What is Mutex and How to Use it in Golang?
During the development of LiveAPI, an Auto API documentation generation tool, I needed to implement a robust queue mechanism that scaled based on the number of server machine cores. This was crucial to prevent excessive resource usage (memory and CPU) that could lead to resource starvation, crashes, and a poor user experience.
In this article, I'll explain how I utilized mutexes in Golang to address this challenge.
What is a Mutex?
In concurrent programming, a Mutex (Mutual Exclusion) is a locking mechanism that prevents race conditions by ensuring only one goroutine can access a shared resource at a time. It's akin to a key to a room – only one person can hold the key and enter at once.
Mutex Usage in Golang
Let's illustrate how a Mutex can manage concurrent job execution:
Go's sync package provides several primitives for synchronization, with Mutex being one of the most commonly used tools.
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In this code, the activeJobs variable tracks the number of currently running jobs. Since multiple goroutines might attempt to modify this variable concurrently, leading to race conditions, we use a Mutex to synchronize access.
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How a Mutex Works
Locking: The Lock() method acquires exclusive access to the critical section.
Unlocking: The Unlock() method releases the lock.
Critical Section: The code between Lock and Unlock where the **shared resource is accessed.
Types of Mutexes in Golang
sync.Mutex: This is the basic mutual exclusion lock in Go. It allows only one goroutine to access the critical section at a time.
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sync.RWMutex: This is a reader/writer mutex that allows multiple readers to access the shared resource simultaneously, but only one writer at a time.
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Mutexes are essential tools for managing shared resources in concurrent Go programs. They prevent race conditions and ensure data integrity by controlling access to critical sections of code.
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