16

In my case, I have thousands of goroutines working simultaneously as work(). I also had a sync() goroutine. When sync starts, I need any other goroutine to pause for a while after sync job is done. Here is my code:

var channels []chan int
var channels_mutex sync.Mutex

func work() {
  channel := make(chan int, 1)
  channels_mutex.Lock()  
  channels = append(channels, channel)
  channels_mutex.Unlock()
  for {
    for {
      sync_stat := <- channel // blocked here
      if sync_stat == 0 { // if sync complete
        break  
      }
    }
    // Do some jobs
    if (some condition) {
      return
    }
  }
}

func sync() {
  channels_mutex.Lock()
  // do some sync

  for int i := 0; i != len(channels); i++ {
    channels[i] <- 0
  }
  channels_mutex.Unlock()
}

Now the problem is, since <- is always blocking on read, every time goes to sync_stat := <- channel is blocking. I know if the channel was closed it won't be blocked, but since I have to use this channel until work() exits, and I didn't find any way to reopen a closed channel.

I suspect myself on a wrong way, so any help is appreciated. Is there some "elegant" way to pause and resume any other goroutine?

1 Answer 1

24

If I understand you correctly, you want N number of workers and one controller, which can pause, resume and stop the workers at will. The following code will do just that.

package main

import (
    "fmt"
    "runtime"
    "sync"
)

// Possible worker states.
const (
    Stopped = 0
    Paused  = 1
    Running = 2
)

// Maximum number of workers.
const WorkerCount = 1000

func main() {
    // Launch workers.
    var wg sync.WaitGroup
    wg.Add(WorkerCount + 1)

    workers := make([]chan int, WorkerCount)
    for i := range workers {
        workers[i] = make(chan int, 1)

        go func(i int) {
            worker(i, workers[i])
            wg.Done()
        }(i)
    }

    // Launch controller routine.
    go func() {
        controller(workers)
        wg.Done()
    }()

    // Wait for all goroutines to finish.
    wg.Wait()
}

func worker(id int, ws <-chan int) {
    state := Paused // Begin in the paused state.

    for {
        select {
        case state = <-ws:
            switch state {
            case Stopped:
                fmt.Printf("Worker %d: Stopped\n", id)
                return
            case Running:
                fmt.Printf("Worker %d: Running\n", id)
            case Paused:
                fmt.Printf("Worker %d: Paused\n", id)
            }

        default:
            // We use runtime.Gosched() to prevent a deadlock in this case.
            // It will not be needed of work is performed here which yields
            // to the scheduler.
            runtime.Gosched()

            if state == Paused {
                break
            }

            // Do actual work here.
        }
    }
}

// controller handles the current state of all workers. They can be
// instructed to be either running, paused or stopped entirely.
func controller(workers []chan int) {
    // Start workers
    setState(workers, Running)

    // Pause workers.
    setState(workers, Paused)

    // Unpause workers.
    setState(workers, Running)

    // Shutdown workers.
    setState(workers, Stopped)
}

// setState changes the state of all given workers.
func setState(workers []chan int, state int) {
    for _, w := range workers {
        w <- state
    }
}
15
  • 1
    What does ` <-time.After(1e1)` mean?
    – Shane Hou
    Apr 19, 2013 at 10:19
  • 3
    Using channels for communication is the idiomatic way to do this in Go. You can use a global variable if you want to. But I would advise against using a sync.Mutex to lock it. These do not scale very well when dealing with large numbers of goroutines, each acquiring R/W locks. In this case, I would use the sync/atomic package to atomically read/write the state.
    – jimt
    Apr 19, 2013 at 10:29
  • 1
    @jimt Nice example; good reminder of how 'default' is run when the channel blocked. I'd add that in case the workers sometimes take a while to come back to read the status it might be nice to make the channel that talks to them have a buffer of 1, so you can write to all of them in a hurry instead of not pausing or stopping number 2 until number 1 stopped, etc. Or did I misunderstand how that works? Apr 19, 2013 at 16:30
  • 2
    Yes, it will keep going into the default case, but it is not as expensive as you may expect. What this does, is set state to the appropriate value. It is up to you to decide if and how you want to throttle the loop. As far as context switching goes, here's pretty thorough explanation on how this works in Go.
    – jimt
    Apr 2, 2017 at 11:34
  • 2
    @redpix_ Any blocking call in the default case, will stop the loop from continuing. New values in the state channel will not be read, until the default case finishes. In your case, I would read stdin in a separate goroutine and write inputs into a channel, which can be put into the select{} block, as a new case. It would replace the default case. For example: play.golang.org/p/XZLdfD3OB_
    – jimt
    Apr 17, 2017 at 13:55

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