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gerrit.onosproject.org / trellis-control / f1d9c34723456d898f56e22b0f4723ab134f7a4f / . / src / main / java / org / onosproject / segmentrouting / SegmentRoutingManager.java
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/*
* Copyright 2015-present Open Networking Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.onosproject.segmentrouting;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Optional;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentLinkedQueue;
import java.util.concurrent.Executors;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.ScheduledFuture;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.stream.Collectors;
import com.google.common.collect.Sets;
import org.apache.felix.scr.annotations.Activate;
import org.apache.felix.scr.annotations.Component;
import org.apache.felix.scr.annotations.Deactivate;
import org.apache.felix.scr.annotations.Reference;
import org.apache.felix.scr.annotations.ReferenceCardinality;
import org.apache.felix.scr.annotations.Service;
import org.onlab.packet.Ethernet;
import org.onlab.packet.ICMP6;
import org.onlab.packet.IPv4;
import org.onlab.packet.IPv6;
import org.onlab.packet.IpPrefix;
import org.onlab.packet.VlanId;
import org.onlab.util.KryoNamespace;
import org.onosproject.cfg.ComponentConfigService;
import org.onosproject.core.ApplicationId;
import org.onosproject.core.CoreService;
import org.onosproject.event.Event;
import org.onosproject.mastership.MastershipService;
import org.onosproject.net.ConnectPoint;
import org.onosproject.net.Device;
import org.onosproject.net.DeviceId;
import org.onosproject.net.Host;
import org.onosproject.net.HostId;
import org.onosproject.net.Link;
import org.onosproject.net.Port;
import org.onosproject.net.PortNumber;
import org.onosproject.net.config.ConfigFactory;
import org.onosproject.net.config.NetworkConfigEvent;
import org.onosproject.net.config.NetworkConfigListener;
import org.onosproject.net.config.NetworkConfigRegistry;
import org.onosproject.net.config.basics.InterfaceConfig;
import org.onosproject.net.config.basics.McastConfig;
import org.onosproject.net.config.basics.SubjectFactories;
import org.onosproject.net.device.DeviceEvent;
import org.onosproject.net.device.DeviceListener;
import org.onosproject.net.device.DeviceService;
import org.onosproject.net.flow.TrafficSelector;
import org.onosproject.net.flow.TrafficTreatment;
import org.onosproject.net.flowobjective.FlowObjectiveService;
import org.onosproject.net.host.HostEvent;
import org.onosproject.net.host.HostListener;
import org.onosproject.net.host.HostService;
import org.onosproject.net.intf.Interface;
import org.onosproject.net.intf.InterfaceService;
import org.onosproject.net.link.LinkEvent;
import org.onosproject.net.link.LinkListener;
import org.onosproject.net.link.LinkService;
import org.onosproject.net.mcast.McastEvent;
import org.onosproject.net.mcast.McastListener;
import org.onosproject.net.mcast.MulticastRouteService;
import org.onosproject.net.neighbour.NeighbourResolutionService;
import org.onosproject.net.packet.InboundPacket;
import org.onosproject.net.packet.PacketContext;
import org.onosproject.net.packet.PacketProcessor;
import org.onosproject.net.packet.PacketService;
import org.onosproject.net.topology.PathService;
import org.onosproject.net.topology.TopologyService;
import org.onosproject.routeservice.ResolvedRoute;
import org.onosproject.routeservice.RouteEvent;
import org.onosproject.routeservice.RouteListener;
import org.onosproject.routeservice.RouteService;
import org.onosproject.segmentrouting.config.DeviceConfigNotFoundException;
import org.onosproject.segmentrouting.config.DeviceConfiguration;
import org.onosproject.segmentrouting.config.PwaasConfig;
import org.onosproject.segmentrouting.config.SegmentRoutingAppConfig;
import org.onosproject.segmentrouting.config.SegmentRoutingDeviceConfig;
import org.onosproject.segmentrouting.config.XConnectConfig;
import org.onosproject.segmentrouting.grouphandler.DefaultGroupHandler;
import org.onosproject.segmentrouting.grouphandler.DestinationSet;
import org.onosproject.segmentrouting.grouphandler.NextNeighbors;
import org.onosproject.segmentrouting.pwaas.L2TunnelHandler;
import org.onosproject.segmentrouting.storekey.DestinationSetNextObjectiveStoreKey;
import org.onosproject.segmentrouting.storekey.PortNextObjectiveStoreKey;
import org.onosproject.segmentrouting.storekey.VlanNextObjectiveStoreKey;
import org.onosproject.segmentrouting.storekey.XConnectStoreKey;
import org.onosproject.store.serializers.KryoNamespaces;
import org.onosproject.store.service.EventuallyConsistentMap;
import org.onosproject.store.service.EventuallyConsistentMapBuilder;
import org.onosproject.store.service.StorageService;
import org.onosproject.store.service.WallClockTimestamp;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.google.common.collect.HashMultimap;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.Maps;
import com.google.common.collect.Multimap;
import static com.google.common.base.Preconditions.checkState;
import static org.onlab.packet.Ethernet.TYPE_ARP;
import static org.onlab.util.Tools.groupedThreads;
/**
* Segment routing manager.
*/
@Service
@Component(immediate = true)
public class SegmentRoutingManager implements SegmentRoutingService {
private static Logger log = LoggerFactory.getLogger(SegmentRoutingManager.class);
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
private ComponentConfigService compCfgService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
private NeighbourResolutionService neighbourResolutionService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
public PathService pathService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
CoreService coreService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
PacketService packetService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
HostService hostService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
DeviceService deviceService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
public FlowObjectiveService flowObjectiveService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
LinkService linkService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
public MastershipService mastershipService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
public StorageService storageService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
MulticastRouteService multicastRouteService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
TopologyService topologyService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
RouteService routeService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
public NetworkConfigRegistry cfgService;
@Reference(cardinality = ReferenceCardinality.MANDATORY_UNARY)
public InterfaceService interfaceService;
ArpHandler arpHandler = null;
IcmpHandler icmpHandler = null;
IpHandler ipHandler = null;
RoutingRulePopulator routingRulePopulator = null;
ApplicationId appId;
DeviceConfiguration deviceConfiguration = null;
DefaultRoutingHandler defaultRoutingHandler = null;
private TunnelHandler tunnelHandler = null;
private PolicyHandler policyHandler = null;
private InternalPacketProcessor processor = null;
private InternalLinkListener linkListener = null;
private InternalDeviceListener deviceListener = null;
private AppConfigHandler appCfgHandler = null;
XConnectHandler xConnectHandler = null;
private McastHandler mcastHandler = null;
private HostHandler hostHandler = null;
private RouteHandler routeHandler = null;
private SegmentRoutingNeighbourDispatcher neighbourHandler = null;
private L2TunnelHandler l2TunnelHandler = null;
private InternalEventHandler eventHandler = new InternalEventHandler();
private final InternalHostListener hostListener = new InternalHostListener();
private final InternalConfigListener cfgListener = new InternalConfigListener(this);
private final InternalMcastListener mcastListener = new InternalMcastListener();
private final InternalRouteEventListener routeListener = new InternalRouteEventListener();
private ScheduledExecutorService executorService = Executors
.newScheduledThreadPool(1, groupedThreads("SegmentRoutingManager", "event-%d", log));
@SuppressWarnings("unused")
private static ScheduledFuture<?> eventHandlerFuture = null;
@SuppressWarnings("rawtypes")
private ConcurrentLinkedQueue<Event> eventQueue = new ConcurrentLinkedQueue<>();
private Map<DeviceId, DefaultGroupHandler> groupHandlerMap =
new ConcurrentHashMap<>();
/**
* Per device next objective ID store with (device id + destination set) as key.
* Used to keep track on MPLS group information.
*/
EventuallyConsistentMap<DestinationSetNextObjectiveStoreKey, NextNeighbors>
dsNextObjStore = null;
/**
* Per device next objective ID store with (device id + vlanid) as key.
* Used to keep track on L2 flood group information.
*/
EventuallyConsistentMap<VlanNextObjectiveStoreKey, Integer>
vlanNextObjStore = null;
/**
* Per device next objective ID store with (device id + port + treatment + meta) as key.
* Used to keep track on L2 interface group and L3 unicast group information.
*/
EventuallyConsistentMap<PortNextObjectiveStoreKey, Integer>
portNextObjStore = null;
// Local store for all links seen and their present status, used for
// optimized routing. The existence of the link in the keys is enough to know
// if the link has been "seen-before" by this instance of the controller.
// The boolean value indicates if the link is currently up or not.
// XXX Currently the optimized routing logic depends on "forgetting" a link
// when a switch goes down, but "remembering" it when only the link goes down.
// Consider changing this logic so we can use the Link Service instead of
// a local cache.
private Map<Link, Boolean> seenLinks = new ConcurrentHashMap<>();
private EventuallyConsistentMap<String, Tunnel> tunnelStore = null;
private EventuallyConsistentMap<String, Policy> policyStore = null;
private AtomicBoolean programmingScheduled = new AtomicBoolean();
private final ConfigFactory<DeviceId, SegmentRoutingDeviceConfig> deviceConfigFactory =
new ConfigFactory<DeviceId, SegmentRoutingDeviceConfig>(
SubjectFactories.DEVICE_SUBJECT_FACTORY,
SegmentRoutingDeviceConfig.class, "segmentrouting") {
@Override
public SegmentRoutingDeviceConfig createConfig() {
return new SegmentRoutingDeviceConfig();
}
};
private final ConfigFactory<ApplicationId, SegmentRoutingAppConfig> appConfigFactory =
new ConfigFactory<ApplicationId, SegmentRoutingAppConfig>(
SubjectFactories.APP_SUBJECT_FACTORY,
SegmentRoutingAppConfig.class, "segmentrouting") {
@Override
public SegmentRoutingAppConfig createConfig() {
return new SegmentRoutingAppConfig();
}
};
private final ConfigFactory<ApplicationId, XConnectConfig> xConnectConfigFactory =
new ConfigFactory<ApplicationId, XConnectConfig>(
SubjectFactories.APP_SUBJECT_FACTORY,
XConnectConfig.class, "xconnect") {
@Override
public XConnectConfig createConfig() {
return new XConnectConfig();
}
};
private ConfigFactory<ApplicationId, McastConfig> mcastConfigFactory =
new ConfigFactory<ApplicationId, McastConfig>(
SubjectFactories.APP_SUBJECT_FACTORY,
McastConfig.class, "multicast") {
@Override
public McastConfig createConfig() {
return new McastConfig();
}
};
private final ConfigFactory<ApplicationId, PwaasConfig> pwaasConfigFactory =
new ConfigFactory<ApplicationId, PwaasConfig>(
SubjectFactories.APP_SUBJECT_FACTORY,
PwaasConfig.class, "pwaas") {
@Override
public PwaasConfig createConfig() {
return new PwaasConfig();
}
};
private static final Object THREAD_SCHED_LOCK = new Object();
private static int numOfEventsQueued = 0;
private static int numOfEventsExecuted = 0;
private static int numOfHandlerExecution = 0;
private static int numOfHandlerScheduled = 0;
/**
* Segment Routing App ID.
*/
public static final String APP_NAME = "org.onosproject.segmentrouting";
/**
* The default VLAN ID assigned to the interfaces without subnet config.
*/
public static final VlanId INTERNAL_VLAN = VlanId.vlanId((short) 4094);
@Activate
protected void activate() {
appId = coreService.registerApplication(APP_NAME);
log.debug("Creating EC map nsnextobjectivestore");
EventuallyConsistentMapBuilder<DestinationSetNextObjectiveStoreKey, NextNeighbors>
nsNextObjMapBuilder = storageService.eventuallyConsistentMapBuilder();
dsNextObjStore = nsNextObjMapBuilder
.withName("nsnextobjectivestore")
.withSerializer(createSerializer())
.withTimestampProvider((k, v) -> new WallClockTimestamp())
.build();
log.trace("Current size {}", dsNextObjStore.size());
log.debug("Creating EC map vlannextobjectivestore");
EventuallyConsistentMapBuilder<VlanNextObjectiveStoreKey, Integer>
vlanNextObjMapBuilder = storageService.eventuallyConsistentMapBuilder();
vlanNextObjStore = vlanNextObjMapBuilder
.withName("vlannextobjectivestore")
.withSerializer(createSerializer())
.withTimestampProvider((k, v) -> new WallClockTimestamp())
.build();
log.debug("Creating EC map subnetnextobjectivestore");
EventuallyConsistentMapBuilder<PortNextObjectiveStoreKey, Integer>
portNextObjMapBuilder = storageService.eventuallyConsistentMapBuilder();
portNextObjStore = portNextObjMapBuilder
.withName("portnextobjectivestore")
.withSerializer(createSerializer())
.withTimestampProvider((k, v) -> new WallClockTimestamp())
.build();
EventuallyConsistentMapBuilder<String, Tunnel> tunnelMapBuilder =
storageService.eventuallyConsistentMapBuilder();
tunnelStore = tunnelMapBuilder
.withName("tunnelstore")
.withSerializer(createSerializer())
.withTimestampProvider((k, v) -> new WallClockTimestamp())
.build();
EventuallyConsistentMapBuilder<String, Policy> policyMapBuilder =
storageService.eventuallyConsistentMapBuilder();
policyStore = policyMapBuilder
.withName("policystore")
.withSerializer(createSerializer())
.withTimestampProvider((k, v) -> new WallClockTimestamp())
.build();
compCfgService.preSetProperty("org.onosproject.net.group.impl.GroupManager",
"purgeOnDisconnection", "true");
compCfgService.preSetProperty("org.onosproject.net.flow.impl.FlowRuleManager",
"purgeOnDisconnection", "true");
compCfgService.preSetProperty("org.onosproject.provider.host.impl.HostLocationProvider",
"requestInterceptsEnabled", "false");
compCfgService.preSetProperty("org.onosproject.net.neighbour.impl.NeighbourResolutionManager",
"requestInterceptsEnabled", "false");
compCfgService.preSetProperty("org.onosproject.dhcprelay.DhcpRelayManager",
"arpEnabled", "false");
compCfgService.preSetProperty("org.onosproject.net.host.impl.HostManager",
"greedyLearningIpv6", "true");
compCfgService.preSetProperty("org.onosproject.routing.cpr.ControlPlaneRedirectManager",
"forceUnprovision", "true");
compCfgService.preSetProperty("org.onosproject.routeservice.store.RouteStoreImpl",
"distributed", "true");
compCfgService.preSetProperty("org.onosproject.provider.host.impl.HostLocationProvider",
"multihomingEnabled", "true");
processor = new InternalPacketProcessor();
linkListener = new InternalLinkListener();
deviceListener = new InternalDeviceListener();
appCfgHandler = new AppConfigHandler(this);
xConnectHandler = new XConnectHandler(this);
mcastHandler = new McastHandler(this);
hostHandler = new HostHandler(this);
routeHandler = new RouteHandler(this);
neighbourHandler = new SegmentRoutingNeighbourDispatcher(this);
l2TunnelHandler = new L2TunnelHandler(this);
cfgService.addListener(cfgListener);
cfgService.registerConfigFactory(deviceConfigFactory);
cfgService.registerConfigFactory(appConfigFactory);
cfgService.registerConfigFactory(xConnectConfigFactory);
cfgService.registerConfigFactory(mcastConfigFactory);
cfgService.registerConfigFactory(pwaasConfigFactory);
hostService.addListener(hostListener);
packetService.addProcessor(processor, PacketProcessor.director(2));
linkService.addListener(linkListener);
deviceService.addListener(deviceListener);
multicastRouteService.addListener(mcastListener);
routeService.addListener(routeListener);
cfgListener.configureNetwork();
log.info("Started");
}
private KryoNamespace.Builder createSerializer() {
return new KryoNamespace.Builder()
.register(KryoNamespaces.API)
.register(DestinationSetNextObjectiveStoreKey.class,
VlanNextObjectiveStoreKey.class,
DestinationSet.class,
NextNeighbors.class,
Tunnel.class,
DefaultTunnel.class,
Policy.class,
TunnelPolicy.class,
Policy.Type.class,
PortNextObjectiveStoreKey.class,
XConnectStoreKey.class
);
}
@Deactivate
protected void deactivate() {
cfgService.removeListener(cfgListener);
cfgService.unregisterConfigFactory(deviceConfigFactory);
cfgService.unregisterConfigFactory(appConfigFactory);
cfgService.unregisterConfigFactory(xConnectConfigFactory);
cfgService.unregisterConfigFactory(mcastConfigFactory);
cfgService.unregisterConfigFactory(pwaasConfigFactory);
hostService.removeListener(hostListener);
packetService.removeProcessor(processor);
linkService.removeListener(linkListener);
deviceService.removeListener(deviceListener);
multicastRouteService.removeListener(mcastListener);
routeService.removeListener(routeListener);
neighbourResolutionService.unregisterNeighbourHandlers(appId);
processor = null;
linkListener = null;
deviceListener = null;
groupHandlerMap.clear();
dsNextObjStore.destroy();
vlanNextObjStore.destroy();
portNextObjStore.destroy();
tunnelStore.destroy();
policyStore.destroy();
log.info("Stopped");
}
@Override
public List<Tunnel> getTunnels() {
return tunnelHandler.getTunnels();
}
@Override
public TunnelHandler.Result createTunnel(Tunnel tunnel) {
return tunnelHandler.createTunnel(tunnel);
}
@Override
public TunnelHandler.Result removeTunnel(Tunnel tunnel) {
for (Policy policy: policyHandler.getPolicies()) {
if (policy.type() == Policy.Type.TUNNEL_FLOW) {
TunnelPolicy tunnelPolicy = (TunnelPolicy) policy;
if (tunnelPolicy.tunnelId().equals(tunnel.id())) {
log.warn("Cannot remove the tunnel used by a policy");
return TunnelHandler.Result.TUNNEL_IN_USE;
}
}
}
return tunnelHandler.removeTunnel(tunnel);
}
@Override
public PolicyHandler.Result removePolicy(Policy policy) {
return policyHandler.removePolicy(policy);
}
@Override
public PolicyHandler.Result createPolicy(Policy policy) {
return policyHandler.createPolicy(policy);
}
@Override
public List<Policy> getPolicies() {
return policyHandler.getPolicies();
}
@Override
public void rerouteNetwork() {
cfgListener.configureNetwork();
}
@Override
public Map<DeviceId, Set<IpPrefix>> getDeviceSubnetMap() {
Map<DeviceId, Set<IpPrefix>> deviceSubnetMap = Maps.newHashMap();
deviceService.getAvailableDevices().forEach(device -> {
deviceSubnetMap.put(device.id(), deviceConfiguration.getSubnets(device.id()));
});
return deviceSubnetMap;
}
@Override
public ImmutableMap<DeviceId, EcmpShortestPathGraph> getCurrentEcmpSpg() {
if (defaultRoutingHandler != null) {
return defaultRoutingHandler.getCurrentEmcpSpgMap();
} else {
return null;
}
}
@Override
public ImmutableMap<DestinationSetNextObjectiveStoreKey, NextNeighbors> getDestinationSet() {
if (dsNextObjStore != null) {
return ImmutableMap.copyOf(dsNextObjStore.entrySet());
} else {
return ImmutableMap.of();
}
}
@Override
public void verifyGroups(DeviceId id) {
DefaultGroupHandler gh = groupHandlerMap.get(id);
if (gh != null) {
gh.triggerBucketCorrector();
}
}
/**
* Extracts the application ID from the manager.
*
* @return application ID
*/
public ApplicationId appId() {
return appId;
}
/**
* Returns the device configuration.
*
* @return device configuration
*/
public DeviceConfiguration deviceConfiguration() {
return deviceConfiguration;
}
/**
* Per device next objective ID store with (device id + destination set) as key.
* Used to keep track on MPLS group information.
*
* @return next objective ID store
*/
public EventuallyConsistentMap<DestinationSetNextObjectiveStoreKey, NextNeighbors>
dsNextObjStore() {
return dsNextObjStore;
}
/**
* Per device next objective ID store with (device id + vlanid) as key.
* Used to keep track on L2 flood group information.
*
* @return vlan next object store
*/
public EventuallyConsistentMap<VlanNextObjectiveStoreKey, Integer> vlanNextObjStore() {
return vlanNextObjStore;
}
/**
* Per device next objective ID store with (device id + port + treatment + meta) as key.
* Used to keep track on L2 interface group and L3 unicast group information.
*
* @return port next object store.
*/
public EventuallyConsistentMap<PortNextObjectiveStoreKey, Integer> portNextObjStore() {
return portNextObjStore;
}
/**
* Returns the MPLS-ECMP configuration which indicates whether ECMP on
* labeled packets should be programmed or not.
*
* @return MPLS-ECMP value
*/
public boolean getMplsEcmp() {
SegmentRoutingAppConfig segmentRoutingAppConfig = cfgService
.getConfig(this.appId, SegmentRoutingAppConfig.class);
return segmentRoutingAppConfig != null && segmentRoutingAppConfig.mplsEcmp();
}
/**
* Returns the tunnel object with the tunnel ID.
*
* @param tunnelId Tunnel ID
* @return Tunnel reference
*/
public Tunnel getTunnel(String tunnelId) {
return tunnelHandler.getTunnel(tunnelId);
}
// TODO Consider moving these to InterfaceService
/**
* Returns untagged VLAN configured on given connect point.
* <p>
* Only returns the first match if there are multiple untagged VLAN configured
* on the connect point.
*
* @param connectPoint connect point
* @return untagged VLAN or null if not configured
*/
VlanId getUntaggedVlanId(ConnectPoint connectPoint) {
return interfaceService.getInterfacesByPort(connectPoint).stream()
.filter(intf -> !intf.vlanUntagged().equals(VlanId.NONE))
.map(Interface::vlanUntagged)
.findFirst().orElse(null);
}
/**
* Returns tagged VLAN configured on given connect point.
* <p>
* Returns all matches if there are multiple tagged VLAN configured
* on the connect point.
*
* @param connectPoint connect point
* @return tagged VLAN or empty set if not configured
*/
Set<VlanId> getTaggedVlanId(ConnectPoint connectPoint) {
Set<Interface> interfaces = interfaceService.getInterfacesByPort(connectPoint);
return interfaces.stream()
.map(Interface::vlanTagged)
.flatMap(Set::stream)
.collect(Collectors.toSet());
}
/**
* Returns native VLAN configured on given connect point.
* <p>
* Only returns the first match if there are multiple native VLAN configured
* on the connect point.
*
* @param connectPoint connect point
* @return native VLAN or null if not configured
*/
VlanId getNativeVlanId(ConnectPoint connectPoint) {
Set<Interface> interfaces = interfaceService.getInterfacesByPort(connectPoint);
return interfaces.stream()
.filter(intf -> !intf.vlanNative().equals(VlanId.NONE))
.map(Interface::vlanNative)
.findFirst()
.orElse(null);
}
/**
* Returns internal VLAN for untagged hosts on given connect point.
* <p>
* The internal VLAN is either vlan-untagged for an access port,
* or vlan-native for a trunk port.
*
* @param connectPoint connect point
* @return internal VLAN or null if both vlan-untagged and vlan-native are undefined
*/
VlanId getInternalVlanId(ConnectPoint connectPoint) {
VlanId untaggedVlanId = getUntaggedVlanId(connectPoint);
VlanId nativeVlanId = getNativeVlanId(connectPoint);
return untaggedVlanId != null ? untaggedVlanId : nativeVlanId;
}
/**
* Returns optional pair device ID of given device.
*
* @param deviceId device ID
* @return optional pair device ID. Might be empty if pair device is not configured
*/
Optional<DeviceId> getPairDeviceId(DeviceId deviceId) {
SegmentRoutingDeviceConfig deviceConfig =
cfgService.getConfig(deviceId, SegmentRoutingDeviceConfig.class);
return Optional.ofNullable(deviceConfig).map(SegmentRoutingDeviceConfig::pairDeviceId);
}
/**
* Returns optional pair device local port of given device.
*
* @param deviceId device ID
* @return optional pair device ID. Might be empty if pair device is not configured
*/
Optional<PortNumber> getPairLocalPorts(DeviceId deviceId) {
SegmentRoutingDeviceConfig deviceConfig =
cfgService.getConfig(deviceId, SegmentRoutingDeviceConfig.class);
return Optional.ofNullable(deviceConfig).map(SegmentRoutingDeviceConfig::pairLocalPort);
}
/**
* Returns locations of given resolved route.
*
* @param resolvedRoute resolved route
* @return locations of nexthop. Might be empty if next hop is not found
*/
Set<ConnectPoint> nextHopLocations(ResolvedRoute resolvedRoute) {
HostId hostId = HostId.hostId(resolvedRoute.nextHopMac(), resolvedRoute.nextHopVlan());
return Optional.ofNullable(hostService.getHost(hostId))
.map(Host::locations).orElse(Sets.newHashSet())
.stream().map(l -> (ConnectPoint) l).collect(Collectors.toSet());
}
/**
* Returns vlan port map of given device.
*
* @param deviceId device id
* @return vlan-port multimap
*/
public Multimap<VlanId, PortNumber> getVlanPortMap(DeviceId deviceId) {
HashMultimap<VlanId, PortNumber> vlanPortMap = HashMultimap.create();
interfaceService.getInterfaces().stream()
.filter(intf -> intf.connectPoint().deviceId().equals(deviceId))
.forEach(intf -> {
vlanPortMap.put(intf.vlanUntagged(), intf.connectPoint().port());
intf.vlanTagged().forEach(vlanTagged ->
vlanPortMap.put(vlanTagged, intf.connectPoint().port())
);
vlanPortMap.put(intf.vlanNative(), intf.connectPoint().port());
});
vlanPortMap.removeAll(VlanId.NONE);
return vlanPortMap;
}
/**
* Returns the next objective ID for the given subnet prefix. It is expected
* Returns the next objective ID for the given vlan id. It is expected
* that the next-objective has been pre-created from configuration.
*
* @param deviceId Device ID
* @param vlanId VLAN ID
* @return next objective ID or -1 if it was not found
*/
int getVlanNextObjectiveId(DeviceId deviceId, VlanId vlanId) {
if (groupHandlerMap.get(deviceId) != null) {
log.trace("getVlanNextObjectiveId query in device {}", deviceId);
return groupHandlerMap.get(deviceId).getVlanNextObjectiveId(vlanId);
} else {
log.warn("getVlanNextObjectiveId query - groupHandler for "
+ "device {} not found", deviceId);
return -1;
}
}
/**
* Returns the next objective ID for the given portNumber, given the treatment.
* There could be multiple different treatments to the same outport, which
* would result in different objectives. If the next object does not exist,
* and should be created, a new one is created and its id is returned.
*
* @param deviceId Device ID
* @param portNum port number on device for which NextObjective is queried
* @param treatment the actions to apply on the packets (should include outport)
* @param meta metadata passed into the creation of a Next Objective if necessary
* @param createIfMissing true if a next object should be created if not found
* @return next objective ID or -1 if an error occurred during retrieval or creation
*/
public int getPortNextObjectiveId(DeviceId deviceId, PortNumber portNum,
TrafficTreatment treatment,
TrafficSelector meta,
boolean createIfMissing) {
DefaultGroupHandler ghdlr = groupHandlerMap.get(deviceId);
if (ghdlr != null) {
return ghdlr.getPortNextObjectiveId(portNum, treatment, meta, createIfMissing);
} else {
log.warn("getPortNextObjectiveId query - groupHandler for device {}"
+ " not found", deviceId);
return -1;
}
}
/**
* Returns the group handler object for the specified device id.
*
* @param devId the device identifier
* @return the groupHandler object for the device id, or null if not found
*/
DefaultGroupHandler getGroupHandler(DeviceId devId) {
return groupHandlerMap.get(devId);
}
/**
* Returns the default routing handler object.
*
* @return the default routing handler object
*/
public DefaultRoutingHandler getRoutingHandler() {
return defaultRoutingHandler;
}
/**
* Returns true if this controller instance has seen this link before. The
* link may not be currently up, but as long as the link had been seen before
* this method will return true. The one exception is when the link was
* indeed seen before, but this controller instance was forced to forget it
* by a call to purgeSeenLink method.
*
* @param link the infrastructure link being queried
* @return true if this controller instance has seen this link before
*/
boolean isSeenLink(Link link) {
return seenLinks.containsKey(link);
}
/**
* Updates the seen link store. Updates can be for links that are currently
* available or not.
*
* @param link the link to update in the seen-link local store
* @param up the status of the link, true if up, false if down
*/
void updateSeenLink(Link link, boolean up) {
seenLinks.put(link, up);
}
/**
* Returns the status of a seen-link (up or down). If the link has not
* been seen-before, a null object is returned.
*
* @param link the infrastructure link being queried
* @return null if the link was not seen-before;
* true if the seen-link is up;
* false if the seen-link is down
*/
Boolean isSeenLinkUp(Link link) {
return seenLinks.get(link);
}
/**
* Makes this controller instance forget a previously seen before link.
*
* @param link the infrastructure link to purge
*/
private void purgeSeenLink(Link link) {
seenLinks.remove(link);
}
/**
* Returns the status of a link as parallel link. A parallel link
* is defined as a link which has common src and dst switches as another
* seen-link that is currently enabled. It is not necessary for the link being
* queried to be a seen-link.
*
* @param link the infrastructure link being queried
* @return true if a seen-link exists that is up, and shares the
* same src and dst switches as the link being queried
*/
private boolean isParallelLink(Link link) {
for (Entry<Link, Boolean> seen : seenLinks.entrySet()) {
Link seenLink = seen.getKey();
if (seenLink.equals(link)) {
continue;
}
if (seenLink.src().deviceId().equals(link.src().deviceId()) &&
seenLink.dst().deviceId().equals(link.dst().deviceId()) &&
seen.getValue()) {
return true;
}
}
return false;
}
/**
* Returns true if the link being queried is a bidirectional link. A bidi
* link is defined as a link, whose reverse link - ie. the link in the reverse
* direction - has been seen-before and is up. It is not necessary for the link
* being queried to be a seen-link.
*
* @param link the infrastructure link being queried
* @return true if another unidirectional link exists in the reverse direction,
* has been seen-before and is up
*/
public boolean isBidirectional(Link link) {
Link reverseLink = linkService.getLink(link.dst(), link.src());
if (reverseLink == null) {
return false;
}
Boolean result = isSeenLinkUp(reverseLink);
if (result == null) {
return false;
}
return result.booleanValue();
}
/**
* Determines if the given link should be avoided in routing calculations
* by policy or design.
*
* @param link the infrastructure link being queried
* @return true if link should be avoided
*/
public boolean avoidLink(Link link) {
// XXX currently only avoids all pair-links. In the future can be
// extended to avoid any generic link
DeviceId src = link.src().deviceId();
PortNumber srcPort = link.src().port();
if (deviceConfiguration == null || !deviceConfiguration.isConfigured(src)) {
log.warn("Device {} not configured..cannot avoid link {}", src, link);
return false;
}
DeviceId pairDev;
PortNumber pairLocalPort, pairRemotePort = null;
try {
pairDev = deviceConfiguration.getPairDeviceId(src);
pairLocalPort = deviceConfiguration.getPairLocalPort(src);
if (pairDev != null) {
pairRemotePort = deviceConfiguration.getPairLocalPort(pairDev);
}
} catch (DeviceConfigNotFoundException e) {
log.warn("Pair dev for dev {} not configured..cannot avoid link {}",
src, link);
return false;
}
if (srcPort.equals(pairLocalPort) &&
link.dst().deviceId().equals(pairDev) &&
link.dst().port().equals(pairRemotePort)) {
return true;
}
return false;
}
private class InternalPacketProcessor implements PacketProcessor {
@Override
public void process(PacketContext context) {
if (context.isHandled()) {
return;
}
InboundPacket pkt = context.inPacket();
Ethernet ethernet = pkt.parsed();
if (ethernet == null) {
return;
}
log.trace("Rcvd pktin from {}: {}", context.inPacket().receivedFrom(),
ethernet);
if (ethernet.getEtherType() == TYPE_ARP) {
log.warn("Received unexpected ARP packet on {}",
context.inPacket().receivedFrom());
log.trace("{}", ethernet);
return;
} else if (ethernet.getEtherType() == Ethernet.TYPE_IPV4) {
IPv4 ipv4Packet = (IPv4) ethernet.getPayload();
//ipHandler.addToPacketBuffer(ipv4Packet);
if (ipv4Packet.getProtocol() == IPv4.PROTOCOL_ICMP) {
icmpHandler.processIcmp(ethernet, pkt.receivedFrom());
} else {
// NOTE: We don't support IP learning at this moment so this
// is not necessary. Also it causes duplication of DHCP packets.
// ipHandler.processPacketIn(ipv4Packet, pkt.receivedFrom());
}
} else if (ethernet.getEtherType() == Ethernet.TYPE_IPV6) {
IPv6 ipv6Packet = (IPv6) ethernet.getPayload();
//ipHandler.addToPacketBuffer(ipv6Packet);
// We deal with the packet only if the packet is a ICMP6 ECHO/REPLY
if (ipv6Packet.getNextHeader() == IPv6.PROTOCOL_ICMP6) {
ICMP6 icmp6Packet = (ICMP6) ipv6Packet.getPayload();
if (icmp6Packet.getIcmpType() == ICMP6.ECHO_REQUEST ||
icmp6Packet.getIcmpType() == ICMP6.ECHO_REPLY) {
icmpHandler.processIcmpv6(ethernet, pkt.receivedFrom());
} else {
log.trace("Received ICMPv6 0x{} - not handled",
Integer.toHexString(icmp6Packet.getIcmpType() & 0xff));
}
} else {
// NOTE: We don't support IP learning at this moment so this
// is not necessary. Also it causes duplication of DHCPv6 packets.
// ipHandler.processPacketIn(ipv6Packet, pkt.receivedFrom());
}
}
}
}
private class InternalLinkListener implements LinkListener {
@Override
public void event(LinkEvent event) {
if (event.type() == LinkEvent.Type.LINK_ADDED ||
event.type() == LinkEvent.Type.LINK_UPDATED ||
event.type() == LinkEvent.Type.LINK_REMOVED) {
log.debug("Event {} received from Link Service", event.type());
scheduleEventHandlerIfNotScheduled(event);
}
}
}
private class InternalDeviceListener implements DeviceListener {
@Override
public void event(DeviceEvent event) {
switch (event.type()) {
case DEVICE_ADDED:
case PORT_UPDATED:
case PORT_ADDED:
case DEVICE_UPDATED:
case DEVICE_AVAILABILITY_CHANGED:
log.trace("Event {} received from Device Service", event.type());
scheduleEventHandlerIfNotScheduled(event);
break;
default:
}
}
}
@SuppressWarnings("rawtypes")
private void scheduleEventHandlerIfNotScheduled(Event event) {
synchronized (THREAD_SCHED_LOCK) {
eventQueue.add(event);
numOfEventsQueued++;
if ((numOfHandlerScheduled - numOfHandlerExecution) == 0) {
//No pending scheduled event handling threads. So start a new one.
eventHandlerFuture = executorService
.schedule(eventHandler, 100, TimeUnit.MILLISECONDS);
numOfHandlerScheduled++;
}
log.trace("numOfEventsQueued {}, numOfEventHandlerScheduled {}",
numOfEventsQueued,
numOfHandlerScheduled);
}
}
private class InternalEventHandler implements Runnable {
@Override
public void run() {
try {
while (true) {
@SuppressWarnings("rawtypes")
Event event;
synchronized (THREAD_SCHED_LOCK) {
if (!eventQueue.isEmpty()) {
event = eventQueue.poll();
numOfEventsExecuted++;
} else {
numOfHandlerExecution++;
log.debug("numOfHandlerExecution {} numOfEventsExecuted {}",
numOfHandlerExecution, numOfEventsExecuted);
break;
}
}
if (event.type() == LinkEvent.Type.LINK_ADDED ||
event.type() == LinkEvent.Type.LINK_UPDATED) {
// Note: do not update seenLinks here, otherwise every
// link, even one seen for the first time, will be appear
// to be a previously seen link
processLinkAdded((Link) event.subject());
} else if (event.type() == LinkEvent.Type.LINK_REMOVED) {
Link linkRemoved = (Link) event.subject();
if (linkRemoved.type() == Link.Type.DIRECT) {
updateSeenLink(linkRemoved, false);
}
// device availability check helps to ensure that
// multiple link-removed events are actually treated as a
// single switch removed event. purgeSeenLink is necessary
// so we do rerouting (instead of rehashing) when switch
// comes back.
if (linkRemoved.src().elementId() instanceof DeviceId &&
!deviceService.isAvailable(linkRemoved.src().deviceId())) {
purgeSeenLink(linkRemoved);
continue;
}
if (linkRemoved.dst().elementId() instanceof DeviceId &&
!deviceService.isAvailable(linkRemoved.dst().deviceId())) {
purgeSeenLink(linkRemoved);
continue;
}
processLinkRemoved((Link) event.subject());
} else if (event.type() == DeviceEvent.Type.DEVICE_ADDED ||
event.type() == DeviceEvent.Type.DEVICE_AVAILABILITY_CHANGED ||
event.type() == DeviceEvent.Type.DEVICE_UPDATED) {
DeviceId deviceId = ((Device) event.subject()).id();
if (deviceService.isAvailable(deviceId)) {
log.info("Processing device event {} for available device {}",
event.type(), ((Device) event.subject()).id());
processDeviceAdded((Device) event.subject());
} else {
log.info("Processing device event {} for unavailable device {}",
event.type(), ((Device) event.subject()).id());
processDeviceRemoved((Device) event.subject());
}
} else if (event.type() == DeviceEvent.Type.PORT_ADDED) {
// typically these calls come when device is added first time
// so port filtering rules are handled at the device_added event.
// port added calls represent all ports on the device,
// enabled or not.
log.trace("** PORT ADDED {}/{} -> {}",
((DeviceEvent) event).subject().id(),
((DeviceEvent) event).port().number(),
event.type());
} else if (event.type() == DeviceEvent.Type.PORT_UPDATED) {
// these calls happen for every subsequent event
// ports enabled, disabled, switch goes away, comes back
log.info("** PORT UPDATED {}/{} -> {}",
event.subject(),
((DeviceEvent) event).port(),
event.type());
processPortUpdated(((Device) event.subject()),
((DeviceEvent) event).port());
} else {
log.warn("Unhandled event type: {}", event.type());
}
}
} catch (Exception e) {
log.error("SegmentRouting event handler "
+ "thread thrown an exception: {}", e);
}
}
}
private void processLinkAdded(Link link) {
log.info("** LINK ADDED {}", link.toString());
if (link.type() != Link.Type.DIRECT) {
// NOTE: A DIRECT link might be transiently marked as INDIRECT
// if BDDP is received before LLDP. We can safely ignore that
// until the LLDP is received and the link is marked as DIRECT.
log.info("Ignore link {}->{}. Link type is {} instead of DIRECT.",
link.src(), link.dst(), link.type());
return;
}
if (!deviceConfiguration.isConfigured(link.src().deviceId())) {
updateSeenLink(link, true);
// XXX revisit - what about devicePortMap
log.warn("Source device of this link is not configured.. "
+ "not processing further");
return;
}
//Irrespective of whether the local is a MASTER or not for this device,
//create group handler instance and push default TTP flow rules if needed,
//as in a multi-instance setup, instances can initiate groups for any device.
DefaultGroupHandler groupHandler = groupHandlerMap.get(link.src()
.deviceId());
if (groupHandler != null) {
groupHandler.portUpForLink(link);
} else {
// XXX revisit/cleanup
Device device = deviceService.getDevice(link.src().deviceId());
if (device != null) {
log.warn("processLinkAdded: Link Added "
+ "Notification without Device Added "
+ "event, still handling it");
processDeviceAdded(device);
groupHandler = groupHandlerMap.get(link.src()
.deviceId());
groupHandler.portUpForLink(link);
}
}
/*// process link only if it is bidirectional
if (!isBidirectional(link)) {
log.debug("Link not bidirectional.. waiting for other direction "
+ "src {} --> dst {} ", link.dst(), link.src());
// note that if we are not processing for routing, it should at least
// be considered a seen-link
updateSeenLink(link, true);
return;
}
TO DO this ensure that rehash is still done correctly even if link is
not processed for rerouting - perhaps rehash in both directions when
it ultimately becomes bidi?
*/
log.debug("Starting optimized route population process for link "
+ "{} --> {}", link.src(), link.dst());
boolean seenBefore = isSeenLink(link);
defaultRoutingHandler.populateRoutingRulesForLinkStatusChange(null, link, null);
// It's possible that linkUp causes no route-path change as ECMP graph does
// not change if the link is a parallel link (same src-dst as another link.
// However we still need to update ECMP hash groups to include new buckets
// for the link that has come up.
if (mastershipService.isLocalMaster(link.src().deviceId())) {
if (!seenBefore && isParallelLink(link)) {
// if link seen first time, we need to ensure hash-groups have all ports
log.debug("Attempting retryHash for paralled first-time link {}", link);
groupHandler.retryHash(link, false, true);
} else {
//seen before-link
if (isParallelLink(link)) {
log.debug("Attempting retryHash for paralled seen-before "
+ "link {}", link);
groupHandler.retryHash(link, false, false);
}
}
}
mcastHandler.init();
}
private void processLinkRemoved(Link link) {
log.info("** LINK REMOVED {}", link.toString());
defaultRoutingHandler.populateRoutingRulesForLinkStatusChange(link, null, null);
// update local groupHandler stores
DefaultGroupHandler groupHandler = groupHandlerMap.get(link.src().deviceId());
if (groupHandler != null) {
if (mastershipService.isLocalMaster(link.src().deviceId()) &&
isParallelLink(link)) {
log.debug("* retrying hash for parallel link removed:{}", link);
groupHandler.retryHash(link, true, false);
} else {
log.debug("Not attempting retry-hash for link removed: {} .. {}", link,
(mastershipService.isLocalMaster(link.src().deviceId()))
? "not parallel" : "not master");
}
// ensure local stores are updated
groupHandler.portDown(link.src().port());
} else {
log.warn("group handler not found for dev:{} when removing link: {}",
link.src().deviceId(), link);
}
mcastHandler.processLinkDown(link);
}
private void processDeviceAdded(Device device) {
log.info("** DEVICE ADDED with ID {}", device.id());
// NOTE: Punt ARP/NDP even when the device is not configured.
// Host learning without network config is required for CORD config generator.
routingRulePopulator.populateIpPunts(device.id());
routingRulePopulator.populateArpNdpPunts(device.id());
if (deviceConfiguration == null || !deviceConfiguration.isConfigured(device.id())) {
log.warn("Device configuration unavailable. Device {} will be "
+ "processed after configuration.", device.id());
return;
}
processDeviceAddedInternal(device.id());
}
private void processDeviceAddedInternal(DeviceId deviceId) {
// Irrespective of whether the local is a MASTER or not for this device,
// we need to create a SR-group-handler instance. This is because in a
// multi-instance setup, any instance can initiate forwarding/next-objectives
// for any switch (even if this instance is a SLAVE or not even connected
// to the switch). To handle this, a default-group-handler instance is necessary
// per switch.
log.debug("Current groupHandlerMap devs: {}", groupHandlerMap.keySet());
if (groupHandlerMap.get(deviceId) == null) {
DefaultGroupHandler groupHandler;
try {
groupHandler = DefaultGroupHandler.
createGroupHandler(deviceId,
appId,
deviceConfiguration,
linkService,
flowObjectiveService,
this);
} catch (DeviceConfigNotFoundException e) {
log.warn(e.getMessage() + " Aborting processDeviceAdded.");
return;
}
log.debug("updating groupHandlerMap with new config for device: {}",
deviceId);
groupHandlerMap.put(deviceId, groupHandler);
}
if (mastershipService.isLocalMaster(deviceId)) {
defaultRoutingHandler.populatePortAddressingRules(deviceId);
hostHandler.init(deviceId);
xConnectHandler.init(deviceId);
DefaultGroupHandler groupHandler = groupHandlerMap.get(deviceId);
groupHandler.createGroupsFromVlanConfig();
routingRulePopulator.populateSubnetBroadcastRule(deviceId);
}
appCfgHandler.init(deviceId);
routeHandler.init(deviceId);
}
private void processDeviceRemoved(Device device) {
dsNextObjStore.entrySet().stream()
.filter(entry -> entry.getKey().deviceId().equals(device.id()))
.forEach(entry -> {
dsNextObjStore.remove(entry.getKey());
});
vlanNextObjStore.entrySet().stream()
.filter(entry -> entry.getKey().deviceId().equals(device.id()))
.forEach(entry -> vlanNextObjStore.remove(entry.getKey()));
portNextObjStore.entrySet().stream()
.filter(entry -> entry.getKey().deviceId().equals(device.id()))
.forEach(entry -> portNextObjStore.remove(entry.getKey()));
seenLinks.keySet().removeIf(key -> key.src().deviceId().equals(device.id()) ||
key.dst().deviceId().equals(device.id()));
DefaultGroupHandler gh = groupHandlerMap.remove(device.id());
if (gh != null) {
gh.shutdown();
}
defaultRoutingHandler.purgeEcmpGraph(device.id());
// Note that a switch going down is associated with all of its links
// going down as well, but it is treated as a single switch down event
// while the link-downs are ignored.
defaultRoutingHandler
.populateRoutingRulesForLinkStatusChange(null, null, device.id());
mcastHandler.removeDevice(device.id());
xConnectHandler.removeDevice(device.id());
}
private void processPortUpdated(Device device, Port port) {
if (deviceConfiguration == null || !deviceConfiguration.isConfigured(device.id())) {
log.warn("Device configuration uploading. Not handling port event for"
+ "dev: {} port: {}", device.id(), port.number());
return;
}
if (!mastershipService.isLocalMaster(device.id())) {
log.debug("Not master for dev:{} .. not handling port updated event"
+ "for port {}", device.id(), port.number());
return;
}
// first we handle filtering rules associated with the port
if (port.isEnabled()) {
log.info("Switchport {}/{} enabled..programming filters",
device.id(), port.number());
routingRulePopulator.processSinglePortFilters(device.id(), port.number(), true);
} else {
log.info("Switchport {}/{} disabled..removing filters",
device.id(), port.number());
routingRulePopulator.processSinglePortFilters(device.id(), port.number(), false);
}
// portUpdated calls are for ports that have gone down or up. For switch
// to switch ports, link-events should take care of any re-routing or
// group editing necessary for port up/down. Here we only process edge ports
// that are already configured.
ConnectPoint cp = new ConnectPoint(device.id(), port.number());
VlanId untaggedVlan = getUntaggedVlanId(cp);
VlanId nativeVlan = getNativeVlanId(cp);
Set<VlanId> taggedVlans = getTaggedVlanId(cp);
if (untaggedVlan == null && nativeVlan == null && taggedVlans.isEmpty()) {
log.debug("Not handling port updated event for non-edge port (unconfigured) "
+ "dev/port: {}/{}", device.id(), port.number());
return;
}
if (untaggedVlan != null) {
processEdgePort(device, port, untaggedVlan, true);
}
if (nativeVlan != null) {
processEdgePort(device, port, nativeVlan, true);
}
if (!taggedVlans.isEmpty()) {
taggedVlans.forEach(tag -> processEdgePort(device, port, tag, false));
}
}
private void processEdgePort(Device device, Port port, VlanId vlanId,
boolean popVlan) {
boolean portUp = port.isEnabled();
if (portUp) {
log.info("Device:EdgePort {}:{} is enabled in vlan: {}", device.id(),
port.number(), vlanId);
} else {
log.info("Device:EdgePort {}:{} is disabled in vlan: {}", device.id(),
port.number(), vlanId);
}
DefaultGroupHandler groupHandler = groupHandlerMap.get(device.id());
if (groupHandler != null) {
groupHandler.processEdgePort(port.number(), vlanId, popVlan, portUp);
} else {
log.warn("Group handler not found for dev:{}. Not handling edge port"
+ " {} event for port:{}", device.id(),
(portUp) ? "UP" : "DOWN", port.number());
}
}
/**
* Registers the given connect point with the NRS, this is necessary
* to receive the NDP and ARP packets from the NRS.
*
* @param portToRegister connect point to register
*/
public void registerConnectPoint(ConnectPoint portToRegister) {
neighbourResolutionService.registerNeighbourHandler(
portToRegister,
neighbourHandler,
appId
);
}
private class InternalConfigListener implements NetworkConfigListener {
private static final long PROGRAM_DELAY = 2;
SegmentRoutingManager srManager;
/**
* Constructs the internal network config listener.
*
* @param srManager segment routing manager
*/
InternalConfigListener(SegmentRoutingManager srManager) {
this.srManager = srManager;
}
/**
* Reads network config and initializes related data structure accordingly.
*/
public void configureNetwork() {
if (deviceConfiguration == null) {
deviceConfiguration = new DeviceConfiguration(srManager);
} else {
deviceConfiguration.updateConfig();
}
arpHandler = new ArpHandler(srManager);
icmpHandler = new IcmpHandler(srManager);
ipHandler = new IpHandler(srManager);
routingRulePopulator = new RoutingRulePopulator(srManager);
defaultRoutingHandler = new DefaultRoutingHandler(srManager);
tunnelHandler = new TunnelHandler(linkService, deviceConfiguration,
groupHandlerMap, tunnelStore);
policyHandler = new PolicyHandler(appId, deviceConfiguration,
flowObjectiveService,
tunnelHandler, policyStore);
// add a small delay to absorb multiple network config added notifications
if (!programmingScheduled.get()) {
programmingScheduled.set(true);
executorService.schedule(new ConfigChange(), PROGRAM_DELAY,
TimeUnit.SECONDS);
}
mcastHandler.init();
}
@Override
public void event(NetworkConfigEvent event) {
// TODO move this part to NetworkConfigEventHandler
if (event.configClass().equals(SegmentRoutingDeviceConfig.class)) {
switch (event.type()) {
case CONFIG_ADDED:
log.info("Segment Routing Device Config added for {}", event.subject());
configureNetwork();
break;
case CONFIG_UPDATED:
log.info("Segment Routing Config updated for {}", event.subject());
// TODO support dynamic configuration
break;
default:
break;
}
} else if (event.configClass().equals(InterfaceConfig.class)) {
switch (event.type()) {
case CONFIG_ADDED:
log.info("Interface Config added for {}", event.subject());
configureNetwork();
break;
case CONFIG_UPDATED:
log.info("Interface Config updated for {}", event.subject());
// TODO support dynamic configuration
break;
default:
break;
}
} else if (event.configClass().equals(SegmentRoutingAppConfig.class)) {
checkState(appCfgHandler != null, "NetworkConfigEventHandler is not initialized");
switch (event.type()) {
case CONFIG_ADDED:
appCfgHandler.processAppConfigAdded(event);
break;
case CONFIG_UPDATED:
appCfgHandler.processAppConfigUpdated(event);
break;
case CONFIG_REMOVED:
appCfgHandler.processAppConfigRemoved(event);
break;
default:
break;
}
configureNetwork();
} else if (event.configClass().equals(XConnectConfig.class)) {
checkState(xConnectHandler != null, "XConnectHandler is not initialized");
switch (event.type()) {
case CONFIG_ADDED:
xConnectHandler.processXConnectConfigAdded(event);
break;
case CONFIG_UPDATED:
xConnectHandler.processXConnectConfigUpdated(event);
break;
case CONFIG_REMOVED:
xConnectHandler.processXConnectConfigRemoved(event);
break;
default:
break;
}
} else if (event.configClass().equals(PwaasConfig.class)) {
checkState(l2TunnelHandler != null, "L2TunnelHandler is not initialized");
switch (event.type()) {
case CONFIG_ADDED:
l2TunnelHandler.processPwaasConfigAdded(event);
break;
case CONFIG_UPDATED:
l2TunnelHandler.processPwaasConfigUpdated(event);
break;
case CONFIG_REMOVED:
l2TunnelHandler.processPwaasConfigRemoved(event);
break;
default:
break;
}
}
}
private final class ConfigChange implements Runnable {
@Override
public void run() {
programmingScheduled.set(false);
for (Device device : deviceService.getDevices()) {
processDeviceAdded(device);
}
defaultRoutingHandler.startPopulationProcess();
}
}
}
private class InternalHostListener implements HostListener {
@Override
public void event(HostEvent event) {
switch (event.type()) {
case HOST_ADDED:
hostHandler.processHostAddedEvent(event);
break;
case HOST_MOVED:
hostHandler.processHostMovedEvent(event);
break;
case HOST_REMOVED:
hostHandler.processHostRemovedEvent(event);
break;
case HOST_UPDATED:
hostHandler.processHostUpdatedEvent(event);
break;
default:
log.warn("Unsupported host event type: {}", event.type());
break;
}
}
}
private class InternalMcastListener implements McastListener {
@Override
public void event(McastEvent event) {
switch (event.type()) {
case SOURCE_ADDED:
mcastHandler.processSourceAdded(event);
break;
case SINK_ADDED:
mcastHandler.processSinkAdded(event);
break;
case SINK_REMOVED:
mcastHandler.processSinkRemoved(event);
break;
case ROUTE_ADDED:
case ROUTE_REMOVED:
default:
break;
}
}
}
private class InternalRouteEventListener implements RouteListener {
@Override
public void event(RouteEvent event) {
switch (event.type()) {
case ROUTE_ADDED:
routeHandler.processRouteAdded(event);
break;
case ROUTE_UPDATED:
routeHandler.processRouteUpdated(event);
break;
case ROUTE_REMOVED:
routeHandler.processRouteRemoved(event);
break;
default:
break;
}
}
}
}