延迟调度算法的实现是在TaskSetManager类中的,它通过将task存放在四个不同级别的hash表里,当有可用的资源时,resourceOffer函数的参数之一(maxLocality)就是这些资源的最大(或者最优)locality级别,如果存在task满足资源的locality,那从最优级别的hash表。也就是task和excutor都有loclity级别,如果能找到匹配的task,那从匹配的task中找一个最优的task。
=====================延迟调度算法=============================
->TaskSetManager::resourceOffer(execId: String, host: String,maxLocality: TaskLocality.TaskLocality): Option[TaskDescription]
->if (maxLocality != TaskLocality.NO_PREF) --如果资源是有locality特征的
->allowedLocality = getAllowedLocalityLevel(curTime) --获取当前taskSet允许执行的locality。getAllowedLocalityLevel随时间而变化
->if (allowedLocality > maxLocality) --如果资源的locality级别高于taskSet允许的级别
->allowedLocality = maxLocality --那么提升taskSet的级别
->task = findTask(execId, host, allowedLocality) --根据允许的locality级别去找一个满足要求的task
->从最优的locality级别(process_local)开始找,返回一个满足locolity的task(为最优级别)
->task match case Some((index, taskLocality, speculative)) --找到了一个task
-> val info = new TaskInfo(taskId, index, attemptNum, curTime, execId, host, taskLocality, speculative)
->if (maxLocality != TaskLocality.NO_PREF) // NO_PREF will not affect the variables related to delay scheduling
->currentLocalityIndex = getLocalityIndex(taskLocality) // Update our locality level for delay scheduling
->lastLaunchTime = curTime --更新最近执行task的时间,计算当前locality时需要
->addRunningTask(taskId) --加入执行task中
->logInfo("Starting %s (TID %d, %s, %s, %d bytes)"
->sched.dagScheduler.taskStarted(task, info) --通知调度器有task开始运行
->eventProcessActor ! BeginEvent(task, taskInfo)
->return Some(new TaskDescription(taskId, execId, taskName, index, serializedTask)) --返回task
->case _ => return None --没有满足locality要求的task,返回None
=====================end==================================
myLocalityLevels :记录当前所有有效的locality级别
localityWaits :记录不同locality级别的等待时间
currentLocalityIndex :当前的locality级别,随着等待时间而不断变化
pendingTasksForExecutor: PROCESS_LOCAL进程级别的task
pendingTasksForHost :NODE_LOCAL主机界别的task
pendingTasksForRack :机架级别的task
pendingTasksWithNoPrefs :没有locality要求的task
// Figure out which locality levels we have in our TaskSet, so we can do delay scheduling
var myLocalityLevels = computeValidLocalityLevels()
var localityWaits = myLocalityLevels.map(getLocalityWait) // Time to wait at each level
// Delay scheduling variables: we keep track of our current locality level and the time we
// last launched a task at that level, and move up a level when localityWaits[curLevel] expires.
// We then move down if we manage to launch a "more local" task.
var currentLocalityIndex = 0 // Index of our current locality level in validLocalityLevels
// Set of pending tasks for each executor. These collections are actually
// treated as stacks, in which new tasks are added to the end of the
// ArrayBuffer and removed from the end. This makes it faster to detect
// tasks that repeatedly fail because whenever a task failed, it is put
// back at the head of the stack. They are also only cleaned up lazily;
// when a task is launched, it remains in all the pending lists except
// the one that it was launched from, but gets removed from them later.
private val pendingTasksForExecutor = new HashMap[String, ArrayBuffer[Int]]
// Set of pending tasks for each host. Similar to pendingTasksForExecutor,
// but at host level.
private val pendingTasksForHost = new HashMap[String, ArrayBuffer[Int]]
// Set of pending tasks for each rack -- similar to the above.
private val pendingTasksForRack = new HashMap[String, ArrayBuffer[Int]]
// Set containing pending tasks with no locality preferences.
var pendingTasksWithNoPrefs = new ArrayBuffer[Int]
计算当前调度器中有效的locality级别
var lastLaunchTime = clock.getTime() // Time we last launched a task at this level/**
* Compute the locality levels used in this TaskSet. Assumes that all tasks have already been
* added to queues using addPendingTask.
*
*/
private def computeValidLocalityLevels(): Array[TaskLocality.TaskLocality] = {
import TaskLocality.{PROCESS_LOCAL, NODE_LOCAL, NO_PREF, RACK_LOCAL, ANY}
val levels = new ArrayBuffer[TaskLocality.TaskLocality]
if (!pendingTasksForExecutor.isEmpty && getLocalityWait(PROCESS_LOCAL) != 0 &&
pendingTasksForExecutor.keySet.exists(sched.isExecutorAlive(_))) {
levels += PROCESS_LOCAL
}
if (!pendingTasksForHost.isEmpty && getLocalityWait(NODE_LOCAL) != 0 &&
pendingTasksForHost.keySet.exists(sched.hasExecutorsAliveOnHost(_))) {
levels += NODE_LOCAL
}
if (!pendingTasksWithNoPrefs.isEmpty) {
levels += NO_PREF
}
if (!pendingTasksForRack.isEmpty && getLocalityWait(RACK_LOCAL) != 0 &&
pendingTasksForRack.keySet.exists(sched.hasHostAliveOnRack(_))) {
levels += RACK_LOCAL
}
levels += ANY
logDebug("Valid locality levels for " + taskSet + ": " + levels.mkString(", "))
levels.toArray
}
获取每个locality级别的等待时间
private def getLocalityWait(level: TaskLocality.TaskLocality): Long = {
val defaultWait = conf.get("spark.locality.wait", "3000")
level match {
case TaskLocality.PROCESS_LOCAL =>
conf.get("spark.locality.wait.process", defaultWait).toLong
case TaskLocality.NODE_LOCAL =>
conf.get("spark.locality.wait.node", defaultWait).toLong
case TaskLocality.RACK_LOCAL =>
conf.get("spark.locality.wait.rack", defaultWait).toLong
case _ => 0L
}
}
locality的级别定义
@DeveloperApi
object TaskLocality extends Enumeration {
// Process local is expected to be used ONLY within TaskSetManager for now.
val PROCESS_LOCAL, NODE_LOCAL, NO_PREF, RACK_LOCAL, ANY = Value
type TaskLocality = Value
def isAllowed(constraint: TaskLocality, condition: TaskLocality): Boolean = {
condition <= constraint
}
}
根据输入的locality级别,获取一个在本taskSet有效的locality级别。因为当前taskSet可能有一些级别没有task。向低优先级的靠拢的原则。
/**
* Find the index in myLocalityLevels for a given locality. This is also designed to work with
* localities that are not in myLocalityLevels (in case we somehow get those) by returning the
* next-biggest level we have. Uses the fact that the last value in myLocalityLevels is ANY.
*/
def getLocalityIndex(locality: TaskLocality.TaskLocality): Int = {
var index = 0
while (locality > myLocalityLevels(index)) {
index += 1
}
index
}
获取当前允许的locality级别。它通过已经等待的时间和需要等待的时间做比较得到当前处于什么样的locality级别中。
/**
* Get the level we can launch tasks according to delay scheduling, based on current wait time.
*/
private def getAllowedLocalityLevel(curTime: Long): TaskLocality.TaskLocality = {
while (curTime - lastLaunchTime >= localityWaits(currentLocalityIndex) &&
currentLocalityIndex < myLocalityLevels.length - 1)
{
// Jump to the next locality level, and remove our waiting time for the current one since
// we don't want to count it again on the next one
lastLaunchTime += localityWaits(currentLocalityIndex)
currentLocalityIndex += 1
}
myLocalityLevels(currentLocalityIndex)
}
当一个task得到执行后,重新初始化locality级别
def recomputeLocality() {
val previousLocalityLevel = myLocalityLevels(currentLocalityIndex)
myLocalityLevels = computeValidLocalityLevels()
localityWaits = myLocalityLevels.map(getLocalityWait)
currentLocalityIndex = getLocalityIndex(previousLocalityLevel)
}
获取本taskSet有效的locality级别
/**
* Compute the locality levels used in this TaskSet. Assumes that all tasks have already been
* added to queues using addPendingTask.
*
*/
private def computeValidLocalityLevels(): Array[TaskLocality.TaskLocality] = {
import TaskLocality.{PROCESS_LOCAL, NODE_LOCAL, NO_PREF, RACK_LOCAL, ANY}
val levels = new ArrayBuffer[TaskLocality.TaskLocality]
if (!pendingTasksForExecutor.isEmpty && getLocalityWait(PROCESS_LOCAL) != 0 &&
pendingTasksForExecutor.keySet.exists(sched.isExecutorAlive(_))) {
levels += PROCESS_LOCAL
}
if (!pendingTasksForHost.isEmpty && getLocalityWait(NODE_LOCAL) != 0 &&
pendingTasksForHost.keySet.exists(sched.hasExecutorsAliveOnHost(_))) {
levels += NODE_LOCAL
}
if (!pendingTasksWithNoPrefs.isEmpty) {
levels += NO_PREF
}
if (!pendingTasksForRack.isEmpty && getLocalityWait(RACK_LOCAL) != 0 &&
pendingTasksForRack.keySet.exists(sched.hasHostAliveOnRack(_))) {
levels += RACK_LOCAL
}
levels += ANY
logDebug("Valid locality levels for " + taskSet + ": " + levels.mkString(", "))
levels.toArray
}
查找一个可符合locality要求的task。从最优的locality开始找。所以最优的locality总是优先被执行。
/**
* Dequeue a pending task for a given node and return its index and locality level.
* Only search for tasks matching the given locality constraint.
*
* @return An option containing (task index within the task set, locality, is speculative?)
*/
private def findTask(execId: String, host: String, maxLocality: TaskLocality.Value)
: Option[(Int, TaskLocality.Value, Boolean)] =
{
for (index <- findTaskFromList(execId, getPendingTasksForExecutor(execId))) {
return Some((index, TaskLocality.PROCESS_LOCAL, false))
}
。。。
// find a speculative task if all others tasks have been scheduled
findSpeculativeTask(execId, host, maxLocality).map {
case (taskIndex, allowedLocality) => (taskIndex, allowedLocality, true)}
}