细粒度锁的实现

单个的读写锁性能太差,
分段锁设计该粗暴,下面是细粒度锁的实现,很巧妙,值得琢磨。


type semaphore struct {
    // Number of Acquires - Releases. When this goes to zero, this structure is removed from map.
    // Only updated inside blockingKeyCountLimit.lk lock.
    refs int

    max   int
    value int
    wait  sync.Cond
}

func newSemaphore(max int) *semaphore {
    return &semaphore{
        max:  max,
        wait: sync.Cond{L: new(sync.Mutex)},
    }
}

func (s *semaphore) Running() int {
    s.wait.L.Lock()
    defer s.wait.L.Unlock()

    return int(s.value)
}

func (s *semaphore) Acquire() {
    s.wait.L.Lock()
    defer s.wait.L.Unlock()
    for {
        if s.value+1 <= s.max {
            s.value++
            return
        }
        s.wait.Wait()
    }
    panic("Unexpected branch")
}

func (s *semaphore) Release() {
    s.wait.L.Lock()
    defer s.wait.L.Unlock()
    s.value--
    if s.value < 0 {
        panic("semaphore Release without Acquire")
    }
    s.wait.Signal()
}

type blockingKeyCountLimit struct {
    mutex   sync.RWMutex
    current map[string]*semaphore
    limit   int
}

func NewBlockingKeyCountLimit(n int) limit.Limit {
    return &blockingKeyCountLimit{current: make(map[string]*semaphore), limit: n}
}

func (l *blockingKeyCountLimit) Running() int {
    l.mutex.RLock()
    defer l.mutex.RUnlock()

    all := 0
    for _, v := range l.current {
        all += v.Running()
    }
    return all
}

func (l *blockingKeyCountLimit) Acquire(key2 []byte) error {
    key := string(key2)

    l.mutex.Lock()
    kl, ok := l.current[key]
    if !ok {
        kl = newSemaphore(l.limit)
        l.current[key] = kl

    }
    kl.refs++
    l.mutex.Unlock()

    kl.Acquire()

    return nil
}

func (l *blockingKeyCountLimit) Release(key2 []byte) {
    key := string(key2)

    l.mutex.Lock()
    kl, ok := l.current[key]
    if !ok {
        panic("key not in map. Possible reason: Release without Acquire.")
    }
    kl.refs--
    if kl.refs < 0 {
        panic("internal error: refs < 0")
    }
    if kl.refs == 0 {
        delete(l.current, key)
    }
    l.mutex.Unlock()

    kl.Release()
}

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