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I have a slice of channels that all receive the same message:

func broadcast(c <-chan string, chans []chan<- string) {
    for msg := range c {
        for _, ch := range chans {
            ch <- msg

However, since each of the channels in chans are potentially being read at a different rate, I don't want to block the other channels when I get a slow consumer. I've solved this with goroutines:

func broadcast(c <-chan string, chans []chan<- string) {
    for msg := range c {
        for _, ch := range chans {
            go func() { ch <- msg }()

However, the order of the messages that get passed to each channel is important. I looked to the spec to see if channels preserve order when blocked, and all I found was this:

If the capacity is greater than zero, the channel is asynchronous: communication operations succeed without blocking if the buffer is not full (sends) or not empty (receives), and elements are received in the order they are sent.

To me, if a write is blocked, then it is not "sent", but waiting to be sent. With that assumption, the above says nothing about order of sending when multiple goroutines are blocked on writing.

Are there any guarantees about the order of sends after a channel becomes unblocked?

share|improve this question
I would advise to carefully wrap (capture) the variables used inside the goroutine into parameters : go func(ch2 <-chan string, msg2 string){ ch2 <- msg2 }(ch, msg) . Here is a small demo that not capturing lead to erratic behavior – Ripounet Apr 7 '13 at 11:00
No further comment on the actual answer (which has been well explained already). Just wanted to point out that there is a package which implements a ring-buffered channel, so you don't have to write your own code to drop old messages: – Evan Apr 8 '14 at 3:46

4 Answers 4

up vote 4 down vote accepted

No, there are no guarantees.

Even when the channel is not full, if two goroutines are started at about the same time to send to it, I don't think there is any guarantee that the goroutine that was started first would actually execute first. So you can't count on the messages arriving in order.

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Hmm, interesting. What if I did something like Ask Bjorn Hansen suggested, but in the default case fired off a goroutine like in my example? Still no guarantee? – tjameson Apr 7 '13 at 4:52
tjameson: what do you want to happen if the channel is full? If you don't want to drop the message, why not just make the channel longer? If you don't want to drop messages, but want to know how far behind a client is then make a channel "the other way" that returns a message number or some such so you can tell which message has been recieved/sent to the socket/whatever you do. – Ask Bjørn Hansen Apr 7 '13 at 5:13
@AskBjørnHansen - I'm writing an IRC bouncer, so I think I want to drop the oldest. I can probably just do if len(ch) == cap(ch) { <-ch } ch <- msg, but if order is guaranteed, then maybe I'll wait n seconds for the client to catch up, then drop the client if it's too far behind. Since order isn't guaranteed, then I'll probably go with the former. – tjameson Apr 7 '13 at 5:36
I'd do it the way I suggested as len() and cap() are documented in the spec to always return 0 (I don't they don't). Not sure if that's an oversight in the code or the spec: – Ask Bjørn Hansen Apr 7 '13 at 16:00
Aha, I asked golang-nuts and I misread the spec; len() and cap() does work on channels, just make sure you don't have a race condition when you check the length (either only have one goroutine writing to the channel or protect the writing with a mutex). – Ask Bjørn Hansen Apr 7 '13 at 17:38

You can drop the message if the channel is full (and then set a flag to pause the client and send them a message that they're dropping messages or whatever).

Something along the lines of (untested):

type Client struct {
    Name string
    ch   chan<-string

func broadcast(c <-chan string, chans []*Client) {
    for msg := range c {
        for _, ch := range chans {
            select {
            case <- msg:
            // all okay
                log.Printf("Channel was full sending '%s' to client %s", msg, ch.Name)
share|improve this answer
+1 This solves my actual problem, but doesn't really answer my question. Thanks though! I forgot about select and full channels, and it forced me to review the spec and effective go and find a bunch of other nice things. – tjameson Apr 7 '13 at 15:40

In this code, no guarantees.

The main problem with the given sample code lies not in the channel behavior, but rather in the numerous created goroutines. All the goroutines are "fired" inside the same imbricated loop without further synchronization, so even before they start to send messages, we simply don't know which ones will execute first.

However this rises a legitimate question in general : if we somehow garantee the order of several blocking send instructions, are we guaranteed to receive them in the same order?

The "happens-before" property of the sendings is difficult to create. I fear it is impossible because :

  1. Anything can happen before the sending instruction : for example, other goroutines performing their own sendings or not
  2. A goroutine being blocked in a sending cannot simultaneously manage other sorts of synchronization

For example, if I have 10 goroutines numbered 1 to 10, I have no way of letting them send their own number to the channel, concurrently, in the right order. All I can do is use various kinds of sequential tricks like doing the sorting in 1 single goroutine.

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Yeah, that question is what I was trying to get at. I could contrive an example using sleeps, but it seems there's no guarantee anyway. I'm guessing channels aren't a special case for the scheduler, which is what @andybalholm seemed to imply. – tjameson Apr 7 '13 at 15:36

This is an addition to the already posted answers.

As practically everyone stated, that the problem is the order of execution of the goroutines, you can easily coordinate goroutine execution using channels by passing around the number of the goroutine you want to run:

func coordinated(coord chan int, num, max int, work func()) {
    for {
        n := <-coord

        if n == num {
            coord <- (n+1) % max
        } else {
            coord <- n

coord := make(chan int)

go coordinated(coord, 0, 3, func() { println("0"); time.Sleep(1 * time.Second) })
go coordinated(coord, 1, 3, func() { println("1"); time.Sleep(1 * time.Second) })
go coordinated(coord, 2, 3, func() { println("2"); time.Sleep(1 * time.Second) })

coord <- 0

or by using a central goroutine which executes the workers in a ordered manner:

func executor(funs chan func()) {
    for {
        worker := <-funs
        funs <- worker

funs := make(chan func(), 3)

funs <- func() { println("0"); time.Sleep(1 * time.Second) }
funs <- func() { println("1"); time.Sleep(1 * time.Second) }
funs <- func() { println("2"); time.Sleep(1 * time.Second) }

go executor(funs)

These methods will, of course, remove all parallelism due to synchronization. However, the concurrent aspect of your program remains.

share|improve this answer
I haven't tested but I guess you can't guarantee that the goroutine with the expected number will run. I would add a "sleep" in "func coordinated" after coord<-n (within the else). – zk82 Apr 7 '13 at 23:16
Yes, I can't be sure that the goroutine with that number will run. However, I can force execution of the function that does the actual work when it is time. The first solution is a bit of guesswork, while the second guarantees that the functions are called in order. – nemo Apr 7 '13 at 23:46

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