| /* |
| * Copyright 2015 Open Networking Laboratory |
| * |
| * 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.driver.pipeline; |
| |
| import static org.onlab.util.Tools.groupedThreads; |
| import static org.slf4j.LoggerFactory.getLogger; |
| |
| import java.util.ArrayDeque; |
| import java.util.ArrayList; |
| import java.util.Collection; |
| import java.util.Collections; |
| import java.util.Deque; |
| import java.util.List; |
| import java.util.Map; |
| import java.util.Set; |
| import java.util.concurrent.ConcurrentHashMap; |
| import java.util.concurrent.CopyOnWriteArrayList; |
| import java.util.concurrent.Executors; |
| import java.util.concurrent.ScheduledExecutorService; |
| import java.util.concurrent.TimeUnit; |
| import java.util.concurrent.atomic.AtomicInteger; |
| import java.util.stream.Collectors; |
| |
| import org.onlab.osgi.ServiceDirectory; |
| import org.onlab.packet.Ethernet; |
| import org.onlab.packet.MacAddress; |
| import org.onlab.packet.MplsLabel; |
| import org.onlab.packet.VlanId; |
| import org.onlab.util.KryoNamespace; |
| import org.onosproject.core.ApplicationId; |
| import org.onosproject.core.CoreService; |
| import org.onosproject.core.DefaultGroupId; |
| import org.onosproject.net.DeviceId; |
| import org.onosproject.net.Port; |
| import org.onosproject.net.PortNumber; |
| import org.onosproject.net.behaviour.NextGroup; |
| import org.onosproject.net.behaviour.Pipeliner; |
| import org.onosproject.net.behaviour.PipelinerContext; |
| import org.onosproject.net.device.DeviceService; |
| import org.onosproject.net.driver.AbstractHandlerBehaviour; |
| import org.onosproject.net.flow.DefaultFlowRule; |
| import org.onosproject.net.flow.DefaultTrafficSelector; |
| import org.onosproject.net.flow.DefaultTrafficTreatment; |
| import org.onosproject.net.flow.FlowRule; |
| import org.onosproject.net.flow.FlowRuleOperations; |
| import org.onosproject.net.flow.FlowRuleOperationsContext; |
| import org.onosproject.net.flow.FlowRuleService; |
| import org.onosproject.net.flow.TrafficSelector; |
| import org.onosproject.net.flow.TrafficTreatment; |
| import org.onosproject.net.flow.criteria.Criteria; |
| import org.onosproject.net.flow.criteria.Criterion; |
| import org.onosproject.net.flow.criteria.Criterion.Type; |
| import org.onosproject.net.flow.criteria.EthCriterion; |
| import org.onosproject.net.flow.criteria.EthTypeCriterion; |
| import org.onosproject.net.flow.criteria.IPCriterion; |
| import org.onosproject.net.flow.criteria.MplsBosCriterion; |
| import org.onosproject.net.flow.criteria.MplsCriterion; |
| import org.onosproject.net.flow.criteria.PortCriterion; |
| import org.onosproject.net.flow.criteria.VlanIdCriterion; |
| import org.onosproject.net.flow.instructions.Instruction; |
| import org.onosproject.net.flow.instructions.Instructions.OutputInstruction; |
| import org.onosproject.net.flow.instructions.L2ModificationInstruction; |
| import org.onosproject.net.flow.instructions.L2ModificationInstruction.L2SubType; |
| import org.onosproject.net.flow.instructions.L2ModificationInstruction.ModEtherInstruction; |
| import org.onosproject.net.flow.instructions.L2ModificationInstruction.ModMplsLabelInstruction; |
| import org.onosproject.net.flow.instructions.L2ModificationInstruction.ModVlanIdInstruction; |
| import org.onosproject.net.flowobjective.FilteringObjective; |
| import org.onosproject.net.flowobjective.FlowObjectiveStore; |
| import org.onosproject.net.flowobjective.ForwardingObjective; |
| import org.onosproject.net.flowobjective.NextObjective; |
| import org.onosproject.net.flowobjective.Objective; |
| import org.onosproject.net.flowobjective.ObjectiveError; |
| import org.onosproject.net.group.DefaultGroupBucket; |
| import org.onosproject.net.group.DefaultGroupDescription; |
| import org.onosproject.net.group.DefaultGroupKey; |
| import org.onosproject.net.group.Group; |
| import org.onosproject.net.group.GroupBucket; |
| import org.onosproject.net.group.GroupBuckets; |
| import org.onosproject.net.group.GroupDescription; |
| import org.onosproject.net.group.GroupEvent; |
| import org.onosproject.net.group.GroupKey; |
| import org.onosproject.net.group.GroupListener; |
| import org.onosproject.net.group.GroupService; |
| import org.onosproject.net.packet.PacketService; |
| import org.onosproject.store.serializers.KryoNamespaces; |
| import org.slf4j.Logger; |
| |
| import com.google.common.cache.Cache; |
| import com.google.common.cache.CacheBuilder; |
| import com.google.common.cache.RemovalCause; |
| import com.google.common.cache.RemovalNotification; |
| |
| /** |
| * Driver for Broadcom's OF-DPA v2.0 TTP. |
| * |
| */ |
| public class OFDPA2Pipeline extends AbstractHandlerBehaviour implements Pipeliner { |
| |
| protected static final int PORT_TABLE = 0; |
| protected static final int VLAN_TABLE = 10; |
| protected static final int TMAC_TABLE = 20; |
| protected static final int UNICAST_ROUTING_TABLE = 30; |
| protected static final int MULTICAST_ROUTING_TABLE = 40; |
| protected static final int MPLS_TABLE_0 = 23; |
| protected static final int MPLS_TABLE_1 = 24; |
| protected static final int BRIDGING_TABLE = 50; |
| protected static final int ACL_TABLE = 60; |
| protected static final int MAC_LEARNING_TABLE = 254; |
| protected static final long OFPP_MAX = 0xffffff00L; |
| |
| private static final int HIGHEST_PRIORITY = 0xffff; |
| protected static final int DEFAULT_PRIORITY = 0x8000; |
| protected static final int LOWEST_PRIORITY = 0x0; |
| |
| /* |
| * OFDPA requires group-id's to have a certain form. |
| * L2 Interface Groups have <4bits-0><12bits-vlanid><16bits-portid> |
| * L3 Unicast Groups have <4bits-2><28bits-index> |
| * MPLS Interface Groups have <4bits-9><4bits:0><24bits-index> |
| * L3 ECMP Groups have <4bits-7><28bits-index> |
| * L2 Flood Groups have <4bits-4><12bits-vlanid><16bits-index> |
| * L3 VPN Groups have <4bits-9><4bits-2><24bits-index> |
| */ |
| private static final int L2INTERFACEMASK = 0x0; |
| private static final int L3UNICASTMASK = 0x20000000; |
| private static final int MPLSINTERFACEMASK = 0x90000000; |
| private static final int L3ECMPMASK = 0x70000000; |
| private static final int L2FLOODMASK = 0x40000000; |
| private static final int L3VPNMASK = 0x92000000; |
| |
| private final Logger log = getLogger(getClass()); |
| private ServiceDirectory serviceDirectory; |
| protected FlowRuleService flowRuleService; |
| private CoreService coreService; |
| protected GroupService groupService; |
| protected FlowObjectiveStore flowObjectiveStore; |
| protected DeviceId deviceId; |
| protected ApplicationId driverId; |
| protected PacketService packetService; |
| protected DeviceService deviceService; |
| protected KryoNamespace appKryo = new KryoNamespace.Builder() |
| .register(KryoNamespaces.API) |
| .register(GroupKey.class) |
| .register(DefaultGroupKey.class) |
| .register(OfdpaNextGroup.class) |
| .register(byte[].class) |
| .register(ArrayDeque.class) |
| .build(); |
| |
| private Cache<GroupKey, List<OfdpaNextGroup>> pendingNextObjectives; |
| private ConcurrentHashMap<GroupKey, Set<GroupChainElem>> pendingGroups; |
| |
| private ScheduledExecutorService groupChecker = |
| Executors.newScheduledThreadPool(2, groupedThreads("onos/pipeliner", |
| "ofdpa2-%d")); |
| private Set<IPCriterion> sentIpFilters = Collections.newSetFromMap( |
| new ConcurrentHashMap<IPCriterion, Boolean>()); |
| |
| // local stores for port-vlan mapping |
| Map<PortNumber, VlanId> port2Vlan = new ConcurrentHashMap<PortNumber, VlanId>(); |
| Map<VlanId, Set<PortNumber>> vlan2Port = new ConcurrentHashMap<VlanId, |
| Set<PortNumber>>(); |
| |
| // index number for group creation |
| AtomicInteger l3vpnindex = new AtomicInteger(0); |
| |
| |
| @Override |
| public void init(DeviceId deviceId, PipelinerContext context) { |
| this.serviceDirectory = context.directory(); |
| this.deviceId = deviceId; |
| |
| pendingNextObjectives = CacheBuilder.newBuilder() |
| .expireAfterWrite(20, TimeUnit.SECONDS) |
| .removalListener(( |
| RemovalNotification<GroupKey, List<OfdpaNextGroup>> notification) -> { |
| if (notification.getCause() == RemovalCause.EXPIRED) { |
| notification.getValue().forEach(ofdpaNextGrp -> |
| fail(ofdpaNextGrp.nextObj, |
| ObjectiveError.GROUPINSTALLATIONFAILED)); |
| |
| } |
| }).build(); |
| |
| groupChecker.scheduleAtFixedRate(new GroupChecker(), 0, 500, TimeUnit.MILLISECONDS); |
| pendingGroups = new ConcurrentHashMap<GroupKey, Set<GroupChainElem>>(); |
| |
| coreService = serviceDirectory.get(CoreService.class); |
| flowRuleService = serviceDirectory.get(FlowRuleService.class); |
| groupService = serviceDirectory.get(GroupService.class); |
| flowObjectiveStore = context.store(); |
| packetService = serviceDirectory.get(PacketService.class); |
| deviceService = serviceDirectory.get(DeviceService.class); |
| groupService.addListener(new InnerGroupListener()); |
| |
| driverId = coreService.registerApplication( |
| "org.onosproject.driver.OFDPA2Pipeline"); |
| |
| // OF-DPA does not require initializing the pipeline as it puts default |
| // rules automatically in the hardware. However emulation of OFDPA in |
| // software switches does require table-miss-entries. |
| initializePipeline(); |
| |
| } |
| |
| protected void initializePipeline() { |
| |
| } |
| |
| ////////////////////////////////////// |
| // Flow Objectives |
| ////////////////////////////////////// |
| |
| @Override |
| public void filter(FilteringObjective filteringObjective) { |
| if (filteringObjective.type() == FilteringObjective.Type.PERMIT) { |
| processFilter(filteringObjective, |
| filteringObjective.op() == Objective.Operation.ADD, |
| filteringObjective.appId()); |
| } else { |
| // Note that packets that don't match the PERMIT filter are |
| // automatically denied. The DENY filter is used to deny packets |
| // that are otherwise permitted by the PERMIT filter. |
| // Use ACL table flow rules here for DENY filtering objectives |
| log.debug("filter objective other than PERMIT currently not supported"); |
| fail(filteringObjective, ObjectiveError.UNSUPPORTED); |
| } |
| } |
| |
| @Override |
| public void forward(ForwardingObjective fwd) { |
| Collection<FlowRule> rules; |
| FlowRuleOperations.Builder flowOpsBuilder = FlowRuleOperations.builder(); |
| |
| rules = processForward(fwd); |
| switch (fwd.op()) { |
| case ADD: |
| rules.stream() |
| .filter(rule -> rule != null) |
| .forEach(flowOpsBuilder::add); |
| break; |
| case REMOVE: |
| rules.stream() |
| .filter(rule -> rule != null) |
| .forEach(flowOpsBuilder::remove); |
| break; |
| default: |
| fail(fwd, ObjectiveError.UNKNOWN); |
| log.warn("Unknown forwarding type {}", fwd.op()); |
| } |
| |
| flowRuleService.apply(flowOpsBuilder.build(new FlowRuleOperationsContext() { |
| @Override |
| public void onSuccess(FlowRuleOperations ops) { |
| pass(fwd); |
| } |
| |
| @Override |
| public void onError(FlowRuleOperations ops) { |
| fail(fwd, ObjectiveError.FLOWINSTALLATIONFAILED); |
| } |
| })); |
| } |
| |
| @Override |
| public void next(NextObjective nextObjective) { |
| NextGroup nextGroup = flowObjectiveStore.getNextGroup(nextObjective.id()); |
| switch (nextObjective.op()) { |
| case ADD: |
| if (nextGroup != null) { |
| log.warn("Cannot add next {} that already exists in device {}", |
| nextObjective.id(), deviceId); |
| return; |
| } |
| log.debug("Processing NextObjective id{} in dev{} - add group", |
| nextObjective.id(), deviceId); |
| addGroup(nextObjective); |
| break; |
| case ADD_TO_EXISTING: |
| if (nextGroup != null) { |
| log.debug("Processing NextObjective id{} in dev{} - add bucket", |
| nextObjective.id(), deviceId); |
| addBucketToGroup(nextObjective); |
| } else { |
| // it is possible that group-chain has not been fully created yet |
| waitToAddBucketToGroup(nextObjective); |
| } |
| break; |
| case REMOVE: |
| if (nextGroup == null) { |
| log.warn("Cannot remove next {} that does not exist in device {}", |
| nextObjective.id(), deviceId); |
| return; |
| } |
| log.debug("Processing NextObjective id{} in dev{} - remove group", |
| nextObjective.id(), deviceId); |
| removeGroup(nextObjective); |
| break; |
| case REMOVE_FROM_EXISTING: |
| if (nextGroup == null) { |
| log.warn("Cannot remove from next {} that does not exist in device {}", |
| nextObjective.id(), deviceId); |
| return; |
| } |
| log.debug("Processing NextObjective id{} in dev{} - remove bucket", |
| nextObjective.id(), deviceId); |
| removeBucketFromGroup(nextObjective); |
| break; |
| default: |
| log.warn("Unsupported operation {}", nextObjective.op()); |
| } |
| } |
| |
| ////////////////////////////////////// |
| // Flow handling |
| ////////////////////////////////////// |
| |
| /** |
| * As per OFDPA 2.0 TTP, filtering of VLAN ids, MAC addresses (for routing) |
| * and IP addresses configured on switch ports happen in different tables. |
| * Note that IP filtering rules need to be added to the ACL table, as there |
| * is no mechanism to send to controller via IP table. |
| * |
| * @param filt the filtering objective |
| * @param install indicates whether to add or remove the objective |
| * @param applicationId the application that sent this objective |
| */ |
| private void processFilter(FilteringObjective filt, |
| boolean install, ApplicationId applicationId) { |
| // This driver only processes filtering criteria defined with switch |
| // ports as the key |
| PortCriterion portCriterion = null; |
| EthCriterion ethCriterion = null; |
| VlanIdCriterion vidCriterion = null; |
| Collection<IPCriterion> ips = new ArrayList<IPCriterion>(); |
| if (!filt.key().equals(Criteria.dummy()) && |
| filt.key().type() == Criterion.Type.IN_PORT) { |
| portCriterion = (PortCriterion) filt.key(); |
| } else { |
| log.warn("No key defined in filtering objective from app: {}. Not" |
| + "processing filtering objective", applicationId); |
| fail(filt, ObjectiveError.UNKNOWN); |
| return; |
| } |
| // convert filtering conditions for switch-intfs into flowrules |
| FlowRuleOperations.Builder ops = FlowRuleOperations.builder(); |
| for (Criterion criterion : filt.conditions()) { |
| if (criterion.type() == Criterion.Type.ETH_DST) { |
| ethCriterion = (EthCriterion) criterion; |
| } else if (criterion.type() == Criterion.Type.VLAN_VID) { |
| vidCriterion = (VlanIdCriterion) criterion; |
| } else if (criterion.type() == Criterion.Type.IPV4_DST) { |
| ips.add((IPCriterion) criterion); |
| } else { |
| log.error("Unsupported filter {}", criterion); |
| fail(filt, ObjectiveError.UNSUPPORTED); |
| return; |
| } |
| } |
| |
| VlanId assignedVlan = null; |
| if (vidCriterion != null && vidCriterion.vlanId() == VlanId.NONE) { |
| // untagged packets are assigned vlans in OF-DPA |
| if (filt.meta() == null) { |
| log.error("Missing metadata in filtering objective required " |
| + "for vlan assignment in dev {}", deviceId); |
| fail(filt, ObjectiveError.BADPARAMS); |
| return; |
| } |
| for (Instruction i : filt.meta().allInstructions()) { |
| if (i instanceof ModVlanIdInstruction) { |
| assignedVlan = ((ModVlanIdInstruction) i).vlanId(); |
| } |
| } |
| if (assignedVlan == null) { |
| log.error("Driver requires an assigned vlan-id to tag incoming " |
| + "untagged packets. Not processing vlan filters on " |
| + "device {}", deviceId); |
| fail(filt, ObjectiveError.BADPARAMS); |
| return; |
| } |
| } |
| |
| if (ethCriterion == null) { |
| log.debug("filtering objective missing dstMac, cannot program TMAC table"); |
| } else { |
| for (FlowRule tmacRule : processEthDstFilter(portCriterion, ethCriterion, |
| vidCriterion, assignedVlan, |
| applicationId)) { |
| log.debug("adding MAC filtering rules in TMAC table: {} for dev: {}", |
| tmacRule, deviceId); |
| ops = install ? ops.add(tmacRule) : ops.remove(tmacRule); |
| } |
| } |
| |
| if (ethCriterion == null || vidCriterion == null) { |
| log.debug("filtering objective missing dstMac or vlan, cannot program" |
| + "Vlan Table"); |
| } else { |
| for (FlowRule vlanRule : processVlanIdFilter(portCriterion, vidCriterion, |
| assignedVlan, |
| applicationId)) { |
| log.debug("adding VLAN filtering rule in VLAN table: {} for dev: {}", |
| vlanRule, deviceId); |
| ops = install ? ops.add(vlanRule) : ops.remove(vlanRule); |
| } |
| } |
| |
| for (IPCriterion ipaddr : ips) { |
| // since we ignore port information for IP rules, and the same (gateway) IP |
| // can be configured on multiple ports, we make sure that we send |
| // only a single rule to the switch. |
| if (!sentIpFilters.contains(ipaddr)) { |
| sentIpFilters.add(ipaddr); |
| log.debug("adding IP filtering rules in ACL table {} for dev: {}", |
| ipaddr, deviceId); |
| TrafficSelector.Builder selector = DefaultTrafficSelector.builder(); |
| TrafficTreatment.Builder treatment = DefaultTrafficTreatment.builder(); |
| selector.matchEthType(Ethernet.TYPE_IPV4); |
| selector.matchIPDst(ipaddr.ip()); |
| treatment.setOutput(PortNumber.CONTROLLER); |
| FlowRule rule = DefaultFlowRule.builder() |
| .forDevice(deviceId) |
| .withSelector(selector.build()) |
| .withTreatment(treatment.build()) |
| .withPriority(HIGHEST_PRIORITY) |
| .fromApp(applicationId) |
| .makePermanent() |
| .forTable(ACL_TABLE).build(); |
| ops = install ? ops.add(rule) : ops.remove(rule); |
| } |
| } |
| |
| // apply filtering flow rules |
| flowRuleService.apply(ops.build(new FlowRuleOperationsContext() { |
| @Override |
| public void onSuccess(FlowRuleOperations ops) { |
| log.info("Applied {} filtering rules in device {}", |
| ops.stages().get(0).size(), deviceId); |
| pass(filt); |
| } |
| |
| @Override |
| public void onError(FlowRuleOperations ops) { |
| log.info("Failed to apply all filtering rules in dev {}", deviceId); |
| fail(filt, ObjectiveError.FLOWINSTALLATIONFAILED); |
| } |
| })); |
| |
| } |
| |
| /** |
| * Allows untagged packets into pipeline by assigning a vlan id. |
| * Vlan assignment is done by the application. |
| * Allows tagged packets into pipeline as per configured port-vlan info. |
| * |
| * @param portCriterion port on device for which this filter is programmed |
| * @param vidCriterion vlan assigned to port, or NONE for untagged |
| * @param assignedVlan assigned vlan-id for untagged packets |
| * @param applicationId for application programming this filter |
| * @return list of FlowRule for port-vlan filters |
| */ |
| protected List<FlowRule> processVlanIdFilter(PortCriterion portCriterion, |
| VlanIdCriterion vidCriterion, |
| VlanId assignedVlan, |
| ApplicationId applicationId) { |
| List<FlowRule> rules = new ArrayList<FlowRule>(); |
| TrafficSelector.Builder selector = DefaultTrafficSelector.builder(); |
| TrafficTreatment.Builder treatment = DefaultTrafficTreatment.builder(); |
| selector.matchVlanId(vidCriterion.vlanId()); |
| treatment.transition(TMAC_TABLE); |
| |
| VlanId storeVlan = null; |
| if (vidCriterion.vlanId() == VlanId.NONE) { |
| // untagged packets are assigned vlans |
| treatment.pushVlan().setVlanId(assignedVlan); |
| // XXX ofdpa will require an additional vlan match on the assigned vlan |
| // and it may not require the push. This is not in compliance with OF |
| // standard. Waiting on what the exact flows are going to look like. |
| storeVlan = assignedVlan; |
| } else { |
| storeVlan = vidCriterion.vlanId(); |
| } |
| |
| // ofdpa cannot match on ALL portnumber, so we need to use separate |
| // rules for each port. |
| List<PortNumber> portnums = new ArrayList<PortNumber>(); |
| if (portCriterion.port() == PortNumber.ALL) { |
| for (Port port : deviceService.getPorts(deviceId)) { |
| if (port.number().toLong() > 0 && port.number().toLong() < OFPP_MAX) { |
| portnums.add(port.number()); |
| } |
| } |
| } else { |
| portnums.add(portCriterion.port()); |
| } |
| |
| for (PortNumber pnum : portnums) { |
| // update storage |
| port2Vlan.put(pnum, storeVlan); |
| Set<PortNumber> vlanPorts = vlan2Port.get(storeVlan); |
| if (vlanPorts == null) { |
| vlanPorts = Collections.newSetFromMap( |
| new ConcurrentHashMap<PortNumber, Boolean>()); |
| vlanPorts.add(pnum); |
| vlan2Port.put(storeVlan, vlanPorts); |
| } else { |
| vlanPorts.add(pnum); |
| } |
| // create rest of flowrule |
| selector.matchInPort(pnum); |
| FlowRule rule = DefaultFlowRule.builder() |
| .forDevice(deviceId) |
| .withSelector(selector.build()) |
| .withTreatment(treatment.build()) |
| .withPriority(DEFAULT_PRIORITY) |
| .fromApp(applicationId) |
| .makePermanent() |
| .forTable(VLAN_TABLE).build(); |
| rules.add(rule); |
| } |
| return rules; |
| } |
| |
| /** |
| * Allows routed packets with correct destination MAC to be directed |
| * to unicast-IP routing table or MPLS forwarding table. |
| * |
| * @param portCriterion port on device for which this filter is programmed |
| * @param ethCriterion dstMac of device for which is filter is programmed |
| * @param vidCriterion vlan assigned to port, or NONE for untagged |
| * @param assignedVlan assigned vlan-id for untagged packets |
| * @param applicationId for application programming this filter |
| * @return list of FlowRule for port-vlan filters |
| |
| */ |
| protected List<FlowRule> processEthDstFilter(PortCriterion portCriterion, |
| EthCriterion ethCriterion, |
| VlanIdCriterion vidCriterion, |
| VlanId assignedVlan, |
| ApplicationId applicationId) { |
| //handling untagged packets via assigned VLAN |
| if (vidCriterion.vlanId() == VlanId.NONE) { |
| vidCriterion = (VlanIdCriterion) Criteria.matchVlanId(assignedVlan); |
| } |
| // ofdpa cannot match on ALL portnumber, so we need to use separate |
| // rules for each port. |
| List<PortNumber> portnums = new ArrayList<PortNumber>(); |
| if (portCriterion.port() == PortNumber.ALL) { |
| for (Port port : deviceService.getPorts(deviceId)) { |
| if (port.number().toLong() > 0 && port.number().toLong() < OFPP_MAX) { |
| portnums.add(port.number()); |
| } |
| } |
| } else { |
| portnums.add(portCriterion.port()); |
| } |
| |
| List<FlowRule> rules = new ArrayList<FlowRule>(); |
| for (PortNumber pnum : portnums) { |
| // for unicast IP packets |
| TrafficSelector.Builder selector = DefaultTrafficSelector.builder(); |
| TrafficTreatment.Builder treatment = DefaultTrafficTreatment.builder(); |
| selector.matchInPort(pnum); |
| selector.matchVlanId(vidCriterion.vlanId()); |
| selector.matchEthType(Ethernet.TYPE_IPV4); |
| selector.matchEthDst(ethCriterion.mac()); |
| treatment.transition(UNICAST_ROUTING_TABLE); |
| FlowRule rule = DefaultFlowRule.builder() |
| .forDevice(deviceId) |
| .withSelector(selector.build()) |
| .withTreatment(treatment.build()) |
| .withPriority(DEFAULT_PRIORITY) |
| .fromApp(applicationId) |
| .makePermanent() |
| .forTable(TMAC_TABLE).build(); |
| rules.add(rule); |
| //for MPLS packets |
| selector = DefaultTrafficSelector.builder(); |
| treatment = DefaultTrafficTreatment.builder(); |
| selector.matchInPort(pnum); |
| selector.matchVlanId(vidCriterion.vlanId()); |
| selector.matchEthType(Ethernet.MPLS_UNICAST); |
| selector.matchEthDst(ethCriterion.mac()); |
| treatment.transition(MPLS_TABLE_0); |
| rule = DefaultFlowRule.builder() |
| .forDevice(deviceId) |
| .withSelector(selector.build()) |
| .withTreatment(treatment.build()) |
| .withPriority(DEFAULT_PRIORITY) |
| .fromApp(applicationId) |
| .makePermanent() |
| .forTable(TMAC_TABLE).build(); |
| rules.add(rule); |
| } |
| return rules; |
| } |
| |
| private Collection<FlowRule> processForward(ForwardingObjective fwd) { |
| switch (fwd.flag()) { |
| case SPECIFIC: |
| return processSpecific(fwd); |
| case VERSATILE: |
| return processVersatile(fwd); |
| default: |
| fail(fwd, ObjectiveError.UNKNOWN); |
| log.warn("Unknown forwarding flag {}", fwd.flag()); |
| } |
| return Collections.emptySet(); |
| } |
| |
| /** |
| * In the OF-DPA 2.0 pipeline, versatile forwarding objectives go to the |
| * ACL table. |
| * @param fwd the forwarding objective of type 'versatile' |
| * @return a collection of flow rules to be sent to the switch. An empty |
| * collection may be returned if there is a problem in processing |
| * the flow rule |
| */ |
| private Collection<FlowRule> processVersatile(ForwardingObjective fwd) { |
| log.info("Processing versatile forwarding objective"); |
| TrafficSelector selector = fwd.selector(); |
| |
| EthTypeCriterion ethType = |
| (EthTypeCriterion) selector.getCriterion(Criterion.Type.ETH_TYPE); |
| if (ethType == null) { |
| log.error("Versatile forwarding objective must include ethType"); |
| fail(fwd, ObjectiveError.BADPARAMS); |
| return Collections.emptySet(); |
| } |
| if (fwd.nextId() == null && fwd.treatment() == null) { |
| log.error("Forwarding objective {} from {} must contain " |
| + "nextId or Treatment", fwd.selector(), fwd.appId()); |
| return Collections.emptySet(); |
| } |
| // XXX driver does not currently do type checking as per Tables 65-67 in |
| // OFDPA 2.0 spec. The only allowed treatment is a punt to the controller. |
| if (fwd.treatment() != null && |
| fwd.treatment().allInstructions().size() == 1 && |
| fwd.treatment().allInstructions().get(0).type() == Instruction.Type.OUTPUT) { |
| OutputInstruction o = (OutputInstruction) fwd.treatment().allInstructions().get(0); |
| if (o.port() == PortNumber.CONTROLLER) { |
| FlowRule.Builder ruleBuilder = DefaultFlowRule.builder() |
| .fromApp(fwd.appId()) |
| .withPriority(fwd.priority()) |
| .forDevice(deviceId) |
| .withSelector(fwd.selector()) |
| .withTreatment(fwd.treatment()) |
| .makePermanent() |
| .forTable(ACL_TABLE); |
| return Collections.singletonList(ruleBuilder.build()); |
| } else { |
| log.warn("Only allowed treatments in versatile forwarding " |
| + "objectives are punts to the controller"); |
| return Collections.emptySet(); |
| } |
| } |
| |
| if (fwd.nextId() != null) { |
| // XXX overide case |
| log.warn("versatile objective --> next Id not yet implemeted"); |
| } |
| return Collections.emptySet(); |
| } |
| |
| /** |
| * In the OF-DPA 2.0 pipeline, specific forwarding refers to the IP table |
| * (unicast or multicast) or the L2 table (mac + vlan) or the MPLS table. |
| * |
| * @param fwd the forwarding objective of type 'specific' |
| * @return a collection of flow rules. Typically there will be only one |
| * for this type of forwarding objective. An empty set may be |
| * returned if there is an issue in processing the objective. |
| */ |
| protected Collection<FlowRule> processSpecific(ForwardingObjective fwd) { |
| log.trace("Processing specific fwd objective:{} in dev:{} with next:{}", |
| fwd.id(), deviceId, fwd.nextId()); |
| boolean isEthTypeObj = isSupportedEthTypeObjective(fwd); |
| boolean isEthDstObj = isSupportedEthDstObjective(fwd); |
| |
| if (isEthTypeObj) { |
| return processEthTypeSpecific(fwd); |
| } else if (isEthDstObj) { |
| return processEthDstSpecific(fwd); |
| } else { |
| log.warn("processSpecific: Unsupported forwarding objective " |
| + "criteria fwd:{} in dev:{}", fwd.nextId(), deviceId); |
| fail(fwd, ObjectiveError.UNSUPPORTED); |
| return Collections.emptySet(); |
| } |
| } |
| |
| private boolean isSupportedEthTypeObjective(ForwardingObjective fwd) { |
| TrafficSelector selector = fwd.selector(); |
| EthTypeCriterion ethType = (EthTypeCriterion) selector |
| .getCriterion(Criterion.Type.ETH_TYPE); |
| if ((ethType == null) || |
| ((ethType.ethType().toShort() != Ethernet.TYPE_IPV4) && |
| (ethType.ethType().toShort() != Ethernet.MPLS_UNICAST))) { |
| return false; |
| } |
| return true; |
| } |
| |
| private boolean isSupportedEthDstObjective(ForwardingObjective fwd) { |
| TrafficSelector selector = fwd.selector(); |
| EthCriterion ethDst = (EthCriterion) selector |
| .getCriterion(Criterion.Type.ETH_DST); |
| VlanIdCriterion vlanId = (VlanIdCriterion) selector |
| .getCriterion(Criterion.Type.VLAN_VID); |
| if (ethDst == null && vlanId == null) { |
| return false; |
| } |
| return true; |
| } |
| |
| /** |
| * Handles forwarding rules to the IP and MPLS tables. |
| * |
| * @param fwd the forwarding objective |
| * @return A collection of flow rules, or an empty set |
| */ |
| protected Collection<FlowRule> processEthTypeSpecific(ForwardingObjective fwd) { |
| TrafficSelector selector = fwd.selector(); |
| EthTypeCriterion ethType = |
| (EthTypeCriterion) selector.getCriterion(Criterion.Type.ETH_TYPE); |
| |
| int forTableId = -1; |
| TrafficSelector.Builder filteredSelector = DefaultTrafficSelector.builder(); |
| if (ethType.ethType().toShort() == Ethernet.TYPE_IPV4) { |
| filteredSelector.matchEthType(Ethernet.TYPE_IPV4) |
| .matchIPDst(((IPCriterion) |
| selector.getCriterion(Criterion.Type.IPV4_DST)).ip()); |
| forTableId = UNICAST_ROUTING_TABLE; |
| log.debug("processing IPv4 specific forwarding objective {} -> next:{}" |
| + " in dev:{}", fwd.id(), fwd.nextId(), deviceId); |
| } else { |
| filteredSelector |
| .matchEthType(Ethernet.MPLS_UNICAST) |
| .matchMplsLabel(((MplsCriterion) |
| selector.getCriterion(Criterion.Type.MPLS_LABEL)).label()); |
| MplsBosCriterion bos = (MplsBosCriterion) selector |
| .getCriterion(Criterion.Type.MPLS_BOS); |
| if (bos != null) { |
| filteredSelector.matchMplsBos(bos.mplsBos()); |
| } |
| forTableId = MPLS_TABLE_1; |
| log.debug("processing MPLS specific forwarding objective {} -> next:{}" |
| + " in dev {}", fwd.id(), fwd.nextId(), deviceId); |
| } |
| |
| TrafficTreatment.Builder tb = DefaultTrafficTreatment.builder(); |
| boolean popMpls = false; |
| if (fwd.treatment() != null) { |
| for (Instruction i : fwd.treatment().allInstructions()) { |
| /* |
| * NOTE: OF-DPA does not support immediate instruction in |
| * L3 unicast and MPLS table. |
| */ |
| tb.deferred().add(i); |
| if (i instanceof L2ModificationInstruction && |
| ((L2ModificationInstruction) i).subtype() == L2SubType.MPLS_POP) { |
| popMpls = true; |
| } |
| } |
| } |
| |
| if (fwd.nextId() != null) { |
| if (forTableId == MPLS_TABLE_1 && !popMpls) { |
| log.warn("SR CONTINUE case cannot be handled as MPLS ECMP " |
| + "is not implemented in OF-DPA yet. Aborting this flow " |
| + "in this device {}", deviceId); |
| // XXX We could convert to forwarding to a single-port, via a |
| // MPLS interface, or a MPLS SWAP (with-same) but that would |
| // have to be handled in the next-objective. Also the pop-mpls |
| // logic used here won't work in non-BoS case. |
| fail(fwd, ObjectiveError.FLOWINSTALLATIONFAILED); |
| return Collections.emptySet(); |
| } |
| |
| NextGroup next = flowObjectiveStore.getNextGroup(fwd.nextId()); |
| List<Deque<GroupKey>> gkeys = appKryo.deserialize(next.data()); |
| // we only need the top level group's key to point the flow to it |
| Group group = groupService.getGroup(deviceId, gkeys.get(0).peekFirst()); |
| if (group == null) { |
| log.warn("Group with key:{} for next-id:{} not found in dev:{}", |
| gkeys.get(0).peekFirst(), fwd.nextId(), deviceId); |
| fail(fwd, ObjectiveError.GROUPMISSING); |
| return Collections.emptySet(); |
| } |
| tb.deferred().group(group.id()); |
| } |
| tb.transition(ACL_TABLE); |
| FlowRule.Builder ruleBuilder = DefaultFlowRule.builder() |
| .fromApp(fwd.appId()) |
| .withPriority(fwd.priority()) |
| .forDevice(deviceId) |
| .withSelector(filteredSelector.build()) |
| .withTreatment(tb.build()) |
| .forTable(forTableId); |
| |
| if (fwd.permanent()) { |
| ruleBuilder.makePermanent(); |
| } else { |
| ruleBuilder.makeTemporary(fwd.timeout()); |
| } |
| |
| return Collections.singletonList(ruleBuilder.build()); |
| } |
| |
| /** |
| * Handles forwarding rules to the L2 bridging table. Flow actions are not |
| * allowed in the bridging table - instead we use L2 Interface group or |
| * L2 flood group |
| * |
| * @param fwd the forwarding objective |
| * @return A collection of flow rules, or an empty set |
| */ |
| protected Collection<FlowRule> processEthDstSpecific(ForwardingObjective fwd) { |
| List<FlowRule> rules = new ArrayList<>(); |
| |
| // Build filtered selector |
| TrafficSelector selector = fwd.selector(); |
| EthCriterion ethCriterion = (EthCriterion) selector |
| .getCriterion(Criterion.Type.ETH_DST); |
| VlanIdCriterion vlanIdCriterion = (VlanIdCriterion) selector |
| .getCriterion(Criterion.Type.VLAN_VID); |
| |
| if (vlanIdCriterion == null) { |
| log.warn("Forwarding objective for bridging requires vlan. Not " |
| + "installing fwd:{} in dev:{}", fwd.id(), deviceId); |
| fail(fwd, ObjectiveError.BADPARAMS); |
| return Collections.emptySet(); |
| } |
| |
| TrafficSelector.Builder filteredSelectorBuilder = |
| DefaultTrafficSelector.builder(); |
| // Do not match MacAddress for subnet broadcast entry |
| if (!ethCriterion.mac().equals(MacAddress.NONE)) { |
| filteredSelectorBuilder.matchEthDst(ethCriterion.mac()); |
| log.debug("processing L2 forwarding objective:{} -> next:{} in dev:{}", |
| fwd.id(), fwd.nextId(), deviceId); |
| } else { |
| log.debug("processing L2 Broadcast forwarding objective:{} -> next:{} " |
| + "in dev:{} for vlan:{}", |
| fwd.id(), fwd.nextId(), deviceId, vlanIdCriterion.vlanId()); |
| } |
| filteredSelectorBuilder.matchVlanId(vlanIdCriterion.vlanId()); |
| TrafficSelector filteredSelector = filteredSelectorBuilder.build(); |
| |
| if (fwd.treatment() != null) { |
| log.warn("Ignoring traffic treatment in fwd rule {} meant for L2 table" |
| + "for dev:{}. Expecting only nextId", fwd.id(), deviceId); |
| } |
| |
| TrafficTreatment.Builder treatmentBuilder = DefaultTrafficTreatment.builder(); |
| if (fwd.nextId() != null) { |
| NextGroup next = flowObjectiveStore.getNextGroup(fwd.nextId()); |
| if (next != null) { |
| List<Deque<GroupKey>> gkeys = appKryo.deserialize(next.data()); |
| // we only need the top level group's key to point the flow to it |
| Group group = groupService.getGroup(deviceId, gkeys.get(0).peekFirst()); |
| if (group != null) { |
| treatmentBuilder.deferred().group(group.id()); |
| } else { |
| log.warn("Group with key:{} for next-id:{} not found in dev:{}", |
| gkeys.get(0).peekFirst(), fwd.nextId(), deviceId); |
| fail(fwd, ObjectiveError.GROUPMISSING); |
| return Collections.emptySet(); |
| } |
| } |
| } |
| treatmentBuilder.immediate().transition(ACL_TABLE); |
| TrafficTreatment filteredTreatment = treatmentBuilder.build(); |
| |
| // Build bridging table entries |
| FlowRule.Builder flowRuleBuilder = DefaultFlowRule.builder(); |
| flowRuleBuilder.fromApp(fwd.appId()) |
| .withPriority(fwd.priority()) |
| .forDevice(deviceId) |
| .withSelector(filteredSelector) |
| .withTreatment(filteredTreatment) |
| .forTable(BRIDGING_TABLE); |
| if (fwd.permanent()) { |
| flowRuleBuilder.makePermanent(); |
| } else { |
| flowRuleBuilder.makeTemporary(fwd.timeout()); |
| } |
| rules.add(flowRuleBuilder.build()); |
| return rules; |
| } |
| |
| private void pass(Objective obj) { |
| if (obj.context().isPresent()) { |
| obj.context().get().onSuccess(obj); |
| } |
| } |
| |
| protected void fail(Objective obj, ObjectiveError error) { |
| if (obj.context().isPresent()) { |
| obj.context().get().onError(obj, error); |
| } |
| } |
| |
| ////////////////////////////////////// |
| // Group handling |
| ////////////////////////////////////// |
| |
| private void addGroup(NextObjective nextObjective) { |
| switch (nextObjective.type()) { |
| case SIMPLE: |
| Collection<TrafficTreatment> treatments = nextObjective.next(); |
| if (treatments.size() != 1) { |
| log.error("Next Objectives of type Simple should only have a " |
| + "single Traffic Treatment. Next Objective Id:{}", |
| nextObjective.id()); |
| fail(nextObjective, ObjectiveError.BADPARAMS); |
| return; |
| } |
| processSimpleNextObjective(nextObjective); |
| break; |
| case BROADCAST: |
| processBroadcastNextObjective(nextObjective); |
| break; |
| case HASHED: |
| processHashedNextObjective(nextObjective); |
| break; |
| case FAILOVER: |
| fail(nextObjective, ObjectiveError.UNSUPPORTED); |
| log.warn("Unsupported next objective type {}", nextObjective.type()); |
| break; |
| default: |
| fail(nextObjective, ObjectiveError.UNKNOWN); |
| log.warn("Unknown next objective type {}", nextObjective.type()); |
| } |
| } |
| |
| /** |
| * As per the OFDPA 2.0 TTP, packets are sent out of ports by using |
| * a chain of groups. The simple Next Objective passed |
| * in by the application has to be broken up into a group chain |
| * comprising of an L3 Unicast Group that points to an L2 Interface |
| * Group which in-turn points to an output port. In some cases, the simple |
| * next Objective can just be an L2 interface without the need for chaining. |
| * |
| * @param nextObj the nextObjective of type SIMPLE |
| */ |
| private void processSimpleNextObjective(NextObjective nextObj) { |
| TrafficTreatment treatment = nextObj.next().iterator().next(); |
| // determine if plain L2 or L3->L2 |
| boolean plainL2 = true; |
| for (Instruction ins : treatment.allInstructions()) { |
| if (ins.type() == Instruction.Type.L2MODIFICATION) { |
| L2ModificationInstruction l2ins = (L2ModificationInstruction) ins; |
| if (l2ins.subtype() == L2SubType.ETH_DST || |
| l2ins.subtype() == L2SubType.ETH_SRC) { |
| plainL2 = false; |
| break; |
| } |
| } |
| } |
| |
| if (plainL2) { |
| createL2InterfaceGroup(nextObj); |
| return; |
| } |
| |
| // break up simple next objective to GroupChain objects |
| GroupInfo groupInfo = createL2L3Chain(treatment, nextObj.id(), |
| nextObj.appId(), false, |
| nextObj.meta()); |
| if (groupInfo == null) { |
| log.error("Could not process nextObj={} in dev:{}", nextObj.id(), deviceId); |
| return; |
| } |
| // create object for local and distributed storage |
| Deque<GroupKey> gkeyChain = new ArrayDeque<>(); |
| gkeyChain.addFirst(groupInfo.innerGrpDesc.appCookie()); |
| gkeyChain.addFirst(groupInfo.outerGrpDesc.appCookie()); |
| OfdpaNextGroup ofdpaGrp = new OfdpaNextGroup( |
| Collections.singletonList(gkeyChain), |
| nextObj); |
| |
| // store l3groupkey with the ofdpaNextGroup for the nextObjective that depends on it |
| updatePendingNextObjective(groupInfo.outerGrpDesc.appCookie(), ofdpaGrp); |
| |
| // now we are ready to send the l2 groupDescription (inner), as all the stores |
| // that will get async replies have been updated. By waiting to update |
| // the stores, we prevent nasty race conditions. |
| groupService.addGroup(groupInfo.innerGrpDesc); |
| } |
| |
| private void updatePendingNextObjective(GroupKey key, OfdpaNextGroup value) { |
| List<OfdpaNextGroup> nextList = new CopyOnWriteArrayList<OfdpaNextGroup>(); |
| nextList.add(value); |
| List<OfdpaNextGroup> ret = pendingNextObjectives.asMap() |
| .putIfAbsent(key, nextList); |
| if (ret != null) { |
| ret.add(value); |
| } |
| } |
| |
| /** |
| * Creates a simple L2 Interface Group. |
| * |
| * @param nextObj the next Objective |
| */ |
| private void createL2InterfaceGroup(NextObjective nextObj) { |
| // only allowed actions are vlan pop and outport |
| TrafficTreatment.Builder ttb = DefaultTrafficTreatment.builder(); |
| PortNumber portNum = null; |
| for (Instruction ins : nextObj.next().iterator().next().allInstructions()) { |
| if (ins.type() == Instruction.Type.L2MODIFICATION) { |
| L2ModificationInstruction l2ins = (L2ModificationInstruction) ins; |
| switch (l2ins.subtype()) { |
| case VLAN_POP: |
| ttb.add(l2ins); |
| break; |
| default: |
| break; |
| } |
| } else if (ins.type() == Instruction.Type.OUTPUT) { |
| portNum = ((OutputInstruction) ins).port(); |
| ttb.add(ins); |
| } else { |
| log.warn("Driver does not handle this type of TrafficTreatment" |
| + " instruction in simple nextObjectives: {}", ins.type()); |
| } |
| } |
| //use the vlanid associated with the port |
| VlanId vlanid = port2Vlan.get(portNum); |
| |
| if (vlanid == null && nextObj.meta() != null) { |
| // use metadata vlan info if available |
| Criterion vidCriterion = nextObj.meta().getCriterion(Type.VLAN_VID); |
| if (vidCriterion != null) { |
| vlanid = ((VlanIdCriterion) vidCriterion).vlanId(); |
| } |
| } |
| |
| if (vlanid == null) { |
| log.error("Driver cannot process an L2/L3 group chain without " |
| + "egress vlan information for dev: {} port:{}", |
| deviceId, portNum); |
| return; |
| } |
| |
| // assemble information for ofdpa l2interface group |
| Integer l2groupId = L2INTERFACEMASK | (vlanid.toShort() << 16) | (int) portNum.toLong(); |
| // a globally unique groupkey that is different for ports in the same devices |
| // but different for the same portnumber on different devices. Also different |
| // for the various group-types created out of the same next objective. |
| int l2gk = 0x0ffffff & (deviceId.hashCode() << 8 | (int) portNum.toLong()); |
| final GroupKey l2groupkey = new DefaultGroupKey(appKryo.serialize(l2gk)); |
| |
| // create group description for the l2interfacegroup |
| GroupBucket l2interfaceGroupBucket = |
| DefaultGroupBucket.createIndirectGroupBucket(ttb.build()); |
| GroupDescription l2groupDescription = |
| new DefaultGroupDescription( |
| deviceId, |
| GroupDescription.Type.INDIRECT, |
| new GroupBuckets(Collections.singletonList( |
| l2interfaceGroupBucket)), |
| l2groupkey, |
| l2groupId, |
| nextObj.appId()); |
| log.debug("Trying L2Interface: device:{} gid:{} gkey:{} nextId:{}", |
| deviceId, Integer.toHexString(l2groupId), |
| l2groupkey, nextObj.id()); |
| |
| // create object for local and distributed storage |
| Deque<GroupKey> singleKey = new ArrayDeque<>(); |
| singleKey.addFirst(l2groupkey); |
| OfdpaNextGroup ofdpaGrp = new OfdpaNextGroup( |
| Collections.singletonList(singleKey), |
| nextObj); |
| |
| // store l2groupkey for the nextObjective that depends on it |
| updatePendingNextObjective(l2groupkey, ofdpaGrp); |
| // send the group description to the group service |
| groupService.addGroup(l2groupDescription); |
| } |
| |
| /** |
| * Creates one of two possible group-chains from the treatment |
| * passed in. Depending on the MPLS boolean, this method either creates |
| * an L3Unicast Group --> L2Interface Group, if mpls is false; |
| * or MPLSInterface Group --> L2Interface Group, if mpls is true; |
| * The returned 'inner' group description is always the L2 Interface group. |
| * |
| * @param treatment that needs to be broken up to create the group chain |
| * @param nextId of the next objective that needs this group chain |
| * @param appId of the application that sent this next objective |
| * @param mpls determines if L3Unicast or MPLSInterface group is created |
| * @param meta metadata passed in by the application as part of the nextObjective |
| * @return GroupInfo containing the GroupDescription of the |
| * L2Interface group(inner) and the GroupDescription of the (outer) |
| * L3Unicast/MPLSInterface group. May return null if there is an |
| * error in processing the chain |
| */ |
| private GroupInfo createL2L3Chain(TrafficTreatment treatment, int nextId, |
| ApplicationId appId, boolean mpls, |
| TrafficSelector meta) { |
| // for the l2interface group, get vlan and port info |
| // for the outer group, get the src/dst mac, and vlan info |
| TrafficTreatment.Builder outerTtb = DefaultTrafficTreatment.builder(); |
| TrafficTreatment.Builder innerTtb = DefaultTrafficTreatment.builder(); |
| VlanId vlanid = null; |
| long portNum = 0; |
| boolean setVlan = false, popVlan = false; |
| for (Instruction ins : treatment.allInstructions()) { |
| if (ins.type() == Instruction.Type.L2MODIFICATION) { |
| L2ModificationInstruction l2ins = (L2ModificationInstruction) ins; |
| switch (l2ins.subtype()) { |
| case ETH_DST: |
| outerTtb.setEthDst(((ModEtherInstruction) l2ins).mac()); |
| break; |
| case ETH_SRC: |
| outerTtb.setEthSrc(((ModEtherInstruction) l2ins).mac()); |
| break; |
| case VLAN_ID: |
| vlanid = ((ModVlanIdInstruction) l2ins).vlanId(); |
| outerTtb.setVlanId(vlanid); |
| setVlan = true; |
| break; |
| case VLAN_POP: |
| innerTtb.popVlan(); |
| popVlan = true; |
| break; |
| case DEC_MPLS_TTL: |
| case MPLS_LABEL: |
| case MPLS_POP: |
| case MPLS_PUSH: |
| case VLAN_PCP: |
| case VLAN_PUSH: |
| default: |
| break; |
| } |
| } else if (ins.type() == Instruction.Type.OUTPUT) { |
| portNum = ((OutputInstruction) ins).port().toLong(); |
| innerTtb.add(ins); |
| } else { |
| log.warn("Driver does not handle this type of TrafficTreatment" |
| + " instruction in nextObjectives: {}", ins.type()); |
| } |
| } |
| |
| if (vlanid == null && meta != null) { |
| // use metadata if available |
| Criterion vidCriterion = meta.getCriterion(Type.VLAN_VID); |
| if (vidCriterion != null) { |
| vlanid = ((VlanIdCriterion) vidCriterion).vlanId(); |
| } |
| // if vlan is not set, use the vlan in metadata for outerTtb |
| if (vlanid != null && !setVlan) { |
| outerTtb.setVlanId(vlanid); |
| } |
| } |
| |
| if (vlanid == null) { |
| log.error("Driver cannot process an L2/L3 group chain without " |
| + "egress vlan information for dev: {} port:{}", |
| deviceId, portNum); |
| return null; |
| } |
| |
| if (!setVlan && !popVlan) { |
| // untagged outgoing port |
| TrafficTreatment.Builder temp = DefaultTrafficTreatment.builder(); |
| temp.popVlan(); |
| innerTtb.build().allInstructions().forEach(i -> temp.add(i)); |
| innerTtb = temp; |
| } |
| |
| // assemble information for ofdpa l2interface group |
| Integer l2groupId = L2INTERFACEMASK | (vlanid.toShort() << 16) | (int) portNum; |
| // a globally unique groupkey that is different for ports in the same devices |
| // but different for the same portnumber on different devices. Also different |
| // for the various group-types created out of the same next objective. |
| int l2gk = 0x0ffffff & (deviceId.hashCode() << 8 | (int) portNum); |
| final GroupKey l2groupkey = new DefaultGroupKey(appKryo.serialize(l2gk)); |
| |
| // assemble information for outer group |
| GroupDescription outerGrpDesc = null; |
| if (mpls) { |
| // outer group is MPLSInteface |
| Integer mplsgroupId = MPLSINTERFACEMASK | (int) portNum; |
| // using mplsinterfacemask in groupkey to differentiate from l2interface |
| int mplsgk = MPLSINTERFACEMASK | (0x0ffffff & (deviceId.hashCode() << 8 | (int) portNum)); |
| final GroupKey mplsgroupkey = new DefaultGroupKey(appKryo.serialize(mplsgk)); |
| outerTtb.group(new DefaultGroupId(l2groupId)); |
| // create the mpls-interface group description to wait for the |
| // l2 interface group to be processed |
| GroupBucket mplsinterfaceGroupBucket = |
| DefaultGroupBucket.createIndirectGroupBucket(outerTtb.build()); |
| outerGrpDesc = new DefaultGroupDescription( |
| deviceId, |
| GroupDescription.Type.INDIRECT, |
| new GroupBuckets(Collections.singletonList( |
| mplsinterfaceGroupBucket)), |
| mplsgroupkey, |
| mplsgroupId, |
| appId); |
| log.debug("Trying MPLS-Interface: device:{} gid:{} gkey:{} nextid:{}", |
| deviceId, Integer.toHexString(mplsgroupId), |
| mplsgroupkey, nextId); |
| } else { |
| // outer group is L3Unicast |
| Integer l3groupId = L3UNICASTMASK | (int) portNum; |
| int l3gk = L3UNICASTMASK | (0x0ffffff & (deviceId.hashCode() << 8 | (int) portNum)); |
| final GroupKey l3groupkey = new DefaultGroupKey(appKryo.serialize(l3gk)); |
| outerTtb.group(new DefaultGroupId(l2groupId)); |
| // create the l3unicast group description to wait for the |
| // l2 interface group to be processed |
| GroupBucket l3unicastGroupBucket = |
| DefaultGroupBucket.createIndirectGroupBucket(outerTtb.build()); |
| outerGrpDesc = new DefaultGroupDescription( |
| deviceId, |
| GroupDescription.Type.INDIRECT, |
| new GroupBuckets(Collections.singletonList( |
| l3unicastGroupBucket)), |
| l3groupkey, |
| l3groupId, |
| appId); |
| log.debug("Trying L3Unicast: device:{} gid:{} gkey:{} nextid:{}", |
| deviceId, Integer.toHexString(l3groupId), |
| l3groupkey, nextId); |
| } |
| |
| // store l2groupkey with the groupChainElem for the outer-group that depends on it |
| GroupChainElem gce = new GroupChainElem(outerGrpDesc, 1); |
| Set<GroupChainElem> gceSet = Collections.newSetFromMap( |
| new ConcurrentHashMap<GroupChainElem, Boolean>()); |
| gceSet.add(gce); |
| Set<GroupChainElem> retval = pendingGroups.putIfAbsent(l2groupkey, gceSet); |
| if (retval != null) { |
| retval.add(gce); |
| } |
| |
| // create group description for the inner l2interfacegroup |
| GroupBucket l2interfaceGroupBucket = |
| DefaultGroupBucket.createIndirectGroupBucket(innerTtb.build()); |
| GroupDescription l2groupDescription = |
| new DefaultGroupDescription( |
| deviceId, |
| GroupDescription.Type.INDIRECT, |
| new GroupBuckets(Collections.singletonList( |
| l2interfaceGroupBucket)), |
| l2groupkey, |
| l2groupId, |
| appId); |
| log.debug("Trying L2Interface: device:{} gid:{} gkey:{} nextId:{}", |
| deviceId, Integer.toHexString(l2groupId), |
| l2groupkey, nextId); |
| return new GroupInfo(l2groupDescription, outerGrpDesc); |
| |
| } |
| |
| /** |
| * As per the OFDPA 2.0 TTP, packets are sent out of ports by using |
| * a chain of groups. The broadcast Next Objective passed in by the application |
| * has to be broken up into a group chain comprising of an |
| * L2 Flood group whose buckets point to L2 Interface groups. |
| * |
| * @param nextObj the nextObjective of type BROADCAST |
| */ |
| private void processBroadcastNextObjective(NextObjective nextObj) { |
| // break up broadcast next objective to multiple groups |
| Collection<TrafficTreatment> buckets = nextObj.next(); |
| |
| // each treatment is converted to an L2 interface group |
| VlanId vlanid = null; |
| List<GroupDescription> l2interfaceGroupDescs = new ArrayList<>(); |
| List<Deque<GroupKey>> allGroupKeys = new ArrayList<>(); |
| for (TrafficTreatment treatment : buckets) { |
| TrafficTreatment.Builder newTreatment = DefaultTrafficTreatment.builder(); |
| PortNumber portNum = null; |
| // ensure that the only allowed treatments are pop-vlan and output |
| for (Instruction ins : treatment.allInstructions()) { |
| if (ins.type() == Instruction.Type.L2MODIFICATION) { |
| L2ModificationInstruction l2ins = (L2ModificationInstruction) ins; |
| switch (l2ins.subtype()) { |
| case VLAN_POP: |
| newTreatment.add(l2ins); |
| break; |
| default: |
| log.debug("action {} not permitted for broadcast nextObj", |
| l2ins.subtype()); |
| break; |
| } |
| } else if (ins.type() == Instruction.Type.OUTPUT) { |
| portNum = ((OutputInstruction) ins).port(); |
| newTreatment.add(ins); |
| } else { |
| log.debug("TrafficTreatment of type {} not permitted in " |
| + " broadcast nextObjective", ins.type()); |
| } |
| } |
| |
| // also ensure that all ports are in the same vlan |
| // XXX maybe HA issue here? |
| VlanId thisvlanid = port2Vlan.get(portNum); |
| if (vlanid == null) { |
| vlanid = thisvlanid; |
| } else { |
| if (!vlanid.equals(thisvlanid)) { |
| log.error("Driver requires all ports in a broadcast nextObj " |
| + "to be in the same vlan. Different vlans found " |
| + "{} and {}. Aborting group creation", vlanid, thisvlanid); |
| return; |
| } |
| } |
| |
| // assemble info for l2 interface group |
| int l2gk = 0x0ffffff & (deviceId.hashCode() << 8 | (int) portNum.toLong()); |
| final GroupKey l2groupkey = new DefaultGroupKey(appKryo.serialize(l2gk)); |
| Integer l2groupId = L2INTERFACEMASK | (vlanid.toShort() << 16) | |
| (int) portNum.toLong(); |
| GroupBucket l2interfaceGroupBucket = |
| DefaultGroupBucket.createIndirectGroupBucket(newTreatment.build()); |
| GroupDescription l2interfaceGroupDescription = |
| new DefaultGroupDescription( |
| deviceId, |
| GroupDescription.Type.INDIRECT, |
| new GroupBuckets(Collections.singletonList( |
| l2interfaceGroupBucket)), |
| l2groupkey, |
| l2groupId, |
| nextObj.appId()); |
| log.debug("Trying L2-Interface: device:{} gid:{} gkey:{} nextid:{}", |
| deviceId, Integer.toHexString(l2groupId), |
| l2groupkey, nextObj.id()); |
| |
| Deque<GroupKey> gkeyChain = new ArrayDeque<>(); |
| gkeyChain.addFirst(l2groupkey); |
| |
| // store the info needed to create this group |
| l2interfaceGroupDescs.add(l2interfaceGroupDescription); |
| allGroupKeys.add(gkeyChain); |
| } |
| |
| // assemble info for l2 flood group |
| Integer l2floodgroupId = L2FLOODMASK | (vlanid.toShort() << 16) | nextObj.id(); |
| int l2floodgk = L2FLOODMASK | nextObj.id() << 12; |
| final GroupKey l2floodgroupkey = new DefaultGroupKey(appKryo.serialize(l2floodgk)); |
| // collection of group buckets pointing to all the l2 interface groups |
| List<GroupBucket> l2floodBuckets = new ArrayList<>(); |
| for (GroupDescription l2intGrpDesc : l2interfaceGroupDescs) { |
| TrafficTreatment.Builder ttb = DefaultTrafficTreatment.builder(); |
| ttb.group(new DefaultGroupId(l2intGrpDesc.givenGroupId())); |
| GroupBucket abucket = DefaultGroupBucket.createAllGroupBucket(ttb.build()); |
| l2floodBuckets.add(abucket); |
| } |
| // create the l2flood group-description to wait for all the |
| // l2interface groups to be processed |
| GroupDescription l2floodGroupDescription = |
| new DefaultGroupDescription( |
| deviceId, |
| GroupDescription.Type.ALL, |
| new GroupBuckets(l2floodBuckets), |
| l2floodgroupkey, |
| l2floodgroupId, |
| nextObj.appId()); |
| GroupChainElem gce = new GroupChainElem(l2floodGroupDescription, |
| l2interfaceGroupDescs.size()); |
| log.debug("Trying L2-Flood: device:{} gid:{} gkey:{} nextid:{}", |
| deviceId, Integer.toHexString(l2floodgroupId), |
| l2floodgroupkey, nextObj.id()); |
| |
| // create objects for local and distributed storage |
| allGroupKeys.forEach(gkeyChain -> gkeyChain.addFirst(l2floodgroupkey)); |
| OfdpaNextGroup ofdpaGrp = new OfdpaNextGroup(allGroupKeys, nextObj); |
| |
| // store l2floodgroupkey with the ofdpaGroupChain for the nextObjective |
| // that depends on it |
| updatePendingNextObjective(l2floodgroupkey, ofdpaGrp); |
| |
| for (GroupDescription l2intGrpDesc : l2interfaceGroupDescs) { |
| // store all l2groupkeys with the groupChainElem for the l2floodgroup |
| // that depends on it |
| Set<GroupChainElem> gceSet = Collections.newSetFromMap( |
| new ConcurrentHashMap<GroupChainElem, Boolean>()); |
| gceSet.add(gce); |
| Set<GroupChainElem> retval = pendingGroups.putIfAbsent( |
| l2intGrpDesc.appCookie(), gceSet); |
| if (retval != null) { |
| retval.add(gce); |
| } |
| |
| // create and send groups for all l2 interface groups |
| groupService.addGroup(l2intGrpDesc); |
| } |
| } |
| |
| /** |
| * Utility class for moving group information around. |
| * |
| */ |
| private class GroupInfo { |
| private GroupDescription innerGrpDesc; |
| private GroupDescription outerGrpDesc; |
| |
| GroupInfo(GroupDescription innerGrpDesc, GroupDescription outerGrpDesc) { |
| this.innerGrpDesc = innerGrpDesc; |
| this.outerGrpDesc = outerGrpDesc; |
| } |
| } |
| |
| /** |
| * As per the OFDPA 2.0 TTP, packets are sent out of ports by using |
| * a chain of groups. The hashed Next Objective passed in by the application |
| * has to be broken up into a group chain comprising of an |
| * L3 ECMP group as the top level group. Buckets of this group can point |
| * to a variety of groups in a group chain, depending on the whether |
| * MPLS labels are being pushed or not. |
| * <p> |
| * NOTE: We do not create MPLS ECMP groups as they are unimplemented in |
| * OF-DPA 2.0 (even though it is in the spec). Therefore we do not |
| * check the nextObjective meta. |
| * |
| * @param nextObj the nextObjective of type HASHED |
| */ |
| private void processHashedNextObjective(NextObjective nextObj) { |
| // break up hashed next objective to multiple groups |
| Collection<TrafficTreatment> buckets = nextObj.next(); |
| |
| // storage for all group keys in the chain of groups created |
| List<Deque<GroupKey>> allGroupKeys = new ArrayList<>(); |
| List<GroupInfo> unsentGroups = new ArrayList<>(); |
| for (TrafficTreatment bucket : buckets) { |
| //figure out how many labels are pushed in each bucket |
| int labelsPushed = 0; |
| MplsLabel innermostLabel = null; |
| for (Instruction ins : bucket.allInstructions()) { |
| if (ins.type() == Instruction.Type.L2MODIFICATION) { |
| L2ModificationInstruction l2ins = (L2ModificationInstruction) ins; |
| if (l2ins.subtype() == L2SubType.MPLS_PUSH) { |
| labelsPushed++; |
| } |
| if (l2ins.subtype() == L2SubType.MPLS_LABEL) { |
| if (innermostLabel == null) { |
| innermostLabel = ((ModMplsLabelInstruction) l2ins).mplsLabel(); |
| } |
| } |
| } |
| } |
| |
| Deque<GroupKey> gkeyChain = new ArrayDeque<>(); |
| // XXX we only deal with 0 and 1 label push right now |
| if (labelsPushed == 0) { |
| GroupInfo nolabelGroupInfo = createL2L3Chain(bucket, nextObj.id(), |
| nextObj.appId(), false, |
| nextObj.meta()); |
| if (nolabelGroupInfo == null) { |
| log.error("Could not process nextObj={} in dev:{}", |
| nextObj.id(), deviceId); |
| return; |
| } |
| gkeyChain.addFirst(nolabelGroupInfo.innerGrpDesc.appCookie()); |
| gkeyChain.addFirst(nolabelGroupInfo.outerGrpDesc.appCookie()); |
| |
| // we can't send the inner group description yet, as we have to |
| // create the dependent ECMP group first. So we store.. |
| unsentGroups.add(nolabelGroupInfo); |
| |
| } else if (labelsPushed == 1) { |
| GroupInfo onelabelGroupInfo = createL2L3Chain(bucket, nextObj.id(), |
| nextObj.appId(), true, |
| nextObj.meta()); |
| if (onelabelGroupInfo == null) { |
| log.error("Could not process nextObj={} in dev:{}", |
| nextObj.id(), deviceId); |
| return; |
| } |
| // we need to add another group to this chain - the L3VPN group |
| TrafficTreatment.Builder l3vpnTtb = DefaultTrafficTreatment.builder(); |
| l3vpnTtb.pushMpls() |
| .setMpls(innermostLabel) |
| .setMplsBos(true) |
| .copyTtlOut() |
| .group(new DefaultGroupId( |
| onelabelGroupInfo.outerGrpDesc.givenGroupId())); |
| GroupBucket l3vpnGrpBkt = |
| DefaultGroupBucket.createIndirectGroupBucket(l3vpnTtb.build()); |
| int l3vpngroupId = L3VPNMASK | l3vpnindex.incrementAndGet(); |
| int l3vpngk = L3VPNMASK | nextObj.id() << 12 | l3vpnindex.get(); |
| GroupKey l3vpngroupkey = new DefaultGroupKey(appKryo.serialize(l3vpngk)); |
| GroupDescription l3vpnGroupDesc = |
| new DefaultGroupDescription( |
| deviceId, |
| GroupDescription.Type.INDIRECT, |
| new GroupBuckets(Collections.singletonList( |
| l3vpnGrpBkt)), |
| l3vpngroupkey, |
| l3vpngroupId, |
| nextObj.appId()); |
| GroupChainElem l3vpnGce = new GroupChainElem(l3vpnGroupDesc, 1); |
| Set<GroupChainElem> gceSet = Collections.newSetFromMap( |
| new ConcurrentHashMap<GroupChainElem, Boolean>()); |
| gceSet.add(l3vpnGce); |
| Set<GroupChainElem> retval = pendingGroups |
| .putIfAbsent(onelabelGroupInfo.outerGrpDesc.appCookie(), gceSet); |
| if (retval != null) { |
| retval.add(l3vpnGce); |
| } |
| |
| gkeyChain.addFirst(onelabelGroupInfo.innerGrpDesc.appCookie()); |
| gkeyChain.addFirst(onelabelGroupInfo.outerGrpDesc.appCookie()); |
| gkeyChain.addFirst(l3vpngroupkey); |
| |
| //now we can replace the outerGrpDesc with the one we just created |
| onelabelGroupInfo.outerGrpDesc = l3vpnGroupDesc; |
| |
| // we can't send the innermost group yet, as we have to create |
| // the dependent ECMP group first. So we store ... |
| unsentGroups.add(onelabelGroupInfo); |
| |
| log.debug("Trying L3VPN: device:{} gid:{} gkey:{} nextId:{}", |
| deviceId, Integer.toHexString(l3vpngroupId), |
| l3vpngroupkey, nextObj.id()); |
| |
| } else { |
| log.warn("Driver currently does not handle more than 1 MPLS " |
| + "labels. Not processing nextObjective {}", nextObj); |
| return; |
| } |
| |
| // all groups in this chain |
| allGroupKeys.add(gkeyChain); |
| } |
| |
| // now we can create the outermost L3 ECMP group |
| List<GroupBucket> l3ecmpGroupBuckets = new ArrayList<>(); |
| for (GroupInfo gi : unsentGroups) { |
| // create ECMP bucket to point to the outer group |
| TrafficTreatment.Builder ttb = DefaultTrafficTreatment.builder(); |
| ttb.group(new DefaultGroupId(gi.outerGrpDesc.givenGroupId())); |
| GroupBucket sbucket = DefaultGroupBucket |
| .createSelectGroupBucket(ttb.build()); |
| l3ecmpGroupBuckets.add(sbucket); |
| } |
| int l3ecmpGroupId = L3ECMPMASK | nextObj.id() << 12; |
| GroupKey l3ecmpGroupKey = new DefaultGroupKey(appKryo.serialize(l3ecmpGroupId)); |
| GroupDescription l3ecmpGroupDesc = |
| new DefaultGroupDescription( |
| deviceId, |
| GroupDescription.Type.SELECT, |
| new GroupBuckets(l3ecmpGroupBuckets), |
| l3ecmpGroupKey, |
| l3ecmpGroupId, |
| nextObj.appId()); |
| GroupChainElem l3ecmpGce = new GroupChainElem(l3ecmpGroupDesc, |
| l3ecmpGroupBuckets.size()); |
| |
| // create objects for local and distributed storage |
| allGroupKeys.forEach(gkeyChain -> gkeyChain.addFirst(l3ecmpGroupKey)); |
| OfdpaNextGroup ofdpaGrp = new OfdpaNextGroup(allGroupKeys, nextObj); |
| |
| // store l3ecmpGroupKey with the ofdpaGroupChain for the nextObjective |
| // that depends on it |
| updatePendingNextObjective(l3ecmpGroupKey, ofdpaGrp); |
| |
| log.debug("Trying L3ECMP: device:{} gid:{} gkey:{} nextId:{}", |
| deviceId, Integer.toHexString(l3ecmpGroupId), |
| l3ecmpGroupKey, nextObj.id()); |
| // finally we are ready to send the innermost groups |
| for (GroupInfo gi : unsentGroups) { |
| log.debug("Sending innermost group {} in group chain on device {} ", |
| Integer.toHexString(gi.innerGrpDesc.givenGroupId()), deviceId); |
| Set<GroupChainElem> gceSet = Collections.newSetFromMap( |
| new ConcurrentHashMap<GroupChainElem, Boolean>()); |
| gceSet.add(l3ecmpGce); |
| Set<GroupChainElem> retval = pendingGroups |
| .putIfAbsent(gi.outerGrpDesc.appCookie(), gceSet); |
| if (retval != null) { |
| retval.add(l3ecmpGce); |
| } |
| |
| groupService.addGroup(gi.innerGrpDesc); |
| } |
| |
| } |
| |
| private void addBucketToGroup(NextObjective nextObjective) { |
| // TODO Auto-generated method stub |
| } |
| |
| private void waitToAddBucketToGroup(NextObjective nextObjective) { |
| // TODO Auto-generated method stub |
| } |
| |
| private void removeBucketFromGroup(NextObjective nextObjective) { |
| // TODO Auto-generated method stub |
| } |
| |
| private void removeGroup(NextObjective nextObjective) { |
| // TODO Auto-generated method stub |
| } |
| |
| /** |
| * Processes next element of a group chain. Assumption is that if this |
| * group points to another group, the latter has already been created |
| * and this driver has received notification for it. A second assumption is |
| * that if there is another group waiting for this group then the appropriate |
| * stores already have the information to act upon the notification for the |
| * creating of this group. |
| * <p> |
| * The processing of the GroupChainElement depends on the number of groups |
| * this element is waiting on. For all group types other than SIMPLE, a |
| * GroupChainElement could be waiting on multiple groups. |
| * |
| * @param gce the group chain element to be processed next |
| */ |
| private void processGroupChain(GroupChainElem gce) { |
| int waitOnGroups = gce.decrementAndGetGroupsWaitedOn(); |
| if (waitOnGroups != 0) { |
| log.debug("GCE: {} not ready to be processed", gce); |
| return; |
| } |
| log.debug("GCE: {} ready to be processed", gce); |
| groupService.addGroup(gce.groupDescription); |
| } |
| |
| private class GroupChecker implements Runnable { |
| @Override |
| public void run() { |
| Set<GroupKey> keys = pendingGroups.keySet().stream() |
| .filter(key -> groupService.getGroup(deviceId, key) != null) |
| .collect(Collectors.toSet()); |
| Set<GroupKey> otherkeys = pendingNextObjectives.asMap().keySet().stream() |
| .filter(otherkey -> groupService.getGroup(deviceId, otherkey) != null) |
| .collect(Collectors.toSet()); |
| keys.addAll(otherkeys); |
| |
| keys.stream().forEach(key -> { |
| //first check for group chain |
| Set<GroupChainElem> gceSet = pendingGroups.remove(key); |
| if (gceSet != null) { |
| for (GroupChainElem gce : gceSet) { |
| log.info("Group service processed group key {} in device {}. " |
| + "Processing next group in group chain with group id {}", |
| key, deviceId, |
| Integer.toHexString(gce.groupDescription.givenGroupId())); |
| processGroupChain(gce); |
| } |
| } else { |
| List<OfdpaNextGroup> objList = pendingNextObjectives.getIfPresent(key); |
| if (objList != null) { |
| pendingNextObjectives.invalidate(key); |
| objList.forEach(obj -> { |
| log.info("Group service processed group key {} in device:{}. " |
| + "Done implementing next objective: {} <<-->> gid:{}", |
| key, deviceId, obj.nextObjective().id(), |
| Integer.toHexString(groupService.getGroup(deviceId, key) |
| .givenGroupId())); |
| pass(obj.nextObjective()); |
| flowObjectiveStore.putNextGroup(obj.nextObjective().id(), obj); |
| }); |
| } |
| } |
| }); |
| } |
| } |
| |
| private class InnerGroupListener implements GroupListener { |
| @Override |
| public void event(GroupEvent event) { |
| log.trace("received group event of type {}", event.type()); |
| if (event.type() == GroupEvent.Type.GROUP_ADDED) { |
| GroupKey key = event.subject().appCookie(); |
| // first check for group chain |
| Set<GroupChainElem> gceSet = pendingGroups.remove(key); |
| if (gceSet != null) { |
| for (GroupChainElem gce : gceSet) { |
| log.info("group ADDED with group key {} .. " |
| + "Processing next group in group chain with group key {}", |
| key, |
| gce.groupDescription.appCookie()); |
| processGroupChain(gce); |
| } |
| } else { |
| List<OfdpaNextGroup> objList = pendingNextObjectives.getIfPresent(key); |
| if (objList != null) { |
| pendingNextObjectives.invalidate(key); |
| objList.forEach(obj -> { |
| log.info("group ADDED with key {} in dev {}.. Done implementing next " |
| + "objective: {} <<-->> gid:{}", |
| key, deviceId, obj.nextObjective().id(), |
| Integer.toHexString(groupService.getGroup(deviceId, key) |
| .givenGroupId())); |
| pass(obj.nextObjective()); |
| flowObjectiveStore.putNextGroup(obj.nextObjective().id(), obj); |
| }); |
| } |
| } |
| } |
| } |
| } |
| |
| /** |
| * Represents an entire group-chain that implements a Next-Objective from |
| * the application. The objective is represented as a list of deques, where |
| * each deque can is a separate chain of groups. |
| * <p> |
| * For example, an ECMP group with 3 buckets, where each bucket points to |
| * a group chain of L3 Unicast and L2 interface groups will look like this: |
| * <ul> |
| * <li>List[0] is a Deque of GroupKeyECMP(first)-GroupKeyL3(middle)-GroupKeyL2(last) |
| * <li>List[1] is a Deque of GroupKeyECMP(first)-GroupKeyL3(middle)-GroupKeyL2(last) |
| * <li>List[2] is a Deque of GroupKeyECMP(first)-GroupKeyL3(middle)-GroupKeyL2(last) |
| * </ul> |
| * where the first element of each deque is the same, representing the |
| * top level ECMP group, while every other element represents a unique groupKey. |
| * <p> |
| * Also includes information about the next objective that |
| * resulted in this group-chain. |
| * |
| */ |
| private class OfdpaNextGroup implements NextGroup { |
| private final NextObjective nextObj; |
| private final List<Deque<GroupKey>> gkeys; |
| |
| public OfdpaNextGroup(List<Deque<GroupKey>> gkeys, NextObjective nextObj) { |
| this.gkeys = gkeys; |
| this.nextObj = nextObj; |
| } |
| |
| @SuppressWarnings("unused") |
| public List<Deque<GroupKey>> groupKey() { |
| return gkeys; |
| } |
| |
| public NextObjective nextObjective() { |
| return nextObj; |
| } |
| |
| @Override |
| public byte[] data() { |
| return appKryo.serialize(gkeys); |
| } |
| |
| } |
| |
| /** |
| * Represents a group element that is part of a chain of groups. |
| * Stores enough information to create a Group Description to add the group |
| * to the switch by requesting the Group Service. Objects instantiating this |
| * class are meant to be temporary and live as long as it is needed to wait for |
| * preceding groups in the group chain to be created. |
| */ |
| private class GroupChainElem { |
| private GroupDescription groupDescription; |
| private AtomicInteger waitOnGroups; |
| |
| GroupChainElem(GroupDescription groupDescription, int waitOnGroups) { |
| this.groupDescription = groupDescription; |
| this.waitOnGroups = new AtomicInteger(waitOnGroups); |
| } |
| |
| /** |
| * This methods atomically decrements the counter for the number of |
| * groups this GroupChainElement is waiting on, for notifications from |
| * the Group Service. When this method returns a value of 0, this |
| * GroupChainElement is ready to be processed. |
| * |
| * @return integer indication of the number of notifications being waited on |
| */ |
| int decrementAndGetGroupsWaitedOn() { |
| return waitOnGroups.decrementAndGet(); |
| } |
| |
| @Override |
| public String toString() { |
| return (Integer.toHexString(groupDescription.givenGroupId()) + |
| " groupKey: " + groupDescription.appCookie() + |
| " waiting-on-groups: " + waitOnGroups.get() + |
| " device: " + deviceId); |
| } |
| } |
| |
| } |