Port-mapping for 7.1.0 models

[transportpce.git] / common / src / main / java / org / opendaylight / transportpce / common / mapping / PortMappingVersion710.java

/*
 * Copyright © 2020 AT&T, Inc. and others.  All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Public License v1.0 which accompanies this distribution,
 * and is available at http://www.eclipse.org/legal/epl-v10.html
 */

package org.opendaylight.transportpce.common.mapping;

import com.google.common.util.concurrent.FluentFuture;
import edu.umd.cs.findbugs.annotations.SuppressFBWarnings;
import java.math.BigInteger;
import java.nio.charset.StandardCharsets;
import java.util.ArrayList;
import java.util.Base64;
import java.util.Collection;
import java.util.Collections;
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.concurrent.ExecutionException;
import java.util.stream.Collectors;
import org.eclipse.jdt.annotation.NonNull;
import org.opendaylight.mdsal.binding.api.DataBroker;
import org.opendaylight.mdsal.binding.api.WriteTransaction;
import org.opendaylight.mdsal.common.api.CommitInfo;
import org.opendaylight.mdsal.common.api.LogicalDatastoreType;
import org.opendaylight.transportpce.common.StringConstants;
import org.opendaylight.transportpce.common.Timeouts;
import org.opendaylight.transportpce.common.device.DeviceTransactionManager;
import org.opendaylight.transportpce.common.openroadminterfaces.OpenRoadmInterfaceException;
import org.opendaylight.transportpce.common.openroadminterfaces.OpenRoadmInterfaces;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.Network;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.NetworkBuilder;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.Nodes;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.NodesBuilder;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.NodesKey;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.CpToDegree;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.CpToDegreeBuilder;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.CpToDegreeKey;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.Mapping;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.MappingBuilder;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.MappingKey;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.McCapabilities;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.McCapabilitiesBuilder;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.McCapabilitiesKey;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.NodeInfo;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.NodeInfo.OpenroadmVersion;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.NodeInfoBuilder;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.SwitchingPoolLcp;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.SwitchingPoolLcpBuilder;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.SwitchingPoolLcpKey;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.switching.pool.lcp.NonBlockingList;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.switching.pool.lcp.NonBlockingListBuilder;
import org.opendaylight.yang.gen.v1.http.org.opendaylight.transportpce.portmapping.rev201012.network.nodes.switching.pool.lcp.NonBlockingListKey;
import org.opendaylight.yang.gen.v1.http.org.openroadm.common.alarm.pm.types.rev191129.Direction;
import org.opendaylight.yang.gen.v1.http.org.openroadm.common.optical.channel.types.rev200529.FrequencyGHz;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.CircuitPack;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.circuit.pack.Ports;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.circuit.pack.PortsKey;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.circuit.packs.CircuitPacks;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.circuit.packs.CircuitPacksKey;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.degree.ConnectionPorts;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.interfaces.grp.Interface;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.interfaces.grp.InterfaceKey;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.OrgOpenroadmDevice;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.ConnectionMap;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.Degree;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.DegreeKey;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.Info;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.McCapabilityProfile;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.McCapabilityProfileKey;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.OduSwitchingPools;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.Protocols;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.SharedRiskGroup;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.SharedRiskGroupKey;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.Xponder;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.connection.map.Destination;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org.openroadm.device.odu.switching.pools.non.blocking.list.PortList;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.port.Interfaces;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.xponder.XpdrPort;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.types.rev191129.PortQual;
import org.opendaylight.yang.gen.v1.http.org.openroadm.device.types.rev191129.XpdrNodeTypes;
import org.opendaylight.yang.gen.v1.http.org.openroadm.interfaces.rev191129.InterfaceType;
import org.opendaylight.yang.gen.v1.http.org.openroadm.interfaces.rev191129.OpenROADMOpticalMultiplex;
import org.opendaylight.yang.gen.v1.http.org.openroadm.interfaces.rev191129.OpticalTransport;
import org.opendaylight.yang.gen.v1.http.org.openroadm.interfaces.rev191129.OtnOdu;
import org.opendaylight.yang.gen.v1.http.org.openroadm.lldp.rev200529.Protocols1;
import org.opendaylight.yang.gen.v1.http.org.openroadm.lldp.rev200529.lldp.container.Lldp;
import org.opendaylight.yang.gen.v1.http.org.openroadm.lldp.rev200529.lldp.container.lldp.PortConfig;
import org.opendaylight.yang.gen.v1.http.org.openroadm.port.capability.rev200529.Ports1;
import org.opendaylight.yang.gen.v1.http.org.openroadm.port.capability.rev200529.port.capability.grp.port.capabilities.SupportedInterfaceCapability;
import org.opendaylight.yang.gen.v1.http.org.openroadm.port.capability.rev200529.port.capability.grp.port.capabilities.SupportedInterfaceCapabilityKey;
import org.opendaylight.yang.gen.v1.http.org.openroadm.port.types.rev200327.SupportedIfCapability;
import org.opendaylight.yangtools.yang.binding.InstanceIdentifier;
import org.opendaylight.yangtools.yang.common.Uint16;
import org.opendaylight.yangtools.yang.common.Uint32;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

public class PortMappingVersion710 {
    private static final Logger LOG = LoggerFactory.getLogger(PortMappingVersion710.class);

    private final DataBroker dataBroker;
    private final DeviceTransactionManager deviceTransactionManager;
    private final OpenRoadmInterfaces openRoadmInterfaces;
    //FNV1 64 bit hash constants
    private static final BigInteger FNV_PRIME = new BigInteger("100000001b3", 16);
    private static final BigInteger FNV_INIT = new BigInteger("cbf29ce484222325", 16);
    private static final BigInteger FNV_MOD = new BigInteger("2").pow(64);

    public PortMappingVersion710(DataBroker dataBroker, DeviceTransactionManager deviceTransactionManager,
        OpenRoadmInterfaces openRoadmInterfaces) {
        this.dataBroker = dataBroker;
        this.deviceTransactionManager = deviceTransactionManager;
        this.openRoadmInterfaces = openRoadmInterfaces;
    }

    public boolean createMappingData(String nodeId) {
        LOG.info("Create Mapping Data for node 7.1.0 {}", nodeId);
        List<Mapping> portMapList = new ArrayList<>();
        List<McCapabilities> mcCapabilitiesList = 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);
        Info deviceInfo;
        NodeInfo nodeInfo;
        if (!deviceInfoOptional.isPresent()) {
            LOG.warn("Device info subtree is absent for {}", nodeId);
            return false;
        }
        deviceInfo = deviceInfoOptional.get();
        nodeInfo = createNodeInfo(deviceInfo, nodeId);
        if (nodeInfo == null) {
            return false;
        }
        postPortMapping(nodeId, nodeInfo, null, null, null, null);

        switch (deviceInfo.getNodeType()) {

            case Rdm:
                // Get TTP port mapping
                if (!createTtpPortMapping(nodeId, deviceInfo, portMapList)) {
                    // return false if mapping creation for TTP's failed
                    LOG.warn("Unable to create mapping for TTP's on node {}", nodeId);
                    return false;
                }

                // Get PP port mapping
                if (!createPpPortMapping(nodeId, deviceInfo, portMapList)) {
                    // return false if mapping creation for PP's failed
                    LOG.warn("Unable to create mapping for PP's on node {}", nodeId);
                    return false;
                }
                // Get MC capabilities
                if (!createMcCapabilitiesList(nodeId, deviceInfo, mcCapabilitiesList)) {
                    // return false if MC capabilites failed
                    LOG.warn("Unable to create MC capabilities on node {}", nodeId);
                    return false;
                }
                break;
            case Xpdr:
                if (!createXpdrPortMapping(nodeId, portMapList)) {
                    LOG.warn("Unable to create mapping for Xponder on node {}", nodeId);
                    return false;
                }
                break;
            default:
                LOG.error("Unable to create mapping for node {} : unknown nodetype ", nodeId);
                break;

        }
        return postPortMapping(nodeId, nodeInfo, portMapList, null, null, mcCapabilitiesList);
    }

    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)) {
            LOG.error("Impossible to update mapping");
            return false;
        }
        try {
            Optional<Ports> portObject = deviceTransactionManager.getDataFromDevice(nodeId,
                LogicalDatastoreType.OPERATIONAL, portIId, Timeouts.DEVICE_READ_TIMEOUT,
                Timeouts.DEVICE_READ_TIMEOUT_UNIT);
            if (!portObject.isPresent()) {
                return false;
            }
            Ports port = portObject.get();
            Mapping newMapping = createMappingObject(nodeId, port, oldMapping.getSupportingCircuitPackName(),
                oldMapping.getLogicalConnectionPoint());
            LOG.info("Updating old mapping Data {} for {} of {} by new mapping data {}",
                oldMapping, oldMapping.getLogicalConnectionPoint(), nodeId, newMapping);
            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);
            FluentFuture<? extends @NonNull CommitInfo> commit = writeTransaction.commit();
            commit.get();
            return true;
        } catch (InterruptedException | ExecutionException e) {
            LOG.error("Error updating Mapping {} for node {}", oldMapping.getLogicalConnectionPoint(), nodeId, e);
            return false;
        }
    }

    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 = deviceTransactionManager.getDataFromDevice(nodeId,
            LogicalDatastoreType.OPERATIONAL, deviceIID,
            Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
        OrgOpenroadmDevice device = null;
        if (!deviceObject.isPresent()) {
            LOG.error("Impossible to get device configuration for node {}", nodeId);
            return false;
        }
        device = deviceObject.get();
        // Variable to keep track of number of line ports
        int line = 1;
        // Variable to keep track of number of client ports
        int client = 1;
        Map<String, String> lcpMap = new HashMap<>();
        Map<String, Mapping> mappingMap = new HashMap<>();

        List<CircuitPacks> circuitPackList = null;
        if (device.getCircuitPacks() == null) {
            LOG.warn("Circuit Packs are not present for {}", nodeId);
            return false;
        }
        circuitPackList = new ArrayList<>(deviceObject.get().nonnullCircuitPacks().values());
        circuitPackList.sort(Comparator.comparing(CircuitPack::getCircuitPackName));

        if (device.getXponder() == null) {
            LOG.warn("{} configuration does not contain a list of xponders", nodeId);
            for (CircuitPacks cp : circuitPackList) {
                String circuitPackName = cp.getCircuitPackName();
                if (cp.getPorts() == null) {
                    LOG.warn("Ports were not found for circuit pack: {}", circuitPackName);
                    continue;
                }
                List<Ports> portList = new ArrayList<>(cp.nonnullPorts().values());
                portList.sort(Comparator.comparing(Ports::getPortName));
                for (Ports port : portList) {
                    if (port.getPortQual() == null) {
                        LOG.warn("PortQual was not found for port {} on circuit pack: {}", port.getPortName(),
                            circuitPackName);
                        continue;
                    }
                    if (PortQual.XpdrNetwork.getIntValue() == port.getPortQual().getIntValue()
                        && port.getPortDirection().getIntValue() == Direction.Bidirectional.getIntValue()) {
                        String lcp = "XPDR1-" + StringConstants.NETWORK_TOKEN + line;
                        lcpMap.put(circuitPackName + '+' + port.getPortName(), lcp);
                        mappingMap.put(lcp, createXpdrMappingObject(nodeId, port, circuitPackName, lcp, null, null,
                            null, null));
                        line++;
                    } else if (PortQual.XpdrNetwork.getIntValue() == port.getPortQual().getIntValue()
                        && port.getPortDirection().getIntValue() != Direction.Bidirectional.getIntValue()
                        && port.getPartnerPort() != null
                        && port.getPartnerPort().getCircuitPackName() != null
                        && port.getPartnerPort().getPortName() != null) {
                        if (lcpMap.containsKey(circuitPackName + '+' + port.getPortName())) {
                            continue;
                        }
                        String lcp1 = "XPDR1-" + StringConstants.NETWORK_TOKEN + line;
                        Optional<CircuitPacks> cpOpt = circuitPackList.stream()
                            .filter(cP -> cP.getCircuitPackName().equals(port.getPartnerPort().getCircuitPackName()))
                            .findFirst();
                        if (cpOpt.isPresent()) {
                            Optional<Ports> poOpt = cpOpt.get().nonnullPorts().values().stream()
                                .filter(p -> p.getPortName().equals(port.getPartnerPort().getPortName().toString()))
                                .findFirst();
                            if (poOpt.isPresent()) {
                                Ports port2 = poOpt.get();
                                if (checkPartnerPort(circuitPackName, port, port2)) {
                                    String lcp2 = new StringBuilder("XPDR1-").append(StringConstants.NETWORK_TOKEN)
                                        .append(line + 1).toString();
                                    if (!lcpMap.containsKey(lcp1) && !lcpMap.containsKey(lcp2)) {
                                        lcpMap.put(circuitPackName + '+' + port.getPortName(), lcp1);
                                        lcpMap.put(cpOpt.get().getCircuitPackName() + '+' + port2.getPortName(), lcp2);
                                        mappingMap.put(lcp1, createXpdrMappingObject(nodeId, port, circuitPackName,
                                            lcp1, lcp2, null, null, null));
                                        mappingMap.put(lcp2, createXpdrMappingObject(nodeId, port2, cpOpt.get()
                                            .getCircuitPackName(), lcp2, lcp1, null, null, null));
                                    } else {
                                        LOG.warn("mapping already exists for {} or {}", lcp1, lcp2);
                                    }
                                    line += 2;
                                } else {
                                    LOG.error("port {} on {} is not a correct partner port of {} on  {}",
                                        port2.getPortName(), cpOpt.get().getCircuitPackName(), port.getPortName(),
                                        circuitPackName);
                                }
                            } else {
                                LOG.error("Error fetching port {} on {} for {}", port.getPartnerPort().getPortName(),
                                    port.getPartnerPort().getCircuitPackName(), nodeId);
                            }
                        } else {
                            LOG.error("Error fetching circuit-pack {} for {}", port.getPartnerPort()
                                .getCircuitPackName(), nodeId);
                        }
                    } else if (PortQual.XpdrClient.getIntValue() == port.getPortQual().getIntValue()) {
                        String lcp = "XPDR1-" + StringConstants.CLIENT_TOKEN + client;
                        lcpMap.put(circuitPackName + '+' + port.getPortName(), lcp);
                        mappingMap.put(lcp, createXpdrMappingObject(nodeId, port, circuitPackName, lcp, null, null,
                            null, null));
                        client++;
                    } else {
                        LOG.warn("Error in the configuration of port {} of {} for {}", port.getPortName(),
                            circuitPackName,
                            nodeId);
                    }
                }
            }
        } else {
            LOG.info("{} configuration contains a list of xponders", nodeId);
            for (Xponder xponder:deviceObject.get().nonnullXponder().values()) {
                line = 1;
                client = 1;
                Integer xponderNb = xponder.getXpdrNumber().toJava();
                XpdrNodeTypes xponderType = xponder.getXpdrType();
                for (XpdrPort xpdrPort : xponder.nonnullXpdrPort().values()) {
                    String circuitPackName = xpdrPort.getCircuitPackName();
                    String portName = xpdrPort.getPortName().toString();
                    // If there xponder-subtree has missing circuit-packs or ports,
                    // This gives a null-pointer expection,
                    if (device.nonnullCircuitPacks().values().stream()
                        .filter(cp -> cp.getCircuitPackName().equals(circuitPackName))
                        .findFirst().isEmpty()) {
                        LOG.warn("Circuit-pack {} is missing in the device", circuitPackName);
                        LOG.warn("Port-mapping will continue ignoring this circuit-pack {}", circuitPackName);
                        continue;
                    }
                    if (device.nonnullCircuitPacks().values().stream()
                        .filter(cp -> cp.getCircuitPackName().equals(circuitPackName))
                        .findFirst().get().nonnullPorts().values().stream()
                        .filter(p -> p.getPortName().equals(portName))
                        .findFirst().isEmpty()) {
                        LOG.warn("Port {} associated with CP {} is missing in the device", portName, circuitPackName);
                        LOG.warn("Port-mapping will continue ignoring this port {}", portName);
                        continue;
                    }
                    Ports port = device.nonnullCircuitPacks().values().stream()
                        .filter(cp -> cp.getCircuitPackName().equals(circuitPackName))
                        .findFirst().get().nonnullPorts().values().stream()
                        .filter(p -> p.getPortName().equals(portName))
                        .findFirst().get();
                    if (port.getPortQual() == null) {
                        LOG.warn("PortQual was not found for port {} on circuit pack: {}", port.getPortName(),
                            circuitPackName);
                        continue;
                    }
                    if ((PortQual.XpdrNetwork.getIntValue() == port.getPortQual().getIntValue()
                        || PortQual.SwitchNetwork.getIntValue() == port.getPortQual().getIntValue())
                        && port.getPortDirection().getIntValue() == Direction.Bidirectional.getIntValue()) {
                        String lcp = "XPDR" + xponderNb + "-" + StringConstants.NETWORK_TOKEN + line;
                        lcpMap.put(circuitPackName + '+' + port.getPortName(), lcp);
                        mappingMap.put(lcp, createXpdrMappingObject(nodeId, port, circuitPackName, lcp,
                            null, null, null, xponderType));
                        line++;
                    } else if ((PortQual.XpdrNetwork.getIntValue() == port.getPortQual().getIntValue()
                        || PortQual.SwitchNetwork.getIntValue() == port.getPortQual().getIntValue())
                        && port.getPortDirection().getIntValue() != Direction.Bidirectional.getIntValue()
                        && port.getPartnerPort() != null
                        && port.getPartnerPort().getCircuitPackName() != null
                        && port.getPartnerPort().getPortName() != null) {
                        if (lcpMap.containsKey(circuitPackName + '+' + port.getPortName())) {
                            continue;
                        }
                        String lcp1 = "XPDR" + xponderNb + "-" + StringConstants.NETWORK_TOKEN + line;

                        Optional<CircuitPacks> cpOpt = circuitPackList.stream()
                            .filter(cP -> cP.getCircuitPackName().equals(port.getPartnerPort().getCircuitPackName()))
                            .findFirst();
                        if (cpOpt.isPresent()) {
                            Optional<Ports> poOpt = cpOpt.get().nonnullPorts().values().stream()
                                .filter(p -> p.getPortName().equals(port.getPartnerPort().getPortName().toString()))
                                .findFirst();
                            if (poOpt.isPresent()) {
                                Ports port2 = poOpt.get();
                                if (checkPartnerPort(circuitPackName, port, port2)) {
                                    String lcp2 = new StringBuilder("XPDR").append(xponderNb).append("-").append(
                                        StringConstants.NETWORK_TOKEN).append(line + 1).toString();
                                    if (!lcpMap.containsKey(lcp1) && !lcpMap.containsKey(lcp2)) {
                                        lcpMap.put(circuitPackName + '+' + port.getPortName(), lcp1);
                                        lcpMap.put(cpOpt.get().getCircuitPackName() + '+' + port2.getPortName(),
                                            lcp2);
                                        mappingMap.put(lcp1, createXpdrMappingObject(nodeId, port, circuitPackName,
                                            lcp1, lcp2, null, null, xponderType));
                                        mappingMap.put(lcp2, createXpdrMappingObject(nodeId, port2, cpOpt.get()
                                                .getCircuitPackName(), lcp2, lcp1, null, null,
                                            xponderType));
                                    } else {
                                        LOG.warn("mapping already exists for {} or {}", lcp1, lcp2);
                                    }
                                    line += 2;
                                } else {
                                    LOG.error("port {} on {} is not a correct partner port of {} on  {}", port2
                                            .getPortName(), cpOpt.get().getCircuitPackName(), port.getPortName(),
                                        circuitPackName);
                                }
                            } else {
                                LOG.error("Error fetching port {} on {} for {}",
                                    port.getPartnerPort().getPortName(),
                                    port.getPartnerPort().getCircuitPackName(), nodeId);
                            }
                        } else {
                            LOG.error("Error fetching circuit-pack {} for {}", port.getPartnerPort()
                                .getCircuitPackName(), nodeId);
                        }
                    } else if (PortQual.XpdrClient.getIntValue() == port.getPortQual().getIntValue()
                        || PortQual.SwitchClient.getIntValue() == port.getPortQual().getIntValue()) {
                        String lcp = "XPDR" + xponderNb + "-" + StringConstants.CLIENT_TOKEN + client;
                        lcpMap.put(circuitPackName + '+' + port.getPortName(), lcp);
                        mappingMap.put(lcp, createXpdrMappingObject(nodeId, port, circuitPackName, lcp,
                            null, null, null, null));
                        client++;
                    } else {
                        LOG.warn("Error in the configuration of port {} of {} for {}", port.getPortName(),
                            circuitPackName, nodeId);
                    }
                }
            }
        }

        if (device.getConnectionMap() != null) {
            Collection<ConnectionMap> connectionMap = deviceObject.get().nonnullConnectionMap().values();
            String slcp = null;
            String dlcp = null;
            for (ConnectionMap cm : connectionMap) {
                String skey = cm.getSource().getCircuitPackName() + "+" + cm.getSource().getPortName();
                if (lcpMap.containsKey(skey)) {
                    slcp = lcpMap.get(skey);
                }
                Destination destination0 = cm.nonnullDestination().values().iterator().next();
                String dkey = destination0.getCircuitPackName() + "+" + destination0.getPortName();
                if (lcpMap.containsKey(dkey)) {
                    dlcp = lcpMap.get(dkey);
                }
                if (slcp != null) {
                    Mapping mapping = mappingMap.get(slcp);
                    mappingMap.remove(slcp);
                    portMapList.add(createXpdrMappingObject(nodeId, null, null, null, null, mapping, dlcp, null));
                } else {
                    LOG.error("Error in connection-map analysis");
                }
            }
        } else {
            LOG.warn("No connection-map inside device configuration");
        }
        if (device.getOduSwitchingPools() != null) {
            Collection<OduSwitchingPools> oduSwithcingPools = device.nonnullOduSwitchingPools().values();
            List<SwitchingPoolLcp> switchingPoolList = new ArrayList<>();
            for (OduSwitchingPools odp : oduSwithcingPools) {
                Map<NonBlockingListKey,NonBlockingList> nbMap = new HashMap<>();
                for (org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.org.openroadm.device.container.org
                    .openroadm.device.odu.switching.pools.NonBlockingList nbl : odp.nonnullNonBlockingList().values()) {
                    List<String> lcpList = new ArrayList<>();
                    if (nbl.getPortList() != null) {
                        for (PortList item : nbl.nonnullPortList().values()) {
                            String key = item.getCircuitPackName() + "+" + item.getPortName();
                            if (lcpMap.containsKey(key)) {
                                lcpList.add(lcpMap.get(key));
                            } else {
                                LOG.error("error : port {} of {} is not associated to a logical connection point",
                                    item.getPortName(), item.getCircuitPackName());
                            }
                        }
                        NonBlockingList nonBlockingList = new NonBlockingListBuilder()
                            .setNblNumber(nbl.getNblNumber())
                            .setInterconnectBandwidth(nbl.getInterconnectBandwidth())
                            .setInterconnectBandwidthUnit(nbl.getInterconnectBandwidthUnit())
                            .setLcpList(lcpList)
                            .build();
                        nbMap.put(nonBlockingList.key(),nonBlockingList);
                    }
                }
                SwitchingPoolLcp splBldr = new SwitchingPoolLcpBuilder()
                    .setSwitchingPoolNumber(odp.getSwitchingPoolNumber())
                    .setSwitchingPoolType(odp.getSwitchingPoolType())
                    .setNonBlockingList(nbMap)
                    .build();
                switchingPoolList.add(splBldr);
            }
            postPortMapping(nodeId, null, null, null, switchingPoolList, null);
        }

        if (!mappingMap.isEmpty()) {
            mappingMap.forEach((k,v) -> portMapList.add(v));
        }
        return true;
    }

    private boolean checkPartnerPort(String circuitPackName, Ports port1, Ports port2) {
        if ((Direction.Rx.getIntValue() == port1.getPortDirection().getIntValue()
            && Direction.Tx.getIntValue() == port2.getPortDirection().getIntValue()
            && port2.getPartnerPort() != null
            && port2.getPartnerPort().getCircuitPackName() != null
            && port2.getPartnerPort().getPortName() != null
            && port2.getPartnerPort().getCircuitPackName().equals(circuitPackName)
            && port2.getPartnerPort().getPortName().equals(port1.getPortName()))
            ||
            (Direction.Tx.getIntValue() == port1.getPortDirection().getIntValue()
                && Direction.Rx.getIntValue() == port2.getPortDirection().getIntValue()
                && port2.getPartnerPort() != null
                && port2.getPartnerPort().getCircuitPackName() != null
                && port2.getPartnerPort().getPortName() != null
                && port2.getPartnerPort().getCircuitPackName().equals(circuitPackName)
                && port2.getPartnerPort().getPortName().equals(port1.getPortName()))) {
            return true;
        } else {
            return false;
        }
    }


    private HashMap<Integer, List<org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.srg
        .CircuitPacks>> getSrgCps(String deviceId, Info ordmInfo) {
        HashMap<Integer, List<org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.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)
        if (ordmInfo.getMaxSrgs() != null) {
            maxSrg = ordmInfo.getMaxSrgs().toJava();
        } else {
            maxSrg = 20;
        }
        for (int srgCounter = 1; srgCounter <= maxSrg; srgCounter++) {
            List<org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.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(Uint16.valueOf(srgCounter)));
            Optional<SharedRiskGroup> ordmSrgObject = this.deviceTransactionManager.getDataFromDevice(deviceId,
                LogicalDatastoreType.OPERATIONAL, srgIID,
                Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
            if (ordmSrgObject.isPresent()) {
                srgCps.addAll(ordmSrgObject.get().nonnullCircuitPacks().values());
                cpPerSrg.put(ordmSrgObject.get().getSrgNumber().toJava(), srgCps);
            }
        }
        LOG.info("Device {} has {} Srg", deviceId, cpPerSrg.size());
        return cpPerSrg;
    }

    //last LOG info message in this method is too long
    @SuppressWarnings("checkstyle:linelength")
    private boolean createPpPortMapping(String nodeId, Info deviceInfo, List<Mapping> portMapList) {
        // Creating mapping data for SRG's PP
        HashMap<Integer, List<org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.srg.CircuitPacks>> srgCps
            = getSrgCps(nodeId, deviceInfo);
        for (Entry<Integer, List<org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.srg.CircuitPacks>> srgCpEntry : srgCps.entrySet()) {
            List<org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.srg.CircuitPacks> cpList =
                srgCps.get(srgCpEntry.getKey());
            List<String> keys = new ArrayList<>();
            for (org.opendaylight.yang.gen.v1.http.org.openroadm.device.rev200529.srg.CircuitPacks cp : cpList) {
                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;
                }
                List<Ports> portList = new ArrayList<>(circuitPackObject.get().nonnullPorts().values());
                Collections.sort(portList, new SortPort710ByName());
                int portIndex = 1;
                for (Ports port : portList) {
                    String currentKey = circuitPackName + "-" + port.getPortName();
                    if (port.getPortQual() == null) {
                        continue;
                    } else if (PortQual.RoadmExternal.getIntValue() == port.getPortQual().getIntValue()
                        && Direction.Bidirectional.getIntValue() == port.getPortDirection().getIntValue()
                        && !keys.contains(currentKey)) {
                        String logicalConnectionPoint = createLogicalConnectionPort(port, srgCpEntry.getKey(), portIndex);
                        LOG.info("{} : Logical Connection Point for {} {} is {}", nodeId, circuitPackName,
                            port.getPortName(), logicalConnectionPoint);
                        portMapList.add(createMappingObject(nodeId, port, circuitPackName,
                            logicalConnectionPoint));
                        portIndex++;
                        keys.add(currentKey);
                    } else if (PortQual.RoadmExternal.getIntValue() == port.getPortQual().getIntValue()
                        && (Direction.Rx.getIntValue() == port.getPortDirection().getIntValue()
                        || Direction.Tx.getIntValue() == port.getPortDirection().getIntValue())
                        && !keys.contains(currentKey)
                        && port.getPartnerPort() != null) {
                        String logicalConnectionPoint1 = createLogicalConnectionPort(port, srgCpEntry.getKey(), portIndex);
                        LOG.info("{} : Logical Connection Point for {} {} is {}", nodeId, circuitPackName,
                            port.getPortName(), logicalConnectionPoint1);
                        InstanceIdentifier<Ports> port2ID = InstanceIdentifier.create(OrgOpenroadmDevice.class)
                            .child(CircuitPacks.class, new CircuitPacksKey(port.getPartnerPort().getCircuitPackName()))
                            .child(Ports.class, new PortsKey(port.getPartnerPort().getPortName().toString()));
                        Optional<Ports> port2Object = this.deviceTransactionManager.getDataFromDevice(nodeId,
                            LogicalDatastoreType.OPERATIONAL, port2ID,
                            Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
                        if (port2Object.isPresent()
                            && port2Object.get().getPortQual().getIntValue()
                            == PortQual.RoadmExternal.getIntValue()) {
                            Ports port2 = port2Object.get();
                            if (checkPartnerPort(circuitPackName, port, port2)) {
                                String logicalConnectionPoint2 = createLogicalConnectionPort(port2, srgCpEntry.getKey(), portIndex);
                                LOG.info("{} : Logical Connection Point for {} {} is {}", nodeId, circuitPackName,
                                    port2.getPortName(), logicalConnectionPoint2);
                                portMapList.add(createMappingObject(nodeId, port, circuitPackName,
                                    logicalConnectionPoint1));
                                portMapList.add(createMappingObject(nodeId,port2,
                                    port.getPartnerPort().getCircuitPackName(), logicalConnectionPoint2));
                                portIndex++;
                                keys.add(currentKey);
                                keys.add(port.getPartnerPort().getCircuitPackName() + "-" + port2.getPortName());
                            } else {
                                LOG.error("Error with partner port configuration for port {} of  {} - {}",
                                    port.getPortName(), circuitPackName, nodeId);
                                portIndex++;
                            }
                        } else {
                            LOG.error("error getting partner port {} of  {} - {}",
                                port.getPartnerPort().getPortName().toString(),
                                port.getPartnerPort().getCircuitPackName(), nodeId);
                            continue;
                        }
                    } else {
                        LOG.info("{} : port {} on {} is not roadm-external or has already been handled. No logicalConnectionPoint assignment for this port.",
                            nodeId, port.getPortName(), circuitPackName);
                    }
                }
            }
        }
        return true;
    }

    private String createLogicalConnectionPort(Ports port, int index, int portIndex) {
        String lcp = null;
        switch (port.getPortDirection()) {
            case Tx:
                lcp = "SRG" + index + "-PP" + portIndex + "-TX";
                break;
            case Rx:
                lcp = "SRG" + index + "-PP" + portIndex + "-RX";
                break;
            case Bidirectional:
                lcp = "SRG" + index + "-PP" + portIndex + "-TXRX";
                break;
            default:
                LOG.error("Unsupported port direction for port {} : {}", port, port.getPortDirection());
        }
        return lcp;
    }

    private Map<McCapabilityProfileKey, McCapabilityProfile> getMcCapabilityProfiles(String deviceId, Info ordmInfo) {
        Map<McCapabilityProfileKey, McCapabilityProfile>  mcCapabilityProfiles = new HashMap<>();
        InstanceIdentifier<OrgOpenroadmDevice> deviceIID = InstanceIdentifier.create(OrgOpenroadmDevice.class);
        Optional<OrgOpenroadmDevice> deviceObject = deviceTransactionManager.getDataFromDevice(deviceId,
            LogicalDatastoreType.OPERATIONAL, deviceIID,
            Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
        OrgOpenroadmDevice device = null;
        if (!deviceObject.isPresent()) {
            LOG.error("Impossible to get device configuration for node {}", deviceId);
            LOG.warn("MC-capabilities profile will be empty for node {}", deviceId);
            return mcCapabilityProfiles;
        }
        device = deviceObject.get();
        mcCapabilityProfiles = device.getMcCapabilityProfile();
        return mcCapabilityProfiles;
    }

    private List<Degree> getDegrees(String deviceId, Info ordmInfo) {
        List<Degree> degrees = new ArrayList<>();
        Integer maxDegree;

        // Get value for max degree from info subtree, required for iteration
        // if not present assume to be 20 (temporary)
        if (ordmInfo.getMaxDegrees() != null) {
            maxDegree = ordmInfo.getMaxDegrees().toJava();
        } else {
            maxDegree = 20;
        }

        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(Uint16.valueOf(degreeCounter)));
            Optional<Degree> ordmDegreeObject = this.deviceTransactionManager.getDataFromDevice(deviceId,
                LogicalDatastoreType.OPERATIONAL, deviceIID,
                Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
            if (ordmDegreeObject.isPresent()) {
                degrees.add(ordmDegreeObject.get());
            }
        }
        LOG.info("Device {} has {} degree", deviceId, degrees.size());
        return degrees;
    }

    private List<SharedRiskGroup> getSrgs(String deviceId, Info ordmInfo) {
        List<SharedRiskGroup> srgs = new ArrayList<>();

        Integer maxSrg;
        // Get value for max Srg from info subtree, required for iteration
        // if not present assume to be 20 (temporary)
        if (ordmInfo.getMaxSrgs() != null) {
            maxSrg = ordmInfo.getMaxSrgs().toJava();
        } else {
            maxSrg = 20;
        }
        for (int srgCounter = 1; srgCounter <= maxSrg; srgCounter++) {
            InstanceIdentifier<SharedRiskGroup> srgIID = InstanceIdentifier.create(OrgOpenroadmDevice.class)
                .child(SharedRiskGroup.class, new SharedRiskGroupKey(Uint16.valueOf(srgCounter)));
            Optional<SharedRiskGroup> ordmSrgObject = this.deviceTransactionManager.getDataFromDevice(deviceId,
                LogicalDatastoreType.OPERATIONAL, srgIID,
                Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
            if (ordmSrgObject.isPresent()) {
                srgs.add(ordmSrgObject.get());

            }
        }
        return srgs;
    }

    private Map<Integer, List<ConnectionPorts>> getPerDegreePorts(String deviceId, Info ordmInfo) {
        Map<Integer, List<ConnectionPorts>> conPortMap = new HashMap<>();
        Integer maxDegree;

        if (ordmInfo.getMaxDegrees() != null) {
            maxDegree = ordmInfo.getMaxDegrees().toJava();
        } else {
            maxDegree = 20;
        }
        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(Uint16.valueOf(degreeCounter)));
            Optional<Degree> ordmDegreeObject = this.deviceTransactionManager.getDataFromDevice(deviceId,
                LogicalDatastoreType.OPERATIONAL, deviceIID,
                Timeouts.DEVICE_READ_TIMEOUT, Timeouts.DEVICE_READ_TIMEOUT_UNIT);
            if (ordmDegreeObject.isPresent()) {
                conPortMap.put(degreeCounter, new ArrayList<>(ordmDegreeObject.get()
                    .nonnullConnectionPorts().values()));
            }
        }
        LOG.info("Device {} has {} degree", deviceId, conPortMap.size());
        return conPortMap;
    }

    private Map<String, String> getEthInterfaceList(String nodeId) {
        LOG.info("It is calling get ethernet interface");
        Map<String, String> cpToInterfaceMap = new HashMap<>();
        InstanceIdentifier<Protocols> protocoliid = InstanceIdentifier.create(OrgOpenroadmDevice.class)
            .child(Protocols.class);
        Optional<Protocols> protocolObject = this.deviceTransactionManager.getDataFromDevice(nodeId,
            LogicalDatastoreType.OPERATIONAL, protocoliid, Timeouts.DEVICE_READ_TIMEOUT,
            Timeouts.DEVICE_READ_TIMEOUT_UNIT);
        if (protocolObject.isPresent() && protocolObject.get().augmentation(Protocols1.class).getLldp() != null) {
            Lldp lldp = protocolObject.get().augmentation(Protocols1.class).getLldp();
            for (PortConfig portConfig : lldp.nonnullPortConfig().values()) {
                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;
    }

    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.nonnullCircuitPacks().values().stream()
                    .map(cp -> createCpToDegreeObject(cp.getCircuitPackName(),
                        degree.getDegreeNumber().toString(), nodeId, interfaceList))
                    .collect(Collectors.toList()));
            }
        }
        return cpToDegreeList;
    }

    private List<McCapabilities> getMcCapabilitiesList(List<Degree> degrees, List<SharedRiskGroup> srgs,
        Info deviceInfo, String nodeId) {
        LOG.info("Getting the MC capabilities for degrees of node {}", nodeId);
        //Get all the mc-capability profiles from the device
        Map<McCapabilityProfileKey, McCapabilityProfile> mcCapabilityProfiles = getMcCapabilityProfiles(nodeId,
            deviceInfo);
        // Add the DEG mc-capabilities
        List<McCapabilities> mcCapabilitiesList = createMcCapDegreeObject(degrees, mcCapabilityProfiles, nodeId);
        // Add the SRG mc-capabilities
        LOG.info("Getting the MC capabilities for SRGs of node {}", nodeId);
        mcCapabilitiesList.addAll(createMcCapSrgObject(srgs, mcCapabilityProfiles, nodeId));

        return mcCapabilitiesList;
    }

    private boolean postPortMapping(String nodeId, NodeInfo nodeInfo, List<Mapping> portMapList,
        List<CpToDegree> cp2DegreeList, List<SwitchingPoolLcp> splList, List<McCapabilities> mcCapList) {
        NodesBuilder nodesBldr = new NodesBuilder().withKey(new NodesKey(nodeId)).setNodeId(nodeId);
        if (nodeInfo != null) {
            nodesBldr.setNodeInfo(nodeInfo);
        }
        if (portMapList != null) {
            Map<MappingKey, Mapping> mappingMap = new HashMap<>();
            for (Mapping mapping: portMapList) {
                if (mapping != null) {
                    mappingMap.put(mapping.key(), mapping);
                }
            }
            nodesBldr.setMapping(mappingMap);
        }
        if (cp2DegreeList != null) {
            Map<CpToDegreeKey, CpToDegree> cpToDegreeMap = new HashMap<>();
            for (CpToDegree cp2Degree: cp2DegreeList) {
                if (cp2Degree != null) {
                    cpToDegreeMap.put(cp2Degree.key(), cp2Degree);
                }
            }
            nodesBldr.setCpToDegree(cpToDegreeMap);
        }

        if (splList != null) {
            Map<SwitchingPoolLcpKey,SwitchingPoolLcp> splMap = new HashMap<>();
            for (SwitchingPoolLcp spl: splList) {
                if (spl != null) {
                    splMap.put(spl.key(), spl);
                }
            }
            nodesBldr.setSwitchingPoolLcp(splMap);
        }
        if (mcCapList != null) {
            nodesBldr.setMcCapabilities(mcCapList);
        }
        Map<NodesKey,Nodes> nodesList = new HashMap<>();
        Nodes nodes = nodesBldr.build();
        nodesList.put(nodes.key(),nodes);

        NetworkBuilder nwBldr = new NetworkBuilder().setNodes(nodesList);

        final WriteTransaction writeTransaction = dataBroker.newWriteOnlyTransaction();
        InstanceIdentifier<Network> nodesIID = InstanceIdentifier.builder(Network.class).build();
        Network network = nwBldr.build();
        writeTransaction.merge(LogicalDatastoreType.CONFIGURATION, nodesIID, network);
        FluentFuture<? extends @NonNull CommitInfo> commit = writeTransaction.commit();
        try {
            commit.get();
            return true;
        } catch (InterruptedException | ExecutionException e) {
            LOG.warn("Failed to post {}", network, e);
            return false;
        }
    }

    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(Uint32.valueOf(degreeNumber)).setInterfaceName(interfaceName).build();
    }

    private List<McCapabilities> createMcCapDegreeObject(List<Degree> degrees,
        Map<McCapabilityProfileKey, McCapabilityProfile> mcCapabilityProfileMap, String nodeId) {
        List<McCapabilities> mcCapabilitiesList = new ArrayList<>();
        for (Degree degree : degrees) {
            if (!degree.getMcCapabilityProfileName().isEmpty()) {
                for (String mcCapabilityProfileName : degree.getMcCapabilityProfileName()) {
                    McCapabilityProfileKey mcKey = new McCapabilityProfileKey(mcCapabilityProfileName);
                    McCapabilityProfile mcCapabilityProfile = mcCapabilityProfileMap.get(mcKey);
                    String mcNodeName = "DEG" + degree.getDegreeNumber().toString() + "-TTP-" + mcCapabilityProfile;
                    McCapabilitiesBuilder mcCapabilitiesBuilder = new McCapabilitiesBuilder()
                        .withKey(new McCapabilitiesKey(mcNodeName))
                        .setMcNodeName(mcNodeName);
                    mcCapabilitiesBuilder
                        .setCenterFreqGranularity(mcCapabilityProfile.getCenterFreqGranularity())
                        .setSlotWidthGranularity(mcCapabilityProfile.getSlotWidthGranularity());
                    mcCapabilitiesList.add(mcCapabilitiesBuilder.build());
                } // end for
            }
            else {
                LOG.warn("No MC profiles are found for  node {} on degree {}", nodeId, degree.getDegreeNumber());
                LOG.warn("Assuming the fixed grid capabilities for degree {}", degree.getDegreeNumber());
                LOG.warn("Assuming a default MC profile-name for degree {}", degree.getDegreeNumber());
                String mcNodeName = "DEG" + degree.getDegreeNumber().toString() + "-TTP-" + "default-profile";
                McCapabilitiesBuilder mcCapabilitiesBuilder = new McCapabilitiesBuilder()
                    .withKey(new McCapabilitiesKey(mcNodeName))
                    .setMcNodeName(mcNodeName);
                mcCapabilitiesBuilder
                    .setCenterFreqGranularity(FrequencyGHz.getDefaultInstance("50"))
                    .setSlotWidthGranularity(FrequencyGHz.getDefaultInstance("50"));
            }
        }
        return mcCapabilitiesList;
    }

    private List<McCapabilities> createMcCapSrgObject(List<SharedRiskGroup> srgs,
        Map<McCapabilityProfileKey, McCapabilityProfile> mcCapabilityProfileMap, String nodeId) {
        List<McCapabilities> mcCapabilitiesList = new ArrayList<>();
        for (SharedRiskGroup srg : srgs) {
            if (!srg.getMcCapabilityProfileName().isEmpty()) {
                for (String mcCapabilityProfileName : srg.getMcCapabilityProfileName()) {
                    McCapabilityProfileKey mcKey = new McCapabilityProfileKey(mcCapabilityProfileName);
                    McCapabilityProfile mcCapabilityProfile = mcCapabilityProfileMap.get(mcKey);
                    String mcNodeName = "SRG" + srg.getSrgNumber().toString() + "-PP-" + mcCapabilityProfile;
                    McCapabilitiesBuilder mcCapabilitiesBuilder = new McCapabilitiesBuilder()
                        .withKey(new McCapabilitiesKey(mcNodeName))
                        .setMcNodeName(mcNodeName);
                    mcCapabilitiesBuilder
                        .setCenterFreqGranularity(mcCapabilityProfile.getCenterFreqGranularity())
                        .setSlotWidthGranularity(mcCapabilityProfile.getSlotWidthGranularity());
                    mcCapabilitiesList.add(mcCapabilitiesBuilder.build());
                } // end for
            }
            else {
                LOG.warn("No MC profiles are found for  node {} on SRG {}", nodeId, srg.getSrgNumber());
                LOG.warn("Assuming the fixed grid capabilities for SRG {}", srg.getSrgNumber());
                LOG.warn("Assuming a default MC profile-name for SRG {}", srg.getSrgNumber());
                String mcNodeName = "SRG" + srg.getSrgNumber().toString() + "-PP-" + "default-profile";
                McCapabilitiesBuilder mcCapabilitiesBuilder = new McCapabilitiesBuilder()
                    .withKey(new McCapabilitiesKey(mcNodeName))
                    .setMcNodeName(mcNodeName);
                mcCapabilitiesBuilder
                    .setCenterFreqGranularity(FrequencyGHz.getDefaultInstance("50"))
                    .setSlotWidthGranularity(FrequencyGHz.getDefaultInstance("50"));
            }
        }
        return mcCapabilitiesList;
    }

    private Mapping createMappingObject(String nodeId, Ports port, String circuitPackName,
        String logicalConnectionPoint) {
        MappingBuilder mpBldr = new MappingBuilder();
        mpBldr.withKey(new MappingKey(logicalConnectionPoint)).setLogicalConnectionPoint(logicalConnectionPoint)
            .setSupportingCircuitPackName(circuitPackName).setSupportingPort(port.getPortName())
            .setPortDirection(port.getPortDirection().getName());

        // Get OMS and OTS interface provisioned on the TTP's
        if ((logicalConnectionPoint.contains(StringConstants.TTP_TOKEN)
            || logicalConnectionPoint.contains(StringConstants.NETWORK_TOKEN)) && (port.getInterfaces() != null)) {
            for (Interfaces interfaces : port.getInterfaces()) {
                try {
                    Optional<Interface> openRoadmInterface = this.openRoadmInterfaces.getInterface(nodeId,
                        interfaces.getInterfaceName());
                    if (openRoadmInterface.isPresent()) {
                        LOG.info("interface get from device is {} and of type {}", openRoadmInterface.get().getName(),
                            openRoadmInterface.get().getType());
                        Class<? extends InterfaceType> interfaceType
                            = (Class<? extends InterfaceType>) openRoadmInterface.get().getType();
                        // Check if interface type is OMS or OTS
                        if (interfaceType.equals(OpenROADMOpticalMultiplex.class)) {
                            mpBldr.setSupportingOms(interfaces.getInterfaceName());
                        }
                        if (interfaceType.equals(OpticalTransport.class)) {
                            mpBldr.setSupportingOts(interfaces.getInterfaceName());
                        }
                        if (interfaceType.equals(OtnOdu.class)) {
                            mpBldr.setSupportingOdu4(interfaces.getInterfaceName());
                        }
                    } else {
                        LOG.warn("Interface {} from node {} was null!", interfaces.getInterfaceName(), nodeId);
                    }
                } catch (OpenRoadmInterfaceException ex) {
                    LOG.warn("Error while getting interface {} from node {}!", interfaces.getInterfaceName(), nodeId,
                        ex);
                }
            }
        }
        return mpBldr.build();
    }

    private Mapping createXpdrMappingObject(String nodeId, Ports ports, String circuitPackName,
        String logicalConnectionPoint, String partnerLcp, Mapping mapping, String connectionMapLcp,
        XpdrNodeTypes xpdrNodeType) {
        MappingBuilder mpBldr;
        if (mapping != null && connectionMapLcp != null) {
            // update existing mapping
            mpBldr = new MappingBuilder(mapping).setConnectionMapLcp(connectionMapLcp);
        } else {
            // create a new mapping
            String nodeIdLcp = nodeId + "-" + logicalConnectionPoint;
            mpBldr = new MappingBuilder()
                .withKey(new MappingKey(logicalConnectionPoint))
                .setLogicalConnectionPoint(logicalConnectionPoint)
                .setSupportingCircuitPackName(circuitPackName)
                .setSupportingPort(ports.getPortName())
                .setPortDirection(ports.getPortDirection().getName())
                .setLcpHashVal(fnv(nodeIdLcp));

            if (ports.getPortQual() != null) {
                mpBldr.setPortQual(ports.getPortQual().getName());
            }

            if (ports.augmentation(Ports1.class).getPortCapabilities().getSupportedInterfaceCapability() != null) {
                mpBldr.setSupportedInterfaceCapability(getSupportedIfCapability(ports));
            }

            if (xpdrNodeType != null) {
                mpBldr.setXponderType(xpdrNodeType);
            }
            if (partnerLcp != null) {
                mpBldr.setPartnerLcp(partnerLcp);
            }
        }
        return mpBldr.build();
    }


    private List<Class<? extends SupportedIfCapability>> getSupportedIfCapability(Ports ports) {
        Map<SupportedInterfaceCapabilityKey, SupportedInterfaceCapability> supportedInterfaceCapabilityMap =
            ports.augmentation(Ports1.class).getPortCapabilities().getSupportedInterfaceCapability();
        List<Class<? extends SupportedIfCapability>> supportedInterfaceCapabilityList = new ArrayList<>();

        supportedInterfaceCapabilityMap.forEach((k, v) -> supportedInterfaceCapabilityList.add(k.getIfCapType()));
        return supportedInterfaceCapabilityList;
    }

    private boolean createMcCapabilitiesList(String nodeId, Info deviceInfo, List<McCapabilities> mcCapabilitiesList) {
        List<Degree> degrees = getDegrees(nodeId, deviceInfo);
        List<SharedRiskGroup> srgs = getSrgs(nodeId, deviceInfo);
        mcCapabilitiesList.addAll(getMcCapabilitiesList(degrees, srgs, deviceInfo, nodeId));

        return true;
    }

    //some LOG messages are too long
    @SuppressWarnings("checkstyle:linelength")
    @SuppressFBWarnings("DM_CONVERT_CASE")
    private boolean createTtpPortMapping(String nodeId, Info deviceInfo, List<Mapping> portMapList) {
        // Creating mapping data for degree TTP's
        List<Degree> degrees = getDegrees(nodeId, deviceInfo);
        Map<String, String> interfaceList = getEthInterfaceList(nodeId);
        List<CpToDegree> cpToDegreeList = getCpToDegreeList(degrees, nodeId, interfaceList);
        LOG.info("Map looks like this {}", interfaceList);
        postPortMapping(nodeId, null, null, cpToDegreeList, null, null);

        Map<Integer, List<ConnectionPorts>> connectionPortMap = getPerDegreePorts(nodeId, deviceInfo);
        for (Entry<Integer, List<ConnectionPorts>> cpMapEntry : connectionPortMap.entrySet()) {
            switch (connectionPortMap.get(cpMapEntry.getKey()).size()) {
                case 1:
                    // port is bidirectional
                    InstanceIdentifier<Ports> portID = InstanceIdentifier.create(OrgOpenroadmDevice.class)
                        .child(CircuitPacks.class, new CircuitPacksKey(connectionPortMap.get(cpMapEntry.getKey()).get(0)
                            .getCircuitPackName()))
                        .child(Ports.class, new PortsKey(connectionPortMap.get(cpMapEntry.getKey()).get(0)
                            .getPortName().toString()));
                    LOG.info("Fetching connection-port {} at circuit pack {}", connectionPortMap.get(cpMapEntry.getKey()).get(0)
                        .getPortName().toString(), connectionPortMap.get(cpMapEntry.getKey()).get(0).getCircuitPackName());
                    Optional<Ports> portObject = this.deviceTransactionManager.getDataFromDevice(nodeId,
                        LogicalDatastoreType.OPERATIONAL, portID, Timeouts.DEVICE_READ_TIMEOUT,
                        Timeouts.DEVICE_READ_TIMEOUT_UNIT);
                    if (portObject.isPresent()) {
                        Ports port = portObject.get();
                        if (port.getPortQual() == null) {
                            continue;
                        } else if (PortQual.RoadmExternal.getIntValue() == port.getPortQual().getIntValue()
                            && Direction.Bidirectional.getIntValue() == port.getPortDirection().getIntValue()) {
                            String logicalConnectionPoint = new StringBuilder("DEG").append(cpMapEntry.getKey()).append("-TTP-TXRX")
                                .toString();
                            LOG.info("{} : Logical Connection Point for {} {} is {}", nodeId,
                                connectionPortMap.get(cpMapEntry.getKey()).get(0).getCircuitPackName(), port.getPortName(),
                                logicalConnectionPoint);
                            portMapList.add(createMappingObject(nodeId, port,
                                connectionPortMap.get(cpMapEntry.getKey()).get(0).getCircuitPackName(),
                                logicalConnectionPoint));
                        } else {
                            LOG.error(
                                "Impossible to create logical connection point for port {} of {} on node {}"
                                    + "- Error in configuration with port-qual or port-direction",
                                port.getPortName(), connectionPortMap.get(cpMapEntry.getKey()).get(0).getCircuitPackName(), nodeId);
                        }
                    } else {
                        LOG.error("No port {} on circuit pack {} for node {}",
                            connectionPortMap.get(cpMapEntry.getKey()).get(0).getPortName().toString(),
                            connectionPortMap.get(cpMapEntry.getKey()).get(0).getCircuitPackName(), nodeId);
                        return false;
                    }
                    break;
                case 2:
                    // ports are unidirectionals
                    String cp1Name = connectionPortMap.get(cpMapEntry.getKey()).get(0).getCircuitPackName();
                    String cp2Name = connectionPortMap.get(cpMapEntry.getKey()).get(1).getCircuitPackName();
                    InstanceIdentifier<Ports> port1ID = InstanceIdentifier.create(OrgOpenroadmDevice.class)
                        .child(CircuitPacks.class, new CircuitPacksKey(cp1Name))
                        .child(Ports.class, new PortsKey(connectionPortMap.get(cpMapEntry.getKey()).get(0).getPortName().toString()));
                    LOG.info("Fetching connection-port {} at circuit pack {}", connectionPortMap.get(cpMapEntry.getKey()).get(0)
                        .getPortName().toString(), cp1Name);
                    Optional<Ports> port1Object = this.deviceTransactionManager.getDataFromDevice(nodeId,
                        LogicalDatastoreType.OPERATIONAL, port1ID, Timeouts.DEVICE_READ_TIMEOUT,
                        Timeouts.DEVICE_READ_TIMEOUT_UNIT);
                    InstanceIdentifier<Ports> port2ID = InstanceIdentifier.create(OrgOpenroadmDevice.class)
                        .child(CircuitPacks.class, new CircuitPacksKey(cp2Name))
                        .child(Ports.class, new PortsKey(connectionPortMap.get(cpMapEntry.getKey()).get(1).getPortName().toString()));
                    LOG.info("Fetching connection-port {} at circuit pack {}",
                        connectionPortMap.get(cpMapEntry.getKey()).get(1).getPortName().toString(), cp2Name);
                    Optional<Ports> port2Object = this.deviceTransactionManager.getDataFromDevice(nodeId,
                        LogicalDatastoreType.OPERATIONAL, port2ID, Timeouts.DEVICE_READ_TIMEOUT,
                        Timeouts.DEVICE_READ_TIMEOUT_UNIT);
                    if (port1Object.isPresent() && port2Object.isPresent()) {
                        Ports port1 = port1Object.get();
                        Ports port2 = port2Object.get();
                        if (port1.getPortQual() == null || port2.getPortQual() == null) {
                            continue;
                        } else if ((PortQual.RoadmExternal.getIntValue() == port1.getPortQual().getIntValue()
                            && PortQual.RoadmExternal.getIntValue() == port2.getPortQual().getIntValue()
                            && Direction.Rx.getIntValue() == port1.getPortDirection().getIntValue()
                            && Direction.Tx.getIntValue() == port2.getPortDirection().getIntValue()
                            && port1.getPartnerPort() != null && port2.getPartnerPort() != null
                            && port1.getPartnerPort().getCircuitPackName().equals(cp2Name)
                            && port1.getPartnerPort().getPortName().equals(port2.getPortName())
                            && port2.getPartnerPort().getCircuitPackName().equals(cp1Name)
                            && port2.getPartnerPort().getPortName().equals(port1.getPortName()))
                            ||
                            (PortQual.RoadmExternal.getIntValue() == port1.getPortQual().getIntValue()
                                && PortQual.RoadmExternal.getIntValue() == port2.getPortQual().getIntValue()
                                && Direction.Rx.getIntValue() == port2.getPortDirection().getIntValue()
                                && Direction.Tx.getIntValue() == port1.getPortDirection().getIntValue()
                                && port1.getPartnerPort() != null && port2.getPartnerPort() != null
                                && port1.getPartnerPort().getCircuitPackName().equals(cp2Name)
                                && port1.getPartnerPort().getPortName().equals(port2.getPortName())
                                && port2.getPartnerPort().getCircuitPackName().equals(cp1Name)
                                && port2.getPartnerPort().getPortName().equals(port1.getPortName()))) {
                            String logicalConnectionPoint1 = new StringBuilder("DEG").append(cpMapEntry.getKey()).append("-TTP-")
                                .append(port1.getPortDirection().getName().toUpperCase()).toString();
                            LOG.info("{} : Logical Connection Point for {} {} is {}", nodeId,
                                connectionPortMap.get(cpMapEntry.getKey()).get(0).getCircuitPackName(), port1.getPortName(),
                                logicalConnectionPoint1);
                            portMapList.add(createMappingObject(nodeId, port1, connectionPortMap.get(cpMapEntry.getKey()).get(0)
                                .getCircuitPackName(), logicalConnectionPoint1));
                            String logicalConnectionPoint2 = new StringBuilder("DEG").append(cpMapEntry.getKey()).append("-TTP-")
                                .append(port2.getPortDirection().getName().toUpperCase()).toString();
                            LOG.info("{} : Logical Connection Point for {} {} is {}", nodeId,
                                connectionPortMap.get(cpMapEntry.getKey()).get(1).getCircuitPackName(), port2.getPortName(),
                                logicalConnectionPoint2);
                            portMapList.add(createMappingObject(nodeId, port2, connectionPortMap.get(cpMapEntry.getKey()).get(1)
                                .getCircuitPackName(), logicalConnectionPoint2));
                        } else {
                            LOG.error(
                                "impossible to create logical connection point for port {} or port {} on node {} - "
                                    + "Error in configuration with port-qual, port-direction or partner-port configuration",
                                port1.getPortName(), port2.getPortName(), nodeId);
                        }
                    } else {
                        LOG.error("No port {} on circuit pack {} for node {}",
                            connectionPortMap.get(cpMapEntry.getKey()).get(0).getPortName().toString(),
                            connectionPortMap.get(cpMapEntry.getKey()).get(0).getCircuitPackName(), nodeId);
                        return false;
                    }

                    break;
                default:
                    LOG.error("Number of connection port for DEG{} on {} is incorrect", cpMapEntry.getKey(), nodeId);
                    continue;
            }
        }
        return true;
    }

    private NodeInfo createNodeInfo(Info deviceInfo, String nodeId) {
        NodeInfoBuilder nodeInfoBldr = new NodeInfoBuilder();
        if (deviceInfo.getNodeType() == null) {
            // TODO make mandatory in yang
            LOG.error("Node type field is missing");
            return null;
        }

        nodeInfoBldr.setOpenroadmVersion(OpenroadmVersion._710).setNodeType(deviceInfo.getNodeType());
        if (deviceInfo.getClli() != null && !deviceInfo.getClli().isEmpty()) {
            nodeInfoBldr.setNodeClli(deviceInfo.getClli());
        } else {
            nodeInfoBldr.setNodeClli("defaultCLLI");
        }

        if (deviceInfo.getModel() != null) {
            nodeInfoBldr.setNodeModel(deviceInfo.getModel());
        }

        if (deviceInfo.getVendor() != null) {
            nodeInfoBldr.setNodeVendor(deviceInfo.getVendor());
        }

        if (deviceInfo.getIpAddress() != null) {
            nodeInfoBldr.setNodeIpAddress(deviceInfo.getIpAddress());
        }

        return nodeInfoBldr.build();
    }

    /**
     * Implements the FNV-1 64bit algorithm.
     * FNV-1 128bit would be ideal for 16 bytes but we need an overhead for Base64 encoding.
     * Otherwise, the hash cannot be stored in a UTF-8 string.
     * https://www.wikiwand.com/en/Fowler%E2%80%93Noll%E2%80%93Vo_hash_function#/FNV-1_hash
     * https://github.com/pmdamora/fnv-cracker-app/blob/master/src/main/java/passwordcrack/cracking/HashChecker.java
     * @param stringdata the String to be hashed
     * @return the hash string
     */
    private String fnv(String stringdata) {
        BigInteger hash = FNV_INIT;
        byte[] data = stringdata.getBytes(StandardCharsets.UTF_8);

        for (byte b : data) {
            hash = hash.multiply(FNV_PRIME).mod(FNV_MOD);
            hash = hash.xor(BigInteger.valueOf((int) b & 0xff));
        }

        return Base64.getEncoder().encodeToString(hash.toByteArray());
    }
}