*/
package org.opendaylight.netconf.sal.connect.netconf;
-import com.google.common.base.Function;
-import com.google.common.base.Optional;
-import com.google.common.base.Preconditions;
+import static com.google.common.base.Preconditions.checkState;
+import static java.util.Objects.requireNonNull;
+
import com.google.common.base.Predicates;
import com.google.common.collect.Collections2;
import com.google.common.collect.Lists;
import com.google.common.collect.Sets;
-import com.google.common.util.concurrent.CheckedFuture;
+import com.google.common.util.concurrent.FluentFuture;
import com.google.common.util.concurrent.FutureCallback;
import com.google.common.util.concurrent.Futures;
import com.google.common.util.concurrent.ListenableFuture;
import com.google.common.util.concurrent.ListeningExecutorService;
import com.google.common.util.concurrent.MoreExecutors;
+import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.LinkedList;
import java.util.List;
+import java.util.Optional;
import java.util.Set;
import java.util.concurrent.Callable;
-import java.util.concurrent.ExecutorService;
+import java.util.concurrent.ExecutionException;
import java.util.stream.Collectors;
-import org.opendaylight.controller.md.sal.dom.api.DOMNotification;
-import org.opendaylight.controller.md.sal.dom.api.DOMRpcException;
-import org.opendaylight.controller.md.sal.dom.api.DOMRpcResult;
-import org.opendaylight.controller.md.sal.dom.api.DOMRpcService;
+import org.checkerframework.checker.lock.qual.GuardedBy;
+import org.opendaylight.mdsal.dom.api.DOMNotification;
+import org.opendaylight.mdsal.dom.api.DOMRpcResult;
+import org.opendaylight.mdsal.dom.api.DOMRpcService;
import org.opendaylight.netconf.api.NetconfMessage;
+import org.opendaylight.netconf.sal.connect.api.DeviceActionFactory;
import org.opendaylight.netconf.sal.connect.api.MessageTransformer;
import org.opendaylight.netconf.sal.connect.api.NetconfDeviceSchemas;
import org.opendaylight.netconf.sal.connect.api.NetconfDeviceSchemasResolver;
import org.opendaylight.netconf.sal.connect.netconf.util.NetconfMessageTransformUtil;
import org.opendaylight.netconf.sal.connect.util.RemoteDeviceId;
import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.netconf.notifications.rev120206.NetconfCapabilityChange;
-import org.opendaylight.yang.gen.v1.urn.opendaylight.netconf.node.topology.rev150114.netconf.node.connection.status.available.capabilities.AvailableCapability;
import org.opendaylight.yang.gen.v1.urn.opendaylight.netconf.node.topology.rev150114.netconf.node.connection.status.available.capabilities.AvailableCapabilityBuilder;
import org.opendaylight.yang.gen.v1.urn.opendaylight.netconf.node.topology.rev150114.netconf.node.connection.status.unavailable.capabilities.UnavailableCapability;
import org.opendaylight.yangtools.yang.common.QName;
import org.opendaylight.yangtools.yang.model.repo.api.SchemaContextFactory;
import org.opendaylight.yangtools.yang.model.repo.api.SchemaRepository;
import org.opendaylight.yangtools.yang.model.repo.api.SchemaResolutionException;
-import org.opendaylight.yangtools.yang.model.repo.api.SchemaSourceException;
import org.opendaylight.yangtools.yang.model.repo.api.SchemaSourceRepresentation;
import org.opendaylight.yangtools.yang.model.repo.api.SourceIdentifier;
import org.opendaylight.yangtools.yang.model.repo.api.YangTextSchemaSource;
import org.opendaylight.yangtools.yang.model.repo.spi.SchemaSourceProvider;
import org.opendaylight.yangtools.yang.model.repo.spi.SchemaSourceRegistration;
import org.opendaylight.yangtools.yang.model.repo.spi.SchemaSourceRegistry;
-import org.opendaylight.yangtools.yang.parser.util.ASTSchemaSource;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
- * This is a mediator between NetconfDeviceCommunicator and NetconfDeviceSalFacade
+ * This is a mediator between NetconfDeviceCommunicator and NetconfDeviceSalFacade.
*/
-public class NetconfDevice implements RemoteDevice<NetconfSessionPreferences, NetconfMessage, NetconfDeviceCommunicator> {
+public class NetconfDevice
+ implements RemoteDevice<NetconfSessionPreferences, NetconfMessage, NetconfDeviceCommunicator> {
private static final Logger LOG = LoggerFactory.getLogger(NetconfDevice.class);
- public static final Function<QName, SourceIdentifier> QNAME_TO_SOURCE_ID_FUNCTION =
- input -> RevisionSourceIdentifier.create(input.getLocalName(),
- Optional.fromNullable(input.getFormattedRevision()));
-
protected final RemoteDeviceId id;
- private final boolean reconnectOnSchemasChange;
-
protected final SchemaContextFactory schemaContextFactory;
- private final RemoteDeviceHandler<NetconfSessionPreferences> salFacade;
- private final ListeningExecutorService processingExecutor;
protected final SchemaSourceRegistry schemaRegistry;
protected final SchemaRepository schemaRepository;
+
+ protected final List<SchemaSourceRegistration<? extends SchemaSourceRepresentation>> sourceRegistrations =
+ new ArrayList<>();
+
+ private final RemoteDeviceHandler<NetconfSessionPreferences> salFacade;
+ private final ListeningExecutorService processingExecutor;
+ private final DeviceActionFactory deviceActionFactory;
private final NetconfDeviceSchemasResolver stateSchemasResolver;
private final NotificationHandler notificationHandler;
- protected final List<SchemaSourceRegistration<? extends SchemaSourceRepresentation>> sourceRegistrations = Lists.newArrayList();
+ private final boolean reconnectOnSchemasChange;
+
+ @GuardedBy("this")
+ private boolean connected = false;
// Message transformer is constructed once the schemas are available
private MessageTransformer<NetconfMessage> messageTransformer;
/**
- * Create rpc implementation capable of handling RPC for monitoring and notifications even before the schemas of remote device are downloaded
+ * Create rpc implementation capable of handling RPC for monitoring and notifications
+ * even before the schemas of remote device are downloaded.
*/
- static NetconfDeviceRpc getRpcForInitialization(final NetconfDeviceCommunicator listener, final boolean notificationSupport) {
- final BaseSchema baseSchema = notificationSupport ?
- BaseSchema.BASE_NETCONF_CTX_WITH_NOTIFICATIONS :
- BaseSchema.BASE_NETCONF_CTX;
+ static NetconfDeviceRpc getRpcForInitialization(final NetconfDeviceCommunicator listener,
+ final boolean notificationSupport) {
+ final BaseSchema baseSchema = notificationSupport
+ ? BaseSchema.BASE_NETCONF_CTX_WITH_NOTIFICATIONS
+ : BaseSchema.BASE_NETCONF_CTX;
+
+ return new NetconfDeviceRpc(baseSchema.getSchemaContext(), listener,
+ new NetconfMessageTransformer(baseSchema.getSchemaContext(), false, baseSchema));
+ }
- return new NetconfDeviceRpc(baseSchema.getSchemaContext(), listener, new NetconfMessageTransformer(baseSchema.getSchemaContext(), false, baseSchema));
+ public NetconfDevice(final SchemaResourcesDTO schemaResourcesDTO, final RemoteDeviceId id,
+ final RemoteDeviceHandler<NetconfSessionPreferences> salFacade,
+ final ListeningExecutorService globalProcessingExecutor,
+ final boolean reconnectOnSchemasChange) {
+ this(schemaResourcesDTO, id, salFacade, globalProcessingExecutor, reconnectOnSchemasChange, null);
}
- public NetconfDevice(final SchemaResourcesDTO schemaResourcesDTO, final RemoteDeviceId id, final RemoteDeviceHandler<NetconfSessionPreferences> salFacade,
- final ExecutorService globalProcessingExecutor, final boolean reconnectOnSchemasChange) {
+ public NetconfDevice(final SchemaResourcesDTO schemaResourcesDTO, final RemoteDeviceId id,
+ final RemoteDeviceHandler<NetconfSessionPreferences> salFacade,
+ final ListeningExecutorService globalProcessingExecutor, final boolean reconnectOnSchemasChange,
+ final DeviceActionFactory deviceActionFactory) {
this.id = id;
this.reconnectOnSchemasChange = reconnectOnSchemasChange;
+ this.deviceActionFactory = deviceActionFactory;
this.schemaRegistry = schemaResourcesDTO.getSchemaRegistry();
this.schemaRepository = schemaResourcesDTO.getSchemaRepository();
this.schemaContextFactory = schemaResourcesDTO.getSchemaContextFactory();
this.salFacade = salFacade;
this.stateSchemasResolver = schemaResourcesDTO.getStateSchemasResolver();
- this.processingExecutor = MoreExecutors.listeningDecorator(globalProcessingExecutor);
+ this.processingExecutor = requireNonNull(globalProcessingExecutor);
this.notificationHandler = new NotificationHandler(salFacade, id);
}
// Yang models are being downloaded in this method and it would cause a
// deadlock if we used the netty thread
// http://netty.io/wiki/thread-model.html
+ setConnected(true);
LOG.debug("{}: Session to remote device established with {}", id, remoteSessionCapabilities);
- final NetconfDeviceRpc initRpc = getRpcForInitialization(listener, remoteSessionCapabilities.isNotificationsSupported());
- final DeviceSourcesResolver task = new DeviceSourcesResolver(remoteSessionCapabilities, id, stateSchemasResolver, initRpc);
+ final NetconfDeviceRpc initRpc =
+ getRpcForInitialization(listener, remoteSessionCapabilities.isNotificationsSupported());
+ final DeviceSourcesResolver task =
+ new DeviceSourcesResolver(remoteSessionCapabilities, id, stateSchemasResolver, initRpc);
final ListenableFuture<DeviceSources> sourceResolverFuture = processingExecutor.submit(task);
if (shouldListenOnSchemaChange(remoteSessionCapabilities)) {
}
@Override
- public void onFailure(final Throwable t) {
- LOG.warn("{}: Unexpected error resolving device sources: {}", id, t);
- handleSalInitializationFailure(t, listener);
+ public void onFailure(final Throwable throwable) {
+ LOG.warn("{}: Unexpected error resolving device sources", id, throwable);
+ handleSalInitializationFailure(throwable, listener);
}
};
- Futures.addCallback(sourceResolverFuture, resolvedSourceCallback);
+ Futures.addCallback(sourceResolverFuture, resolvedSourceCallback, MoreExecutors.directExecutor());
}
- private void registerToBaseNetconfStream(final NetconfDeviceRpc deviceRpc, final NetconfDeviceCommunicator listener) {
- // TODO check whether the model describing create subscription is present in schema
- // Perhaps add a default schema context to support create-subscription if the model was not provided (same as what we do for base netconf operations in transformer)
- final CheckedFuture<DOMRpcResult, DOMRpcException> rpcResultListenableFuture = deviceRpc.invokeRpc(
- NetconfMessageTransformUtil.toPath(NetconfMessageTransformUtil.CREATE_SUBSCRIPTION_RPC_QNAME),
- NetconfMessageTransformUtil.CREATE_SUBSCRIPTION_RPC_CONTENT);
+ private void registerToBaseNetconfStream(final NetconfDeviceRpc deviceRpc,
+ final NetconfDeviceCommunicator listener) {
+ // TODO check whether the model describing create subscription is present in schema
+ // Perhaps add a default schema context to support create-subscription if the model was not provided
+ // (same as what we do for base netconf operations in transformer)
+ final FluentFuture<DOMRpcResult> rpcResultListenableFuture = deviceRpc.invokeRpc(
+ NetconfMessageTransformUtil.toPath(NetconfMessageTransformUtil.CREATE_SUBSCRIPTION_RPC_QNAME),
+ NetconfMessageTransformUtil.CREATE_SUBSCRIPTION_RPC_CONTENT);
final NotificationHandler.NotificationFilter filter = new NotificationHandler.NotificationFilter() {
@Override
public Optional<DOMNotification> filterNotification(final DOMNotification notification) {
if (isCapabilityChanged(notification)) {
LOG.info("{}: Schemas change detected, reconnecting", id);
- // Only disconnect is enough, the reconnecting nature of the connector will take care of reconnecting
+ // Only disconnect is enough,
+ // the reconnecting nature of the connector will take care of reconnecting
listener.disconnect();
- return Optional.absent();
+ return Optional.empty();
}
return Optional.of(notification);
}
}
@Override
- public void onFailure(final Throwable t) {
- LOG.warn("Unable to subscribe to base notification stream. Schemas will not be reloaded on the fly", t);
+ public void onFailure(final Throwable throwable) {
+ LOG.warn("Unable to subscribe to base notification stream. Schemas will not be reloaded on the fly",
+ throwable);
}
- });
+ }, MoreExecutors.directExecutor());
}
private boolean shouldListenOnSchemaChange(final NetconfSessionPreferences remoteSessionCapabilities) {
return remoteSessionCapabilities.isNotificationsSupported() && reconnectOnSchemasChange;
}
- void handleSalInitializationSuccess(final SchemaContext result, final NetconfSessionPreferences remoteSessionCapabilities, final DOMRpcService deviceRpc) {
- final BaseSchema baseSchema =
- remoteSessionCapabilities.isNotificationsSupported() ?
- BaseSchema.BASE_NETCONF_CTX_WITH_NOTIFICATIONS :
- BaseSchema.BASE_NETCONF_CTX;
- messageTransformer = new NetconfMessageTransformer(result, true, baseSchema);
-
- updateTransformer(messageTransformer);
- // salFacade.onDeviceConnected has to be called before the notification handler is initialized
- salFacade.onDeviceConnected(result, remoteSessionCapabilities, deviceRpc);
- notificationHandler.onRemoteSchemaUp(messageTransformer);
-
- LOG.info("{}: Netconf connector initialized successfully", id);
+ private synchronized void handleSalInitializationSuccess(final SchemaContext result,
+ final NetconfSessionPreferences remoteSessionCapabilities,
+ final DOMRpcService deviceRpc,
+ final RemoteDeviceCommunicator<NetconfMessage> listener) {
+ //NetconfDevice.SchemaSetup can complete after NetconfDeviceCommunicator was closed. In that case do nothing,
+ //since salFacade.onDeviceDisconnected was already called.
+ if (connected) {
+ final BaseSchema baseSchema =
+ remoteSessionCapabilities.isNotificationsSupported()
+ ? BaseSchema.BASE_NETCONF_CTX_WITH_NOTIFICATIONS : BaseSchema.BASE_NETCONF_CTX;
+ this.messageTransformer = new NetconfMessageTransformer(result, true, baseSchema);
+
+ updateTransformer(this.messageTransformer);
+ // salFacade.onDeviceConnected has to be called before the notification handler is initialized
+ this.salFacade.onDeviceConnected(result, remoteSessionCapabilities, deviceRpc,
+ this.deviceActionFactory == null ? null : this.deviceActionFactory.createDeviceAction(
+ this.messageTransformer, listener, result));
+ this.notificationHandler.onRemoteSchemaUp(this.messageTransformer);
+
+ LOG.info("{}: Netconf connector initialized successfully", id);
+ } else {
+ LOG.warn("{}: Device communicator was closed before schema setup finished.", id);
+ }
}
- void handleSalInitializationFailure(final Throwable t, final RemoteDeviceCommunicator<NetconfMessage> listener) {
- LOG.error("{}: Initialization in sal failed, disconnecting from device", id, t);
+ private void handleSalInitializationFailure(final Throwable throwable,
+ final RemoteDeviceCommunicator<NetconfMessage> listener) {
+ LOG.error("{}: Initialization in sal failed, disconnecting from device", id, throwable);
listener.close();
onRemoteSessionDown();
resetMessageTransformer();
}
/**
- * Set the transformer to null as is in initial state
+ * Set the transformer to null as is in initial state.
*/
private void resetMessageTransformer() {
updateTransformer(null);
}
- private void updateTransformer(final MessageTransformer<NetconfMessage> transformer) {
+ private synchronized void updateTransformer(final MessageTransformer<NetconfMessage> transformer) {
messageTransformer = transformer;
}
+ private synchronized void setConnected(final boolean connected) {
+ this.connected = connected;
+ }
+
private void addProvidedSourcesToSchemaRegistry(final DeviceSources deviceSources) {
final SchemaSourceProvider<YangTextSchemaSource> yangProvider = deviceSources.getSourceProvider();
for (final SourceIdentifier sourceId : deviceSources.getProvidedSources()) {
sourceRegistrations.add(schemaRegistry.registerSchemaSource(yangProvider,
- PotentialSchemaSource.create(sourceId, YangTextSchemaSource.class, PotentialSchemaSource.Costs.REMOTE_IO.getValue())));
+ PotentialSchemaSource.create(
+ sourceId, YangTextSchemaSource.class, PotentialSchemaSource.Costs.REMOTE_IO.getValue())));
}
}
@Override
public void onRemoteSessionDown() {
+ setConnected(false);
notificationHandler.onRemoteSchemaDown();
salFacade.onDeviceDisconnected();
- for (final SchemaSourceRegistration<? extends SchemaSourceRepresentation> sourceRegistration : sourceRegistrations) {
+ for (final SchemaSourceRegistration<? extends SchemaSourceRepresentation> sourceRegistration
+ : sourceRegistrations) {
sourceRegistration.close();
}
resetMessageTransformer();
@Override
public void onRemoteSessionFailed(final Throwable throwable) {
+ setConnected(false);
salFacade.onDeviceFailed(throwable);
}
final SchemaRepository schemaRepository,
final SchemaContextFactory schemaContextFactory,
final NetconfDeviceSchemasResolver deviceSchemasResolver) {
- this.schemaRegistry = Preconditions.checkNotNull(schemaRegistry);
- this.schemaRepository = Preconditions.checkNotNull(schemaRepository);
- this.schemaContextFactory = Preconditions.checkNotNull(schemaContextFactory);
- this.stateSchemasResolver = Preconditions.checkNotNull(deviceSchemasResolver);
+ this.schemaRegistry = requireNonNull(schemaRegistry);
+ this.schemaRepository = requireNonNull(schemaRepository);
+ this.schemaContextFactory = requireNonNull(schemaContextFactory);
+ this.stateSchemasResolver = requireNonNull(deviceSchemasResolver);
}
public SchemaSourceRegistry getSchemaRegistry() {
private final RemoteDeviceId id;
private final NetconfDeviceSchemasResolver stateSchemasResolver;
- DeviceSourcesResolver(final NetconfDeviceRpc deviceRpc, final NetconfSessionPreferences remoteSessionCapabilities,
- final RemoteDeviceId id, final NetconfDeviceSchemasResolver stateSchemasResolver) {
+ DeviceSourcesResolver(final NetconfDeviceRpc deviceRpc,
+ final NetconfSessionPreferences remoteSessionCapabilities,
+ final RemoteDeviceId id, final NetconfDeviceSchemasResolver stateSchemasResolver) {
this.deviceRpc = deviceRpc;
this.remoteSessionCapabilities = remoteSessionCapabilities;
this.id = id;
this.stateSchemasResolver = stateSchemasResolver;
}
- public DeviceSourcesResolver(final NetconfSessionPreferences remoteSessionCapabilities, final RemoteDeviceId id, final NetconfDeviceSchemasResolver stateSchemasResolver, final NetconfDeviceRpc rpcForMonitoring) {
+ DeviceSourcesResolver(final NetconfSessionPreferences remoteSessionCapabilities, final RemoteDeviceId id,
+ final NetconfDeviceSchemasResolver stateSchemasResolver,
+ final NetconfDeviceRpc rpcForMonitoring) {
this(rpcForMonitoring, remoteSessionCapabilities, id, stateSchemasResolver);
}
@Override
- public DeviceSources call() throws Exception {
- final NetconfDeviceSchemas availableSchemas = stateSchemasResolver.resolve(deviceRpc, remoteSessionCapabilities, id);
- LOG.debug("{}: Schemas exposed by ietf-netconf-monitoring: {}", id, availableSchemas.getAvailableYangSchemasQNames());
+ public DeviceSources call() {
+ final NetconfDeviceSchemas availableSchemas =
+ stateSchemasResolver.resolve(deviceRpc, remoteSessionCapabilities, id);
+ LOG.debug("{}: Schemas exposed by ietf-netconf-monitoring: {}", id,
+ availableSchemas.getAvailableYangSchemasQNames());
final Set<QName> requiredSources = Sets.newHashSet(remoteSessionCapabilities.getModuleBasedCaps());
final Set<QName> providedSources = availableSchemas.getAvailableYangSchemasQNames();
final Set<QName> requiredSourcesNotProvided = Sets.difference(requiredSources, providedSources);
if (!requiredSourcesNotProvided.isEmpty()) {
- LOG.warn("{}: Netconf device does not provide all yang models reported in hello message capabilities, required but not provided: {}",
- id, requiredSourcesNotProvided);
+ LOG.warn("{}: Netconf device does not provide all yang models reported in hello message capabilities,"
+ + " required but not provided: {}", id, requiredSourcesNotProvided);
LOG.warn("{}: Attempting to build schema context from required sources", id);
}
// Here all the sources reported in netconf monitoring are merged with those reported in hello.
// It is necessary to perform this since submodules are not mentioned in hello but still required.
- // This clashes with the option of a user to specify supported yang models manually in configuration for netconf-connector
- // and as a result one is not able to fully override yang models of a device. It is only possible to add additional models.
+ // This clashes with the option of a user to specify supported yang models manually in configuration
+ // for netconf-connector and as a result one is not able to fully override yang models of a device.
+ // It is only possible to add additional models.
final Set<QName> providedSourcesNotRequired = Sets.difference(providedSources, requiredSources);
if (!providedSourcesNotRequired.isEmpty()) {
- LOG.warn("{}: Netconf device provides additional yang models not reported in hello message capabilities: {}",
- id, providedSourcesNotRequired);
+ LOG.warn("{}: Netconf device provides additional yang models not reported in "
+ + "hello message capabilities: {}", id, providedSourcesNotRequired);
LOG.warn("{}: Adding provided but not required sources as required to prevent failures", id);
LOG.debug("{}: Netconf device reported in hello: {}", id, requiredSources);
requiredSources.addAll(providedSourcesNotRequired);
}
final SchemaSourceProvider<YangTextSchemaSource> sourceProvider;
- if(availableSchemas instanceof LibraryModulesSchemas) {
+ if (availableSchemas instanceof LibraryModulesSchemas) {
sourceProvider = new YangLibrarySchemaYangSourceProvider(id,
((LibraryModulesSchemas) availableSchemas).getAvailableModels());
} else {
private final Set<QName> providedSources;
private final SchemaSourceProvider<YangTextSchemaSource> sourceProvider;
- public DeviceSources(final Set<QName> requiredSources, final Set<QName> providedSources,
+ DeviceSources(final Set<QName> requiredSources, final Set<QName> providedSources,
final SchemaSourceProvider<YangTextSchemaSource> sourceProvider) {
this.requiredSources = requiredSources;
this.providedSources = providedSources;
}
public Collection<SourceIdentifier> getRequiredSources() {
- return Collections2.transform(requiredSources, QNAME_TO_SOURCE_ID_FUNCTION);
+ return Collections2.transform(requiredSources, DeviceSources::toSourceId);
}
public Collection<SourceIdentifier> getProvidedSources() {
- return Collections2.transform(providedSources, QNAME_TO_SOURCE_ID_FUNCTION);
+ return Collections2.transform(providedSources, DeviceSources::toSourceId);
}
public SchemaSourceProvider<YangTextSchemaSource> getSourceProvider() {
return sourceProvider;
}
+
+ private static SourceIdentifier toSourceId(final QName input) {
+ return RevisionSourceIdentifier.create(input.getLocalName(), input.getRevision());
+ }
}
/**
private final RemoteDeviceCommunicator<NetconfMessage> listener;
private final NetconfDeviceCapabilities capabilities;
- public SchemaSetup(final DeviceSources deviceSources, final NetconfSessionPreferences remoteSessionCapabilities, final RemoteDeviceCommunicator<NetconfMessage> listener) {
+ SchemaSetup(final DeviceSources deviceSources, final NetconfSessionPreferences remoteSessionCapabilities,
+ final RemoteDeviceCommunicator<NetconfMessage> listener) {
this.deviceSources = deviceSources;
this.remoteSessionCapabilities = remoteSessionCapabilities;
this.listener = listener;
}
private Collection<SourceIdentifier> filterMissingSources(final Collection<SourceIdentifier> requiredSources) {
-
return requiredSources.parallelStream().filter(sourceIdentifier -> {
- boolean remove = false;
- try {
- schemaRepository.getSchemaSource(sourceIdentifier, ASTSchemaSource.class).checkedGet();
- } catch (SchemaSourceException e) {
- remove = true;
- }
- return remove;
- }).collect(Collectors.toList());
+ try {
+ schemaRepository.getSchemaSource(sourceIdentifier, YangTextSchemaSource.class).get();
+ return false;
+ } catch (InterruptedException | ExecutionException e) {
+ return true;
+ }
+ }).collect(Collectors.toList());
}
/**
- * Build schema context, in case of success or final failure notify device
+ * Build schema context, in case of success or final failure notify device.
+ *
+ * @param requiredSources required sources
*/
+ @SuppressWarnings("checkstyle:IllegalCatch")
private void setUpSchema(Collection<SourceIdentifier> requiredSources) {
while (!requiredSources.isEmpty()) {
LOG.trace("{}: Trying to build schema context from {}", id, requiredSources);
try {
- final CheckedFuture<SchemaContext, SchemaResolutionException> schemaBuilderFuture = schemaContextFactory.createSchemaContext(requiredSources);
- final SchemaContext result = schemaBuilderFuture.checkedGet();
+ final ListenableFuture<SchemaContext> schemaBuilderFuture = schemaContextFactory
+ .createSchemaContext(requiredSources);
+ final SchemaContext result = schemaBuilderFuture.get();
LOG.debug("{}: Schema context built successfully from {}", id, requiredSources);
- final Collection<QName> filteredQNames = Sets.difference(deviceSources.getRequiredSourcesQName(), capabilities.getUnresolvedCapabilites().keySet());
+ final Collection<QName> filteredQNames = Sets.difference(deviceSources.getRequiredSourcesQName(),
+ capabilities.getUnresolvedCapabilites().keySet());
capabilities.addCapabilities(filteredQNames.stream().map(entry -> new AvailableCapabilityBuilder()
- .setCapability(entry.toString()).setCapabilityOrigin(remoteSessionCapabilities.getModuleBasedCapsOrigin().get(entry)).build())
+ .setCapability(entry.toString()).setCapabilityOrigin(
+ remoteSessionCapabilities.getModuleBasedCapsOrigin().get(entry)).build())
.collect(Collectors.toList()));
- capabilities.addNonModuleBasedCapabilities(remoteSessionCapabilities.getNonModuleCaps().stream().map(entry -> new AvailableCapabilityBuilder()
- .setCapability(entry).setCapabilityOrigin(AvailableCapability.CapabilityOrigin.DeviceAdvertised).build())
+ capabilities.addNonModuleBasedCapabilities(remoteSessionCapabilities
+ .getNonModuleCaps().stream().map(entry -> new AvailableCapabilityBuilder()
+ .setCapability(entry).setCapabilityOrigin(
+ remoteSessionCapabilities.getNonModuleBasedCapsOrigin().get(entry)).build())
.collect(Collectors.toList()));
- handleSalInitializationSuccess(result, remoteSessionCapabilities, getDeviceSpecificRpc(result));
+ handleSalInitializationSuccess(result, remoteSessionCapabilities, getDeviceSpecificRpc(result),
+ listener);
return;
- } catch (final Throwable t) {
- if (t instanceof MissingSchemaSourceException){
- requiredSources = handleMissingSchemaSourceException(requiredSources, (MissingSchemaSourceException) t);
- } else if (t instanceof SchemaResolutionException) {
- // schemaBuilderFuture.checkedGet() throws only SchemaResolutionException
- // that might be wrapping a MissingSchemaSourceException so we need to look
- // at the cause of the exception to make sure we don't misinterpret it.
- if (t.getCause() instanceof MissingSchemaSourceException) {
- requiredSources = handleMissingSchemaSourceException(requiredSources, (MissingSchemaSourceException) t.getCause());
- continue;
- }
- requiredSources = handleSchemaResolutionException(requiredSources, (SchemaResolutionException) t);
+ } catch (final ExecutionException e) {
+ // schemaBuilderFuture.checkedGet() throws only SchemaResolutionException
+ // that might be wrapping a MissingSchemaSourceException so we need to look
+ // at the cause of the exception to make sure we don't misinterpret it.
+ final Throwable cause = e.getCause();
+
+ if (cause instanceof MissingSchemaSourceException) {
+ requiredSources = handleMissingSchemaSourceException(
+ requiredSources, (MissingSchemaSourceException) cause);
+ continue;
+ }
+ if (cause instanceof SchemaResolutionException) {
+ requiredSources = handleSchemaResolutionException(requiredSources,
+ (SchemaResolutionException) cause);
} else {
- // unknown error, fail
- handleSalInitializationFailure(t, listener);
+ handleSalInitializationFailure(e, listener);
return;
}
+ } catch (final Exception e) {
+ // unknown error, fail
+ handleSalInitializationFailure(e, listener);
+ return;
}
}
// No more sources, fail
salFacade.onDeviceFailed(cause);
}
- private Collection<SourceIdentifier> handleMissingSchemaSourceException(final Collection<SourceIdentifier> requiredSources, final MissingSchemaSourceException t) {
+ private Collection<SourceIdentifier> handleMissingSchemaSourceException(
+ final Collection<SourceIdentifier> requiredSources, final MissingSchemaSourceException exception) {
// In case source missing, try without it
- final SourceIdentifier missingSource = t.getSourceId();
- LOG.warn("{}: Unable to build schema context, missing source {}, will reattempt without it", id, missingSource);
- LOG.debug("{}: Unable to build schema context, missing source {}, will reattempt without it", t);
- final Collection<QName> qNameOfMissingSource = getQNameFromSourceIdentifiers(Sets.newHashSet(missingSource));
+ final SourceIdentifier missingSource = exception.getSourceId();
+ LOG.warn("{}: Unable to build schema context, missing source {}, will reattempt without it",
+ id, missingSource);
+ LOG.debug("{}: Unable to build schema context, missing source {}, will reattempt without it",
+ id, missingSource, exception);
+ final Collection<QName> qNameOfMissingSource =
+ getQNameFromSourceIdentifiers(Sets.newHashSet(missingSource));
if (!qNameOfMissingSource.isEmpty()) {
- capabilities.addUnresolvedCapabilities(qNameOfMissingSource, UnavailableCapability.FailureReason.MissingSource);
+ capabilities.addUnresolvedCapabilities(
+ qNameOfMissingSource, UnavailableCapability.FailureReason.MissingSource);
}
return stripUnavailableSource(requiredSources, missingSource);
}
- private Collection<SourceIdentifier> handleSchemaResolutionException(final Collection<SourceIdentifier> requiredSources, final SchemaResolutionException resolutionException) {
+ private Collection<SourceIdentifier> handleSchemaResolutionException(
+ final Collection<SourceIdentifier> requiredSources, final SchemaResolutionException resolutionException) {
// In case resolution error, try only with resolved sources
// There are two options why schema resolution exception occurred : unsatisfied imports or flawed model
// FIXME Do we really have assurance that these two cases cannot happen at once?
if (resolutionException.getFailedSource() != null) {
// flawed model - exclude it
final SourceIdentifier failedSourceId = resolutionException.getFailedSource();
- LOG.warn("{}: Unable to build schema context, failed to resolve source {}, will reattempt without it", id, failedSourceId);
- LOG.warn("{}: Unable to build schema context, failed to resolve source {}, will reattempt without it", id, resolutionException);
- capabilities.addUnresolvedCapabilities(getQNameFromSourceIdentifiers(Collections.singleton(failedSourceId)),
+ LOG.warn("{}: Unable to build schema context, failed to resolve source {}, will reattempt without it",
+ id, failedSourceId);
+ LOG.warn("{}: Unable to build schema context, failed to resolve source {}, will reattempt without it",
+ id, failedSourceId, resolutionException);
+ capabilities.addUnresolvedCapabilities(
+ getQNameFromSourceIdentifiers(Collections.singleton(failedSourceId)),
UnavailableCapability.FailureReason.UnableToResolve);
return stripUnavailableSource(requiredSources, resolutionException.getFailedSource());
}
// unsatisfied imports
final Set<SourceIdentifier> unresolvedSources = resolutionException.getUnsatisfiedImports().keySet();
- capabilities.addUnresolvedCapabilities(getQNameFromSourceIdentifiers(unresolvedSources), UnavailableCapability.FailureReason.UnableToResolve);
- LOG.warn("{}: Unable to build schema context, unsatisfied imports {}, will reattempt with resolved only", id, resolutionException.getUnsatisfiedImports());
- LOG.debug("{}: Unable to build schema context, unsatisfied imports {}, will reattempt with resolved only", resolutionException);
+ capabilities.addUnresolvedCapabilities(getQNameFromSourceIdentifiers(unresolvedSources),
+ UnavailableCapability.FailureReason.UnableToResolve);
+ LOG.warn("{}: Unable to build schema context, unsatisfied imports {}, will reattempt with resolved only",
+ id, resolutionException.getUnsatisfiedImports());
+ LOG.debug("{}: Unable to build schema context, unsatisfied imports {}, will reattempt with resolved only",
+ id, resolutionException.getUnsatisfiedImports(), resolutionException);
return resolutionException.getResolvedSources();
}
return new NetconfDeviceRpc(result, listener, new NetconfMessageTransformer(result, true));
}
- private Collection<SourceIdentifier> stripUnavailableSource(final Collection<SourceIdentifier> requiredSources, final SourceIdentifier sIdToRemove) {
+ private Collection<SourceIdentifier> stripUnavailableSource(final Collection<SourceIdentifier> requiredSources,
+ final SourceIdentifier sourceIdToRemove) {
final LinkedList<SourceIdentifier> sourceIdentifiers = Lists.newLinkedList(requiredSources);
- final boolean removed = sourceIdentifiers.remove(sIdToRemove);
- Preconditions.checkState(removed, "{}: Trying to remove {} from {} failed", id, sIdToRemove, requiredSources);
+ checkState(sourceIdentifiers.remove(sourceIdToRemove),
+ "%s: Trying to remove %s from %s failed", id, sourceIdToRemove, requiredSources);
return sourceIdentifiers;
}
final Collection<QName> qNames = Collections2.transform(identifiers, this::getQNameFromSourceIdentifier);
if (qNames.isEmpty()) {
- LOG.debug("{}: Unable to map any source identifiers to a capability reported by device : {}", id, identifiers);
+ LOG.debug("{}: Unable to map any source identifiers to a capability reported by device : {}", id,
+ identifiers);
}
return Collections2.filter(qNames, Predicates.notNull());
}
continue;
}
- final String rev = getNullableRev(identifier);
- if (rev == null) {
- if (qname.getRevision() == null) {
- return qname;
- }
- } else if (qname.getFormattedRevision().equals(rev)) {
+ if (identifier.getRevision().equals(qname.getRevision())) {
return qname;
}
}
- LOG.warn("Unable to map identifier to a devices reported capability: {} Available: {}",identifier, deviceSources.getRequiredSourcesQName());
- // return null since we cannot find the QName, this capability will be removed from required sources and not reported as unresolved-capability
+ LOG.warn("Unable to map identifier to a devices reported capability: {} Available: {}",identifier,
+ deviceSources.getRequiredSourcesQName());
+ // return null since we cannot find the QName,
+ // this capability will be removed from required sources and not reported as unresolved-capability
return null;
}
-
- private String getNullableRev(final SourceIdentifier identifier) {
- final String rev = identifier.getRevision();
- return rev == null || SourceIdentifier.NOT_PRESENT_FORMATTED_REVISION.equals(rev) ? null : rev;
- }
}
}