use of org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.access.control.list.rev160218.access.lists.acl.access.list.entries.ace.Actions in project netvirt by opendaylight.
the class ElanDmacUtils method buildDmacFlowForExternalRemoteMac.
/**
* Builds a Flow to be programmed in a DPN's DMAC table. This method must be
* used when the MAC is located in an External Device (TOR). The flow
* matches on the specified MAC and 1) sends the packet over the CSS-TOR
* tunnel if SHFlag is not set, or 2) drops it if SHFlag is set (what means
* the packet came from an external tunnel)
*
* @param dpId
* DPN whose DMAC table is going to be modified
* @param extDeviceNodeId
* Hwvtep node where the mac is attached to
* @param elanTag
* ElanId to which the MAC is being added to
* @param vni
* the vni
* @param dstMacAddress
* The mac address to be programmed
* @param displayName
* the display name
* @return the flow
*/
@SuppressWarnings("checkstyle:IllegalCatch")
public Flow buildDmacFlowForExternalRemoteMac(BigInteger dpId, String extDeviceNodeId, long elanTag, Long vni, String dstMacAddress, String displayName) {
List<MatchInfo> mkMatches = ElanUtils.buildMatchesForElanTagShFlagAndDstMac(elanTag, /* shFlag */
false, dstMacAddress);
List<Instruction> mkInstructions = new ArrayList<>();
try {
List<Action> actions = elanItmUtils.getExternalTunnelItmEgressAction(dpId, new NodeId(extDeviceNodeId), vni);
mkInstructions.add(MDSALUtil.buildApplyActionsInstruction(actions));
} catch (Exception e) {
LOG.error("Could not get Egress Actions for DpId {} externalNode {}", dpId, extDeviceNodeId, e);
}
return MDSALUtil.buildFlowNew(NwConstants.ELAN_DMAC_TABLE, ElanUtils.getKnownDynamicmacFlowRef(NwConstants.ELAN_DMAC_TABLE, dpId, extDeviceNodeId, dstMacAddress, elanTag, false), 20, /* prio */
displayName, 0, /* idleTimeout */
0, /* hardTimeout */
ElanConstants.COOKIE_ELAN_KNOWN_DMAC.add(BigInteger.valueOf(elanTag)), mkMatches, mkInstructions);
}
use of org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.access.control.list.rev160218.access.lists.acl.access.list.entries.ace.Actions in project netvirt by opendaylight.
the class ElanItmUtils method getExternalTunnelItmEgressAction.
/**
* Builds the list of actions to be taken when sending the packet over an
* external VxLan tunnel interface, such as stamping the VNI on the VxLAN
* header, setting the vlanId if it proceeds and output the packet over the
* right port.
*
* @param srcDpnId
* Dpn where the tunnelInterface is located
* @param torNode
* NodeId of the ExternalDevice where the packet must be sent to.
* @param vni
* Vni to be stamped on the VxLAN Header.
* @return the external itm egress action
*/
public List<Action> getExternalTunnelItmEgressAction(BigInteger srcDpnId, NodeId torNode, long vni) {
List<Action> result = Collections.emptyList();
GetExternalTunnelInterfaceNameInput input = new GetExternalTunnelInterfaceNameInputBuilder().setDestinationNode(torNode.getValue()).setSourceNode(srcDpnId.toString()).setTunnelType(TunnelTypeVxlan.class).build();
Future<RpcResult<GetExternalTunnelInterfaceNameOutput>> output = itmRpcService.getExternalTunnelInterfaceName(input);
try {
if (output.get().isSuccessful()) {
GetExternalTunnelInterfaceNameOutput tunnelInterfaceNameOutput = output.get().getResult();
String tunnelIfaceName = tunnelInterfaceNameOutput.getInterfaceName();
LOG.debug("Received tunnelInterfaceName from getTunnelInterfaceName RPC {}", tunnelIfaceName);
result = buildTunnelItmEgressActions(tunnelIfaceName, vni);
}
} catch (InterruptedException | ExecutionException e) {
LOG.error("Error in RPC call getTunnelInterfaceName {}", e);
}
return result;
}
use of org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.access.control.list.rev160218.access.lists.acl.access.list.entries.ace.Actions in project netvirt by opendaylight.
the class ElanItmUtils method getInternalTunnelItmEgressAction.
/**
* Builds the list of actions to be taken when sending the packet over an internal VxLAN tunnel interface, such
* as setting the serviceTag/segmentationID on the VNI field of the VxLAN header, setting the vlanId if it proceeds
* and output the packet over the right port.
*
* @param sourceDpnId
* Dpn where the tunnelInterface is located
* @param destinationDpnId
* Dpn where the packet must be sent to. It is used here in order
* to select the right tunnel interface.
* @param tunnelKey
* Tunnel key to be sent on the VxLAN header.
* @return the internal itm egress action
*/
public List<Action> getInternalTunnelItmEgressAction(BigInteger sourceDpnId, BigInteger destinationDpnId, long tunnelKey) {
List<Action> result = Collections.emptyList();
LOG.trace("In getInternalItmEgressAction Action source {}, destination {}, serviceTag/Vni {}", sourceDpnId, destinationDpnId, tunnelKey);
Class<? extends TunnelTypeBase> tunType = TunnelTypeVxlan.class;
GetTunnelInterfaceNameInput input = new GetTunnelInterfaceNameInputBuilder().setDestinationDpid(destinationDpnId).setSourceDpid(sourceDpnId).setTunnelType(tunType).build();
Future<RpcResult<GetTunnelInterfaceNameOutput>> output = itmRpcService.getTunnelInterfaceName(input);
try {
if (output.get().isSuccessful()) {
GetTunnelInterfaceNameOutput tunnelInterfaceNameOutput = output.get().getResult();
String tunnelIfaceName = tunnelInterfaceNameOutput.getInterfaceName();
LOG.info("Received tunnelInterfaceName from getTunnelInterfaceName RPC {}", tunnelIfaceName);
result = buildTunnelItmEgressActions(tunnelIfaceName, tunnelKey);
} else {
LOG.trace("Tunnel interface doesn't exist between srcDpId {} dstDpId {}", sourceDpnId, destinationDpnId);
}
} catch (InterruptedException | ExecutionException e) {
LOG.error("Error in RPC call getTunnelInterfaceName {}", e);
}
return result;
}
use of org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.access.control.list.rev160218.access.lists.acl.access.list.entries.ace.Actions in project netvirt by opendaylight.
the class ElanUtils method buildLocalDmacFlowEntry.
/**
* Builds the flow to be programmed in the DMAC table of the local DPN (that
* is, where the MAC is attached to). This flow consists in:
*
* <p>Match: + elanTag in metadata + packet goes to a MAC locally attached
* Actions: + optionally, pop-vlan + set-vlan-id + output to ifName's
* portNumber
*
* @param elanTag
* the elan tag
* @param dpId
* the dp id
* @param ifName
* the if name
* @param macAddress
* the mac address
* @param elanInfo
* the elan info
* @param ifTag
* the if tag
* @return the flow
*/
public Flow buildLocalDmacFlowEntry(long elanTag, BigInteger dpId, String ifName, String macAddress, ElanInstance elanInfo, long ifTag) {
List<MatchInfo> mkMatches = new ArrayList<>();
mkMatches.add(new MatchMetadata(ElanHelper.getElanMetadataLabel(elanTag), MetaDataUtil.METADATA_MASK_SERVICE));
mkMatches.add(new MatchEthernetDestination(new MacAddress(macAddress)));
List<Instruction> mkInstructions = new ArrayList<>();
List<Action> actions = getEgressActionsForInterface(ifName, /* tunnelKey */
null);
mkInstructions.add(MDSALUtil.buildApplyActionsInstruction(actions));
Flow flow = MDSALUtil.buildFlowNew(NwConstants.ELAN_DMAC_TABLE, getKnownDynamicmacFlowRef(NwConstants.ELAN_DMAC_TABLE, dpId, ifTag, macAddress, elanTag), 20, elanInfo.getElanInstanceName(), 0, 0, ElanConstants.COOKIE_ELAN_KNOWN_DMAC.add(BigInteger.valueOf(elanTag)), mkMatches, mkInstructions);
return flow;
}
use of org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.access.control.list.rev160218.access.lists.acl.access.list.entries.ace.Actions in project netvirt by opendaylight.
the class VrfEntryListener method createTerminatingServiceActions.
public void createTerminatingServiceActions(BigInteger destDpId, int label, List<ActionInfo> actionsInfos, WriteTransaction tx) {
List<MatchInfo> mkMatches = new ArrayList<>();
LOG.debug("create terminatingServiceAction on DpnId = {} and serviceId = {} and actions = {}", destDpId, label, actionsInfos);
// Matching metadata
// FIXME vxlan vni bit set is not working properly with OVS.need to revisit
mkMatches.add(new MatchTunnelId(BigInteger.valueOf(label)));
List<InstructionInfo> mkInstructions = new ArrayList<>();
mkInstructions.add(new InstructionApplyActions(actionsInfos));
FlowEntity terminatingServiceTableFlowEntity = MDSALUtil.buildFlowEntity(destDpId, NwConstants.INTERNAL_TUNNEL_TABLE, getTableMissFlowRef(destDpId, NwConstants.INTERNAL_TUNNEL_TABLE, label), 5, String.format("%s:%d", "TST Flow Entry ", label), 0, 0, COOKIE_TUNNEL.add(BigInteger.valueOf(label)), mkMatches, mkInstructions);
FlowKey flowKey = new FlowKey(new FlowId(terminatingServiceTableFlowEntity.getFlowId()));
FlowBuilder flowbld = terminatingServiceTableFlowEntity.getFlowBuilder();
Node nodeDpn = FibUtil.buildDpnNode(terminatingServiceTableFlowEntity.getDpnId());
InstanceIdentifier<Flow> flowInstanceId = InstanceIdentifier.builder(Nodes.class).child(Node.class, nodeDpn.getKey()).augmentation(FlowCapableNode.class).child(Table.class, new TableKey(terminatingServiceTableFlowEntity.getTableId())).child(Flow.class, flowKey).build();
tx.put(LogicalDatastoreType.CONFIGURATION, flowInstanceId, flowbld.build(), WriteTransaction.CREATE_MISSING_PARENTS);
}
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