use of org.opendaylight.yang.gen.v1.urn.opendaylight.action.types.rev131112.address.Address in project netvirt by opendaylight.
the class ElanL2GatewayUtils method getElanMacTableEntriesMacs.
/**
* Gets the elan mac table entries as remote ucast macs. <br>
* Note: ELAN MAC table only contains internal switches MAC's. It doesn't
* contain external device MAC's.
*
* @param elanName
* the elan name
* @param hwVtepNodeId
* the hw vtep node id
* @param logicalSwitchName
* the logical switch name
* @return the elan mac table entries as remote ucast macs
*/
public List<RemoteUcastMacs> getElanMacTableEntriesMacs(String elanName, NodeId hwVtepNodeId, String logicalSwitchName) {
List<RemoteUcastMacs> lstRemoteUcastMacs = new ArrayList<>();
MacTable macTable = ElanUtils.getElanMacTable(broker, elanName);
if (macTable == null || macTable.getMacEntry() == null || macTable.getMacEntry().isEmpty()) {
LOG.trace("MacTable is empty for elan: {}", elanName);
return lstRemoteUcastMacs;
}
for (MacEntry macEntry : macTable.getMacEntry()) {
BigInteger dpnId = getDpidFromInterface(macEntry.getInterface());
if (dpnId == null) {
LOG.error("DPN ID not found for interface {}", macEntry.getInterface());
continue;
}
IpAddress dpnTepIp = elanItmUtils.getSourceDpnTepIp(dpnId, hwVtepNodeId);
LOG.trace("Dpn Tep IP: {} for dpnId: {} and nodeId: {}", dpnTepIp, dpnId, hwVtepNodeId.getValue());
if (dpnTepIp == null) {
LOG.error("TEP IP not found for dpnId {} and nodeId {}", dpnId, hwVtepNodeId.getValue());
continue;
}
HwvtepPhysicalLocatorAugmentation physLocatorAug = HwvtepSouthboundUtils.createHwvtepPhysicalLocatorAugmentation(String.valueOf(dpnTepIp.getValue()));
// TODO: Query ARP cache to get IP address corresponding to the
// MAC
RemoteUcastMacs remoteUcastMac = HwvtepSouthboundUtils.createRemoteUcastMac(hwVtepNodeId, macEntry.getMacAddress().getValue().toLowerCase(Locale.getDefault()), null, /*IpAddress*/
logicalSwitchName, physLocatorAug);
lstRemoteUcastMacs.add(remoteUcastMac);
}
return lstRemoteUcastMacs;
}
use of org.opendaylight.yang.gen.v1.urn.opendaylight.action.types.rev131112.address.Address 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.opendaylight.action.types.rev131112.address.Address 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.opendaylight.action.types.rev131112.address.Address in project netvirt by opendaylight.
the class IfMgr method addHostIntf.
public void addHostIntf(Uuid portId, Uuid snetId, Uuid networkId, IpAddress fixedIp, String macAddress, String deviceOwner) {
LOG.debug("addHostIntf portId {}, snetId {}, networkId {}, ip {}, mac {}", portId, snetId, networkId, fixedIp, macAddress);
// Save the interface ipv6 address in its fully expanded format
Ipv6Address addr = new Ipv6Address(InetAddresses.forString(fixedIp.getIpv6Address().getValue()).getHostAddress());
fixedIp = new IpAddress(addr);
VirtualPort intf = VirtualPort.builder().intfUUID(portId).networkID(networkId).macAddress(macAddress).routerIntfFlag(false).deviceOwner(deviceOwner).build();
intf.setSubnetInfo(snetId, fixedIp);
VirtualPort prevIntf = vintfs.putIfAbsent(portId, intf);
if (prevIntf == null) {
Long elanTag = getNetworkElanTag(networkId);
// Do service binding for the port and set the serviceBindingStatus to true.
ipv6ServiceUtils.bindIpv6Service(portId.getValue(), elanTag, NwConstants.IPV6_TABLE);
intf.setServiceBindingStatus(true);
/* Update the intf dpnId/ofPort from the Operational Store */
updateInterfaceDpidOfPortInfo(portId);
} else {
intf = prevIntf;
intf.setSubnetInfo(snetId, fixedIp);
}
VirtualSubnet snet = getSubnet(snetId);
if (snet != null) {
intf.setSubnet(snetId, snet);
} else {
addUnprocessed(unprocessedSubnetIntfs, snetId, intf);
}
}
use of org.opendaylight.yang.gen.v1.urn.opendaylight.action.types.rev131112.address.Address in project netvirt by opendaylight.
the class DhcpExternalTunnelManager method chooseDpn.
/**
* Choose a dpn among the list of elanDpns such that it has lowest count of being the designated dpn.
* @param tunnelIp The tunnel Ip address
* @param elanInstanceName The elan instance name
* @param dpns The data path nodes
* @return The designated dpn
*/
private BigInteger chooseDpn(IpAddress tunnelIp, String elanInstanceName, List<BigInteger> dpns) {
BigInteger designatedDpnId = DhcpMConstants.INVALID_DPID;
if (dpns != null && dpns.size() != 0) {
List<BigInteger> candidateDpns = DhcpServiceUtils.getDpnsForElan(elanInstanceName, broker);
candidateDpns.retainAll(dpns);
LOG.trace("Choosing new dpn for tunnelIp {}, elanInstanceName {}, among elanDpns {}", tunnelIp, elanInstanceName, candidateDpns);
boolean elanDpnAvailableFlag = true;
if (candidateDpns.isEmpty()) {
candidateDpns = dpns;
elanDpnAvailableFlag = false;
}
int size = 0;
L2GatewayDevice device = getDeviceFromTunnelIp(tunnelIp);
if (device == null) {
LOG.trace("Could not find any device for elanInstanceName {} and tunnelIp {}", elanInstanceName, tunnelIp);
handleUnableToDesignateDpn(tunnelIp, elanInstanceName);
return designatedDpnId;
}
for (BigInteger dpn : candidateDpns) {
String hwvtepNodeId = device.getHwvtepNodeId();
if (!elanDpnAvailableFlag) {
if (!isTunnelConfigured(dpn, hwvtepNodeId)) {
LOG.trace("Tunnel is not configured on dpn {} to TOR {}", dpn, hwvtepNodeId);
continue;
}
} else if (!isTunnelUp(hwvtepNodeId, dpn)) {
LOG.trace("Tunnel is not up between dpn {} and TOR {}", dpn, hwvtepNodeId);
continue;
}
Set<Pair<IpAddress, String>> tunnelIpElanNameSet = designatedDpnsToTunnelIpElanNameCache.get(dpn);
if (tunnelIpElanNameSet == null) {
designatedDpnId = dpn;
break;
}
if (size == 0 || tunnelIpElanNameSet.size() < size) {
size = tunnelIpElanNameSet.size();
designatedDpnId = dpn;
}
}
writeDesignatedSwitchForExternalTunnel(designatedDpnId, tunnelIp, elanInstanceName);
return designatedDpnId;
}
handleUnableToDesignateDpn(tunnelIp, elanInstanceName);
return designatedDpnId;
}
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