akka.util.TokenBucket.scala Maven / Gradle / Ivy
/*
* Copyright (C) 2015-2019 Lightbend Inc.
*/
package akka.util
/**
* INTERNAL API
*/
private[akka] abstract class TokenBucket(capacity: Long, nanosBetweenTokens: Long) {
require(capacity >= 0, "Capacity must be non-negative.")
require(nanosBetweenTokens > 0, "Time between tokens must be larger than zero nanoseconds.")
private[this] var availableTokens: Long = _
private[this] var lastUpdate: Long = _
/**
* This method must be called before the token bucket can be used.
*/
def init(): Unit = {
availableTokens = capacity
lastUpdate = currentTime
}
/**
* The current time in nanos. The returned value is monotonic, might wrap over and has no relationship with wall-clock.
*
* @return return the current time in nanos as a Long.
*/
def currentTime: Long
/**
* Call this (side-effecting) method whenever an element should be passed through the token-bucket. This method
* will return the number of nanoseconds the element needs to be delayed to conform with the token bucket parameters.
* Returns zero if the element can be emitted immediately. The method does not handle overflow, if an element is to
* be delayed longer in nanoseconds than what can be represented as a positive Long then an undefined value is returned.
*
* If a non-zero value is returned, it is the responsibility of the caller to not call this method before the
* returned delay has been elapsed (but can be called later). This class does not check or protect against early
* calls.
*
* @param cost How many tokens the element costs. Can be larger than the capacity of the bucket.
* @return
*/
def offer(cost: Long): Long = {
if (cost < 0) throw new IllegalArgumentException("Cost must be non-negative")
val now = currentTime
val timeElapsed = now - lastUpdate
val tokensArrived =
// Was there even a tick since last time?
if (timeElapsed >= nanosBetweenTokens) {
// only one tick elapsed
if (timeElapsed < nanosBetweenTokens * 2) {
lastUpdate += nanosBetweenTokens
1
} else {
// Ok, no choice, do the slow integer division
val tokensArrived = timeElapsed / nanosBetweenTokens
lastUpdate += tokensArrived * nanosBetweenTokens
tokensArrived
}
} else 0
availableTokens = math.min(availableTokens + tokensArrived, capacity)
if (cost <= availableTokens) {
availableTokens -= cost
0
} else {
val remainingCost = cost - availableTokens
// Tokens always arrive at exact multiples of the token generation period, we must account for that
val timeSinceTokenArrival = now - lastUpdate
val delay = remainingCost * nanosBetweenTokens - timeSinceTokenArrival
availableTokens = 0
lastUpdate = now + delay
delay
}
}
}
/**
* Default implementation of [[TokenBucket]] that uses `System.nanoTime` as the time source.
*/
final class NanoTimeTokenBucket(_cap: Long, _period: Long) extends TokenBucket(_cap, _period) {
override def currentTime: Long = System.nanoTime()
}
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