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/**
* 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 kafka.tools
import java.text.SimpleDateFormat
import java.time.Duration
import java.util
import java.util.concurrent.atomic.AtomicLong
import java.util.{Properties, Random}
import com.typesafe.scalalogging.LazyLogging
import kafka.utils.{CommandLineUtils, ToolsUtils}
import org.apache.kafka.clients.consumer.{ConsumerRebalanceListener, KafkaConsumer}
import org.apache.kafka.common.serialization.ByteArrayDeserializer
import org.apache.kafka.common.utils.Utils
import org.apache.kafka.common.{Metric, MetricName, TopicPartition}
import scala.collection.JavaConverters._
import scala.collection.mutable
/**
* Performance test for the full zookeeper consumer
*/
object ConsumerPerformance extends LazyLogging {
def main(args: Array[String]): Unit = {
val config = new ConsumerPerfConfig(args)
logger.info("Starting consumer...")
val totalMessagesRead = new AtomicLong(0)
val totalBytesRead = new AtomicLong(0)
var metrics: mutable.Map[MetricName, _ <: Metric] = null
val joinGroupTimeInMs = new AtomicLong(0)
if (!config.hideHeader)
printHeader(config.showDetailedStats)
var startMs, endMs = 0L
val consumer = new KafkaConsumer[Array[Byte], Array[Byte]](config.props)
startMs = System.currentTimeMillis
consume(consumer, List(config.topic), config.numMessages, config.recordFetchTimeoutMs, config, totalMessagesRead, totalBytesRead, joinGroupTimeInMs, startMs)
endMs = System.currentTimeMillis
if (config.printMetrics) {
metrics = consumer.metrics.asScala
}
consumer.close()
val elapsedSecs = (endMs - startMs) / 1000.0
val fetchTimeInMs = (endMs - startMs) - joinGroupTimeInMs.get
if (!config.showDetailedStats) {
val totalMBRead = (totalBytesRead.get * 1.0) / (1024 * 1024)
println("%s, %s, %.4f, %.4f, %d, %.4f, %d, %d, %.4f, %.4f".format(
config.dateFormat.format(startMs),
config.dateFormat.format(endMs),
totalMBRead,
totalMBRead / elapsedSecs,
totalMessagesRead.get,
totalMessagesRead.get / elapsedSecs,
joinGroupTimeInMs.get,
fetchTimeInMs,
totalMBRead / (fetchTimeInMs / 1000.0),
totalMessagesRead.get / (fetchTimeInMs / 1000.0)
))
}
if (metrics != null) {
ToolsUtils.printMetrics(metrics)
}
}
private[tools] def printHeader(showDetailedStats: Boolean): Unit = {
val newFieldsInHeader = ", rebalance.time.ms, fetch.time.ms, fetch.MB.sec, fetch.nMsg.sec"
if (!showDetailedStats)
println("start.time, end.time, data.consumed.in.MB, MB.sec, data.consumed.in.nMsg, nMsg.sec" + newFieldsInHeader)
else
println("time, threadId, data.consumed.in.MB, MB.sec, data.consumed.in.nMsg, nMsg.sec" + newFieldsInHeader)
}
def consume(consumer: KafkaConsumer[Array[Byte], Array[Byte]],
topics: List[String],
count: Long,
timeout: Long,
config: ConsumerPerfConfig,
totalMessagesRead: AtomicLong,
totalBytesRead: AtomicLong,
joinTime: AtomicLong,
testStartTime: Long): Unit = {
var bytesRead = 0L
var messagesRead = 0L
var lastBytesRead = 0L
var lastMessagesRead = 0L
var joinStart = 0L
var joinTimeMsInSingleRound = 0L
consumer.subscribe(topics.asJava, new ConsumerRebalanceListener {
def onPartitionsAssigned(partitions: util.Collection[TopicPartition]): Unit = {
joinTime.addAndGet(System.currentTimeMillis - joinStart)
joinTimeMsInSingleRound += System.currentTimeMillis - joinStart
}
def onPartitionsRevoked(partitions: util.Collection[TopicPartition]): Unit = {
joinStart = System.currentTimeMillis
}})
// Now start the benchmark
var currentTimeMillis = System.currentTimeMillis
var lastReportTime: Long = currentTimeMillis
var lastConsumedTime = currentTimeMillis
while (messagesRead < count && currentTimeMillis - lastConsumedTime <= timeout) {
val records = consumer.poll(Duration.ofMillis(100)).asScala
currentTimeMillis = System.currentTimeMillis
if (records.nonEmpty)
lastConsumedTime = currentTimeMillis
for (record <- records) {
messagesRead += 1
if (record.key != null)
bytesRead += record.key.size
if (record.value != null)
bytesRead += record.value.size
if (currentTimeMillis - lastReportTime >= config.reportingInterval) {
if (config.showDetailedStats)
printConsumerProgress(0, bytesRead, lastBytesRead, messagesRead, lastMessagesRead,
lastReportTime, currentTimeMillis, config.dateFormat, joinTimeMsInSingleRound)
joinTimeMsInSingleRound = 0L
lastReportTime = currentTimeMillis
lastMessagesRead = messagesRead
lastBytesRead = bytesRead
}
}
}
if (messagesRead < count)
println(s"WARNING: Exiting before consuming the expected number of messages: timeout ($timeout ms) exceeded. " +
"You can use the --timeout option to increase the timeout.")
totalMessagesRead.set(messagesRead)
totalBytesRead.set(bytesRead)
}
def printConsumerProgress(id: Int,
bytesRead: Long,
lastBytesRead: Long,
messagesRead: Long,
lastMessagesRead: Long,
startMs: Long,
endMs: Long,
dateFormat: SimpleDateFormat,
periodicJoinTimeInMs: Long): Unit = {
printBasicProgress(id, bytesRead, lastBytesRead, messagesRead, lastMessagesRead, startMs, endMs, dateFormat)
printExtendedProgress(bytesRead, lastBytesRead, messagesRead, lastMessagesRead, startMs, endMs, periodicJoinTimeInMs)
println()
}
private def printBasicProgress(id: Int,
bytesRead: Long,
lastBytesRead: Long,
messagesRead: Long,
lastMessagesRead: Long,
startMs: Long,
endMs: Long,
dateFormat: SimpleDateFormat): Unit = {
val elapsedMs: Double = endMs - startMs
val totalMbRead = (bytesRead * 1.0) / (1024 * 1024)
val intervalMbRead = ((bytesRead - lastBytesRead) * 1.0) / (1024 * 1024)
val intervalMbPerSec = 1000.0 * intervalMbRead / elapsedMs
val intervalMessagesPerSec = ((messagesRead - lastMessagesRead) / elapsedMs) * 1000.0
print("%s, %d, %.4f, %.4f, %d, %.4f".format(dateFormat.format(endMs), id, totalMbRead,
intervalMbPerSec, messagesRead, intervalMessagesPerSec))
}
private def printExtendedProgress(bytesRead: Long,
lastBytesRead: Long,
messagesRead: Long,
lastMessagesRead: Long,
startMs: Long,
endMs: Long,
periodicJoinTimeInMs: Long): Unit = {
val fetchTimeMs = endMs - startMs - periodicJoinTimeInMs
val intervalMbRead = ((bytesRead - lastBytesRead) * 1.0) / (1024 * 1024)
val intervalMessagesRead = messagesRead - lastMessagesRead
val (intervalMbPerSec, intervalMessagesPerSec) = if (fetchTimeMs <= 0)
(0.0, 0.0)
else
(1000.0 * intervalMbRead / fetchTimeMs, 1000.0 * intervalMessagesRead / fetchTimeMs)
print(", %d, %d, %.4f, %.4f".format(periodicJoinTimeInMs, fetchTimeMs, intervalMbPerSec, intervalMessagesPerSec))
}
class ConsumerPerfConfig(args: Array[String]) extends PerfConfig(args) {
val bootstrapServersOpt = parser.accepts("broker-list", "REQUIRED: The server(s) to connect to.")
.withRequiredArg()
.describedAs("host")
.ofType(classOf[String])
val topicOpt = parser.accepts("topic", "REQUIRED: The topic to consume from.")
.withRequiredArg
.describedAs("topic")
.ofType(classOf[String])
val groupIdOpt = parser.accepts("group", "The group id to consume on.")
.withRequiredArg
.describedAs("gid")
.defaultsTo("perf-consumer-" + new Random().nextInt(100000))
.ofType(classOf[String])
val fetchSizeOpt = parser.accepts("fetch-size", "The amount of data to fetch in a single request.")
.withRequiredArg
.describedAs("size")
.ofType(classOf[java.lang.Integer])
.defaultsTo(1024 * 1024)
val resetBeginningOffsetOpt = parser.accepts("from-latest", "If the consumer does not already have an established " +
"offset to consume from, start with the latest message present in the log rather than the earliest message.")
val socketBufferSizeOpt = parser.accepts("socket-buffer-size", "The size of the tcp RECV size.")
.withRequiredArg
.describedAs("size")
.ofType(classOf[java.lang.Integer])
.defaultsTo(2 * 1024 * 1024)
val numThreadsOpt = parser.accepts("threads", "Number of processing threads.")
.withRequiredArg
.describedAs("count")
.ofType(classOf[java.lang.Integer])
.defaultsTo(10)
val numFetchersOpt = parser.accepts("num-fetch-threads", "Number of fetcher threads.")
.withRequiredArg
.describedAs("count")
.ofType(classOf[java.lang.Integer])
.defaultsTo(1)
val consumerConfigOpt = parser.accepts("consumer.config", "Consumer config properties file.")
.withRequiredArg
.describedAs("config file")
.ofType(classOf[String])
val printMetricsOpt = parser.accepts("print-metrics", "Print out the metrics.")
val showDetailedStatsOpt = parser.accepts("show-detailed-stats", "If set, stats are reported for each reporting " +
"interval as configured by reporting-interval")
val recordFetchTimeoutOpt = parser.accepts("timeout", "The maximum allowed time in milliseconds between returned records.")
.withOptionalArg()
.describedAs("milliseconds")
.ofType(classOf[Long])
.defaultsTo(10000)
options = parser.parse(args: _*)
CommandLineUtils.printHelpAndExitIfNeeded(this, "This tool helps in performance test for the full zookeeper consumer")
CommandLineUtils.checkRequiredArgs(parser, options, topicOpt, numMessagesOpt, bootstrapServersOpt)
val printMetrics = options.has(printMetricsOpt)
val props = if (options.has(consumerConfigOpt))
Utils.loadProps(options.valueOf(consumerConfigOpt))
else
new Properties
import org.apache.kafka.clients.consumer.ConsumerConfig
props.put(ConsumerConfig.BOOTSTRAP_SERVERS_CONFIG, options.valueOf(bootstrapServersOpt))
props.put(ConsumerConfig.GROUP_ID_CONFIG, options.valueOf(groupIdOpt))
props.put(ConsumerConfig.RECEIVE_BUFFER_CONFIG, options.valueOf(socketBufferSizeOpt).toString)
props.put(ConsumerConfig.MAX_PARTITION_FETCH_BYTES_CONFIG, options.valueOf(fetchSizeOpt).toString)
props.put(ConsumerConfig.AUTO_OFFSET_RESET_CONFIG, if (options.has(resetBeginningOffsetOpt)) "latest" else "earliest")
props.put(ConsumerConfig.KEY_DESERIALIZER_CLASS_CONFIG, classOf[ByteArrayDeserializer])
props.put(ConsumerConfig.VALUE_DESERIALIZER_CLASS_CONFIG, classOf[ByteArrayDeserializer])
props.put(ConsumerConfig.CHECK_CRCS_CONFIG, "false")
val numThreads = options.valueOf(numThreadsOpt).intValue
val topic = options.valueOf(topicOpt)
val numMessages = options.valueOf(numMessagesOpt).longValue
val reportingInterval = options.valueOf(reportingIntervalOpt).intValue
if (reportingInterval <= 0)
throw new IllegalArgumentException("Reporting interval must be greater than 0.")
val showDetailedStats = options.has(showDetailedStatsOpt)
val dateFormat = new SimpleDateFormat(options.valueOf(dateFormatOpt))
val hideHeader = options.has(hideHeaderOpt)
val recordFetchTimeoutMs = options.valueOf(recordFetchTimeoutOpt).longValue()
}
}