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How to implement concurrency safety in Go language?

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Release: 2023-06-10 08:13:36
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With the continuous development of computer technology, we must shift from single thread to multi-thread for program processing. Compared with the traditional concurrency processing model, the powerful concurrency processing mechanism of Go language has attracted the attention of many developers. The Go language provides a lightweight implementation mechanism that makes authentic concurrent code easier to write.

However, it is inevitable that a multi-threaded environment will bring many race conditions (Race Condition). When multiple threads try to read and write the same shared resource at the same time, unexpected results may occur due to the uncertainty of the order of execution. Race Condition is one of the potential problems developers fear the most.

In order to avoid potential problems in concurrent processing, the Go language provides a rich variety of standard libraries: sync. This article will introduce the mechanism to achieve concurrency safety through the sync library.

Mutex and RWMutex

mutex is the most commonly used mechanism. At any time, only one coroutine can obtain the mutex object, and other coroutines need to wait for the previous coroutine to release the lock before they can continue execution. Mutex can be used to protect shared resources so that code can run safely and stably.

RWMutex is another mutex lock type, which is equivalent to the extension of mutex in the field of reading and writing. RWMutex contains two counters: read counter and write counter.

  • When the reading coroutine is still performing a reading operation, the writing operation will be locked and waits for the reading operation to end.
  • When the writing coroutine calls the lock operation, all ongoing read and write operations of the coroutine will be locked.

This mechanism ensures that multiple coroutines can perform read operations at the same time, and only a single coroutine can perform write operations.

var rwMutex sync.RWMutex
var count int
func read() {
    rwMutex.RLock()
    defer rwMutex.RUnlock()

    fmt.Println(count)
}

func write() {
    rwMutex.Lock()
    defer rwMutex.Unlock()

    count++
}
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In the above example code, we use a RWMutex type lock to protect the read and write operations of the count variable. When a thread calls the write() function, the write counter is locked and all other coroutines are blocked from reading and writing. When a thread calls the read() function, the read counter will be locked and other coroutines will be allowed to perform read operations.

WaitGroup

WaitGroup is used to wait for a group of coroutines to complete execution. Suppose we have n coroutines that need to be executed, then in the main coroutine, we need to call waitGroup.Add(n). WaitGroup.Done() is called after each coroutine has completed execution.

func main() {
    var wg sync.WaitGroup

    for i := 0; i < 5; i++ {
        wg.Add(1)
        go func(n int) {
            fmt.Println("goroutine ", n)
            wg.Done()
        }(i)
    }
    wg.Wait()
}
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In this example, we use WaitGroup to wait for the execution of each goroutine, and finally wait for all goroutines to complete before ending the main execution process.

Cond

When multiple coroutines need to stop or perform some specific operations, we can use Cond. It is common to use Cond in conjunction with locks and WaitGroup. It allows goroutines to block simultaneously until a condition variable changes.

var cond = sync.NewCond(&sync.RWMutex{})

func printOddNumbers() {
    for i := 0; i < 10; i++ {
        cond.L.Lock()
        if i%2 == 1 {
            fmt.Println(i)
            cond.Signal()
        } else {
            cond.Wait()
        }
        cond.L.Unlock()
    }
}

func printEvenNumbers() {
    for i := 0; i < 10; i++ {
        cond.L.Lock()
        if i%2 == 0 {
            fmt.Println(i)
            cond.Signal()
        } else {
            cond.Wait()
        }
        cond.L.Unlock()
    }
}
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In the above code example, we used Cond to ensure that even numbers and odd numbers are output separately. Each coroutine uses sync.Mutex to lock the goroutine and wait for another coroutine to first access the shared variable and then monitor the value of the variable.

Once

In some cases, you need to ensure that certain operations are performed only once, such as reading a configuration file only once or initializing global state only once. The sync.Once type of Go language was born for this purpose. When the function is called for the first time it will execute the code inside it and will not be executed again on subsequent calls.

var once sync.Once

func doSomething() {
    once.Do(func() {
        fmt.Println("Do something")
    })
}
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In the above example, we used sync.Once to safely execute the doSomething function. The first time doSomething is called, the function will be executed only once using once.Do().

Conclusion

In this article, we introduce the locks and mechanisms commonly used in the Go language to ensure the safety of concurrent code. The Mutex, RWMutex, WaitGroup, Cond, and Once types using the sync library are all very powerful and can be used to design safe and efficient concurrent programs. As concurrency mechanisms continue to evolve, understanding the latest advances in concurrent programming is key to keeping your development skills competitive.

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