Examples with UserPreferences org.opendaylight.netconf.sal.connect.netconf.listener.UserPreferences used on opensource projects

Example 1 with UserPreferences

use of org.opendaylight.netconf.sal.connect.netconf.listener.UserPreferences in project netconf by opendaylight.

the class AbstractNetconfTopology method getUserCapabilities.

private static Optional<UserPreferences> getUserCapabilities(final NetconfNode node) {
    // just return absent
    if (node.getYangModuleCapabilities() == null && node.getNonModuleCapabilities() == null) {
        return Optional.empty();
    }
    final List<String> capabilities = new ArrayList<>();
    boolean overrideYangModuleCaps = false;
    if (node.getYangModuleCapabilities() != null) {
        capabilities.addAll(node.getYangModuleCapabilities().getCapability());
        overrideYangModuleCaps = node.getYangModuleCapabilities().getOverride();
    }
    // non-module capabilities should not exist in yang module capabilities
    final NetconfSessionPreferences netconfSessionPreferences = NetconfSessionPreferences.fromStrings(capabilities);
    Preconditions.checkState(netconfSessionPreferences.getNonModuleCaps().isEmpty(), "List yang-module-capabilities/capability should contain only module based capabilities. " + "Non-module capabilities used: " + netconfSessionPreferences.getNonModuleCaps());
    boolean overrideNonModuleCaps = false;
    if (node.getNonModuleCapabilities() != null) {
        capabilities.addAll(node.getNonModuleCapabilities().getCapability());
        overrideNonModuleCaps = node.getNonModuleCapabilities().getOverride();
    }
    return Optional.of(new UserPreferences(NetconfSessionPreferences.fromStrings(capabilities, CapabilityOrigin.UserDefined), overrideYangModuleCaps, overrideNonModuleCaps));
}

Example 2 with UserPreferences

use of org.opendaylight.netconf.sal.connect.netconf.listener.UserPreferences in project netconf by opendaylight.

the class AbstractNetconfTopology method createDeviceCommunicator.

protected NetconfConnectorDTO createDeviceCommunicator(final NodeId nodeId, final NetconfNode node, final NetconfNodeAugmentedOptional nodeOptional) {
    final Host host = node.getHost();
    final IpAddress ipAddress = host.getIpAddress();
    final InetSocketAddress address;
    if (ipAddress != null) {
        address = new InetSocketAddress(IetfInetUtil.INSTANCE.inetAddressFor(ipAddress), node.getPort().getValue().toJava());
    } else {
        address = new InetSocketAddress(host.getDomainName().getValue(), node.getPort().getValue().toJava());
    }
    final RemoteDeviceId remoteDeviceId = new RemoteDeviceId(nodeId.getValue(), address);
    final long keepaliveDelay = node.requireKeepaliveDelay().toJava();
    RemoteDeviceHandler<NetconfSessionPreferences> salFacade = createSalFacade(remoteDeviceId);
    if (keepaliveDelay > 0) {
        LOG.info("Adding keepalive facade, for device {}", nodeId);
        salFacade = new KeepaliveSalFacade(remoteDeviceId, salFacade, this.keepaliveExecutor.getExecutor(), keepaliveDelay, node.requireDefaultRequestTimeoutMillis().toJava());
    }
    final RemoteDevice<NetconfSessionPreferences, NetconfMessage, NetconfDeviceCommunicator> device;
    final List<SchemaSourceRegistration<?>> yanglibRegistrations;
    if (node.requireSchemaless()) {
        device = new SchemalessNetconfDevice(baseSchemas, remoteDeviceId, salFacade);
        yanglibRegistrations = List.of();
    } else {
        final boolean reconnectOnChangedSchema = node.requireReconnectOnChangedSchema();
        final SchemaResourcesDTO resources = schemaManager.getSchemaResources(node, nodeId.getValue());
        device = new NetconfDeviceBuilder().setReconnectOnSchemasChange(reconnectOnChangedSchema).setSchemaResourcesDTO(resources).setGlobalProcessingExecutor(this.processingExecutor).setId(remoteDeviceId).setSalFacade(salFacade).setNode(node).setEventExecutor(eventExecutor).setNodeOptional(nodeOptional).setDeviceActionFactory(deviceActionFactory).setBaseSchemas(baseSchemas).build();
        yanglibRegistrations = registerDeviceSchemaSources(remoteDeviceId, node, resources);
    }
    final Optional<UserPreferences> userCapabilities = getUserCapabilities(node);
    final int rpcMessageLimit = node.requireConcurrentRpcLimit().toJava();
    if (rpcMessageLimit < 1) {
        LOG.info("Concurrent rpc limit is smaller than 1, no limit will be enforced for device {}", remoteDeviceId);
    }
    final NetconfDeviceCommunicator netconfDeviceCommunicator = userCapabilities.isPresent() ? new NetconfDeviceCommunicator(remoteDeviceId, device, userCapabilities.get(), rpcMessageLimit) : new NetconfDeviceCommunicator(remoteDeviceId, device, rpcMessageLimit);
    if (salFacade instanceof KeepaliveSalFacade) {
        ((KeepaliveSalFacade) salFacade).setListener(netconfDeviceCommunicator);
    }
    return new NetconfConnectorDTO(netconfDeviceCommunicator, salFacade, yanglibRegistrations);
}

Example 3 with UserPreferences

use of org.opendaylight.netconf.sal.connect.netconf.listener.UserPreferences in project netconf by opendaylight.

the class RemoteDeviceConnectorImpl method createDeviceCommunicator.

@VisibleForTesting
NetconfConnectorDTO createDeviceCommunicator(final NodeId nodeId, final NetconfNode node, final RemoteDeviceHandler<NetconfSessionPreferences> deviceHandler) {
    // setup default values since default value is not supported in mdsal
    final long defaultRequestTimeoutMillis = node.getDefaultRequestTimeoutMillis() == null ? NetconfTopologyUtils.DEFAULT_REQUEST_TIMEOUT_MILLIS : node.getDefaultRequestTimeoutMillis().toJava();
    final long keepaliveDelay = node.getKeepaliveDelay() == null ? NetconfTopologyUtils.DEFAULT_KEEPALIVE_DELAY : node.getKeepaliveDelay().toJava();
    final boolean reconnectOnChangedSchema = node.getReconnectOnChangedSchema() == null ? NetconfTopologyUtils.DEFAULT_RECONNECT_ON_CHANGED_SCHEMA : node.getReconnectOnChangedSchema();
    RemoteDeviceHandler<NetconfSessionPreferences> salFacade = requireNonNull(deviceHandler);
    if (keepaliveDelay > 0) {
        LOG.info("{}: Adding keepalive facade.", remoteDeviceId);
        salFacade = new KeepaliveSalFacade(remoteDeviceId, salFacade, netconfTopologyDeviceSetup.getKeepaliveExecutor(), keepaliveDelay, defaultRequestTimeoutMillis);
    }
    final NetconfDevice.SchemaResourcesDTO schemaResourcesDTO = netconfTopologyDeviceSetup.getSchemaResourcesDTO();
    // pre register yang library sources as fallback schemas to schema registry
    final List<SchemaSourceRegistration<?>> registeredYangLibSources = new ArrayList<>();
    if (node.getYangLibrary() != null) {
        final String yangLibURL = node.getYangLibrary().getYangLibraryUrl().getValue();
        final String yangLibUsername = node.getYangLibrary().getUsername();
        final String yangLigPassword = node.getYangLibrary().getPassword();
        final LibraryModulesSchemas libraryModulesSchemas;
        if (yangLibURL != null) {
            if (yangLibUsername != null && yangLigPassword != null) {
                libraryModulesSchemas = LibraryModulesSchemas.create(yangLibURL, yangLibUsername, yangLigPassword);
            } else {
                libraryModulesSchemas = LibraryModulesSchemas.create(yangLibURL);
            }
            for (final Map.Entry<SourceIdentifier, URL> sourceIdentifierURLEntry : libraryModulesSchemas.getAvailableModels().entrySet()) {
                registeredYangLibSources.add(schemaResourcesDTO.getSchemaRegistry().registerSchemaSource(new YangLibrarySchemaYangSourceProvider(remoteDeviceId, libraryModulesSchemas.getAvailableModels()), PotentialSchemaSource.create(sourceIdentifierURLEntry.getKey(), YangTextSchemaSource.class, PotentialSchemaSource.Costs.REMOTE_IO.getValue())));
            }
        }
    }
    final RemoteDevice<NetconfSessionPreferences, NetconfMessage, NetconfDeviceCommunicator> device;
    if (node.getSchemaless()) {
        device = new SchemalessNetconfDevice(netconfTopologyDeviceSetup.getBaseSchemas(), remoteDeviceId, salFacade);
    } else {
        device = new NetconfDeviceBuilder().setReconnectOnSchemasChange(reconnectOnChangedSchema).setSchemaResourcesDTO(schemaResourcesDTO).setGlobalProcessingExecutor(netconfTopologyDeviceSetup.getProcessingExecutor()).setBaseSchemas(netconfTopologyDeviceSetup.getBaseSchemas()).setId(remoteDeviceId).setDeviceActionFactory(deviceActionFactory).setSalFacade(salFacade).build();
    }
    final Optional<NetconfSessionPreferences> userCapabilities = getUserCapabilities(node);
    final int rpcMessageLimit = node.getConcurrentRpcLimit() == null ? NetconfTopologyUtils.DEFAULT_CONCURRENT_RPC_LIMIT : node.getConcurrentRpcLimit().toJava();
    if (rpcMessageLimit < 1) {
        LOG.info("{}: Concurrent rpc limit is smaller than 1, no limit will be enforced.", remoteDeviceId);
    }
    NetconfDeviceCommunicator netconfDeviceCommunicator = userCapabilities.isPresent() ? new NetconfDeviceCommunicator(remoteDeviceId, device, new UserPreferences(userCapabilities.get(), node.getYangModuleCapabilities() == null ? false : node.getYangModuleCapabilities().getOverride(), node.getNonModuleCapabilities() == null ? false : node.getNonModuleCapabilities().getOverride()), rpcMessageLimit) : new NetconfDeviceCommunicator(remoteDeviceId, device, rpcMessageLimit);
    if (salFacade instanceof KeepaliveSalFacade) {
        ((KeepaliveSalFacade) salFacade).setListener(netconfDeviceCommunicator);
    }
    return new NetconfConnectorDTO(netconfDeviceCommunicator, salFacade, registeredYangLibSources);
}