I am writing an app that allows users to upload files and queue them for processing. My approach to this is to create a goroutine for processing uploaded files and to use a channel to signal that a new file is ready for processing.

Basically, the processing goroutine does this:

for {
    while itemForProcessing() {
    select {
    case <-signalChan:
    case <-stopChan:

The code for signaling that a new item is ready for processing looks something like this:

select {
case signalChan <- true:

Note that this is a non-blocking send on the channel.

There are three possible scenarios:

  • the processing goroutine is in the select{} block — the first case runs and the next item is processed
  • the processing goroutine is executing processNextItem() — the next item will be processed once processNextItem() returns since the loop condition will be true
  • the processing goroutine has exited the loop but has not yet entered the select{} block

The last scenario will result in a problem. The non-blocking send will not send anything on the channel and the goroutine will wait in the select{} block until something else happens.

How can I avoid this problem? I cannot use a blocking send because the processing goroutine may be running processNextItem(), which would cause the send to block for an extremely long period of time.

  • Here channel works as an updatable flag - signaling there’s something what app can read. I guess there’s a possibility to simplify things - just pass new objects to treat via the channel. This solves several problems: easy parallelism, race condition protection, simplification. – Eugene Lisitsky Nov 17 '17 at 5:36

To avoid a lost signal, use a channel with capacity 1.

  • Thanks! This will work brilliantly. – Nathan Osman Nov 17 '17 at 1:57

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