public abstract class AbstractClientConnection<T extends BackendInfo> {
private static final Logger LOG = LoggerFactory.getLogger(AbstractClientConnection.class);
- // Keep these constants in nanoseconds, as that prevents unnecessary conversions in the fast path
+ /*
+ * Timers involved in communication with the backend. There are three tiers which are spaced out to allow for
+ * recovery at each tier. Keep these constants in nanoseconds, as that prevents unnecessary conversions in the fast
+ * path.
+ */
+ /**
+ * Backend aliveness timer. This is reset whenever we receive a response from the backend and kept armed whenever
+ * we have an outstanding request. If when this time expires, we tear down this connection and attept to reconnect
+ * it.
+ */
@VisibleForTesting
- static final long NO_PROGRESS_TIMEOUT_NANOS = TimeUnit.MINUTES.toNanos(15);
+ static final long BACKEND_ALIVE_TIMEOUT_NANOS = TimeUnit.SECONDS.toNanos(30);
+
+ /**
+ * Request timeout. If the request fails to complete within this time since it was originally enqueued, we time
+ * the request out.
+ */
@VisibleForTesting
- static final long REQUEST_TIMEOUT_NANOS = TimeUnit.SECONDS.toNanos(30);
+ static final long REQUEST_TIMEOUT_NANOS = TimeUnit.MINUTES.toNanos(2);
- private static final FiniteDuration REQUEST_TIMEOUT_DURATION = FiniteDuration.apply(REQUEST_TIMEOUT_NANOS,
- TimeUnit.NANOSECONDS);
+ /**
+ * No progress timeout. A client fails to make any forward progress in this time, it will terminate itself.
+ */
+ @VisibleForTesting
+ static final long NO_PROGRESS_TIMEOUT_NANOS = TimeUnit.MINUTES.toNanos(15);
private final Lock lock = new ReentrantLock();
private final ClientActorContext context;
@GuardedBy("lock")
private boolean haveTimer;
+ /**
+ * Time reference when we saw any activity from the backend.
+ */
+ private long lastReceivedTicks;
+
private volatile RequestException poisoned;
// Do not allow subclassing outside of this package
this.context = Preconditions.checkNotNull(context);
this.cookie = Preconditions.checkNotNull(cookie);
this.queue = Preconditions.checkNotNull(queue);
+ this.lastReceivedTicks = currentTime();
}
// Do not allow subclassing outside of this package
this.context = oldConnection.context;
this.cookie = oldConnection.cookie;
this.queue = new TransmitQueue.Halted(targetQueueSize);
+ this.lastReceivedTicks = oldConnection.lastReceivedTicks;
}
public final ClientActorContext context() {
}
if (queue.isEmpty()) {
- // The queue is becoming non-empty, schedule a timer
- scheduleTimer(REQUEST_TIMEOUT_DURATION);
+ // The queue is becoming non-empty, schedule a timer.
+ scheduleTimer(entry.getEnqueuedTicks() + REQUEST_TIMEOUT_NANOS - now);
}
return queue.enqueue(entry, now);
} finally {
* @param delay Delay, in nanoseconds
*/
@GuardedBy("lock")
- private void scheduleTimer(final FiniteDuration delay) {
+ private void scheduleTimer(final long delay) {
if (haveTimer) {
LOG.debug("{}: timer already scheduled", context.persistenceId());
return;
LOG.debug("{}: connection has successor, not scheduling timer", context.persistenceId());
return;
}
- LOG.debug("{}: scheduling timeout in {}", context.persistenceId(), delay);
- context.executeInActor(this::runTimer, delay);
+
+ // If the delay is negative, we need to schedule an action immediately. While the caller could have checked
+ // for that condition and take appropriate action, but this is more convenient and less error-prone.
+ final long normalized = delay <= 0 ? 0 : Math.min(delay, BACKEND_ALIVE_TIMEOUT_NANOS);
+
+ final FiniteDuration dur = FiniteDuration.fromNanos(normalized);
+ LOG.debug("{}: scheduling timeout in {}", context.persistenceId(), dur);
+ context.executeInActor(this::runTimer, dur);
haveTimer = true;
}
*/
@VisibleForTesting
final ClientActorBehavior<T> runTimer(final ClientActorBehavior<T> current) {
- final Optional<FiniteDuration> delay;
+ final Optional<Long> delay;
lock.lock();
try {
haveTimer = false;
final long now = currentTime();
// The following line is only reliable when queue is not forwarding, but such state should not last long.
+ // FIXME: BUG-8422: this may not be accurate w.r.t. replayed entries
final long ticksSinceProgress = queue.ticksStalling(now);
if (ticksSinceProgress >= NO_PROGRESS_TIMEOUT_NANOS) {
LOG.error("Queue {} has not seen progress in {} seconds, failing all requests", this,
}
@VisibleForTesting
- final Optional<FiniteDuration> checkTimeout(final long now) {
+ final Optional<Long> checkTimeout(final long now) {
lock.lock();
try {
return lockedCheckTimeout(now);
@SuppressFBWarnings(value = "NP_OPTIONAL_RETURN_NULL",
justification = "Returning null Optional is documented in the API contract.")
@GuardedBy("lock")
- private Optional<FiniteDuration> lockedCheckTimeout(final long now) {
- final ConnectionEntry head = queue.peek();
- if (head == null) {
+ private Optional<Long> lockedCheckTimeout(final long now) {
+ if (queue.isEmpty()) {
return Optional.empty();
}
- final long beenOpen = now - head.getEnqueuedTicks();
- if (beenOpen >= REQUEST_TIMEOUT_NANOS) {
- LOG.debug("Connection {} has a request not completed for {} nanoseconds, timing out", this, beenOpen);
+ final long backendSilentTicks = now - lastReceivedTicks;
+ if (backendSilentTicks >= BACKEND_ALIVE_TIMEOUT_NANOS) {
+ LOG.debug("Connection {} has not seen activity from backend for {} nanoseconds, timing out", this,
+ backendSilentTicks);
return null;
}
- return Optional.of(FiniteDuration.apply(REQUEST_TIMEOUT_NANOS - beenOpen, TimeUnit.NANOSECONDS));
+ int tasksTimedOut = 0;
+ for (ConnectionEntry head = queue.peek(); head != null; head = queue.peek()) {
+ final long beenOpen = now - head.getEnqueuedTicks();
+ if (beenOpen < REQUEST_TIMEOUT_NANOS) {
+ return Optional.of(REQUEST_TIMEOUT_NANOS - beenOpen);
+ }
+
+ tasksTimedOut++;
+ queue.remove(now);
+ LOG.debug("Connection {} timed out entryt {}", this, head);
+ head.complete(head.getRequest().toRequestFailure(
+ new RequestTimeoutException("Timed out after " + beenOpen + "ns")));
+ }
+
+ LOG.debug("Connection {} timed out {} tasks", this, tasksTimedOut);
+ if (tasksTimedOut != 0) {
+ queue.tryTransmit(now);
+ }
+
+ return Optional.empty();
}
final void poison(final RequestException cause) {
final void receiveResponse(final ResponseEnvelope<?> envelope) {
final long now = currentTime();
+ lastReceivedTicks = now;
final Optional<TransmittedConnectionEntry> maybeEntry;
lock.lock();
* This call can empty the collection of open tasks, that special case should be handled.
*
* @param now tick number corresponding to caller's present
- * @param enqueuedTicks see TransitQueue#recordCompletion
- * @param transmitTicks see TransitQueue#recordCompletion
- * @param execNanos see TransitQueue#recordCompletion
+ * @param enqueuedTicks see TransmitQueue#recordCompletion
+ * @param transmitTicks see TransmitQueue#recordCompletion
+ * @param execNanos see TransmitQueue#recordCompletion
*/
protected void protectedCloseTask(final long now, final long enqueuedTicks, final long transmitTicks,
final long execNanos) {
--- /dev/null
+/*
+ * Copyright (c) 2017 Pantheon Technologies, s.r.o. 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.controller.cluster.access.client;
+
+import org.opendaylight.controller.cluster.access.concepts.RequestException;
+
+public final class RequestTimeoutException extends RequestException {
+ private static final long serialVersionUID = 1L;
+
+ public RequestTimeoutException(final String message) {
+ super(message);
+ }
+
+ @Override
+ public boolean isRetriable() {
+ return false;
+ }
+}
tracker.closeTask(now, entry.getEnqueuedTicks(), entry.getTxTicks(), envelope.getExecutionTimeNanos());
// We have freed up a slot, try to transmit something
+ tryTransmit(now);
+
+ return Optional.of(entry);
+ }
+
+ final void tryTransmit(final long now) {
final int toSend = canTransmitCount(inflight.size());
if (toSend > 0 && !pending.isEmpty()) {
transmitEntries(toSend, now);
}
-
- return Optional.of(entry);
}
private void transmitEntries(final int maxTransmit, final long now) {
}
}
+ final void remove(final long now) {
+ final TransmittedConnectionEntry txe = inflight.poll();
+ if (txe == null) {
+ final ConnectionEntry entry = pending.pop();
+ tracker.closeTask(now, entry.getEnqueuedTicks(), 0, 0);
+ } else {
+ tracker.closeTask(now, txe.getEnqueuedTicks(), txe.getTxTicks(), 0);
+ }
+ }
+
@VisibleForTesting
Deque<TransmittedConnectionEntry> getInflight() {
return inflight;
}
queue.clear();
}
-
}
import org.opendaylight.controller.cluster.access.concepts.RuntimeRequestException;
import org.opendaylight.controller.cluster.access.concepts.SuccessEnvelope;
import org.opendaylight.controller.cluster.access.concepts.TransactionIdentifier;
-import scala.concurrent.duration.FiniteDuration;
public abstract class AbstractClientConnectionTest<T extends AbstractClientConnection<U>, U extends BackendInfo> {
@Test
public void testCheckTimeoutEmptyQueue() throws Exception {
- final Optional<FiniteDuration> timeout = connection.checkTimeout(context.ticker().read());
+ final Optional<Long> timeout = connection.checkTimeout(context.ticker().read());
Assert.assertFalse(timeout.isPresent());
}
public void testCheckTimeoutConnectionTimeouted() throws Exception {
final Consumer<Response<?, ?>> callback = mock(Consumer.class);
connection.sendRequest(createRequest(replyToProbe.ref()), callback);
- final long now = context.ticker().read() + ConnectedClientConnection.REQUEST_TIMEOUT_NANOS;
- final Optional<FiniteDuration> timeout = connection.checkTimeout(now);
+ final long now = context.ticker().read() + ConnectedClientConnection.BACKEND_ALIVE_TIMEOUT_NANOS;
+ final Optional<Long> timeout = connection.checkTimeout(now);
Assert.assertNull(timeout);
}
final Consumer<Response<?, ?>> callback = mock(Consumer.class);
connection.sendRequest(createRequest(replyToProbe.ref()), callback);
final long now = context.ticker().read();
- final Optional<FiniteDuration> timeout = connection.checkTimeout(now);
+ final Optional<Long> timeout = connection.checkTimeout(now);
Assert.assertTrue(timeout.isPresent());
}
@Test
public void testSendRequestNeedsBackend() {
queue.sendRequest(mockRequest, mockCallback);
- final Optional<FiniteDuration> ret = queue.checkTimeout(ticker.read());
+ final Optional<Long> ret = queue.checkTimeout(ticker.read());
assertNotNull(ret);
assertTrue(ret.isPresent());
}
setupBackend();
queue.sendRequest(mockRequest, mockCallback);
- final Optional<FiniteDuration> ret = queue.checkTimeout(ticker.read());
+ final Optional<Long> ret = queue.checkTimeout(ticker.read());
assertNotNull(ret);
assertTrue(ret.isPresent());
assertTransmit(mockRequest, 0);
@Test
public void testRunTimeoutEmpty() throws NoProgressException {
- Optional<FiniteDuration> ret = queue.checkTimeout(ticker.read());
+ Optional<Long> ret = queue.checkTimeout(ticker.read());
assertNotNull(ret);
assertFalse(ret.isPresent());
}
@Test
public void testRunTimeoutWithoutShift() throws NoProgressException {
queue.sendRequest(mockRequest, mockCallback);
- Optional<FiniteDuration> ret = queue.checkTimeout(ticker.read());
+ Optional<Long> ret = queue.checkTimeout(ticker.read());
assertNotNull(ret);
assertTrue(ret.isPresent());
}
public void testRunTimeoutWithTimeoutLess() throws NoProgressException {
queue.sendRequest(mockRequest, mockCallback);
- ticker.advance(AbstractClientConnection.REQUEST_TIMEOUT_NANOS - 1);
+ ticker.advance(AbstractClientConnection.BACKEND_ALIVE_TIMEOUT_NANOS - 1);
- Optional<FiniteDuration> ret = queue.checkTimeout(ticker.read());
+ Optional<Long> ret = queue.checkTimeout(ticker.read());
assertNotNull(ret);
assertTrue(ret.isPresent());
}
queue.sendRequest(mockRequest, mockCallback);
- ticker.advance(AbstractClientConnection.REQUEST_TIMEOUT_NANOS);
+ ticker.advance(AbstractClientConnection.BACKEND_ALIVE_TIMEOUT_NANOS);
- Optional<FiniteDuration> ret = queue.checkTimeout(ticker.read());
+ Optional<Long> ret = queue.checkTimeout(ticker.read());
assertNull(ret);
}
queue.sendRequest(mockRequest, mockCallback);
- ticker.advance(AbstractClientConnection.REQUEST_TIMEOUT_NANOS + 1);
+ ticker.advance(AbstractClientConnection.BACKEND_ALIVE_TIMEOUT_NANOS + 1);
- Optional<FiniteDuration> ret = queue.checkTimeout(ticker.read());
+ Optional<Long> ret = queue.checkTimeout(ticker.read());
assertNull(ret);
}
ticker.advance(AbstractClientConnection.NO_PROGRESS_TIMEOUT_NANOS);
// No problem
- Optional<FiniteDuration> ret = queue.checkTimeout(ticker.read());
+ Optional<Long> ret = queue.checkTimeout(ticker.read());
assertNotNull(ret);
assertFalse(ret.isPresent());
}
ticker.advance(AbstractClientConnection.NO_PROGRESS_TIMEOUT_NANOS + 1);
// No problem
- Optional<FiniteDuration> ret = queue.checkTimeout(ticker.read());
+ Optional<Long> ret = queue.checkTimeout(ticker.read());
assertNotNull(ret);
assertFalse(ret.isPresent());
}
ticker.advance(AbstractClientConnection.NO_PROGRESS_TIMEOUT_NANOS - 11);
- Optional<FiniteDuration> ret = queue.checkTimeout(ticker.read());
+ Optional<Long> ret = queue.checkTimeout(ticker.read());
assertNull(ret);
}
@Parameters(name = "{0}")
public static Collection<Object[]> data() {
return Arrays.asList(new Object[][] {
- { DistributedDataStore.class, 7}, { ClientBackedDataStore.class, 60 }
+ { DistributedDataStore.class, 7}, { ClientBackedDataStore.class, 120 }
});
}
org.slf4j.simpleLogger.log.org.opendaylight.controller.cluster.databroker.actors.dds=debug
org.slf4j.simpleLogger.log.org.opendaylight.controller.cluster.datastore.node.utils.stream=off
org.slf4j.simpleLogger.log.org.opendaylight.controller.cluster.sharding=debug
+org.slf4j.simpleLogger.log.org.opendaylight.controller.cluster.access.client=debug