import java.math.BigDecimal;
import java.net.InetSocketAddress;
import java.net.URL;
-import java.util.Collection;
-import java.util.Collections;
+import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import org.opendaylight.controller.config.threadpool.ThreadPool;
import org.opendaylight.controller.md.sal.binding.api.DataBroker;
import org.opendaylight.controller.md.sal.dom.api.DOMMountPointService;
-import org.opendaylight.controller.sal.binding.api.BindingAwareBroker;
-import org.opendaylight.controller.sal.binding.api.BindingAwareBroker.ProviderContext;
-import org.opendaylight.controller.sal.binding.api.BindingAwareProvider;
-import org.opendaylight.controller.sal.core.api.Broker;
-import org.opendaylight.controller.sal.core.api.Broker.ProviderSession;
-import org.opendaylight.controller.sal.core.api.Provider;
import org.opendaylight.netconf.api.NetconfMessage;
import org.opendaylight.netconf.client.NetconfClientDispatcher;
import org.opendaylight.netconf.client.NetconfClientSessionListener;
import org.opendaylight.netconf.sal.connect.netconf.LibraryModulesSchemas;
import org.opendaylight.netconf.sal.connect.netconf.NetconfDevice;
import org.opendaylight.netconf.sal.connect.netconf.NetconfDeviceBuilder;
-import org.opendaylight.netconf.sal.connect.netconf.NetconfStateSchemas;
+import org.opendaylight.netconf.sal.connect.netconf.NetconfStateSchemasResolverImpl;
import org.opendaylight.netconf.sal.connect.netconf.SchemalessNetconfDevice;
import org.opendaylight.netconf.sal.connect.netconf.listener.NetconfDeviceCapabilities;
import org.opendaylight.netconf.sal.connect.netconf.listener.NetconfDeviceCommunicator;
import org.opendaylight.netconf.sal.connect.netconf.sal.KeepaliveSalFacade;
import org.opendaylight.netconf.sal.connect.netconf.schema.YangLibrarySchemaYangSourceProvider;
import org.opendaylight.netconf.sal.connect.util.RemoteDeviceId;
-import org.opendaylight.netconf.topology.pipeline.TopologyMountPointFacade.ConnectionStatusListenerRegistration;
+import org.opendaylight.netconf.topology.api.NetconfTopology;
+import org.opendaylight.netconf.topology.api.SchemaRepositoryProvider;
import org.opendaylight.protocol.framework.ReconnectStrategy;
import org.opendaylight.protocol.framework.ReconnectStrategyFactory;
import org.opendaylight.protocol.framework.TimedReconnectStrategy;
-import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.inet.types.rev100924.Host;
-import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.inet.types.rev100924.IpAddress;
+import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.inet.types.rev130715.Host;
+import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.inet.types.rev130715.IpAddress;
import org.opendaylight.yang.gen.v1.urn.opendaylight.netconf.node.topology.rev150114.NetconfNode;
+import org.opendaylight.yang.gen.v1.urn.opendaylight.netconf.node.topology.rev150114.netconf.node.connection.status.available.capabilities.AvailableCapability.CapabilityOrigin;
import org.opendaylight.yang.gen.v1.urn.opendaylight.netconf.node.topology.rev150114.netconf.node.credentials.Credentials;
import org.opendaylight.yang.gen.v1.urn.tbd.params.xml.ns.yang.network.topology.rev131021.NodeId;
import org.opendaylight.yang.gen.v1.urn.tbd.params.xml.ns.yang.network.topology.rev131021.network.topology.topology.Node;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
-public abstract class AbstractNetconfTopology implements NetconfTopology, BindingAwareProvider, Provider {
+public abstract class AbstractNetconfTopology implements NetconfTopology {
private static final Logger LOG = LoggerFactory.getLogger(AbstractNetconfTopology.class);
private static final String CACHE_DIRECTORY = "cache";
/**
- * The default cache directory relative to <code>CACHE_DIRECTORY</code>
+ * The default cache directory relative to <code>CACHE_DIRECTORY</code>.
*/
private static final String DEFAULT_CACHE_DIRECTORY = "schema";
/**
- * The qualified schema cache directory <code>cache/schema</code>
+ * The qualified schema cache directory <code>cache/schema</code>.
*/
- private static final String QUALIFIED_DEFAULT_CACHE_DIRECTORY = CACHE_DIRECTORY + File.separator+ DEFAULT_CACHE_DIRECTORY;
+ private static final String QUALIFIED_DEFAULT_CACHE_DIRECTORY =
+ CACHE_DIRECTORY + File.separator + DEFAULT_CACHE_DIRECTORY;
/**
- * The name for the default schema repository
+ * The name for the default schema repository.
*/
private static final String DEFAULT_SCHEMA_REPOSITORY_NAME = "sal-netconf-connector";
* of the schema cache directory, and the value is a corresponding <code>SchemaResourcesDTO</code>. The
* <code>SchemaResourcesDTO</code> is essentially a container that allows for the extraction of the
* <code>SchemaRegistry</code> and <code>SchemaContextFactory</code> which should be used for a particular
- * Netconf mount. Access to <code>schemaResourcesDTOs</code> should be surrounded by appropriate
+ * Netconf mount. Access to <code>SCHEMA_RESOURCES_DTO_MAP</code> should be surrounded by appropriate
* synchronization locks.
*/
- private static volatile Map<String, NetconfDevice.SchemaResourcesDTO> schemaResourcesDTOs = new HashMap<>();
+ private static final Map<String, NetconfDevice.SchemaResourcesDTO> SCHEMA_RESOURCES_DTO_MAP = new HashMap<>();
// Initializes default constant instances for the case when the default schema repository
// directory cache/schema is used.
static {
- schemaResourcesDTOs.put(DEFAULT_CACHE_DIRECTORY,
- new NetconfDevice.SchemaResourcesDTO(DEFAULT_SCHEMA_REPOSITORY,
+ SCHEMA_RESOURCES_DTO_MAP.put(DEFAULT_CACHE_DIRECTORY,
+ new NetconfDevice.SchemaResourcesDTO(DEFAULT_SCHEMA_REPOSITORY, DEFAULT_SCHEMA_REPOSITORY,
DEFAULT_SCHEMA_CONTEXT_FACTORY,
- new NetconfStateSchemas.NetconfStateSchemasResolverImpl()));
+ new NetconfStateSchemasResolverImpl()));
DEFAULT_SCHEMA_REPOSITORY.registerSchemaSourceListener(DEFAULT_CACHE);
DEFAULT_SCHEMA_REPOSITORY.registerSchemaSourceListener(
TextToASTTransformer.create(DEFAULT_SCHEMA_REPOSITORY, DEFAULT_SCHEMA_REPOSITORY));
protected final String topologyId;
private final NetconfClientDispatcher clientDispatcher;
- protected final BindingAwareBroker bindingAwareBroker;
- protected final Broker domBroker;
private final EventExecutor eventExecutor;
protected final ScheduledThreadPool keepaliveExecutor;
protected final ThreadPool processingExecutor;
protected final SharedSchemaRepository sharedSchemaRepository;
+ protected final DataBroker dataBroker;
+ protected final DOMMountPointService mountPointService;
protected SchemaSourceRegistry schemaRegistry = DEFAULT_SCHEMA_REPOSITORY;
+ protected SchemaRepository schemaRepository = DEFAULT_SCHEMA_REPOSITORY;
protected SchemaContextFactory schemaContextFactory = DEFAULT_SCHEMA_CONTEXT_FACTORY;
- protected DOMMountPointService mountPointService = null;
- protected DataBroker dataBroker = null;
protected final HashMap<NodeId, NetconfConnectorDTO> activeConnectors = new HashMap<>();
protected AbstractNetconfTopology(final String topologyId, final NetconfClientDispatcher clientDispatcher,
- final BindingAwareBroker bindingAwareBroker, final Broker domBroker,
final EventExecutor eventExecutor, final ScheduledThreadPool keepaliveExecutor,
- final ThreadPool processingExecutor, final SchemaRepositoryProvider schemaRepositoryProvider) {
+ final ThreadPool processingExecutor,
+ final SchemaRepositoryProvider schemaRepositoryProvider,
+ final DataBroker dataBroker, final DOMMountPointService mountPointService) {
this.topologyId = topologyId;
this.clientDispatcher = clientDispatcher;
- this.bindingAwareBroker = bindingAwareBroker;
- this.domBroker = domBroker;
this.eventExecutor = eventExecutor;
this.keepaliveExecutor = keepaliveExecutor;
this.processingExecutor = processingExecutor;
this.sharedSchemaRepository = schemaRepositoryProvider.getSharedSchemaRepository();
- }
-
- protected void registerToSal(BindingAwareProvider baProvider, Provider provider) {
- domBroker.registerProvider(provider);
- bindingAwareBroker.registerProvider(baProvider);
+ this.dataBroker = dataBroker;
+ this.mountPointService = mountPointService;
}
public void setSchemaRegistry(final SchemaSourceRegistry schemaRegistry) {
}
@Override
- public abstract void onSessionInitiated(ProviderContext session);
-
- @Override
- public String getTopologyId() {
- return topologyId;
- }
-
- @Override
- public DataBroker getDataBroker() {
- return dataBroker;
- }
-
- @Override
- public ListenableFuture<NetconfDeviceCapabilities> connectNode(NodeId nodeId, Node configNode) {
+ public ListenableFuture<NetconfDeviceCapabilities> connectNode(final NodeId nodeId, final Node configNode) {
LOG.info("Connecting RemoteDevice{{}} , with config {}", nodeId, configNode);
return setupConnection(nodeId, configNode);
}
@Override
- public ListenableFuture<Void> disconnectNode(NodeId nodeId) {
+ public ListenableFuture<Void> disconnectNode(final NodeId nodeId) {
LOG.debug("Disconnecting RemoteDevice{{}}", nodeId.getValue());
if (!activeConnectors.containsKey(nodeId)) {
- return Futures.immediateFailedFuture(new IllegalStateException("Unable to disconnect device that is not connected"));
+ return Futures.immediateFailedFuture(
+ new IllegalStateException("Unable to disconnect device that is not connected"));
}
// retrieve connection, and disconnect it
final NetconfConnectorDTO deviceCommunicatorDTO = createDeviceCommunicator(nodeId, netconfNode);
final NetconfDeviceCommunicator deviceCommunicator = deviceCommunicatorDTO.getCommunicator();
final NetconfClientSessionListener netconfClientSessionListener = deviceCommunicatorDTO.getSessionListener();
- final NetconfReconnectingClientConfiguration clientConfig = getClientConfig(netconfClientSessionListener, netconfNode);
- final ListenableFuture<NetconfDeviceCapabilities> future = deviceCommunicator.initializeRemoteConnection(clientDispatcher, clientConfig);
+ final NetconfReconnectingClientConfiguration clientConfig =
+ getClientConfig(netconfClientSessionListener, netconfNode);
+ final ListenableFuture<NetconfDeviceCapabilities> future =
+ deviceCommunicator.initializeRemoteConnection(clientDispatcher, clientConfig);
activeConnectors.put(nodeId, deviceCommunicatorDTO);
Futures.addCallback(future, new FutureCallback<NetconfDeviceCapabilities>() {
@Override
- public void onSuccess(NetconfDeviceCapabilities result) {
+ public void onSuccess(final NetconfDeviceCapabilities result) {
LOG.debug("Connector for : " + nodeId.getValue() + " started succesfully");
}
@Override
- public void onFailure(Throwable t) {
+ public void onFailure(final Throwable throwable) {
LOG.error("Connector for : " + nodeId.getValue() + " failed");
// remove this node from active connectors?
}
protected NetconfConnectorDTO createDeviceCommunicator(final NodeId nodeId,
final NetconfNode node) {
//setup default values since default value is not supported in mdsal
- final Long defaultRequestTimeoutMillis = node.getDefaultRequestTimeoutMillis() == null ? DEFAULT_REQUEST_TIMEOUT_MILLIS : node.getDefaultRequestTimeoutMillis();
- final Long keepaliveDelay = node.getKeepaliveDelay() == null ? DEFAULT_KEEPALIVE_DELAY : node.getKeepaliveDelay();
- final Boolean reconnectOnChangedSchema = node.isReconnectOnChangedSchema() == null ? DEFAULT_RECONNECT_ON_CHANGED_SCHEMA : node.isReconnectOnChangedSchema();
-
- IpAddress ipAddress = node.getHost().getIpAddress();
- InetSocketAddress address = new InetSocketAddress(ipAddress.getIpv4Address() != null ?
- ipAddress.getIpv4Address().getValue() : ipAddress.getIpv6Address().getValue(),
+ final Long defaultRequestTimeoutMillis = node.getDefaultRequestTimeoutMillis() == null
+ ? DEFAULT_REQUEST_TIMEOUT_MILLIS : node.getDefaultRequestTimeoutMillis();
+ final Long keepaliveDelay = node.getKeepaliveDelay() == null
+ ? DEFAULT_KEEPALIVE_DELAY : node.getKeepaliveDelay();
+ final Boolean reconnectOnChangedSchema = node.isReconnectOnChangedSchema() == null
+ ? DEFAULT_RECONNECT_ON_CHANGED_SCHEMA : node.isReconnectOnChangedSchema();
+
+ final IpAddress ipAddress = node.getHost().getIpAddress();
+ final InetSocketAddress address = new InetSocketAddress(ipAddress.getIpv4Address() != null
+ ? ipAddress.getIpv4Address().getValue() : ipAddress.getIpv6Address().getValue(),
node.getPort().getValue());
- RemoteDeviceId remoteDeviceId = new RemoteDeviceId(nodeId.getValue(), address);
+ final RemoteDeviceId remoteDeviceId = new RemoteDeviceId(nodeId.getValue(), address);
RemoteDeviceHandler<NetconfSessionPreferences> salFacade =
- createSalFacade(remoteDeviceId, domBroker, bindingAwareBroker);
+ createSalFacade(remoteDeviceId);
if (keepaliveDelay > 0) {
LOG.warn("Adding keepalive facade, for device {}", nodeId);
- salFacade = new KeepaliveSalFacade(remoteDeviceId, salFacade, keepaliveExecutor.getExecutor(), keepaliveDelay, defaultRequestTimeoutMillis);
+ salFacade = new KeepaliveSalFacade(remoteDeviceId, salFacade, keepaliveExecutor.getExecutor(),
+ keepaliveDelay, defaultRequestTimeoutMillis);
}
// pre register yang library sources as fallback schemas to schema registry
- List<SchemaSourceRegistration<YangTextSchemaSource>> registeredYangLibSources = Lists.newArrayList();
+ final List<SchemaSourceRegistration<YangTextSchemaSource>> registeredYangLibSources = Lists.newArrayList();
if (node.getYangLibrary() != null) {
final String yangLibURL = node.getYangLibrary().getYangLibraryUrl().getValue();
final String yangLibUsername = node.getYangLibrary().getUsername();
final String yangLigPassword = node.getYangLibrary().getPassword();
- LibraryModulesSchemas libraryModulesSchemas;
- if(yangLibURL != null) {
- if(yangLibUsername != null && yangLigPassword != null) {
+ final LibraryModulesSchemas libraryModulesSchemas;
+ if (yangLibURL != null) {
+ if (yangLibUsername != null && yangLigPassword != null) {
libraryModulesSchemas = LibraryModulesSchemas.create(yangLibURL, yangLibUsername, yangLigPassword);
} else {
libraryModulesSchemas = LibraryModulesSchemas.create(yangLibURL);
}
- for (Map.Entry<SourceIdentifier, URL> sourceIdentifierURLEntry : libraryModulesSchemas.getAvailableModels().entrySet()) {
- registeredYangLibSources.
- add(schemaRegistry.registerSchemaSource(
- new YangLibrarySchemaYangSourceProvider(remoteDeviceId, libraryModulesSchemas.getAvailableModels()),
- PotentialSchemaSource
- .create(sourceIdentifierURLEntry.getKey(), YangTextSchemaSource.class,
- PotentialSchemaSource.Costs.REMOTE_IO.getValue())));
+ for (final Map.Entry<SourceIdentifier, URL> sourceIdentifierURLEntry
+ : libraryModulesSchemas.getAvailableModels().entrySet()) {
+ registeredYangLibSources
+ .add(schemaRegistry.registerSchemaSource(
+ new YangLibrarySchemaYangSourceProvider(remoteDeviceId,
+ libraryModulesSchemas.getAvailableModels()),
+ PotentialSchemaSource.create(sourceIdentifierURLEntry.getKey(),
+ YangTextSchemaSource.class, PotentialSchemaSource.Costs.REMOTE_IO.getValue())));
}
}
}
.build();
}
- final Optional<NetconfSessionPreferences> userCapabilities = getUserCapabilities(node);
+ final Optional<UserPreferences> userCapabilities = getUserCapabilities(node);
final int rpcMessageLimit =
node.getConcurrentRpcLimit() == null ? DEFAULT_CONCURRENT_RPC_LIMIT : node.getConcurrentRpcLimit();
LOG.info("Concurrent rpc limit is smaller than 1, no limit will be enforced for device {}", remoteDeviceId);
}
- return new NetconfConnectorDTO(
- userCapabilities.isPresent() ?
- new NetconfDeviceCommunicator(
- remoteDeviceId, device, new UserPreferences(userCapabilities.get(), node.getYangModuleCapabilities().isOverride()), rpcMessageLimit):
- new NetconfDeviceCommunicator(remoteDeviceId, device, rpcMessageLimit), salFacade);
+ return new NetconfConnectorDTO(userCapabilities.isPresent()
+ ? new NetconfDeviceCommunicator(remoteDeviceId, device, userCapabilities.get(), rpcMessageLimit)
+ : new NetconfDeviceCommunicator(remoteDeviceId, device, rpcMessageLimit), salFacade);
}
protected NetconfDevice.SchemaResourcesDTO setupSchemaCacheDTO(final NodeId nodeId, final NetconfNode node) {
// Setup information related to the SchemaRegistry, SchemaResourceFactory, etc.
NetconfDevice.SchemaResourcesDTO schemaResourcesDTO = null;
final String moduleSchemaCacheDirectory = node.getSchemaCacheDirectory();
- // Only checks to ensure the String is not empty or null; further checks related to directory accessibility and file permissions
- // are handled during the FilesystemSchemaSourceCache initialization.
+ // Only checks to ensure the String is not empty or null; further checks related to directory
+ // accessibility and file permissionsare handled during the FilesystemSchemaSourceCache initialization.
if (!Strings.isNullOrEmpty(moduleSchemaCacheDirectory)) {
- // If a custom schema cache directory is specified, create the backing DTO; otherwise, the SchemaRegistry and
- // SchemaContextFactory remain the default values.
+ // If a custom schema cache directory is specified, create the backing DTO; otherwise,
+ // the SchemaRegistry and SchemaContextFactory remain the default values.
if (!moduleSchemaCacheDirectory.equals(DEFAULT_CACHE_DIRECTORY)) {
- // Multiple modules may be created at once; synchronize to avoid issues with data consistency among threads.
- synchronized(schemaResourcesDTOs) {
- // Look for the cached DTO to reuse SchemaRegistry and SchemaContextFactory variables if they already exist
- schemaResourcesDTO = schemaResourcesDTOs.get(moduleSchemaCacheDirectory);
+ // Multiple modules may be created at once;
+ // synchronize to avoid issues with data consistency among threads.
+ synchronized (SCHEMA_RESOURCES_DTO_MAP) {
+ // Look for the cached DTO to reuse SchemaRegistry and SchemaContextFactory variables
+ // if they already exist
+ schemaResourcesDTO = SCHEMA_RESOURCES_DTO_MAP.get(moduleSchemaCacheDirectory);
if (schemaResourcesDTO == null) {
schemaResourcesDTO = createSchemaResourcesDTO(moduleSchemaCacheDirectory);
schemaResourcesDTO.getSchemaRegistry().registerSchemaSourceListener(
- TextToASTTransformer.create((SchemaRepository) schemaResourcesDTO.getSchemaRegistry(), schemaResourcesDTO.getSchemaRegistry())
+ TextToASTTransformer.create((SchemaRepository) schemaResourcesDTO.getSchemaRegistry(),
+ schemaResourcesDTO.getSchemaRegistry())
);
- schemaResourcesDTOs.put(moduleSchemaCacheDirectory, schemaResourcesDTO);
+ SCHEMA_RESOURCES_DTO_MAP.put(moduleSchemaCacheDirectory, schemaResourcesDTO);
}
}
LOG.info("Netconf connector for device {} will use schema cache directory {} instead of {}",
}
if (schemaResourcesDTO == null) {
- schemaResourcesDTO = new NetconfDevice.SchemaResourcesDTO(schemaRegistry, schemaContextFactory,
- new NetconfStateSchemas.NetconfStateSchemasResolverImpl());
+ schemaResourcesDTO = new NetconfDevice.SchemaResourcesDTO(schemaRegistry, schemaRepository,
+ schemaContextFactory, new NetconfStateSchemasResolverImpl());
}
return schemaResourcesDTO;
final FilesystemSchemaSourceCache<YangTextSchemaSource> deviceCache =
createDeviceFilesystemCache(moduleSchemaCacheDirectory);
repository.registerSchemaSourceListener(deviceCache);
- return new NetconfDevice.SchemaResourcesDTO(repository, schemaContextFactory,
- new NetconfStateSchemas.NetconfStateSchemasResolverImpl());
+ return new NetconfDevice.SchemaResourcesDTO(repository, repository, schemaContextFactory,
+ new NetconfStateSchemasResolverImpl());
}
/**
* @param schemaCacheDirectory The custom cache directory relative to "cache"
* @return A <code>FilesystemSchemaSourceCache</code> for the custom schema cache directory
*/
- private FilesystemSchemaSourceCache<YangTextSchemaSource> createDeviceFilesystemCache(final String schemaCacheDirectory) {
+ private FilesystemSchemaSourceCache<YangTextSchemaSource> createDeviceFilesystemCache(
+ final String schemaCacheDirectory) {
final String relativeSchemaCacheDirectory = CACHE_DIRECTORY + File.separator + schemaCacheDirectory;
- return new FilesystemSchemaSourceCache<>(schemaRegistry, YangTextSchemaSource.class, new File(relativeSchemaCacheDirectory));
+ return new FilesystemSchemaSourceCache<>(schemaRegistry, YangTextSchemaSource.class,
+ new File(relativeSchemaCacheDirectory));
}
- public NetconfReconnectingClientConfiguration getClientConfig(final NetconfClientSessionListener listener, NetconfNode node) {
+ public NetconfReconnectingClientConfiguration getClientConfig(final NetconfClientSessionListener listener,
+ final NetconfNode node) {
//setup default values since default value is not supported in mdsal
- final long clientConnectionTimeoutMillis = node.getConnectionTimeoutMillis() == null ? DEFAULT_CONNECTION_TIMEOUT_MILLIS : node.getConnectionTimeoutMillis();
- final long maxConnectionAttempts = node.getMaxConnectionAttempts() == null ? DEFAULT_MAX_CONNECTION_ATTEMPTS : node.getMaxConnectionAttempts();
- final int betweenAttemptsTimeoutMillis = node.getBetweenAttemptsTimeoutMillis() == null ? DEFAULT_BETWEEN_ATTEMPTS_TIMEOUT_MILLIS : node.getBetweenAttemptsTimeoutMillis();
+ final long clientConnectionTimeoutMillis = node.getConnectionTimeoutMillis() == null
+ ? DEFAULT_CONNECTION_TIMEOUT_MILLIS : node.getConnectionTimeoutMillis();
+ final long maxConnectionAttempts = node.getMaxConnectionAttempts() == null
+ ? DEFAULT_MAX_CONNECTION_ATTEMPTS : node.getMaxConnectionAttempts();
+ final int betweenAttemptsTimeoutMillis = node.getBetweenAttemptsTimeoutMillis() == null
+ ? DEFAULT_BETWEEN_ATTEMPTS_TIMEOUT_MILLIS : node.getBetweenAttemptsTimeoutMillis();
final BigDecimal sleepFactor = node.getSleepFactor() == null ? DEFAULT_SLEEP_FACTOR : node.getSleepFactor();
final InetSocketAddress socketAddress = getSocketAddress(node.getHost(), node.getPort().getValue());
final AuthenticationHandler authHandler;
final Credentials credentials = node.getCredentials();
- if (credentials instanceof org.opendaylight.yang.gen.v1.urn.opendaylight.netconf.node.topology.rev150114.netconf.node.credentials.credentials.LoginPassword) {
+ if (credentials instanceof org.opendaylight.yang.gen.v1.urn.opendaylight.netconf.node.topology.rev150114
+ .netconf.node.credentials.credentials.LoginPassword) {
authHandler = new LoginPassword(
- ((org.opendaylight.yang.gen.v1.urn.opendaylight.netconf.node.topology.rev150114.netconf.node.credentials.credentials.LoginPassword) credentials).getUsername(),
- ((org.opendaylight.yang.gen.v1.urn.opendaylight.netconf.node.topology.rev150114.netconf.node.credentials.credentials.LoginPassword) credentials).getPassword());
+ ((org.opendaylight.yang.gen.v1.urn.opendaylight.netconf.node.topology.rev150114
+ .netconf.node.credentials.credentials.LoginPassword) credentials).getUsername(),
+ ((org.opendaylight.yang.gen.v1.urn.opendaylight.netconf.node.topology.rev150114
+ .netconf.node.credentials.credentials.LoginPassword) credentials).getPassword());
} else {
throw new IllegalStateException("Only login/password authentification is supported");
}
.withConnectionTimeoutMillis(clientConnectionTimeoutMillis)
.withReconnectStrategy(strategy)
.withAuthHandler(authHandler)
- .withProtocol(node.isTcpOnly() ?
- NetconfClientConfiguration.NetconfClientProtocol.TCP :
+ .withProtocol(node.isTcpOnly() ? NetconfClientConfiguration.NetconfClientProtocol.TCP :
NetconfClientConfiguration.NetconfClientProtocol.SSH)
.withConnectStrategyFactory(sf)
.withSessionListener(listener)
.build();
}
- protected abstract RemoteDeviceHandler<NetconfSessionPreferences> createSalFacade(final RemoteDeviceId id, final Broker domBroker, final BindingAwareBroker bindingBroker);
+ protected abstract RemoteDeviceHandler<NetconfSessionPreferences> createSalFacade(RemoteDeviceId id);
- @Override
- public abstract ConnectionStatusListenerRegistration registerConnectionStatusListener(NodeId node, RemoteDeviceHandler<NetconfSessionPreferences> listener);
-
- @Override
- public void onSessionInitiated(ProviderSession session) {
- mountPointService = session.getService(DOMMountPointService.class);
- }
-
- @Override
- public Collection<ProviderFunctionality> getProviderFunctionality() {
- return Collections.emptySet();
- }
-
- private InetSocketAddress getSocketAddress(final Host host, int port) {
- if(host.getDomainName() != null) {
+ private InetSocketAddress getSocketAddress(final Host host, final int port) {
+ if (host.getDomainName() != null) {
return new InetSocketAddress(host.getDomainName().getValue(), port);
} else {
final IpAddress ipAddress = host.getIpAddress();
- final String ip = ipAddress.getIpv4Address() != null ? ipAddress.getIpv4Address().getValue() : ipAddress.getIpv6Address().getValue();
+ final String ip = ipAddress.getIpv4Address() != null
+ ? ipAddress.getIpv4Address().getValue() : ipAddress.getIpv6Address().getValue();
return new InetSocketAddress(ip, port);
}
}
- private Optional<NetconfSessionPreferences> getUserCapabilities(final NetconfNode node) {
- if(node.getYangModuleCapabilities() == null) {
+ private Optional<UserPreferences> getUserCapabilities(final NetconfNode node) {
+ // if none of yang-module-capabilities or non-module-capabilities is specified
+ // just return absent
+ if (node.getYangModuleCapabilities() == null && node.getNonModuleCapabilities() == null) {
return Optional.absent();
}
- final List<String> capabilities = node.getYangModuleCapabilities().getCapability();
- if(capabilities == null || capabilities.isEmpty()) {
- return Optional.absent();
+ final List<String> capabilities = new ArrayList<>();
+
+ boolean overrideYangModuleCaps = false;
+ if (node.getYangModuleCapabilities() != null) {
+ capabilities.addAll(node.getYangModuleCapabilities().getCapability());
+ overrideYangModuleCaps = node.getYangModuleCapabilities().isOverride();
}
- final NetconfSessionPreferences parsedOverrideCapabilities = NetconfSessionPreferences.fromStrings(capabilities);
- Preconditions.checkState(parsedOverrideCapabilities.getNonModuleCaps().isEmpty(), "Capabilities to override can " +
- "only contain module based capabilities, non-module capabilities will be retrieved from the device," +
- " configured non-module capabilities: " + parsedOverrideCapabilities.getNonModuleCaps());
+ //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());
- return Optional.of(parsedOverrideCapabilities);
+ boolean overrideNonModuleCaps = false;
+ if (node.getNonModuleCapabilities() != null) {
+ capabilities.addAll(node.getNonModuleCapabilities().getCapability());
+ overrideNonModuleCaps = node.getNonModuleCapabilities().isOverride();
+ }
+
+ return Optional.of(new UserPreferences(NetconfSessionPreferences
+ .fromStrings(capabilities, CapabilityOrigin.UserDefined), overrideYangModuleCaps, overrideNonModuleCaps));
}
private static final class TimedReconnectStrategyFactory implements ReconnectStrategyFactory {
private final double sleepFactor;
private final int minSleep;
- TimedReconnectStrategyFactory(final EventExecutor executor, final Long maxConnectionAttempts, final int minSleep, final BigDecimal sleepFactor) {
+ TimedReconnectStrategyFactory(final EventExecutor executor, final Long maxConnectionAttempts,
+ final int minSleep, final BigDecimal sleepFactor) {
if (maxConnectionAttempts != null && maxConnectionAttempts > 0) {
connectionAttempts = maxConnectionAttempts;
} else {
}
}
- protected static class NetconfConnectorDTO {
+ protected static class NetconfConnectorDTO implements AutoCloseable {
private final NetconfDeviceCommunicator communicator;
private final RemoteDeviceHandler<NetconfSessionPreferences> facade;
- public NetconfConnectorDTO(final NetconfDeviceCommunicator communicator, final RemoteDeviceHandler<NetconfSessionPreferences> facade) {
+ public NetconfConnectorDTO(final NetconfDeviceCommunicator communicator,
+ final RemoteDeviceHandler<NetconfSessionPreferences> facade) {
this.communicator = communicator;
this.facade = facade;
}
public NetconfClientSessionListener getSessionListener() {
return communicator;
}
- }
+ @Override
+ public void close() {
+ communicator.close();
+ facade.close();
+ }
+ }
}