Go Chanel 使用与原理 三

2019年9月2日 232次阅读 来源: chencanxin

上篇已经记录到发送数据到 chanel 的三种情况的代码逻辑,接下来是从 chanel 接收数据的逻辑。

chanrecv 方法

和 chansend 方法十分类似

如果 hchan 为空

    if c == nil {
        if !block {
            return
        }
        gopark(nil, nil, waitReasonChanReceiveNilChan, traceEvGoStop, 2)
        throw("unreachable")
    }

如果 chenel 已经关闭

lock(&c.lock)

    if c.closed != 0 && c.qcount == 0 {
        if raceenabled {
            raceacquire(c.raceaddr())
        }
        unlock(&c.lock)
        if ep != nil {
            typedmemclr(c.elemtype, ep)
        }
        return true, false
    }

接收数据的三种情况

  • 如果 hchan 的 sendq 队列中有阻塞的 goroutine,buf 已满
  • 如果 hchan.buf 还有数据未取出
  • 如果 hchan.buf 为空

下面分别截取三种情况的代码段。

如果 hchan 的 sendq 队列中有阻塞的 goroutine,buf 已满

    if sg := c.sendq.dequeue(); sg != nil {
        // Found a waiting sender. If buffer is size 0, receive value
        // directly from sender. Otherwise, receive from head of queue
        // and add sender's value to the tail of the queue (both map to
        // the same buffer slot because the queue is full).
        recv(c, sg, ep, func() { unlock(&c.lock) }, 3)
        return true, true
    }

如果 hchan.buf 还有数据未取出

if c.qcount > 0 {
        // Receive directly from queue
        qp := chanbuf(c, c.recvx)
        if raceenabled {
            raceacquire(qp)
            racerelease(qp)
        }
        if ep != nil {
            typedmemmove(c.elemtype, ep, qp)
        }
        typedmemclr(c.elemtype, qp)
        c.recvx++
        if c.recvx == c.dataqsiz {
            c.recvx = 0
        }
        c.qcount--
        unlock(&c.lock)
        return true, true
    }

如果 hchan.buf 为空

    ··· // 上面条件都不满足,则只剩一种情况:hchan.buf 为空
    // no sender available: block on this channel.
    gp := getg()
    mysg := acquireSudog()
    mysg.releasetime = 0
    if t0 != 0 {
        mysg.releasetime = -1
    }
    // No stack splits between assigning elem and enqueuing mysg
    // on gp.waiting where copystack can find it.
    mysg.elem = ep
    mysg.waitlink = nil
    gp.waiting = mysg
    mysg.g = gp
    mysg.isSelect = false
    mysg.c = c
    gp.param = nil
    c.recvq.enqueue(mysg)
    goparkunlock(&c.lock, waitReasonChanReceive, traceEvGoBlockRecv, 3)

阻塞与唤醒

假设有一个 goroutine sender,和一个 goroutine reciever,如果 reciever 执行 chanrecv 方法的时候,buf 已经为空了,从上面的代码最后一行知道,goparkunlock 方法使 reciever 阻塞,那么 sender 写数据进 chanel,reciever 又如何被 sender 唤醒呢?

reciever 休眠后, sender 来了,sender 执行到以下代码处。sender 从 recvq 队列 弹出 reciever,然后执行 send 方法。

    if sg := c.recvq.dequeue(); sg != nil {
        // Found a waiting receiver. We pass the value we want to send
        // directly to the receiver, bypassing the channel buffer (if any).
        send(c, sg, ep, func() { unlock(&c.lock) }, 3)
        return true
    }

send 方法最后一行执行 goready 方法将 reciever 唤醒。

// send processes a send operation on an empty channel c.
// The value ep sent by the sender is copied to the receiver sg.
// The receiver is then woken up to go on its merry way.
// Channel c must be empty and locked.  send unlocks c with unlockf.
// sg must already be dequeued from c.
// ep must be non-nil and point to the heap or the caller's stack.
func send(c *hchan, sg *sudog, ep unsafe.Pointer, unlockf func(), skip int) {
    if raceenabled {
        if c.dataqsiz == 0 {
            racesync(c, sg)
        } else {
            // Pretend we go through the buffer, even though
            // we copy directly. Note that we need to increment
            // the head/tail locations only when raceenabled.
            qp := chanbuf(c, c.recvx)
            raceacquire(qp)
            racerelease(qp)
            raceacquireg(sg.g, qp)
            racereleaseg(sg.g, qp)
            c.recvx++
            if c.recvx == c.dataqsiz {
                c.recvx = 0
            }
            c.sendx = c.recvx // c.sendx = (c.sendx+1) % c.dataqsiz
        }
    }
    if sg.elem != nil {
        sendDirect(c.elemtype, sg, ep)
        sg.elem = nil
    }
    gp := sg.g
    unlockf()
    gp.param = unsafe.Pointer(sg)
    if sg.releasetime != 0 {
        sg.releasetime = cputicks()
    }
    goready(gp, skip+1)
}

reciever 唤醒后,继续执行 chanrecv 方法剩下的语句:

    // someone woke us up
    if mysg != gp.waiting {
        throw("G waiting list is corrupted")
    }
    gp.waiting = nil
    if mysg.releasetime > 0 {
        blockevent(mysg.releasetime-t0, 2)
    }
    closed := gp.param == nil
    gp.param = nil
    mysg.c = nil
    releaseSudog(mysg)
    return true, !closed

closechan 方法

close(ch) 对应的执行方法即为 closechan 方法。主要有以下步骤:

  • 关闭 nil chanel ,返回 panic:”close of nil channel”
  • 关闭 closed chanel,返回 panic:”close of closed channel”
  • 将 hchan.closed 的值设为 1
  • 释放所有 reader sudog 对象,释放的同时将 sudog 中的 g 插入 glist 链表
  • 释放所有 writer sudog 对象,释放的同时将 sudog 中的 g 插入 glist 链表
  • 遍历 glist 链表,唤醒 glist 中的所有 goroutine
func closechan(c *hchan) {
    if c == nil {
        panic(plainError("close of nil channel"))
    }

    lock(&c.lock)
    if c.closed != 0 {
        unlock(&c.lock)
        panic(plainError("close of closed channel"))
    }

    if raceenabled {
        callerpc := getcallerpc()
        racewritepc(c.raceaddr(), callerpc, funcPC(closechan))
        racerelease(c.raceaddr())
    }

    c.closed = 1

    var glist *g

    // release all readers
    for {
        sg := c.recvq.dequeue()
        if sg == nil {
            break
        }
        if sg.elem != nil {
            typedmemclr(c.elemtype, sg.elem)
            sg.elem = nil
        }
        if sg.releasetime != 0 {
            sg.releasetime = cputicks()
        }
        gp := sg.g
        gp.param = nil
        if raceenabled {
            raceacquireg(gp, c.raceaddr())
        }
        gp.schedlink.set(glist)  // <------ a 语句
        glist = gp // <------ b 语句
    }

    // release all writers (they will panic)
    for {
        sg := c.sendq.dequeue()
        if sg == nil {
            break
        }
        sg.elem = nil
        if sg.releasetime != 0 {
            sg.releasetime = cputicks()
        }
        gp := sg.g
        gp.param = nil
        if raceenabled {
            raceacquireg(gp, c.raceaddr())
        }
        gp.schedlink.set(glist) // <------ c 语句
        glist = gp // <------ d 语句
    }
    unlock(&c.lock)

    // Ready all Gs now that we've dropped the channel lock.
    for glist != nil {
        gp := glist
        glist = glist.schedlink.ptr() // <------ e 语句
        gp.schedlink = 0
        goready(gp, 3)
    }
}


//go:nosplit
func (gp guintptr) ptr() *g { return (*g)(unsafe.Pointer(gp)) } // 获得 gp 的地址 

//go:nosplit
func (gp *guintptr) set(g *g) { *gp = guintptr(unsafe.Pointer(g)) } // 设置 gp 的地址

上面代码有个注意的点: schedlink 是 G 的一个属性,用于指向下一个 G 。

参考文章

http://legendtkl.com/2017/08/…

    原文作者:chencanxin
    原文地址: https://segmentfault.com/a/1190000018531960
    本文转自网络文章,转载此文章仅为分享知识,如有侵权,请联系博主进行删除。
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