Many resources are needed to download a project. Please understand that we have to compensate our server costs. Thank you in advance. Project price only 1 $
You can buy this project and download/modify it how often you want.
/*
* 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.spark.sql.kafka010
import java.{util => ju}
import java.io._
import java.nio.charset.StandardCharsets
import org.apache.commons.io.IOUtils
import org.apache.kafka.common.TopicPartition
import org.apache.spark.SparkContext
import org.apache.spark.internal.Logging
import org.apache.spark.scheduler.ExecutorCacheTaskLocation
import org.apache.spark.sql._
import org.apache.spark.sql.catalyst.InternalRow
import org.apache.spark.sql.catalyst.util.DateTimeUtils
import org.apache.spark.sql.execution.streaming._
import org.apache.spark.sql.kafka010.KafkaSource._
import org.apache.spark.sql.kafka010.KafkaSourceProvider.{INSTRUCTION_FOR_FAIL_ON_DATA_LOSS_FALSE, INSTRUCTION_FOR_FAIL_ON_DATA_LOSS_TRUE}
import org.apache.spark.sql.types._
import org.apache.spark.unsafe.types.UTF8String
/**
* A [[Source]] that reads data from Kafka using the following design.
*
* - The [[KafkaSourceOffset]] is the custom [[Offset]] defined for this source that contains
* a map of TopicPartition -> offset. Note that this offset is 1 + (available offset). For
* example if the last record in a Kafka topic "t", partition 2 is offset 5, then
* KafkaSourceOffset will contain TopicPartition("t", 2) -> 6. This is done keep it consistent
* with the semantics of `KafkaConsumer.position()`.
*
* - The [[KafkaSource]] written to do the following.
*
* - As soon as the source is created, the pre-configured [[KafkaOffsetReader]]
* is used to query the initial offsets that this source should
* start reading from. This is used to create the first batch.
*
* - `getOffset()` uses the [[KafkaOffsetReader]] to query the latest
* available offsets, which are returned as a [[KafkaSourceOffset]].
*
* - `getBatch()` returns a DF that reads from the 'start offset' until the 'end offset' in
* for each partition. The end offset is excluded to be consistent with the semantics of
* [[KafkaSourceOffset]] and `KafkaConsumer.position()`.
*
* - The DF returned is based on [[KafkaSourceRDD]] which is constructed such that the
* data from Kafka topic + partition is consistently read by the same executors across
* batches, and cached KafkaConsumers in the executors can be reused efficiently. See the
* docs on [[KafkaSourceRDD]] for more details.
*
* Zero data lost is not guaranteed when topics are deleted. If zero data lost is critical, the user
* must make sure all messages in a topic have been processed when deleting a topic.
*
* There is a known issue caused by KAFKA-1894: the query using KafkaSource maybe cannot be stopped.
* To avoid this issue, you should make sure stopping the query before stopping the Kafka brokers
* and not use wrong broker addresses.
*/
private[kafka010] class KafkaSource(
sqlContext: SQLContext,
kafkaReader: KafkaOffsetReader,
executorKafkaParams: ju.Map[String, Object],
sourceOptions: Map[String, String],
metadataPath: String,
startingOffsets: KafkaOffsetRangeLimit,
failOnDataLoss: Boolean)
extends Source with Logging {
private val sc = sqlContext.sparkContext
private val pollTimeoutMs = sourceOptions.getOrElse(
"kafkaConsumer.pollTimeoutMs",
(sc.conf.getTimeAsSeconds("spark.network.timeout", "120s") * 1000L).toString
).toLong
private val maxOffsetsPerTrigger =
sourceOptions.get("maxOffsetsPerTrigger").map(_.toLong)
/**
* Lazily initialize `initialPartitionOffsets` to make sure that `KafkaConsumer.poll` is only
* called in StreamExecutionThread. Otherwise, interrupting a thread while running
* `KafkaConsumer.poll` may hang forever (KAFKA-1894).
*/
private lazy val initialPartitionOffsets = {
val metadataLog =
new HDFSMetadataLog[KafkaSourceOffset](sqlContext.sparkSession, metadataPath) {
override def serialize(metadata: KafkaSourceOffset, out: OutputStream): Unit = {
out.write(0) // A zero byte is written to support Spark 2.1.0 (SPARK-19517)
val writer = new BufferedWriter(new OutputStreamWriter(out, StandardCharsets.UTF_8))
writer.write("v" + VERSION + "\n")
writer.write(metadata.json)
writer.flush
}
override def deserialize(in: InputStream): KafkaSourceOffset = {
in.read() // A zero byte is read to support Spark 2.1.0 (SPARK-19517)
val content = IOUtils.toString(new InputStreamReader(in, StandardCharsets.UTF_8))
// HDFSMetadataLog guarantees that it never creates a partial file.
assert(content.length != 0)
if (content(0) == 'v') {
val indexOfNewLine = content.indexOf("\n")
if (indexOfNewLine > 0) {
val version = parseVersion(content.substring(0, indexOfNewLine), VERSION)
KafkaSourceOffset(SerializedOffset(content.substring(indexOfNewLine + 1)))
} else {
throw new IllegalStateException(
s"Log file was malformed: failed to detect the log file version line.")
}
} else {
// The log was generated by Spark 2.1.0
KafkaSourceOffset(SerializedOffset(content))
}
}
}
metadataLog.get(0).getOrElse {
val offsets = startingOffsets match {
case EarliestOffsetRangeLimit => KafkaSourceOffset(kafkaReader.fetchEarliestOffsets())
case LatestOffsetRangeLimit => KafkaSourceOffset(kafkaReader.fetchLatestOffsets())
case SpecificOffsetRangeLimit(p) => kafkaReader.fetchSpecificOffsets(p, reportDataLoss)
}
metadataLog.add(0, offsets)
logInfo(s"Initial offsets: $offsets")
offsets
}.partitionToOffsets
}
private var currentPartitionOffsets: Option[Map[TopicPartition, Long]] = None
override def schema: StructType = KafkaOffsetReader.kafkaSchema
/** Returns the maximum available offset for this source. */
override def getOffset: Option[Offset] = {
// Make sure initialPartitionOffsets is initialized
initialPartitionOffsets
val latest = kafkaReader.fetchLatestOffsets()
val offsets = maxOffsetsPerTrigger match {
case None =>
latest
case Some(limit) if currentPartitionOffsets.isEmpty =>
rateLimit(limit, initialPartitionOffsets, latest)
case Some(limit) =>
rateLimit(limit, currentPartitionOffsets.get, latest)
}
currentPartitionOffsets = Some(offsets)
logDebug(s"GetOffset: ${offsets.toSeq.map(_.toString).sorted}")
Some(KafkaSourceOffset(offsets))
}
/** Proportionally distribute limit number of offsets among topicpartitions */
private def rateLimit(
limit: Long,
from: Map[TopicPartition, Long],
until: Map[TopicPartition, Long]): Map[TopicPartition, Long] = {
val fromNew = kafkaReader.fetchEarliestOffsets(until.keySet.diff(from.keySet).toSeq)
val sizes = until.flatMap {
case (tp, end) =>
// If begin isn't defined, something's wrong, but let alert logic in getBatch handle it
from.get(tp).orElse(fromNew.get(tp)).flatMap { begin =>
val size = end - begin
logDebug(s"rateLimit $tp size is $size")
if (size > 0) Some(tp -> size) else None
}
}
val total = sizes.values.sum.toDouble
if (total < 1) {
until
} else {
until.map {
case (tp, end) =>
tp -> sizes.get(tp).map { size =>
val begin = from.get(tp).getOrElse(fromNew(tp))
val prorate = limit * (size / total)
logDebug(s"rateLimit $tp prorated amount is $prorate")
// Don't completely starve small topicpartitions
val off = begin + (if (prorate < 1) Math.ceil(prorate) else Math.floor(prorate)).toLong
logDebug(s"rateLimit $tp new offset is $off")
// Paranoia, make sure not to return an offset that's past end
Math.min(end, off)
}.getOrElse(end)
}
}
}
/**
* Returns the data that is between the offsets
* [`start.get.partitionToOffsets`, `end.partitionToOffsets`), i.e. end.partitionToOffsets is
* exclusive.
*/
override def getBatch(start: Option[Offset], end: Offset): DataFrame = {
// Make sure initialPartitionOffsets is initialized
initialPartitionOffsets
logInfo(s"GetBatch called with start = $start, end = $end")
val untilPartitionOffsets = KafkaSourceOffset.getPartitionOffsets(end)
// On recovery, getBatch will get called before getOffset
if (currentPartitionOffsets.isEmpty) {
currentPartitionOffsets = Some(untilPartitionOffsets)
}
if (start.isDefined && start.get == end) {
return sqlContext.internalCreateDataFrame(
sqlContext.sparkContext.emptyRDD[InternalRow].setName("empty"), schema, isStreaming = true)
}
val fromPartitionOffsets = start match {
case Some(prevBatchEndOffset) =>
KafkaSourceOffset.getPartitionOffsets(prevBatchEndOffset)
case None =>
initialPartitionOffsets
}
// Find the new partitions, and get their earliest offsets
val newPartitions = untilPartitionOffsets.keySet.diff(fromPartitionOffsets.keySet)
val newPartitionOffsets = kafkaReader.fetchEarliestOffsets(newPartitions.toSeq)
if (newPartitionOffsets.keySet != newPartitions) {
// We cannot get from offsets for some partitions. It means they got deleted.
val deletedPartitions = newPartitions.diff(newPartitionOffsets.keySet)
reportDataLoss(
s"Cannot find earliest offsets of ${deletedPartitions}. Some data may have been missed")
}
logInfo(s"Partitions added: $newPartitionOffsets")
newPartitionOffsets.filter(_._2 != 0).foreach { case (p, o) =>
reportDataLoss(
s"Added partition $p starts from $o instead of 0. Some data may have been missed")
}
val deletedPartitions = fromPartitionOffsets.keySet.diff(untilPartitionOffsets.keySet)
if (deletedPartitions.nonEmpty) {
reportDataLoss(s"$deletedPartitions are gone. Some data may have been missed")
}
// Use the until partitions to calculate offset ranges to ignore partitions that have
// been deleted
val topicPartitions = untilPartitionOffsets.keySet.filter { tp =>
// Ignore partitions that we don't know the from offsets.
newPartitionOffsets.contains(tp) || fromPartitionOffsets.contains(tp)
}.toSeq
logDebug("TopicPartitions: " + topicPartitions.mkString(", "))
val sortedExecutors = getSortedExecutorList(sc)
val numExecutors = sortedExecutors.length
logDebug("Sorted executors: " + sortedExecutors.mkString(", "))
// Calculate offset ranges
val offsetRanges = topicPartitions.map { tp =>
val fromOffset = fromPartitionOffsets.get(tp).getOrElse {
newPartitionOffsets.getOrElse(tp, {
// This should not happen since newPartitionOffsets contains all partitions not in
// fromPartitionOffsets
throw new IllegalStateException(s"$tp doesn't have a from offset")
})
}
val untilOffset = untilPartitionOffsets(tp)
val preferredLoc = if (numExecutors > 0) {
// This allows cached KafkaConsumers in the executors to be re-used to read the same
// partition in every batch.
Some(sortedExecutors(Math.floorMod(tp.hashCode, numExecutors)))
} else None
KafkaSourceRDDOffsetRange(tp, fromOffset, untilOffset, preferredLoc)
}.filter { range =>
if (range.untilOffset < range.fromOffset) {
reportDataLoss(s"Partition ${range.topicPartition}'s offset was changed from " +
s"${range.fromOffset} to ${range.untilOffset}, some data may have been missed")
false
} else {
true
}
}.toArray
// Create an RDD that reads from Kafka and get the (key, value) pair as byte arrays.
val rdd = new KafkaSourceRDD(
sc, executorKafkaParams, offsetRanges, pollTimeoutMs, failOnDataLoss,
reuseKafkaConsumer = true).map { cr =>
InternalRow(
cr.key,
cr.value,
UTF8String.fromString(cr.topic),
cr.partition,
cr.offset,
DateTimeUtils.fromJavaTimestamp(new java.sql.Timestamp(cr.timestamp)),
cr.timestampType.id)
}
logInfo("GetBatch generating RDD of offset range: " +
offsetRanges.sortBy(_.topicPartition.toString).mkString(", "))
sqlContext.internalCreateDataFrame(rdd.setName("kafka"), schema, isStreaming = true)
}
/** Stop this source and free any resources it has allocated. */
override def stop(): Unit = synchronized {
kafkaReader.close()
}
override def toString(): String = s"KafkaSourceV1[$kafkaReader]"
/**
* If `failOnDataLoss` is true, this method will throw an `IllegalStateException`.
* Otherwise, just log a warning.
*/
private def reportDataLoss(message: String): Unit = {
if (failOnDataLoss) {
throw new IllegalStateException(message + s". $INSTRUCTION_FOR_FAIL_ON_DATA_LOSS_TRUE")
} else {
logWarning(message + s". $INSTRUCTION_FOR_FAIL_ON_DATA_LOSS_FALSE")
}
}
}
/** Companion object for the [[KafkaSource]]. */
private[kafka010] object KafkaSource {
private[kafka010] val VERSION = 1
def getSortedExecutorList(sc: SparkContext): Array[String] = {
val bm = sc.env.blockManager
bm.master.getPeers(bm.blockManagerId).toArray
.map(x => ExecutorCacheTaskLocation(x.host, x.executorId))
.sortWith(compare)
.map(_.toString)
}
private def compare(a: ExecutorCacheTaskLocation, b: ExecutorCacheTaskLocation): Boolean = {
if (a.host == b.host) { a.executorId > b.executorId } else { a.host > b.host }
}
}
