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Go Channel Patterns - Drop

To improve my Go Programming skills and become a better Go engineer, I have recently purchased an excellent on-demand education from Ardan Labs. Materials are created by an expert Go engineer, Bill Kennedy.

I have decide to record my process of learning how to write more idiomatic code, following Go best practices and design philosophies.

This series of posts will describe channel patterns used for orchestration/signaling in Go via goroutines.

Drop Pattern

The main idea behind Drop Pattern is to have a limit on the amount of work that can be done at any given moment.

Drop Pattern

We have:

  • a buffered channel that provides signaling semantic
  • a number of worker goroutines
  • a manager goroutine that:
    • takes the work and sends it to the worker goroutine
    • if there is more work than worker goroutines can process and buffered channel is full, manager goroutine will drop the work


In Drop Pattern we have a limited amount of work (capacity) we can do in a day.

We have predefined number of employees that will do the work (worker goroutines).

We also have a manager (main goroutine) that generates work (or gets work from some predefined list of work).

Manager notifies employee about the work via communication channel ch. Employee gets the work from the communication channel ch.

Communication channel ch is capable of holding a limited amount of work "in the queue" (buffered channel). We say a channel has a limited capacity. Once channel ch is full, manager can't send new work and instead decides to DROP that unit of work and tries to send a new unit of work to the channel (maybe this time there is some space on the ch). Manager will do that as long as there is available work to do.

Use Case

Good use case for this pattern would be a DNS server. A DNS server has a limited capacity, or limited amount of requests that it can process at any given moment. If there are more requests sent to the DNS server we can decide to overload and kill the server, or to DROP new requests until DNS server has capacity to process the request.

Feel free to try the example on Go Playground

package main

import (

func main() {
    // capacity
    // max number of active requests at any given moment
    const cap = 100

    // buffered channel is used to determine when we are at capacity
    ch := make(chan string, cap)

    // a worker goroutine
    // e.g. an employee
    go func() {
        // for-range loop used to check for new work on communication channel `ch`
        for p := range ch {
            fmt.Println("employee : received signal :", p)

    // amount of work to do
    const work = 200

    // range over collection of work, one value at the time
    for w := 0; w < work; w++ {
        // select-case allow us to perform multiple channel operations
        // at the same time, on the same goroutine
        select {

        // signal/send work into channel
        // start getting goroutines busy doing work
        // e.g. manager sends work to employee via buffered communication channel
        //      if buffer is full, default case is executed
        case ch <- "paper":
            fmt.Println("manager : sent signal :", w)

        // if channel buffer is full, drop the message
        // allow us to detect that we are at capacity
        // e.g. manager drops the unit of work
            fmt.Println("manager : dropper data :", w)

    // once last piece of work is submitted, close the channel
    // worker goroutines will process everything from the buffer
    fmt.Println("manager : sent shutdown signal")

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go run main.go

manager : sent signal : 0
manager : sent signal : 1
manager : sent signal : 2
manager : sent signal : 3
manager : sent signal : 4
manager : dropper data : 101
manager : dropper data : 102
employee : received signal : paper
employee : received signal : paper
employee 0 : received shutdown signal
employee : received signal : paper
employee : received signal : paper
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In this article, drop channel pattern was described. In addition, simple implementation and use case were provided.

Readers are encouraged to check out excellent Ardan Labs education materials to learn more.


  1. Ardan Labs
  2. Cover image by Igor Mashkov from Pexels
  3. Fan out picture

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