emm
直接看源码即可,我一直用的是令牌桶
package main import ( "context" "fmt" "math" "sync" "time" ) type Limit float64 const Inf = Limit(math.MaxFloat64) func Every(interval time.Duration) Limit { if interval <= 0 { return Inf } return 1 / Limit(interval.Seconds()) } type Limiter struct { limit Limit burst int mu sync.Mutex tokens float64 last time.Time lastEvent time.Time } func (lim *Limiter) Limit() Limit { lim.mu.Lock() defer lim.mu.Unlock() return lim.limit } func (lim *Limiter) Burst() int { return lim.burst } func NewLimiter(r Limit, b int) *Limiter { return &Limiter{ limit:r, burst:b, } } func (lim *Limiter) Allow() bool { return lim.AllowN(time.Now(), 1) } func (lim *Limiter) AllowN(now time.Time, n int) bool { return lim.reserveN(now, n, 0).ok } type Reservation struct { ok bool lim *Limiter tokens int timeToAct time.Time limit Limit } func (r *Reservation) OK() bool { return r.ok } func (r *Reservation) Delay() time.Duration { return r.DelayFrom(time.Now()) } const InfDuration = time.Duration(1<<63 - 1) func (r *Reservation) DelayFrom(now time.Time) time.Duration { if !r.ok { return InfDuration } delay := r.timeToAct.Sub(now) if delay < 0 { return 0 } return delay } func (r *Reservation) Cancel() { r.CancelAt(time.Now()) return } func (r *Reservation) CancelAt(now time.Time) { if !r.ok { return } r.lim.mu.Lock() defer r.lim.mu.Unlock() if r.lim.limit == Inf || r.tokens == 0 || r.timeToAct.Before(now) { return } restoreTokens := float64(r.tokens) - r.limit.tokensFromDuration(r.lim.lastEvent.Sub(r.timeToAct)) if restoreTokens < 0 { return } now, _, tokens := r.lim.advance(now) tokens += restoreTokens if burst := float64(r.lim.burst); tokens > burst { tokens = burst } r.lim.last = now r.lim.tokens = tokens if r.timeToAct == r.lim.lastEvent { preEvent := r.timeToAct.Add(r.limit.durationFromTokens(float64(-r.tokens))) if !preEvent.Before(now) { r.lim.lastEvent = preEvent } } return } func (lim *Limiter) Reserve() *Reservation { return lim.ReserveN(time.Now(), 1) } func (lim *Limiter) ReserveN(now time.Time, n int) *Reservation { r := lim.reserveN(now, n, InfDuration) return &r } func (lim *Limiter) Wait(ctx context.Context) (err error) { return lim.WaitN(ctx, 1) } func (lim *Limiter) WaitN(ctx context.Context, n int) (err error) { lim.mu.Lock() burst := lim.burst limit := lim.limit lim.mu.Unlock() if n > burst && limit != Inf { return fmt.Errorf("rate: wait (n=%d) exceeds limiter's burst %d", n, lim.burst) } select { case <-ctx.Done(): return ctx.Err() default: } now := time.Now() waitLimit := InfDuration if deadline, ok := ctx.Deadline(); ok { waitLimit = deadline.Sub(now) } r := lim.reserveN(now, n, waitLimit) if !r.ok { return fmt.Errorf("rate: Wait(n=%d) would exceed context deadline", n) } delay := r.DelayFrom(now) if delay == 0 { return nil } t := time.NewTimer(delay) defer t.Stop() select { case <-t.C: return nil case <-ctx.Done(): r.Cancel() return ctx.Err() } } func (lim *Limiter) setLimit(newLimit Limit) { lim.SetLimitAt(time.Now(), newLimit) } func (lim *Limiter) SetLimitAt(now time.Time, newLimit Limit) { lim.mu.Lock() defer lim.mu.Unlock() now, _, tokens := lim.advance(now) lim.last = now lim.tokens = tokens lim.limit = newLimit } func (lim *Limiter) SetBurst(newBurst int) { lim.SetBurstAt(time.Now(), newBurst) } func (lim *Limiter) SetBurstAt(now time.Time, newBurst int) { lim.mu.Lock() defer lim.mu.Unlock() now, _, tokens := lim.advance(now) lim.last = now lim.tokens = tokens lim.burst = newBurst } func (lim *Limiter) reserveN(now time.Time, n int, maxFutureReserve time.Duration) Reservation { lim.mu.Lock() if lim.limit == Inf { lim.mu.Unlock() return Reservation{ ok: true, lim: lim, tokens: n, timeToAct: now, } } now, last, tokens := lim.advance(now) tokens -= float64(n) var waitDuration time.Duration if tokens < 0 { waitDuration = lim.limit.durationFromTokens(-tokens) } ok := n <= lim.burst && waitDuration <= maxFutureReserve r := Reservation{ ok: ok, lim: nil, limit: lim.limit, } if ok { r.tokens = n r.timeToAct = now.Add(waitDuration) } if ok { lim.last = now lim.tokens = tokens lim.lastEvent = r.timeToAct } else { lim.last = last } lim.mu.Unlock() return r } func (lim *Limiter) advance(now time.Time) (newNow time.Time, newLast time.Time, newTokens float64) { last := lim.last if now.Before(last) { last = now } maxElapsed := lim.limit.durationFromTokens(float64(lim.burst) - lim.tokens) elapsed := now.Sub(last) if elapsed > maxElapsed { elapsed = maxElapsed } delta := lim.limit.tokensFromDuration(elapsed) tokens := lim.tokens + delta if burst := float64(lim.burst); tokens > burst { tokens = burst } return now, last, tokens } func (limit Limit) durationFromTokens(tokens float64) time.Duration { seconds := tokens / float64(limit) return time.Nanosecond * time.Duration(1e9*seconds) } func (limit Limit) tokensFromDuration(d time.Duration) float64 { sec := float64(d/time.Second) * float64(limit) naec := float64(d%time.Second) * float64(limit) return sec + naec/1e9 }
type Limiter struct { limit Limit // 放入桶的频率 (Limit 为 float64类型) burst int // 桶的大小 mu sync.Mutex tokens float64 // 当前桶内剩余令牌个数 last time.Time // 最近取走token的时间 lastEvent time.Time // 最近限流事件的时间 }
在令牌发放后,会被保留在Reservation 对象中,定义如下:
type Reservation struct { ok bool // 是否满足条件分配到了tokens lim *Limiter // 发送令牌的限流器 tokens int // tokens 的数量 timeToAct time.Time // 满足令牌发放的时间 limit Limit // 令牌发放速度 }
https://github.com/chenyahui/AnnotatedCode/blob/master/go/x/time/rate/rate.go