import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.locks.Lock;
import java.util.concurrent.locks.ReentrantLock;
-import org.opendaylight.controller.config.util.xml.XmlElement;
-import org.opendaylight.controller.config.util.xml.XmlUtil;
+import org.opendaylight.netconf.api.FailedNetconfMessage;
import org.opendaylight.netconf.api.NetconfDocumentedException;
import org.opendaylight.netconf.api.NetconfMessage;
import org.opendaylight.netconf.api.NetconfTerminationReason;
+import org.opendaylight.netconf.api.xml.XmlElement;
import org.opendaylight.netconf.api.xml.XmlNetconfConstants;
+import org.opendaylight.netconf.api.xml.XmlUtil;
import org.opendaylight.netconf.client.NetconfClientDispatcher;
import org.opendaylight.netconf.client.NetconfClientSession;
import org.opendaylight.netconf.client.NetconfClientSessionListener;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
-public class NetconfDeviceCommunicator implements NetconfClientSessionListener, RemoteDeviceCommunicator<NetconfMessage> {
+public class NetconfDeviceCommunicator
+ implements NetconfClientSessionListener, RemoteDeviceCommunicator<NetconfMessage> {
private static final Logger LOG = LoggerFactory.getLogger(NetconfDeviceCommunicator.class);
private final int concurentRpcMsgs;
private final Queue<Request> requests = new ArrayDeque<>();
- private NetconfClientSession session;
+ private NetconfClientSession currentSession;
private Future<?> initFuture;
private final SettableFuture<NetconfDeviceCapabilities> firstConnectionFuture;
return isSessionClosing.get();
}
- public NetconfDeviceCommunicator(final RemoteDeviceId id, final RemoteDevice<NetconfSessionPreferences, NetconfMessage, NetconfDeviceCommunicator> remoteDevice,
- final UserPreferences NetconfSessionPreferences, final int rpcMessageLimit) {
- this(id, remoteDevice, Optional.of(NetconfSessionPreferences), rpcMessageLimit);
+ public NetconfDeviceCommunicator(
+ final RemoteDeviceId id,
+ final RemoteDevice<NetconfSessionPreferences, NetconfMessage, NetconfDeviceCommunicator> remoteDevice,
+ final UserPreferences netconfSessionPreferences, final int rpcMessageLimit) {
+ this(id, remoteDevice, Optional.of(netconfSessionPreferences), rpcMessageLimit);
}
- public NetconfDeviceCommunicator(final RemoteDeviceId id,
- final RemoteDevice<NetconfSessionPreferences, NetconfMessage, NetconfDeviceCommunicator> remoteDevice,
- final int rpcMessageLimit) {
- this(id, remoteDevice, Optional.<UserPreferences>absent(), rpcMessageLimit);
+ public NetconfDeviceCommunicator(
+ final RemoteDeviceId id,
+ final RemoteDevice<NetconfSessionPreferences, NetconfMessage, NetconfDeviceCommunicator> remoteDevice,
+ final int rpcMessageLimit) {
+ this(id, remoteDevice, Optional.absent(), rpcMessageLimit);
}
- private NetconfDeviceCommunicator(final RemoteDeviceId id, final RemoteDevice<NetconfSessionPreferences, NetconfMessage, NetconfDeviceCommunicator> remoteDevice,
- final Optional<UserPreferences> overrideNetconfCapabilities, final int rpcMessageLimit) {
+ private NetconfDeviceCommunicator(
+ final RemoteDeviceId id,
+ final RemoteDevice<NetconfSessionPreferences, NetconfMessage, NetconfDeviceCommunicator> remoteDevice,
+ final Optional<UserPreferences> overrideNetconfCapabilities, final int rpcMessageLimit) {
this.concurentRpcMsgs = rpcMessageLimit;
this.id = id;
this.remoteDevice = remoteDevice;
sessionLock.lock();
try {
LOG.debug("{}: Session established", id);
- this.session = session;
+ currentSession = session;
NetconfSessionPreferences netconfSessionPreferences =
NetconfSessionPreferences.fromNetconfSession(session);
if (!firstConnectionFuture.isDone()) {
firstConnectionFuture.set(netconfSessionPreferences.getNetconfDeviceCapabilities());
}
- }
- finally {
+ } finally {
sessionLock.unlock();
}
}
/**
+ * Initialize remote connection.
*
- * @param dispatcher
- * @param config
+ * @param dispatcher {@code NetconfCLientDispatcher}
+ * @param config {@code NetconfClientConfiguration}
* @return future that returns succes on first succesfull connection and failure when the underlying
- * reconnecting strategy runs out of reconnection attempts
+ * reconnecting strategy runs out of reconnection attempts
*/
- public ListenableFuture<NetconfDeviceCapabilities> initializeRemoteConnection(final NetconfClientDispatcher dispatcher, final NetconfClientConfiguration config) {
- if(config instanceof NetconfReconnectingClientConfiguration) {
+ public ListenableFuture<NetconfDeviceCapabilities> initializeRemoteConnection(
+ final NetconfClientDispatcher dispatcher, final NetconfClientConfiguration config) {
+ if (config instanceof NetconfReconnectingClientConfiguration) {
initFuture = dispatcher.createReconnectingClient((NetconfReconnectingClientConfiguration) config);
} else {
initFuture = dispatcher.createClient(config);
public void disconnect() {
// If session is already in closing, no need to close it again
- if(session != null && isSessionClosing.compareAndSet(false, true)) {
- session.close();
+ if (currentSession != null && isSessionClosing.compareAndSet(false, true)) {
+ currentSession.close();
}
}
final List<UncancellableFuture<RpcResult<NetconfMessage>>> futuresToCancel = Lists.newArrayList();
sessionLock.lock();
try {
- if( session != null ) {
- session = null;
-
+ if (currentSession != null) {
+ currentSession = null;
/*
* Walk all requests, check if they have been executing
* or cancelled and remove them from the queue.
while (it.hasNext()) {
final Request r = it.next();
if (r.future.isUncancellable()) {
- futuresToCancel.add( r.future );
+ futuresToCancel.add(r.future);
it.remove();
} else if (r.future.isCancelled()) {
// This just does some house-cleaning
remoteDevice.onRemoteSessionDown();
}
- }
- finally {
+ } finally {
sessionLock.unlock();
}
// Notify pending request futures outside of the sessionLock to avoid unnecessarily
// blocking the caller.
for (final UncancellableFuture<RpcResult<NetconfMessage>> future : futuresToCancel) {
- if( Strings.isNullOrEmpty( reason ) ) {
- future.set( createSessionDownRpcResult() );
+ if (Strings.isNullOrEmpty(reason)) {
+ future.set(createSessionDownRpcResult());
} else {
- future.set( createErrorRpcResult( RpcError.ErrorType.TRANSPORT, reason ) );
+ future.set(createErrorRpcResult(RpcError.ErrorType.TRANSPORT, reason));
}
}
}
private RpcResult<NetconfMessage> createSessionDownRpcResult() {
- return createErrorRpcResult( RpcError.ErrorType.TRANSPORT,
- String.format( "The netconf session to %1$s is disconnected", id.getName() ) );
+ return createErrorRpcResult(RpcError.ErrorType.TRANSPORT,
+ String.format("The netconf session to %1$s is disconnected", id.getName()));
}
private static RpcResult<NetconfMessage> createErrorRpcResult(final RpcError.ErrorType errorType,
final String message) {
return RpcResultBuilder.<NetconfMessage>failed()
- .withError(errorType, NetconfDocumentedException.ErrorTag.OPERATION_FAILED.getTagValue(), message).build();
+ .withError(errorType, NetconfDocumentedException.ErrorTag.OPERATION_FAILED.getTagValue(), message).build();
}
@Override
- public void onSessionDown(final NetconfClientSession session, final Exception e) {
+ public void onSessionDown(final NetconfClientSession session, final Exception exception) {
// If session is already in closing, no need to call tearDown again.
if (isSessionClosing.compareAndSet(false, true)) {
- LOG.warn("{}: Session went down", id, e);
- tearDown( null );
+ LOG.warn("{}: Session went down", id, exception);
+ tearDown(null);
}
}
public void onSessionTerminated(final NetconfClientSession session, final NetconfTerminationReason reason) {
// onSessionTerminated is called directly by disconnect, no need to compare and set isSessionClosing.
LOG.warn("{}: Session terminated {}", id, reason);
- tearDown( reason.getErrorMessage() );
+ tearDown(reason.getErrorMessage());
}
@Override
public void close() {
// Cancel reconnect if in progress
- if(initFuture != null) {
+ if (initFuture != null) {
initFuture.cancel(false);
}
// Disconnect from device
try {
request = requests.peek();
if (request != null && request.future.isUncancellable()) {
- requests.poll();
+ request = requests.poll();
// we have just removed one request from the queue
// we can also release one permit
- if(semaphore != null) {
+ if (semaphore != null) {
semaphore.release();
}
} else {
LOG.warn("{}: Ignoring unsolicited message {}", id,
msgToS(message));
}
- }
- finally {
+ } finally {
sessionLock.unlock();
}
- if( request != null ) {
+ if (request != null) {
+
+ if (FailedNetconfMessage.class.isInstance(message)) {
+ request.future.set(NetconfMessageTransformUtil.toRpcResult((FailedNetconfMessage) message));
+ return;
+ }
LOG.debug("{}: Message received {}", id, message);
- if(LOG.isTraceEnabled()) {
- LOG.trace( "{}: Matched request: {} to response: {}", id, msgToS( request.request ), msgToS( message ) );
+ if (LOG.isTraceEnabled()) {
+ LOG.trace("{}: Matched request: {} to response: {}", id, msgToS(request.request), msgToS(message));
}
try {
- NetconfMessageTransformUtil.checkValidReply( request.request, message );
+ NetconfMessageTransformUtil.checkValidReply(request.request, message);
} catch (final NetconfDocumentedException e) {
LOG.warn(
- "{}: Invalid request-reply match, reply message contains different message-id, request: {}, response: {}",
+ "{}: Invalid request-reply match,"
+ + "reply message contains different message-id, request: {}, response: {}",
id, msgToS(request.request), msgToS(message), e);
- request.future.set( RpcResultBuilder.<NetconfMessage>failed()
- .withRpcError( NetconfMessageTransformUtil.toRpcError( e ) ).build() );
+ request.future.set(RpcResultBuilder.<NetconfMessage>failed()
+ .withRpcError(NetconfMessageTransformUtil.toRpcError(e)).build());
//recursively processing message to eventually find matching request
processMessage(message);
try {
NetconfMessageTransformUtil.checkSuccessReply(message);
- } catch(final NetconfDocumentedException e) {
+ } catch (final NetconfDocumentedException e) {
LOG.warn(
"{}: Error reply from remote device, request: {}, response: {}",
id, msgToS(request.request), msgToS(message), e);
- request.future.set( RpcResultBuilder.<NetconfMessage>failed()
- .withRpcError( NetconfMessageTransformUtil.toRpcError( e ) ).build() );
+ request.future.set(RpcResultBuilder.<NetconfMessage>failed()
+ .withRpcError(NetconfMessageTransformUtil.toRpcError(e)).build());
return;
}
- request.future.set( RpcResultBuilder.success( message ).build() );
+ request.future.set(RpcResultBuilder.success(message).build());
}
}
@Override
public ListenableFuture<RpcResult<NetconfMessage>> sendRequest(final NetconfMessage message, final QName rpc) {
sessionLock.lock();
-
- if (semaphore != null && !semaphore.tryAcquire()) {
- LOG.warn("Limit of concurrent rpc messages was reached (limit :" +
- concurentRpcMsgs + "). Rpc reply message is needed. Discarding request of Netconf device with id" + id.getName());
- sessionLock.unlock();
- return Futures.immediateFailedFuture(new NetconfDocumentedException("Limit of rpc messages was reached (Limit :" +
- concurentRpcMsgs + ") waiting for emptying the queue of Netconf device with id" + id.getName()));
- }
-
try {
+ if (semaphore != null && !semaphore.tryAcquire()) {
+ LOG.warn("Limit of concurrent rpc messages was reached (limit :" + concurentRpcMsgs
+ + "). Rpc reply message is needed. Discarding request of Netconf device with id" + id.getName());
+ return Futures.immediateFailedFuture(new NetconfDocumentedException(
+ "Limit of rpc messages was reached (Limit :" + concurentRpcMsgs
+ + ") waiting for emptying the queue of Netconf device with id" + id.getName()));
+ }
+
return sendRequestWithLock(message, rpc);
} finally {
sessionLock.unlock();
}
}
- private ListenableFuture<RpcResult<NetconfMessage>> sendRequestWithLock(
- final NetconfMessage message, final QName rpc) {
- if(LOG.isTraceEnabled()) {
+ private ListenableFuture<RpcResult<NetconfMessage>> sendRequestWithLock(final NetconfMessage message,
+ final QName rpc) {
+ if (LOG.isTraceEnabled()) {
LOG.trace("{}: Sending message {}", id, msgToS(message));
}
- if (session == null) {
+ if (currentSession == null) {
LOG.warn("{}: Session is disconnected, failing RPC request {}",
id, message);
- return Futures.immediateFuture( createSessionDownRpcResult() );
+ return Futures.immediateFuture(createSessionDownRpcResult());
}
final Request req = new Request(new UncancellableFuture<>(true), message);
requests.add(req);
- session.sendMessage(req.request).addListener(future -> {
- if( !future.isSuccess() ) {
+ currentSession.sendMessage(req.request).addListener(future -> {
+ if (!future.isSuccess()) {
// We expect that a session down will occur at this point
LOG.debug("{}: Failed to send request {}", id,
XmlUtil.toString(req.request.getDocument()),
future.cause());
- if( future.cause() != null ) {
- req.future.set( createErrorRpcResult( RpcError.ErrorType.TRANSPORT,
- future.cause().getLocalizedMessage() ) );
+ if (future.cause() != null) {
+ req.future.set(createErrorRpcResult(RpcError.ErrorType.TRANSPORT,
+ future.cause().getLocalizedMessage()));
} else {
- req.future.set( createSessionDownRpcResult() ); // assume session is down
+ req.future.set(createSessionDownRpcResult()); // assume session is down
}
- req.future.setException( future.cause() );
- }
- else {
+ req.future.setException(future.cause());
+ } else {
LOG.trace("Finished sending request {}", req.request);
}
});
}
private void processNotification(final NetconfMessage notification) {
- if(LOG.isTraceEnabled()) {
+ if (LOG.isTraceEnabled()) {
LOG.trace("{}: Notification received: {}", id, notification);
}
}
private static boolean isNotification(final NetconfMessage message) {
+ if (message.getDocument() == null) {
+ // We have no message, which mean we have a FailedNetconfMessage
+ return false;
+ }
final XmlElement xmle = XmlElement.fromDomDocument(message.getDocument());
return XmlNetconfConstants.NOTIFICATION_ELEMENT_NAME.equals(xmle.getName()) ;
}