures.addCallback(listenableFuture, callback, MoreExecutors.directExecutor());
}
}
return futures;
});
}
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