/**
* Licensed to Cloudera, Inc. under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. Cloudera, Inc. licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.cloudera.flume.handlers.debug;
import java.io.IOException;
import java.util.ArrayList;
import java.util.List;
import java.util.Map;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.cloudera.flume.conf.Context;
import com.cloudera.flume.conf.FlumeConfiguration;
import com.cloudera.flume.conf.SinkFactory.SinkDecoBuilder;
import com.cloudera.flume.core.Event;
import com.cloudera.flume.core.EventSink;
import com.cloudera.flume.core.EventSinkDecorator;
import com.cloudera.flume.reporter.ReportEvent;
import com.cloudera.flume.reporter.Reportable;
import com.cloudera.util.BackoffPolicy;
import com.cloudera.util.CappedExponentialBackoff;
import com.cloudera.util.CumulativeCappedExponentialBackoff;
import com.cloudera.util.MultipleIOException;
import com.google.common.base.Preconditions;
/**
* This sink decorator attempts to retry opening for up to max millis. This is
* useful for starting several nodes simultaneously in a situation where a
* server may be slower to start than a client that wants to make a connection.
*/
public class InsistentOpenDecorator<S extends EventSink> extends
EventSinkDecorator<S> implements Reportable {
static final Logger LOG = LoggerFactory
.getLogger(InsistentOpenDecorator.class);
final BackoffPolicy backoff;
// attribute names
final public static String A_ATTEMPTS = "openAttempts";
final public static String A_REQUESTS = "openRequests";
final public static String A_SUCCESSES = "openSuccessses";
final public static String A_RETRIES = "openRetries";
final public static String A_GIVEUPS = "openGiveups";
long openRequests; // # of times open was called
long openAttempts; // # of of times
long openSuccesses; // # of times we successfully opened
long openRetries; // # of times we tried to reopen
long openGiveups; // # of times we gave up on waiting
volatile boolean opening = false;
public InsistentOpenDecorator(S s, BackoffPolicy backoff) {
super(s);
this.backoff = backoff;
this.openSuccesses = 0;
this.openRetries = 0;
}
/**
* Creates a deco that has subsink s, and after failure initially waits for
* 'initial' ms, exponentially backs off an individual sleep upto 'sleepCap'
* ms, and fails after total backoff time has reached 'cumulativeCap' ms.
*/
public InsistentOpenDecorator(S s, long sleepCap, long initial,
long cumulativeCap) {
super(s);
this.backoff = new CumulativeCappedExponentialBackoff(initial, sleepCap,
cumulativeCap);
this.openSuccesses = 0;
this.openRetries = 0;
}
/**
* Creates a deco that has subsink s, and after failure initially waits for
* 'initial' ms, exponentially backs off an individual sleep upto 'sleepCap'
* ms. This has no cumulative cap and will never give up.
*/
public InsistentOpenDecorator(S s, long sleepCap, long initial) {
super(s);
this.backoff = new CappedExponentialBackoff(initial, sleepCap);
this.openSuccesses = 0;
this.openRetries = 0;
}
@Override
synchronized public void open() throws IOException {
List<IOException> exns = new ArrayList<IOException>();
int attemptRetries = 0;
opening = true;
openRequests++;
while (!backoff.isFailed() && opening
&& !Thread.currentThread().isInterrupted()) {
try {
openAttempts++;
super.open();
openSuccesses++;
backoff.reset(); // reset backoff counter;
LOG.info("Opened " + sink.getName() + " on try " + attemptRetries);
opening = false;
return;
} catch (Exception e) {
if (Thread.currentThread().isInterrupted()) {
throw new IOException("Open has been interrupted");
}
if (!opening) {
throw new IOException("Unable to open and then close requested");
}
long waitTime = backoff.sleepIncrement();
LOG.info("open attempt " + attemptRetries + " failed, backoff ("
+ waitTime + "ms): " + e.getMessage());
LOG.debug(e.getMessage(), e);
exns.add((e instanceof IOException) ? (IOException) e
: new IOException(e));
backoff.backoff();
try {
// this is a blocking sleep and we don't want to hold the lock here.
backoff.waitUntilRetryOk();
} catch (InterruptedException e1) {
// got an interrupted signal, bail out!
Thread.currentThread().interrupt(); // re-interrupt thread.
exns.add(new IOException(e1));
throw MultipleIOException.createIOException(exns);
}
attemptRetries++;
openRetries++;
}
}
openGiveups++;
opening = false;
// failed to start
IOException ioe = MultipleIOException.createIOException(exns);
if (ioe == null) {
return;
}
throw ioe;
}
@Override
synchronized public void append(Event e) throws IOException,
InterruptedException {
super.append(e);
}
@Override
synchronized public void close() throws IOException, InterruptedException {
opening = false;
super.close();
}
public static SinkDecoBuilder builder() {
return new SinkDecoBuilder() {
@Override
public EventSinkDecorator<EventSink> build(Context context,
String... argv) {
long initMs = FlumeConfiguration.get().getInsistentOpenInitBackoff();
long cumulativeMaxMs = FlumeConfiguration.get()
.getFailoverMaxCumulativeBackoff();
long maxMs = FlumeConfiguration.get().getFailoverMaxSingleBackoff();
Preconditions.checkArgument(argv.length <= 3,
"usage: insistentOpen([max=" + maxMs + "[,init=" + initMs
+ "[,cumulativeMax=maxint]]])");
if (argv.length >= 1) {
maxMs = Long.parseLong(argv[0]);
}
if (argv.length >= 2) {
initMs = Long.parseLong(argv[1]);
}
if (argv.length == 3) {
cumulativeMaxMs = Long.parseLong(argv[2]);
// This one can give up
return new InsistentOpenDecorator<EventSink>(null,
new CumulativeCappedExponentialBackoff(initMs, maxMs,
cumulativeMaxMs));
}
return new InsistentOpenDecorator<EventSink>(null,
new CappedExponentialBackoff(initMs, maxMs));
}
};
}
@Override
public String getName() {
return "InsistentOpen";
}
@Override
public ReportEvent getMetrics() {
ReportEvent rpt = super.getMetrics();
// counters
rpt.setLongMetric(A_REQUESTS, openRequests);
rpt.setLongMetric(A_ATTEMPTS, openAttempts);
rpt.setLongMetric(A_SUCCESSES, openSuccesses);
rpt.setLongMetric(A_RETRIES, openRetries);
rpt.setLongMetric(A_GIVEUPS, openGiveups);
return rpt;
}
@Override
public Map<String, Reportable> getSubMetrics() {
Map<String, Reportable> map = super.getSubMetrics();
map.put("backoffPolicy." + backoff.getName(), backoff);
return map;
}
@Deprecated
@Override
public ReportEvent getReport() {
ReportEvent rpt = super.getReport();
// parameters
rpt.hierarchicalMerge("backoffPolicy." + backoff.getName(), backoff
.getMetrics());
// counters
rpt.setLongMetric(A_REQUESTS, openRequests);
rpt.setLongMetric(A_ATTEMPTS, openAttempts);
rpt.setLongMetric(A_SUCCESSES, openSuccesses);
rpt.setLongMetric(A_RETRIES, openRetries);
rpt.setLongMetric(A_GIVEUPS, openGiveups);
return rpt;
}
}