org.graylog2.plugin.inputs.transports.ThrottleableTransport Maven / Gradle / Ivy
/**
* This file is part of Graylog.
*
* Graylog is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Graylog is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Graylog. If not, see .
*/
package org.graylog2.plugin.inputs.transports;
import com.google.common.eventbus.EventBus;
import com.google.common.eventbus.Subscribe;
import org.graylog2.plugin.ThrottleState;
import org.graylog2.plugin.configuration.Configuration;
import org.graylog2.plugin.configuration.ConfigurationRequest;
import org.graylog2.plugin.configuration.fields.BooleanField;
import org.graylog2.plugin.inputs.MessageInput;
import org.graylog2.plugin.inputs.MisfireException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.atomic.AtomicBoolean;
/**
* Placeholder class for implementing logic to throttle certain transports which support back pressure.
* The built in transports that support this by reading less are the Kafka and AMQP transports.
*
* Empty for now, since the process buffer provides natural throttling for now, but once that is async we need
* to supply back pressure in some other way.
*/
public abstract class ThrottleableTransport implements Transport {
private static final Logger log = LoggerFactory.getLogger(ThrottleableTransport.class);
public static final String CK_THROTTLING_ALLOWED = "throttling_allowed";
private final boolean throttlingAllowed;
private final AtomicBoolean currentlyThrottled = new AtomicBoolean(false);
private final EventBus eventBus;
private volatile CountDownLatch blockLatch = null;
private long lastUncommitted;
public static class Config implements Transport.Config {
@Override
public ConfigurationRequest getRequestedConfiguration() {
final ConfigurationRequest request = new ConfigurationRequest();
request.addField(new BooleanField(
CK_THROTTLING_ALLOWED,
"Allow throttling this input.",
false,
"If enabled, no new messages will be read from this input until Graylog catches up with its message load. " +
"This is typically useful for inputs reading from files or message queue systems like AMQP or Kafka. " +
"If you regularly poll an external system, e.g. via HTTP, you normally want to leave this disabled."
));
return request;
}
}
public ThrottleableTransport(EventBus eventBus, Configuration configuration) {
this.eventBus = eventBus;
this.throttlingAllowed = configuration.getBoolean(CK_THROTTLING_ALLOWED);
}
@Override
public void launch(MessageInput input) throws MisfireException {
// Call this before registering on the event bus. There might be stuff in doLaunch() that needs to run first.
doLaunch(input);
// only listen for updates if we are allowed to be throttled at all
if (throttlingAllowed) {
eventBus.register(this);
}
}
/**
* Performs the same purpose as {@link #launch(org.graylog2.plugin.inputs.MessageInput)} but guarantees that the superclass'
* actions are performed.
* @param input
* @throws MisfireException
*/
protected abstract void doLaunch(MessageInput input) throws MisfireException;
@Override
public void stop() {
// always unblock the transport when shutting down to avoid deadlock
if (currentlyThrottled.get()) {
blockLatch.countDown();
}
// Call this before unregistering from the eventbus. There might be another call to unregister in doStop()
// which is not protected by try/catch.
doStop();
if (throttlingAllowed) {
try {
eventBus.unregister(this);
} catch (IllegalArgumentException ignored) {
// Ingored. This will be thrown if the object has been unregistered before.
}
}
}
/**
* Performs the same purpose as {@link #stop()} but guarantees that the superclass' actions are performed.
*/
protected abstract void doStop();
/**
* Only executed if this input is allowed to be throttled at all
* @param throttleState current processing system state
*/
@Subscribe
public void updateThrottleState(ThrottleState throttleState) {
// Only run if throttling is enabled.
if (!throttlingAllowed) {
return;
}
// check if we are throttled
final boolean throttled = determineIfThrottled(throttleState);
if (currentlyThrottled.get()) {
// no need to unblock
if (throttled) {
return;
}
// sanity check
if (blockLatch == null) {
log.error("Expected to see a transport throttle latch, but it is missing. This is a bug, continuing anyway.");
return;
}
currentlyThrottled.set(false);
blockLatch.countDown();
} else if (throttled) {
currentlyThrottled.set(true);
blockLatch = new CountDownLatch(1);
}
}
public boolean isThrottled() {
return throttlingAllowed && currentlyThrottled.get();
}
/**
* This method implements the default algorithm for determining whether a transport will be throttled or not.
*
* Override this method in your subclass if you need to customize the decision.
*
*
* If the transport was started without the throttling_allowed
flag enabled, this method will not be called!
*
* @param state the current state of the processing system
* @return true if transport should be throttled, false if not.
*/
protected boolean determineIfThrottled(ThrottleState state) {
final long prevUncommitted = lastUncommitted;
lastUncommitted = state.uncommittedJournalEntries;
final String transportName = this.getClass().getSimpleName();
log.debug("Checking if transport {} should be throttled {}", transportName, state);
if (state.uncommittedJournalEntries == 0) {
// journal is completely empty, let's read some stuff
log.debug("[{}] [unthrottled] journal empty", transportName);
return false;
}
if (state.uncommittedJournalEntries > 100_000) {
log.debug("[{}] [throttled] number of unread journal entries is larger than 100.000 entries: {}", transportName, state.uncommittedJournalEntries);
return true;
}
if (state.uncommittedJournalEntries - prevUncommitted > 20_000) {
// journal is growing, don't read more
log.debug("[{}] [throttled] number of unread journal entries is growing by more than 20.000 entries: {}", transportName, state.uncommittedJournalEntries - prevUncommitted);
return true;
}
if (state.processBufferCapacity == 0) {
log.debug("[{}] [throttled] no capacity in process buffer", transportName);
return true;
}
if (state.appendEventsPerSec == 0 && state.readEventsPerSec == 0 && state.processBufferCapacity > 0) {
// no one writes anything, it's ok to get more events
log.debug("[{}] [unthrottled] no incoming messages and nothing read from journal even if we could", transportName);
return false;
}
if ((state.journalSize / (double) state.journalSizeLimit) * 100.0 > 90) {
// more than 90% of the journal limit is in use, don't read more if possible to avoid throwing away data
log.debug("[{}] [throttled] journal more than 90% full", transportName);
return true;
}
if ((state.readEventsPerSec / (double) state.appendEventsPerSec) * 100.0 < 50) {
// read rate is less than 50% of what we write to the journal over the last second, let's try to back off
log.debug("[{}] [throttled] write rate is more than twice as high than read rate", transportName);
return true;
}
log.debug("[{}] [unthrottled] fall through", transportName);
return false;
}
public void blockUntilUnthrottled() {
// sanity: if there's no latch, don't try to access it
if (blockLatch == null) {
return;
}
// purposely allow interrupts as a means to let the caller check if it should exit its run loop
try {
blockLatch.await();
} catch (InterruptedException e) {
// ignore
}
}
}