/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF 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 org.apache.hadoop.hdfs.server.datanode.metrics;
import static org.apache.hadoop.metrics2.impl.MsInfo.SessionId;
import org.apache.hadoop.classification.InterfaceAudience;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.hdfs.DFSConfigKeys;
import org.apache.hadoop.hdfs.DFSUtil;
import org.apache.hadoop.metrics2.MetricsSystem;
import org.apache.hadoop.metrics2.annotation.Metric;
import org.apache.hadoop.metrics2.annotation.Metrics;
import org.apache.hadoop.metrics2.lib.DefaultMetricsSystem;
import org.apache.hadoop.metrics2.lib.MetricsRegistry;
import org.apache.hadoop.metrics2.lib.MutableCounterLong;
import org.apache.hadoop.metrics2.lib.MutableQuantiles;
import org.apache.hadoop.metrics2.lib.MutableRate;
import org.apache.hadoop.metrics2.source.JvmMetrics;
/**
*
* This class is for maintaining the various DataNode statistics
* and publishing them through the metrics interfaces.
* This also registers the JMX MBean for RPC.
* <p>
* This class has a number of metrics variables that are publicly accessible;
* these variables (objects) have methods to update their values;
* for example:
* <p> {@link #blocksRead}.inc()
*
*/
@InterfaceAudience.Private
@Metrics(about="DataNode metrics", context="dfs")
public class DataNodeMetrics {
@Metric MutableCounterLong bytesWritten;
@Metric("Milliseconds spent writing")
MutableCounterLong totalWriteTime;
@Metric MutableCounterLong bytesRead;
@Metric("Milliseconds spent reading")
MutableCounterLong totalReadTime;
@Metric MutableCounterLong blocksWritten;
@Metric MutableCounterLong blocksRead;
@Metric MutableCounterLong blocksReplicated;
@Metric MutableCounterLong blocksRemoved;
@Metric MutableCounterLong blocksVerified;
@Metric MutableCounterLong blockVerificationFailures;
@Metric MutableCounterLong blocksCached;
@Metric MutableCounterLong blocksUncached;
@Metric MutableCounterLong readsFromLocalClient;
@Metric MutableCounterLong readsFromRemoteClient;
@Metric MutableCounterLong writesFromLocalClient;
@Metric MutableCounterLong writesFromRemoteClient;
@Metric MutableCounterLong blocksGetLocalPathInfo;
@Metric("Bytes read by remote client")
MutableCounterLong remoteBytesRead;
@Metric("Bytes written by remote client")
MutableCounterLong remoteBytesWritten;
// RamDisk metrics on read/write
@Metric MutableCounterLong ramDiskBlocksWrite;
@Metric MutableCounterLong ramDiskBlocksWriteFallback;
@Metric MutableCounterLong ramDiskBytesWrite;
@Metric MutableCounterLong ramDiskBlocksReadHits;
// RamDisk metrics on eviction
@Metric MutableCounterLong ramDiskBlocksEvicted;
@Metric MutableCounterLong ramDiskBlocksEvictedWithoutRead;
@Metric MutableRate ramDiskBlocksEvictionWindowMs;
final MutableQuantiles[] ramDiskBlocksEvictionWindowMsQuantiles;
// RamDisk metrics on lazy persist
@Metric MutableCounterLong ramDiskBlocksLazyPersisted;
@Metric MutableCounterLong ramDiskBlocksDeletedBeforeLazyPersisted;
@Metric MutableCounterLong ramDiskBytesLazyPersisted;
@Metric MutableRate ramDiskBlocksLazyPersistWindowMs;
final MutableQuantiles[] ramDiskBlocksLazyPersistWindowMsQuantiles;
@Metric MutableCounterLong fsyncCount;
@Metric MutableCounterLong volumeFailures;
@Metric("Count of network errors on the datanode")
MutableCounterLong datanodeNetworkErrors;
@Metric MutableRate readBlockOp;
@Metric MutableRate writeBlockOp;
@Metric MutableRate blockChecksumOp;
@Metric MutableRate copyBlockOp;
@Metric MutableRate replaceBlockOp;
@Metric MutableRate heartbeats;
@Metric MutableRate blockReports;
@Metric MutableRate incrementalBlockReports;
@Metric MutableRate cacheReports;
@Metric MutableRate packetAckRoundTripTimeNanos;
final MutableQuantiles[] packetAckRoundTripTimeNanosQuantiles;
@Metric MutableRate flushNanos;
final MutableQuantiles[] flushNanosQuantiles;
@Metric MutableRate fsyncNanos;
final MutableQuantiles[] fsyncNanosQuantiles;
@Metric MutableRate sendDataPacketBlockedOnNetworkNanos;
final MutableQuantiles[] sendDataPacketBlockedOnNetworkNanosQuantiles;
@Metric MutableRate sendDataPacketTransferNanos;
final MutableQuantiles[] sendDataPacketTransferNanosQuantiles;
final MetricsRegistry registry = new MetricsRegistry("datanode");
final String name;
JvmMetrics jvmMetrics = null;
public DataNodeMetrics(String name, String sessionId, int[] intervals,
final JvmMetrics jvmMetrics) {
this.name = name;
this.jvmMetrics = jvmMetrics;
registry.tag(SessionId, sessionId);
final int len = intervals.length;
packetAckRoundTripTimeNanosQuantiles = new MutableQuantiles[len];
flushNanosQuantiles = new MutableQuantiles[len];
fsyncNanosQuantiles = new MutableQuantiles[len];
sendDataPacketBlockedOnNetworkNanosQuantiles = new MutableQuantiles[len];
sendDataPacketTransferNanosQuantiles = new MutableQuantiles[len];
ramDiskBlocksEvictionWindowMsQuantiles = new MutableQuantiles[len];
ramDiskBlocksLazyPersistWindowMsQuantiles = new MutableQuantiles[len];
for (int i = 0; i < len; i++) {
int interval = intervals[i];
packetAckRoundTripTimeNanosQuantiles[i] = registry.newQuantiles(
"packetAckRoundTripTimeNanos" + interval + "s",
"Packet Ack RTT in ns", "ops", "latency", interval);
flushNanosQuantiles[i] = registry.newQuantiles(
"flushNanos" + interval + "s",
"Disk flush latency in ns", "ops", "latency", interval);
fsyncNanosQuantiles[i] = registry.newQuantiles(
"fsyncNanos" + interval + "s", "Disk fsync latency in ns",
"ops", "latency", interval);
sendDataPacketBlockedOnNetworkNanosQuantiles[i] = registry.newQuantiles(
"sendDataPacketBlockedOnNetworkNanos" + interval + "s",
"Time blocked on network while sending a packet in ns",
"ops", "latency", interval);
sendDataPacketTransferNanosQuantiles[i] = registry.newQuantiles(
"sendDataPacketTransferNanos" + interval + "s",
"Time reading from disk and writing to network while sending " +
"a packet in ns", "ops", "latency", interval);
ramDiskBlocksEvictionWindowMsQuantiles[i] = registry.newQuantiles(
"ramDiskBlocksEvictionWindows" + interval + "s",
"Time between the RamDisk block write and eviction in ms",
"ops", "latency", interval);
ramDiskBlocksLazyPersistWindowMsQuantiles[i] = registry.newQuantiles(
"ramDiskBlocksLazyPersistWindows" + interval + "s",
"Time between the RamDisk block write and disk persist in ms",
"ops", "latency", interval);
}
}
public static DataNodeMetrics create(Configuration conf, String dnName) {
String sessionId = conf.get(DFSConfigKeys.DFS_METRICS_SESSION_ID_KEY);
MetricsSystem ms = DefaultMetricsSystem.instance();
JvmMetrics jm = JvmMetrics.create("DataNode", sessionId, ms);
String name = "DataNodeActivity-"+ (dnName.isEmpty()
? "UndefinedDataNodeName"+ DFSUtil.getRandom().nextInt()
: dnName.replace(':', '-'));
// Percentile measurement is off by default, by watching no intervals
int[] intervals =
conf.getInts(DFSConfigKeys.DFS_METRICS_PERCENTILES_INTERVALS_KEY);
return ms.register(name, null, new DataNodeMetrics(name, sessionId,
intervals, jm));
}
public String name() { return name; }
public JvmMetrics getJvmMetrics() {
return jvmMetrics;
}
public void addHeartbeat(long latency) {
heartbeats.add(latency);
}
public void addBlockReport(long latency) {
blockReports.add(latency);
}
public void addIncrementalBlockReport(long latency) {
incrementalBlockReports.add(latency);
}
public void addCacheReport(long latency) {
cacheReports.add(latency);
}
public void incrBlocksReplicated(int delta) {
blocksReplicated.incr(delta);
}
public void incrBlocksWritten() {
blocksWritten.incr();
}
public void incrBlocksRemoved(int delta) {
blocksRemoved.incr(delta);
}
public void incrBytesWritten(int delta) {
bytesWritten.incr(delta);
}
public void incrBlockVerificationFailures() {
blockVerificationFailures.incr();
}
public void incrBlocksVerified() {
blocksVerified.incr();
}
public void incrBlocksCached(int delta) {
blocksCached.incr(delta);
}
public void incrBlocksUncached(int delta) {
blocksUncached.incr(delta);
}
public void addReadBlockOp(long latency) {
readBlockOp.add(latency);
}
public void addWriteBlockOp(long latency) {
writeBlockOp.add(latency);
}
public void addReplaceBlockOp(long latency) {
replaceBlockOp.add(latency);
}
public void addCopyBlockOp(long latency) {
copyBlockOp.add(latency);
}
public void addBlockChecksumOp(long latency) {
blockChecksumOp.add(latency);
}
public void incrBytesRead(int delta) {
bytesRead.incr(delta);
}
public void incrBlocksRead() {
blocksRead.incr();
}
public void incrFsyncCount() {
fsyncCount.incr();
}
public void incrTotalWriteTime(long timeTaken) {
totalWriteTime.incr(timeTaken);
}
public void incrTotalReadTime(long timeTaken) {
totalReadTime.incr(timeTaken);
}
public void addPacketAckRoundTripTimeNanos(long latencyNanos) {
packetAckRoundTripTimeNanos.add(latencyNanos);
for (MutableQuantiles q : packetAckRoundTripTimeNanosQuantiles) {
q.add(latencyNanos);
}
}
public void addFlushNanos(long latencyNanos) {
flushNanos.add(latencyNanos);
for (MutableQuantiles q : flushNanosQuantiles) {
q.add(latencyNanos);
}
}
public void addFsyncNanos(long latencyNanos) {
fsyncNanos.add(latencyNanos);
for (MutableQuantiles q : fsyncNanosQuantiles) {
q.add(latencyNanos);
}
}
public void shutdown() {
DefaultMetricsSystem.shutdown();
}
public void incrWritesFromClient(boolean local, long size) {
if(local) {
writesFromLocalClient.incr();
} else {
writesFromRemoteClient.incr();
remoteBytesWritten.incr(size);
}
}
public void incrReadsFromClient(boolean local, long size) {
if (local) {
readsFromLocalClient.incr();
} else {
readsFromRemoteClient.incr();
remoteBytesRead.incr(size);
}
}
public void incrVolumeFailures() {
volumeFailures.incr();
}
public void incrDatanodeNetworkErrors() {
datanodeNetworkErrors.incr();
}
/** Increment for getBlockLocalPathInfo calls */
public void incrBlocksGetLocalPathInfo() {
blocksGetLocalPathInfo.incr();
}
public void addSendDataPacketBlockedOnNetworkNanos(long latencyNanos) {
sendDataPacketBlockedOnNetworkNanos.add(latencyNanos);
for (MutableQuantiles q : sendDataPacketBlockedOnNetworkNanosQuantiles) {
q.add(latencyNanos);
}
}
public void addSendDataPacketTransferNanos(long latencyNanos) {
sendDataPacketTransferNanos.add(latencyNanos);
for (MutableQuantiles q : sendDataPacketTransferNanosQuantiles) {
q.add(latencyNanos);
}
}
public void incrRamDiskBlocksWrite() {
ramDiskBlocksWrite.incr();
}
public void incrRamDiskBlocksWriteFallback() {
ramDiskBlocksWriteFallback.incr();
}
public void addRamDiskBytesWrite(long bytes) {
ramDiskBytesWrite.incr(bytes);
}
public void incrRamDiskBlocksReadHits() {
ramDiskBlocksReadHits.incr();
}
public void incrRamDiskBlocksEvicted() {
ramDiskBlocksEvicted.incr();
}
public void incrRamDiskBlocksEvictedWithoutRead() {
ramDiskBlocksEvictedWithoutRead.incr();
}
public void addRamDiskBlocksEvictionWindowMs(long latencyMs) {
ramDiskBlocksEvictionWindowMs.add(latencyMs);
for (MutableQuantiles q : ramDiskBlocksEvictionWindowMsQuantiles) {
q.add(latencyMs);
}
}
public void incrRamDiskBlocksLazyPersisted() {
ramDiskBlocksLazyPersisted.incr();
}
public void incrRamDiskBlocksDeletedBeforeLazyPersisted() {
ramDiskBlocksDeletedBeforeLazyPersisted.incr();
}
public void incrRamDiskBytesLazyPersisted(long bytes) {
ramDiskBytesLazyPersisted.incr(bytes);
}
public void addRamDiskBlocksLazyPersistWindowMs(long latencyMs) {
ramDiskBlocksLazyPersistWindowMs.add(latencyMs);
for (MutableQuantiles q : ramDiskBlocksLazyPersistWindowMsQuantiles) {
q.add(latencyMs);
}
}
}
