package org.opendaylight.transportpce.common.mapping;
import com.google.common.util.concurrent.CheckedFuture;
-
import java.util.ArrayList;
import java.util.Comparator;
+import java.util.HashMap;
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.ExecutionException;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.stream.Collectors;
-
import org.opendaylight.controller.md.sal.binding.api.DataBroker;
import org.opendaylight.controller.md.sal.binding.api.ReadOnlyTransaction;
import org.opendaylight.controller.md.sal.binding.api.WriteTransaction;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.circuit.packs.CircuitPacksKey;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.degree.ConnectionPorts;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.interfaces.grp.Interface;
+import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.interfaces.grp.InterfaceKey;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.org.openroadm.device.container.OrgOpenroadmDevice;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.org.openroadm.device.container.org.openroadm.device.Degree;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.org.openroadm.device.container.org.openroadm.device.DegreeKey;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.org.openroadm.device.container.org.openroadm.device.Info;
+import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.org.openroadm.device.container.org.openroadm.device.Protocols;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.org.openroadm.device.container.org.openroadm.device.SharedRiskGroup;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.org.openroadm.device.container.org.openroadm.device.SharedRiskGroupKey;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.port.Interfaces;
import org.opendaylight.yang.gen.v1.http.org.openroadm.interfaces.rev161014.InterfaceType;
import org.opendaylight.yang.gen.v1.http.org.openroadm.interfaces.rev161014.OpenROADMOpticalMultiplex;
import org.opendaylight.yang.gen.v1.http.org.openroadm.interfaces.rev161014.OpticalTransport;
+import org.opendaylight.yang.gen.v1.http.org.openroadm.lldp.rev161014.Protocols1;
+import org.opendaylight.yang.gen.v1.http.org.openroadm.lldp.rev161014.lldp.container.Lldp;
+import org.opendaylight.yang.gen.v1.http.org.openroadm.lldp.rev161014.lldp.container.lldp.PortConfig;
import org.opendaylight.yang.gen.v1.urn.opendaylight.params.xml.ns.yang.portmapping.rev170228.Network;
import org.opendaylight.yang.gen.v1.urn.opendaylight.params.xml.ns.yang.portmapping.rev170228.NetworkBuilder;
import org.opendaylight.yang.gen.v1.urn.opendaylight.params.xml.ns.yang.portmapping.rev170228.network.Nodes;
private final OpenRoadmInterfaces openRoadmInterfaces;
public PortMappingImpl(DataBroker dataBroker, DeviceTransactionManager deviceTransactionManager,
- OpenRoadmInterfaces openRoadmInterfaces) {
+ OpenRoadmInterfaces openRoadmInterfaces) {
this.dataBroker = dataBroker;
this.deviceTransactionManager = deviceTransactionManager;
this.openRoadmInterfaces = openRoadmInterfaces;
LOG.info("Create Mapping Data for node {}", nodeId);
List<Mapping> portMapList = new ArrayList<>();
InstanceIdentifier<Info> infoIID = InstanceIdentifier.create(OrgOpenroadmDevice.class).child(Info.class);
- Optional<Info> deviceInfoOptional =
- this.deviceTransactionManager.getDataFromDevice(nodeId, LogicalDatastoreType.OPERATIONAL, infoIID,
- Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
+ Optional<Info> deviceInfoOptional = this.deviceTransactionManager.getDataFromDevice(nodeId,
+ LogicalDatastoreType.OPERATIONAL, infoIID, Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
Info deviceInfo;
if (deviceInfoOptional.isPresent()) {
return false;
}
if (deviceInfo.getNodeType() == null) {
- LOG.warn("Node type field is missing"); // TODO make mandatory in yang
+ LOG.error("Node type field is missing"); // TODO make mandatory in yang
return false;
}
switch (deviceInfo.getNodeType()) {
}
/**
- * This private method gets the list of external ports on a degree. For each port in the degree, it
- * does a get on port subtree with circuit-pack-name/port-name as key in order to get the logical
- * connection point name corresponding to it.
+ * This private method gets the list of external ports on a degree. For each
+ * port in the degree, it does a get on port subtree with
+ * circuit-pack-name/port-name as key in order to get the logical connection
+ * point name corresponding to it.
*
- * @param deviceInfo Info subtree read from the device
- * @param portMapList Reference to the list containing the mapping to be pushed to MD-SAL
+ * @param deviceInfo
+ * Info subtree read from the device
+ * @param portMapList
+ * Reference to the list containing the mapping to be pushed to
+ * MD-SAL
*
* @return true/false based on status of operation
*/
List<Degree> degrees = getDegrees(nodeId, deviceInfo);
List<ConnectionPorts> degreeConPorts = getDegreePorts(degrees);
- List<CpToDegree> cpToDegreeList = getCpToDegreeList(degrees);
+ Map<String, String> interfaceList = getEthInterfaceList(nodeId);
+ List<CpToDegree> cpToDegreeList = getCpToDegreeList(degrees, nodeId, interfaceList);
+ LOG.info("Map looks like this {}",interfaceList);
postPortMapping(deviceInfo, null, deviceInfo.getNodeType().getIntValue(), cpToDegreeList);
for (ConnectionPorts cp : degreeConPorts) {
String circuitPackName = cp.getCircuitPackName();
String portName = cp.getPortName().toString();
- InstanceIdentifier<Ports> portIID = InstanceIdentifier.create(OrgOpenroadmDevice.class)
- .child(CircuitPacks.class, new CircuitPacksKey(circuitPackName))
- .child(Ports.class, new PortsKey(portName));
+ InstanceIdentifier<Ports> portIID = InstanceIdentifier.create(OrgOpenroadmDevice.class).child(
+ CircuitPacks.class, new CircuitPacksKey(circuitPackName)).child(Ports.class, new PortsKey(portName));
LOG.info("Fetching logical Connection Point value for port {} at circuit pack {}", portName,
- circuitPackName);
- Optional<Ports> portObject =
- this.deviceTransactionManager.getDataFromDevice(nodeId, LogicalDatastoreType.OPERATIONAL, portIID,
- Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
+ circuitPackName);
+ Optional<Ports> portObject = this.deviceTransactionManager.getDataFromDevice(nodeId,
+ LogicalDatastoreType.OPERATIONAL, portIID, Timeouts.DEVICE_READ_TIMEOUT,
+ Timeouts.DEVICE_READ_TIMEOUT_UNIT);
if (portObject.isPresent()) {
Ports port = portObject.get();
if (port.getLogicalConnectionPoint() != null) {
- LOG.info("Logical Connection Point for {} {} is {}", circuitPackName, portName,
- port.getLogicalConnectionPoint());
- portMapList.add(createMappingObject(nodeId, port, circuitPackName,
- port.getLogicalConnectionPoint()));
+ LOG.info("Logical Connection Point for {} {} is {}", circuitPackName, portName, port
+ .getLogicalConnectionPoint());
+ portMapList.add(createMappingObject(nodeId, port, circuitPackName, port
+ .getLogicalConnectionPoint()));
} else {
- LOG.warn("Logical Connection Point value is missing for {} {}", circuitPackName,
- port.getPortName());
+ LOG.warn("Logical Connection Point value is missing for {} {}", circuitPackName, port
+ .getPortName());
}
} else {
LOG.warn("Port {} is not present in node {} in circuit pack {}!", portName, nodeId, circuitPackName);
for (int degreeCounter = 1; degreeCounter <= maxDegree; degreeCounter++) {
LOG.info("Getting Connection ports for Degree Number {}", degreeCounter);
- InstanceIdentifier<Degree> deviceIID = InstanceIdentifier.create(OrgOpenroadmDevice.class)
- .child(Degree.class, new DegreeKey(degreeCounter));
- Optional<Degree> ordmDegreeObject =
- this.deviceTransactionManager.getDataFromDevice(deviceId, LogicalDatastoreType.CONFIGURATION,
- deviceIID, Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
+ InstanceIdentifier<Degree> deviceIID = InstanceIdentifier.create(OrgOpenroadmDevice.class).child(
+ Degree.class, new DegreeKey(degreeCounter));
+ Optional<Degree> ordmDegreeObject = this.deviceTransactionManager.getDataFromDevice(deviceId,
+ LogicalDatastoreType.CONFIGURATION, deviceIID, Timeouts.DEVICE_READ_TIMEOUT,
+ Timeouts.DEVICE_READ_TIMEOUT_UNIT);
if (ordmDegreeObject.isPresent()) {
degrees.add(ordmDegreeObject.get());
} else {
}
/**
- * This private method gets the list of circuit packs on an Srg. For each circuit pack on an Srg, it
- * does a get on circuit-pack subtree with circuit-pack-name as key in order to get the list of
- * ports. It then iterates over the list of ports to get ports with port-qual as roadm-external. It
- * appends a TX,RX,TXRX to the logical connection point name based on the direction of the port.
+ * This private method gets the list of circuit packs on an Srg. For each
+ * circuit pack on an Srg, it does a get on circuit-pack subtree with
+ * circuit-pack-name as key in order to get the list of ports. It then
+ * iterates over the list of ports to get ports with port-qual as
+ * roadm-external. It appends a TX,RX,TXRX to the logical connection point
+ * name based on the direction of the port.
*
- * @param nodeId Id of device
- * @param deviceInfo Info subtree read from the device
- * @param portMapList Reference to the list containing the mapping to be pushed to MD-SAL
+ * @param nodeId
+ * Id of device
+ * @param deviceInfo
+ * Info subtree read from the device
+ * @param portMapList
+ * Reference to the list containing the mapping to be pushed to
+ * MD-SAL
*
* @return true/false based on status of operation
*/
private boolean createPpPortMapping(String nodeId, Info deviceInfo, List<Mapping> portMapList) {
- // Creating mapping data for degree PP's
- List<org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.srg.CircuitPacks> srgCps =
- getSrgCps(nodeId, deviceInfo);
-
- for (org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.srg.CircuitPacks cps : srgCps) {
- String circuitPackName = cps.getCircuitPackName();
- InstanceIdentifier<CircuitPacks> cpIID = InstanceIdentifier.create(OrgOpenroadmDevice.class)
- .child(CircuitPacks.class, new CircuitPacksKey(circuitPackName));
- Optional<CircuitPacks> circuitPackObject =
- this.deviceTransactionManager.getDataFromDevice(nodeId, LogicalDatastoreType.OPERATIONAL, cpIID,
- Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
-
- if (!circuitPackObject.isPresent() || (circuitPackObject.get().getPorts() == null)) {
- LOG.warn("Circuit pack was not found or ports are mission for name: {}", circuitPackName);
- continue; // TODO continue or return false?
- }
- CircuitPacks cp = circuitPackObject.get();
- for (Ports port : cp.getPorts()) {
- if (port.getLogicalConnectionPoint() != null) {
- String logicalConnectionPoint = getLogicalConnectionPort(port);
- LOG.info("Logical Connection Point for {} {} is {}", circuitPackName, port.getPortName(),
- logicalConnectionPoint);
- portMapList.add(createMappingObject(nodeId, port, circuitPackName, logicalConnectionPoint));
- } else if (Port.PortQual.RoadmInternal.equals(port.getPortQual())) {
- LOG.info("Port is internal, skipping Logical Connection Point missing for {} {}", circuitPackName,
- port.getPortName());
- } else if (port.getLogicalConnectionPoint() == null) {
- LOG.info("Value missing, Skipping Logical Connection Point missing for {} {}", circuitPackName,
+ // Creating mapping data for SRG's PP
+ HashMap<Integer, List<
+ org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.srg.CircuitPacks>> srgCps = getSrgCps(
+ nodeId, deviceInfo);
+ Set<Map.Entry<Integer, List<
+ org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.srg.CircuitPacks>>> circuitPacks = srgCps
+ .entrySet();
+ for (Entry<Integer, List<
+ org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.srg.CircuitPacks>> entry : circuitPacks) {
+ Integer srgIndex = entry.getKey();
+ for (org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.srg.CircuitPacks cp : entry
+ .getValue()) {
+ String circuitPackName = cp.getCircuitPackName();
+ InstanceIdentifier<CircuitPacks> cpIID = InstanceIdentifier.create(OrgOpenroadmDevice.class).child(
+ CircuitPacks.class, new CircuitPacksKey(circuitPackName));
+ Optional<CircuitPacks> circuitPackObject = this.deviceTransactionManager.getDataFromDevice(nodeId,
+ LogicalDatastoreType.OPERATIONAL, cpIID, Timeouts.DEVICE_READ_TIMEOUT,
+ Timeouts.DEVICE_READ_TIMEOUT_UNIT);
+
+ if (!circuitPackObject.isPresent() || (circuitPackObject.get().getPorts() == null)) {
+ LOG.warn("{} : Circuit pack {} not found or without ports.", nodeId, circuitPackName);
+ continue; // TODO continue or return false?
+ }
+ CircuitPacks circuitPack = circuitPackObject.get();
+ for (Ports port : circuitPack.getPorts()) {
+ if (port.getLogicalConnectionPoint() != null) {
+ String logicalConnectionPoint = getLogicalConnectionPort(port, srgIndex);
+ LOG.info("{} : Logical Connection Point for {} {} is {}", nodeId, circuitPackName, port
+ .getPortName(), logicalConnectionPoint);
+ portMapList.add(createMappingObject(nodeId, port, circuitPackName, logicalConnectionPoint));
+ } else if (Port.PortQual.RoadmInternal.equals(port.getPortQual())) {
+ LOG.info("Port is internal, skipping Logical Connection Point missing for {} {}",
+ circuitPackName, port.getPortName());
+ } else if (port.getLogicalConnectionPoint() == null) {
+ LOG.info("Value missing, Skipping Logical Connection Point missing for {} {}", circuitPackName,
port.getPortName());
+ }
}
}
}
* objects that are part of srgs. It is required to do a selective get on
* all the circuit packs that contain add/drop ports of interest.
*
- * @param deviceId Device id
- * @param ordmInfo Info subtree from the device
- * @return List of circuit packs object belonging to- shared risk group subtree
+ * @param deviceId
+ * Device id
+ * @param ordmInfo
+ * Info subtree from the device
+ * @return List of circuit packs object belonging to- shared risk group
+ * subtree
*/
- private List<org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.srg.CircuitPacks> getSrgCps(
- String deviceId, Info ordmInfo) {
-
- List<org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.srg.CircuitPacks> srgCps =
- new ArrayList<>();
+ private HashMap<Integer, List<
+ org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.srg.CircuitPacks>> getSrgCps(String deviceId,
+ Info ordmInfo) {
+ HashMap<Integer, List<
+ org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.srg.CircuitPacks>> cpPerSrg =
+ new HashMap<>();
Integer maxSrg;
// Get value for max Srg from info subtree, required for iteration
// if not present assume to be 20 (temporary)
} else {
maxSrg = 20;
}
-
- int srgCounter = 1;
- Integer nbSrg = 0;
- while (srgCounter <= maxSrg) {
+ for (int srgCounter = 1; srgCounter <= maxSrg; srgCounter++) {
+ List<org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev170206.srg.CircuitPacks> srgCps =
+ new ArrayList<>();
LOG.info("Getting Circuitpacks for Srg Number {}", srgCounter);
- InstanceIdentifier<SharedRiskGroup> srgIID = InstanceIdentifier.create(OrgOpenroadmDevice.class)
- .child(SharedRiskGroup.class, new SharedRiskGroupKey(srgCounter));
- Optional<SharedRiskGroup> ordmSrgObject =
- this.deviceTransactionManager.getDataFromDevice(deviceId, LogicalDatastoreType.CONFIGURATION,
- srgIID, Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
+ InstanceIdentifier<SharedRiskGroup> srgIID = InstanceIdentifier.create(OrgOpenroadmDevice.class).child(
+ SharedRiskGroup.class, new SharedRiskGroupKey(srgCounter));
+ Optional<SharedRiskGroup> ordmSrgObject = this.deviceTransactionManager.getDataFromDevice(deviceId,
+ LogicalDatastoreType.CONFIGURATION, srgIID, Timeouts.DEVICE_READ_TIMEOUT,
+ Timeouts.DEVICE_READ_TIMEOUT_UNIT);
if (ordmSrgObject.isPresent()) {
srgCps.addAll(ordmSrgObject.get().getCircuitPacks());
- nbSrg++;
+ cpPerSrg.put(ordmSrgObject.get().getSrgNumber(), srgCps);
}
- srgCounter++;
}
- LOG.info("Device has {} Srg", nbSrg);
- return srgCps;
+ LOG.info("Device {} has {} Srg", deviceId, cpPerSrg.size());
+ return cpPerSrg;
}
/**
- * This private method gets the list of circuit packs on a xponder. For each circuit pack on a
- * Xponder, it does a get on circuit-pack subtree with circuit-pack-name as key in order to get the
- * list of ports. It then iterates over the list of ports to get ports with port-qual as
+ * This private method gets the list of circuit packs on a xponder. For each
+ * circuit pack on a Xponder, it does a get on circuit-pack subtree with
+ * circuit-pack-name as key in order to get the list of ports. It then
+ * iterates over the list of ports to get ports with port-qual as
* xpdr-network/xpdr-client. The line and client ports are saved as:
*
* <p>
* <p>
* 2. CLNTn
*
- * @param nodeId Id of device
- * @param portMapList Reference to the list containing the mapping to be pushed to MD-SAL
+ * @param nodeId
+ * Id of device
+ * @param portMapList
+ * Reference to the list containing the mapping to be pushed to
+ * MD-SAL
*
* @return true/false based on status of operation
*/
private boolean createXpdrPortMapping(String nodeId, List<Mapping> portMapList) {
// Creating for Xponder Line and Client Ports
InstanceIdentifier<OrgOpenroadmDevice> deviceIID = InstanceIdentifier.create(OrgOpenroadmDevice.class);
- Optional<OrgOpenroadmDevice> deviceObject =
- this.deviceTransactionManager.getDataFromDevice(nodeId, LogicalDatastoreType.OPERATIONAL, deviceIID,
- Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
+ Optional<OrgOpenroadmDevice> deviceObject = this.deviceTransactionManager.getDataFromDevice(nodeId,
+ LogicalDatastoreType.OPERATIONAL, deviceIID, Timeouts.DEVICE_READ_TIMEOUT,
+ Timeouts.DEVICE_READ_TIMEOUT_UNIT);
// Variable to keep track of number of line ports
int line = 1;
for (Ports port : cp.getPorts()) {
if (Port.PortQual.XpdrNetwork.equals(port.getPortQual())) {
portMapList.add(createMappingObject(nodeId, port, circuitPackName,
- OpenRoadmInterfacesImpl.NETWORK_TOKEN + line));
+ "XPDR1-"+OpenRoadmInterfacesImpl.NETWORK_TOKEN + line));
+ //String lcp = port.getLogicalConnectionPoint();
+ //String regex = "XPDR[0-9]+-NETWORK[0-9]+";
+ //checkLogicalConnectionPoint(regex, lcp, nodeId, portMapList, circuitPackName, port, "NETWORK", line);
line++;
} else if (Port.PortQual.XpdrClient.equals(port.getPortQual())) {
portMapList.add(createMappingObject(nodeId, port, circuitPackName,
- OpenRoadmInterfacesImpl.CLIENT_TOKEN + client));
+ "XPDR1-"+OpenRoadmInterfacesImpl.CLIENT_TOKEN + client));
+ //String lcp = port.getLogicalConnectionPoint();
+ //String regex = "XPDR[0-9]+-CLIENT[0-9]+";
+ //checkLogicalConnectionPoint(regex, lcp, nodeId, portMapList, circuitPackName, port, "CLIENT", client);
client++;
} else {
- LOG.warn("Not supported type of port! Port type: {}", port.getPortQual());
+ LOG.warn("Port type {} not supported", port.getPortQual());
}
}
}
return true;
}
+ private void checkLogicalConnectionPoint(String regex, String logicalConnectionPoint, String nodeId, List<
+ Mapping> portMapList, String circuitPackName, Ports port, String portQual, int index) {
+ if (logicalConnectionPoint.matches(regex)) {
+ Mapping map = createMappingObject(nodeId, port, circuitPackName, logicalConnectionPoint);
+ if (portMapList.stream().filter(mapping -> mapping.getLogicalConnectionPoint().equals(
+ logicalConnectionPoint)).count() > 0) {
+ LOG.warn("{} : logical connection point {} on {} {} already used. Port can not be used", nodeId,
+ logicalConnectionPoint, circuitPackName, port.getPortName());
+ } else {
+ portMapList.add(map);
+ LOG.info("{} : logical connection point for {} {} is {}", nodeId, circuitPackName, port.getPortName(),
+ logicalConnectionPoint);
+ }
+ } else if (logicalConnectionPoint.isEmpty()) {
+ String lcp = "XPDR0-" + portQual + index;
+ Mapping map = createMappingObject(nodeId, port, circuitPackName, lcp);
+ if (portMapList.contains(map)) {
+ LOG.warn("{} : can not assign logical connection point {} to port {} of circuit pack {}. "
+ + "Name is already used", nodeId, lcp, port.getPortName(), circuitPackName);
+ } else {
+ portMapList.add(createMappingObject(nodeId, port, circuitPackName, lcp));
+ LOG.info("{} : no logical connection port on {} {}. Assigning {}.", nodeId, circuitPackName, port
+ .getPortName(), lcp);
+ }
+ } else {
+ LOG.warn("{} : logical connection point {} on {} {} does not respect OrgOpenRoadm recommendation. Port can "
+ + "not be used.", nodeId, logicalConnectionPoint, circuitPackName, port.getPortName());
+ }
+ }
+
/**
- * This private method builds the mapping object to be pushed in MD-SAL in order to save port
- * mapping. In case of TTP ports, it also saves the OTS,OMS interfaces provisioned on the port.
+ * This private method builds the mapping object to be pushed in MD-SAL in
+ * order to save port mapping. In case of TTP ports, it also saves the
+ * OTS,OMS interfaces provisioned on the port.
*
- * @param port Reference to device's port subtree object.
- * @param circuitPackName Name of cp where port exists.
- * @param logicalConnectionPoint logical name of the port.
+ * @param port
+ * Reference to device's port subtree object.
+ * @param circuitPackName
+ * Name of cp where port exists.
+ * @param logicalConnectionPoint
+ * logical name of the port.
*
* @return true/false based on status of operation
*/
private Mapping createMappingObject(String nodeId, Ports port, String circuitPackName,
- String logicalConnectionPoint) {
+ String logicalConnectionPoint) {
MappingBuilder mpBldr = new MappingBuilder();
- mpBldr.setKey(new MappingKey(logicalConnectionPoint)).setLogicalConnectionPoint(logicalConnectionPoint)
- .setSupportingCircuitPackName(circuitPackName).setSupportingPort(port.getPortName());
+ mpBldr.withKey(new MappingKey(logicalConnectionPoint)).setLogicalConnectionPoint(logicalConnectionPoint)
+ .setSupportingCircuitPackName(circuitPackName).setSupportingPort(port.getPortName());
// Get OMS and OTS interface provisioned on the TTP's
if (logicalConnectionPoint.contains(OpenRoadmInterfacesImpl.TTP_TOKEN) && (port.getInterfaces() != null)) {
for (Interfaces interfaces : port.getInterfaces()) {
try {
- Optional<Interface> openRoadmInterface =
- this.openRoadmInterfaces.getInterface(nodeId, interfaces.getInterfaceName());
+ Optional<Interface> openRoadmInterface = this.openRoadmInterfaces.getInterface(nodeId, interfaces
+ .getInterfaceName());
if (openRoadmInterface.isPresent()) {
Class<? extends InterfaceType> interfaceType = openRoadmInterface.get().getType();
// Check if interface type is OMS or OTS
}
} catch (OpenRoadmInterfaceException ex) {
LOG.warn("Error while getting interface {} from node {}!", interfaces.getInterfaceName(), nodeId,
- ex);
+ ex);
}
}
}
return mpBldr.build();
}
- private static CpToDegree createCpToDegreeObject(String circuitPackName, String degreeNumber) {
- return new CpToDegreeBuilder().setKey(new CpToDegreeKey(circuitPackName)).setCircuitPackName(circuitPackName)
- .setDegreeNumber(new Long(degreeNumber)).build();
+ private CpToDegree createCpToDegreeObject(String circuitPackName, String degreeNumber, String nodeId,
+ Map<String, String> interfaceList) {
+ String interfaceName = null;
+ if (interfaceList.get(circuitPackName) != null) {
+ interfaceName = interfaceList.get(circuitPackName);
+ }
+ return new CpToDegreeBuilder().withKey(new CpToDegreeKey(circuitPackName)).setCircuitPackName(circuitPackName)
+ .setDegreeNumber(new Long(degreeNumber)).setInterfaceName(interfaceName).build();
}
private static List<ConnectionPorts> getDegreePorts(List<Degree> degrees) {
- return degrees.stream().filter(degree -> degree.getConnectionPorts() != null)
- .flatMap(degree -> degree.getConnectionPorts().stream()).collect(Collectors.toList());
+ return degrees.stream().filter(degree -> degree.getConnectionPorts() != null).flatMap(degree -> degree
+ .getConnectionPorts().stream()).collect(Collectors.toList());
}
- private List<CpToDegree> getCpToDegreeList(List<Degree> degrees) {
+ private List<CpToDegree> getCpToDegreeList(List<Degree> degrees, String nodeId,
+ Map<String, String> interfaceList) {
List<CpToDegree> cpToDegreeList = new ArrayList<>();
for (Degree degree : degrees) {
if (degree.getCircuitPacks() != null) {
+ LOG.info("Inside CP to degree list");
cpToDegreeList.addAll(degree.getCircuitPacks().stream()
- .map(cp -> createCpToDegreeObject(cp.getCircuitPackName(), degree.getDegreeNumber().toString()))
- .collect(Collectors.toList()));
+ .map(cp -> createCpToDegreeObject(cp.getCircuitPackName() ,
+ degree.getDegreeNumber().toString(), nodeId ,interfaceList))
+ .collect(Collectors.toList()));
}
}
return cpToDegreeList;
}
/**
- * This method for ports the portMapping corresponding to the portmapping.yang file to the MD-SAL
- * datastore.
+ * This method for ports the portMapping corresponding to the
+ * portmapping.yang file to the MD-SAL datastore.
*
* <p>
- * 1. Supporting circuit pack 2. Supporting port 3. Supporting OMS interface (if port on ROADM)
+ * 1. Supporting circuit pack 2. Supporting port 3. Supporting OMS interface
+ * (if port on ROADM)
*
- * @param deviceInfo Info subtree from the device.
- * @param portMapList Reference to the list containing the mapping to be pushed to MD-SAL.
+ * @param deviceInfo
+ * Info subtree from the device.
+ * @param portMapList
+ * Reference to the list containing the mapping to be pushed to
+ * MD-SAL.
*
* @return Result true/false based on status of operation.
*/
- private boolean postPortMapping(Info deviceInfo, List<Mapping> portMapList, Integer nodeType,
- List<CpToDegree> cp2DegreeList) {
+ private boolean postPortMapping(Info deviceInfo, List<Mapping> portMapList, Integer nodeType, List<
+ CpToDegree> cp2DegreeList) {
NodesBuilder nodesBldr = new NodesBuilder();
- nodesBldr.setKey(new NodesKey(deviceInfo.getNodeId())).setNodeId(deviceInfo.getNodeId());
+ nodesBldr.withKey(new NodesKey(deviceInfo.getNodeId())).setNodeId(deviceInfo.getNodeId());
nodesBldr.setNodeType(NodeTypes.forValue(nodeType));
if (portMapList != null) {
InstanceIdentifier<Mapping> portMappingIID = InstanceIdentifier.builder(Network.class).child(Nodes.class,
new NodesKey(nodeId)).child(Mapping.class, new MappingKey(logicalConnPoint)).build();
try (ReadOnlyTransaction readTx = this.dataBroker.newReadOnlyTransaction()) {
- Optional<Mapping> mapObject =
- readTx.read(LogicalDatastoreType.CONFIGURATION, portMappingIID).get().toJavaUtil();
+ Optional<Mapping> mapObject = readTx.read(LogicalDatastoreType.CONFIGURATION, portMappingIID).get()
+ .toJavaUtil();
if (mapObject.isPresent()) {
Mapping mapping = mapObject.get();
LOG.info("Found mapping for the logical port {}. Mapping: {}", logicalConnPoint, mapping.toString());
return mapping;
} else {
LOG.warn("Could not find mapping for logical connection point {} for nodeId {}", logicalConnPoint,
- nodeId);
+ nodeId);
}
} catch (InterruptedException | ExecutionException ex) {
LOG.error("Unable to read mapping for logical connection point : {} for nodeId {}", logicalConnPoint,
- nodeId, ex);
+ nodeId, ex);
}
return null;
}
- private static String getLogicalConnectionPort(Ports port) {
+ private static String getLogicalConnectionPort(Ports port, int srgCounter) {
+ String logicalConnectionPoint = null;
if (port.getLogicalConnectionPoint() != null) {
switch (port.getPortDirection()) {
case Tx:
// Port direction is transmit
- return port.getLogicalConnectionPoint() + "-TX";
+ if (!port.getLogicalConnectionPoint().contains("SRG")) {
+ logicalConnectionPoint = "SRG" + srgCounter + "-" + port.getLogicalConnectionPoint() + "-TX";
+ } else {
+ logicalConnectionPoint = port.getLogicalConnectionPoint() + "-TX";
+ }
+ break;
case Rx:
// Port direction is receive
- return port.getLogicalConnectionPoint() + "-RX";
+ if (!port.getLogicalConnectionPoint().contains("SRG")) {
+ logicalConnectionPoint = "SRG" + srgCounter + "-" + port.getLogicalConnectionPoint() + "-RX";
+ } else {
+ logicalConnectionPoint = port.getLogicalConnectionPoint() + "-RX";
+ }
+ break;
case Bidirectional:
- // port is bi-directional
- if (port.getLogicalConnectionPoint().endsWith("-TXRX")) {
- return port.getLogicalConnectionPoint();
+ // port is bidirectional
+ if (!port.getLogicalConnectionPoint().contains("SRG")) {
+ logicalConnectionPoint = "SRG" + srgCounter + "-" + port.getLogicalConnectionPoint();
+ } else {
+ logicalConnectionPoint = port.getLogicalConnectionPoint();
+ }
+ if (!port.getLogicalConnectionPoint().endsWith("-TXRX")) {
+ logicalConnectionPoint = logicalConnectionPoint.concat("-TXRX");
}
- return port.getLogicalConnectionPoint() + "-TXRX";
+ break;
default:
// Unsupported Port direction
- LOG.error("Unsupported port direction for port {} - {}", port, port.getPortDirection());
- return ""; // TODO return false or continue?
+ LOG.error("Unsupported port direction for port {} {}", port, port.getPortDirection());
+ return null; // TODO return false or continue?
}
+ return logicalConnectionPoint;
}
- LOG.warn("Unsupported port direction for port {} - {} - LogicalConnectionPoint is null",
- port, port.getPortDirection());
- return ""; // TODO return false or continue?
+ LOG.warn("Unsupported port direction for port {} - {} - LogicalConnectionPoint is null", port, port
+ .getPortDirection());
+ return null; // TODO return false or continue?
}
@Override
public void deleteMappingData(String nodeId) {
- LOG.info("Deleting Mapping Data corresponding at node '{}'",nodeId);
+ LOG.info("Deleting Mapping Data corresponding at node '{}'", nodeId);
WriteTransaction rw = this.dataBroker.newWriteOnlyTransaction();
- InstanceIdentifier<Nodes> nodesIID = InstanceIdentifier.create(Network.class)
- .child(Nodes.class, new NodesKey(nodeId));
+ InstanceIdentifier<Nodes> nodesIID = InstanceIdentifier.create(Network.class).child(Nodes.class, new NodesKey(
+ nodeId));
rw.delete(LogicalDatastoreType.CONFIGURATION, nodesIID);
try {
rw.submit().get(1, TimeUnit.SECONDS);
LOG.info("Port mapping removal for node '{}'", nodeId);
} catch (InterruptedException | ExecutionException | TimeoutException e) {
- LOG.error("Error for removing port mapping infos for node '{}'",nodeId);
+ LOG.error("Error for removing port mapping infos for node '{}'", nodeId);
}
}
+ @Override
+ public boolean updateMapping(String nodeId, Mapping oldMapping) {
+ InstanceIdentifier<Ports> portIId = InstanceIdentifier.create(OrgOpenroadmDevice.class).child(
+ CircuitPacks.class, new CircuitPacksKey(oldMapping.getSupportingCircuitPackName())).child(Ports.class,
+ new PortsKey(oldMapping.getSupportingPort()));
+ if (oldMapping != null && nodeId != null) {
+ try {
+ Optional<Ports> portObject = this.deviceTransactionManager.getDataFromDevice(nodeId,
+ LogicalDatastoreType.OPERATIONAL, portIId, Timeouts.DEVICE_READ_TIMEOUT,
+ Timeouts.DEVICE_READ_TIMEOUT_UNIT);
+ if (portObject.isPresent()) {
+ Ports port = portObject.get();
+ Mapping newMapping = createMappingObject(nodeId, port, oldMapping.getSupportingCircuitPackName(),
+ oldMapping.getLogicalConnectionPoint());
+
+ final WriteTransaction writeTransaction = this.dataBroker.newWriteOnlyTransaction();
+ InstanceIdentifier<Mapping> mapIID = InstanceIdentifier.create(Network.class).child(Nodes.class,
+ new NodesKey(nodeId)).child(Mapping.class, new MappingKey(oldMapping
+ .getLogicalConnectionPoint()));
+ writeTransaction.merge(LogicalDatastoreType.CONFIGURATION, mapIID, newMapping);
+ CheckedFuture<Void, TransactionCommitFailedException> submit = writeTransaction.submit();
+ submit.checkedGet();
+ return true;
+ }
+ return false;
+ } catch (TransactionCommitFailedException e) {
+ LOG.error("Transaction Commit Error updating Mapping {} for node {}", oldMapping
+ .getLogicalConnectionPoint(), nodeId, e);
+ return false;
+ }
+ } else {
+ LOG.error("Impossible to update mapping");
+ return false;
+ }
+
+ }
+
+ private Map<String, String> getEthInterfaceList(String nodeId) {
+ LOG.info("It is calling get ethernet interface");
+ Map<String, String> cpToInterfaceMap = new HashMap<>();
+ InstanceIdentifier<Lldp> lldpIID = InstanceIdentifier.create(OrgOpenroadmDevice.class)
+ .child(Protocols.class).augmentation(Protocols1.class).child(Lldp.class);
+ Optional<Lldp> lldpObject = this.deviceTransactionManager.getDataFromDevice(nodeId,
+ LogicalDatastoreType.OPERATIONAL, lldpIID, Timeouts.DEVICE_READ_TIMEOUT,
+ Timeouts.DEVICE_READ_TIMEOUT_UNIT);
+ if (lldpObject.isPresent() && (lldpObject.get().getPortConfig() != null)) {
+ for (PortConfig portConfig : lldpObject.get().getPortConfig()) {
+ if (portConfig.getAdminStatus().equals(PortConfig.AdminStatus.Txandrx)) {
+ InstanceIdentifier<Interface> interfaceIID = InstanceIdentifier.create(OrgOpenroadmDevice.class)
+ .child(Interface.class, new InterfaceKey(portConfig.getIfName()));
+ Optional<Interface> interfaceObject = this.deviceTransactionManager.getDataFromDevice(nodeId,
+ LogicalDatastoreType.OPERATIONAL, interfaceIID, Timeouts.DEVICE_READ_TIMEOUT,
+ Timeouts.DEVICE_READ_TIMEOUT_UNIT);
+ if (interfaceObject.isPresent() && (interfaceObject.get().getSupportingCircuitPackName() != null)) {
+ String supportingCircuitPackName = interfaceObject.get().getSupportingCircuitPackName();
+ cpToInterfaceMap.put(supportingCircuitPackName, portConfig.getIfName());
+ InstanceIdentifier<CircuitPacks> circuitPacksIID = InstanceIdentifier.create(OrgOpenroadmDevice
+ .class).child(CircuitPacks.class, new CircuitPacksKey(supportingCircuitPackName));
+ Optional<CircuitPacks> circuitPackObject = this.deviceTransactionManager.getDataFromDevice(
+ nodeId, LogicalDatastoreType.OPERATIONAL, circuitPacksIID, Timeouts
+ .DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
+ if (circuitPackObject.isPresent() && (circuitPackObject.get().getParentCircuitPack() != null)) {
+ cpToInterfaceMap.put(circuitPackObject.get().getParentCircuitPack().getCircuitPackName() ,
+ portConfig.getIfName());
+ }
+ }
+ }
+ }
+ } else {
+ LOG.warn("Couldnt find port config under LLDP for Node : {}", nodeId);
+ }
+ LOG.info("Processiong is done.. now returning..");
+ return cpToInterfaceMap;
+ }
+
}