2014-04-01 12:22:38 +00:00
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// Copyright 2014 Canonical Ltd.
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// Licensed under the LGPLv3 with static-linking exception.
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// See LICENCE file for details.
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2015-07-22 10:09:36 +00:00
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// The ratelimit package provides an efficient token bucket implementation
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// that can be used to limit the rate of arbitrary things.
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2014-04-01 12:22:38 +00:00
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// See http://en.wikipedia.org/wiki/Token_bucket.
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package ratelimit
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import (
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2016-03-05 20:01:58 +00:00
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"math"
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2014-04-01 12:22:38 +00:00
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"strconv"
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"sync"
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"time"
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)
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// Bucket represents a token bucket that fills at a predetermined rate.
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// Methods on Bucket may be called concurrently.
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type Bucket struct {
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startTime time.Time
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capacity int64
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quantum int64
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fillInterval time.Duration
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// The mutex guards the fields following it.
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mu sync.Mutex
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// avail holds the number of available tokens
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// in the bucket, as of availTick ticks from startTime.
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// It will be negative when there are consumers
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// waiting for tokens.
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avail int64
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availTick int64
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}
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// NewBucket returns a new token bucket that fills at the
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// rate of one token every fillInterval, up to the given
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// maximum capacity. Both arguments must be
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// positive. The bucket is initially full.
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func NewBucket(fillInterval time.Duration, capacity int64) *Bucket {
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return NewBucketWithQuantum(fillInterval, capacity, 1)
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2014-04-01 12:22:38 +00:00
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}
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// rateMargin specifes the allowed variance of actual
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// rate from specified rate. 1% seems reasonable.
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const rateMargin = 0.01
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// NewBucketWithRate returns a token bucket that fills the bucket
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// at the rate of rate tokens per second up to the given
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// maximum capacity. Because of limited clock resolution,
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// at high rates, the actual rate may be up to 1% different from the
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// specified rate.
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func NewBucketWithRate(rate float64, capacity int64) *Bucket {
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for quantum := int64(1); quantum < 1<<50; quantum = nextQuantum(quantum) {
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fillInterval := time.Duration(1e9 * float64(quantum) / rate)
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if fillInterval <= 0 {
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continue
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}
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2014-07-06 21:13:10 +00:00
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tb := NewBucketWithQuantum(fillInterval, capacity, quantum)
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2015-06-15 19:10:18 +00:00
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if diff := math.Abs(tb.Rate() - rate); diff/rate <= rateMargin {
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2014-04-01 12:22:38 +00:00
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return tb
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}
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}
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panic("cannot find suitable quantum for " + strconv.FormatFloat(rate, 'g', -1, 64))
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}
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// nextQuantum returns the next quantum to try after q.
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// We grow the quantum exponentially, but slowly, so we
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// get a good fit in the lower numbers.
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func nextQuantum(q int64) int64 {
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q1 := q * 11 / 10
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if q1 == q {
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q1++
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}
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return q1
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}
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2014-07-06 21:13:10 +00:00
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// NewBucketWithQuantum is similar to NewBucket, but allows
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// the specification of the quantum size - quantum tokens
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// are added every fillInterval.
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func NewBucketWithQuantum(fillInterval time.Duration, capacity, quantum int64) *Bucket {
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2014-04-01 12:22:38 +00:00
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if fillInterval <= 0 {
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panic("token bucket fill interval is not > 0")
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}
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if capacity <= 0 {
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panic("token bucket capacity is not > 0")
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}
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if quantum <= 0 {
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panic("token bucket quantum is not > 0")
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}
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return &Bucket{
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startTime: time.Now(),
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capacity: capacity,
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quantum: quantum,
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avail: capacity,
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fillInterval: fillInterval,
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}
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}
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// Wait takes count tokens from the bucket, waiting until they are
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// available.
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func (tb *Bucket) Wait(count int64) {
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if d := tb.Take(count); d > 0 {
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time.Sleep(d)
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}
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}
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// WaitMaxDuration is like Wait except that it will
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// only take tokens from the bucket if it needs to wait
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// for no greater than maxWait. It reports whether
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// any tokens have been removed from the bucket
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// If no tokens have been removed, it returns immediately.
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func (tb *Bucket) WaitMaxDuration(count int64, maxWait time.Duration) bool {
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d, ok := tb.TakeMaxDuration(count, maxWait)
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if d > 0 {
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time.Sleep(d)
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}
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return ok
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}
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const infinityDuration time.Duration = 0x7fffffffffffffff
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// Take takes count tokens from the bucket without blocking. It returns
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// the time that the caller should wait until the tokens are actually
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// available.
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//
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// Note that if the request is irrevocable - there is no way to return
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// tokens to the bucket once this method commits us to taking them.
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func (tb *Bucket) Take(count int64) time.Duration {
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d, _ := tb.take(time.Now(), count, infinityDuration)
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return d
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}
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// TakeMaxDuration is like Take, except that
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// it will only take tokens from the bucket if the wait
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// time for the tokens is no greater than maxWait.
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//
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// If it would take longer than maxWait for the tokens
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// to become available, it does nothing and reports false,
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// otherwise it returns the time that the caller should
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// wait until the tokens are actually available, and reports
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// true.
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func (tb *Bucket) TakeMaxDuration(count int64, maxWait time.Duration) (time.Duration, bool) {
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return tb.take(time.Now(), count, maxWait)
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}
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// TakeAvailable takes up to count immediately available tokens from the
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// bucket. It returns the number of tokens removed, or zero if there are
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// no available tokens. It does not block.
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func (tb *Bucket) TakeAvailable(count int64) int64 {
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return tb.takeAvailable(time.Now(), count)
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}
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// takeAvailable is the internal version of TakeAvailable - it takes the
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// current time as an argument to enable easy testing.
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func (tb *Bucket) takeAvailable(now time.Time, count int64) int64 {
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if count <= 0 {
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return 0
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}
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tb.mu.Lock()
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defer tb.mu.Unlock()
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tb.adjust(now)
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if tb.avail <= 0 {
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return 0
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}
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if count > tb.avail {
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count = tb.avail
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}
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tb.avail -= count
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return count
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}
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2016-03-05 20:01:58 +00:00
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// Available returns the number of available tokens. It will be negative
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// when there are consumers waiting for tokens. Note that if this
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// returns greater than zero, it does not guarantee that calls that take
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// tokens from the buffer will succeed, as the number of available
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// tokens could have changed in the meantime. This method is intended
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// primarily for metrics reporting and debugging.
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func (tb *Bucket) Available() int64 {
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return tb.available(time.Now())
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}
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// available is the internal version of available - it takes the current time as
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// an argument to enable easy testing.
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func (tb *Bucket) available(now time.Time) int64 {
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tb.mu.Lock()
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defer tb.mu.Unlock()
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tb.adjust(now)
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return tb.avail
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}
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// Capacity returns the capacity that the bucket was created with.
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func (tb *Bucket) Capacity() int64 {
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return tb.capacity
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}
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2014-04-01 12:22:38 +00:00
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// Rate returns the fill rate of the bucket, in tokens per second.
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func (tb *Bucket) Rate() float64 {
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return 1e9 * float64(tb.quantum) / float64(tb.fillInterval)
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}
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// take is the internal version of Take - it takes the current time as
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// an argument to enable easy testing.
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func (tb *Bucket) take(now time.Time, count int64, maxWait time.Duration) (time.Duration, bool) {
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if count <= 0 {
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return 0, true
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}
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tb.mu.Lock()
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defer tb.mu.Unlock()
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currentTick := tb.adjust(now)
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avail := tb.avail - count
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if avail >= 0 {
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tb.avail = avail
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return 0, true
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}
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// Round up the missing tokens to the nearest multiple
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// of quantum - the tokens won't be available until
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// that tick.
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endTick := currentTick + (-avail+tb.quantum-1)/tb.quantum
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endTime := tb.startTime.Add(time.Duration(endTick) * tb.fillInterval)
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waitTime := endTime.Sub(now)
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if waitTime > maxWait {
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return 0, false
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}
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tb.avail = avail
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return waitTime, true
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}
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// adjust adjusts the current bucket capacity based on the current time.
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// It returns the current tick.
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func (tb *Bucket) adjust(now time.Time) (currentTick int64) {
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currentTick = int64(now.Sub(tb.startTime) / tb.fillInterval)
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if tb.avail >= tb.capacity {
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return
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}
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tb.avail += (currentTick - tb.availTick) * tb.quantum
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if tb.avail > tb.capacity {
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tb.avail = tb.capacity
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}
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tb.availTick = currentTick
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return
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}
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