status-go/vendor/github.com/tsenart/tb/bucket.go

package tb

import (
	"math"
	"sync/atomic"
	"time"
)

// Bucket defines a generic lock-free implementation of a Token Bucket.
type Bucket struct {
	inc      int64
	tokens   int64
	capacity int64
	freq     time.Duration
	closing  chan struct{}
}

// NewBucket returns a full Bucket with c capacity and starts a filling
// go-routine which ticks every freq. The number of tokens added on each tick
// is computed dynamically to be even across the duration of a second.
//
// If freq == -1 then the filling go-routine won't be started. Otherwise,
// If freq < 1/c seconds, then it will be adjusted to 1/c seconds.
func NewBucket(c int64, freq time.Duration) *Bucket {
	b := &Bucket{tokens: c, capacity: c, closing: make(chan struct{})}

	if freq == -1 {
		return b
	} else if evenFreq := time.Duration(1e9 / c); freq < evenFreq {
		freq = evenFreq
	}

	b.freq = freq
	b.inc = int64(math.Floor(.5 + (float64(c) * freq.Seconds())))

	go b.fill()

	return b
}

// Take attempts to take n tokens out of the bucket.
// If tokens == 0, nothing will be taken.
// If n <= tokens, n tokens will be taken.
// If n > tokens, all tokens will be taken.
//
// This method is thread-safe.
func (b *Bucket) Take(n int64) (taken int64) {
	for {
		if tokens := atomic.LoadInt64(&b.tokens); tokens == 0 {
			return 0
		} else if n <= tokens {
			if !atomic.CompareAndSwapInt64(&b.tokens, tokens, tokens-n) {
				continue
			}
			return n
		} else if atomic.CompareAndSwapInt64(&b.tokens, tokens, 0) { // Spill
			return tokens
		}
	}
}

// Put attempts to add n tokens to the bucket.
// If tokens == capacity, nothing will be added.
// If n <= capacity - tokens, n tokens will be added.
// If n > capacity - tokens, capacity - tokens will be added.
//
// This method is thread-safe.
func (b *Bucket) Put(n int64) (added int64) {
	for {
		if tokens := atomic.LoadInt64(&b.tokens); tokens == b.capacity {
			return 0
		} else if left := b.capacity - tokens; n <= left {
			if !atomic.CompareAndSwapInt64(&b.tokens, tokens, tokens+n) {
				continue
			}
			return n
		} else if atomic.CompareAndSwapInt64(&b.tokens, tokens, b.capacity) {
			return left
		}
	}
}

// Wait waits for n amount of tokens to be available.
// If n tokens are immediatelly available it doesn't sleep.
// Otherwise, it sleeps the minimum amount of time required for the remaining
// tokens to be available. It returns the wait duration.
//
// This method is thread-safe.
func (b *Bucket) Wait(n int64) time.Duration {
	var rem int64
	if rem = n - b.Take(n); rem == 0 {
		return 0
	}

	var wait time.Duration
	for rem > 0 {
		sleep := b.wait(rem)
		wait += sleep
		time.Sleep(sleep)
		rem -= b.Take(rem)
	}
	return wait
}

// Close stops the filling go-routine given it was started.
func (b *Bucket) Close() error {
	close(b.closing)
	return nil
}

// wait returns the minimum amount of time required for n tokens to be available.
// if n > capacity, n will be adjusted to capacity
func (b *Bucket) wait(n int64) time.Duration {
	return time.Duration(int64(math.Ceil(math.Min(float64(n), float64(b.capacity))/float64(b.inc))) *
		b.freq.Nanoseconds())
}

func (b *Bucket) fill() {
	ticker := time.NewTicker(b.freq)
	defer ticker.Stop()

	for _ = range ticker.C {
		select {
		case <-b.closing:
			return
		default:
			b.Put(b.inc)
		}
	}
}