Book Image

Hands-On System Programming with Go

By : Alex Guerrieri
Book Image

Hands-On System Programming with Go

By: Alex Guerrieri

Overview of this book

System software and applications were largely created using low-level languages such as C or C++. Go is a modern language that combines simplicity, concurrency, and performance, making it a good alternative for building system applications for Linux and macOS. This Go book introduces Unix and systems programming to help you understand the components the OS has to offer, ranging from the kernel API to the filesystem. You'll then familiarize yourself with Go and its specifications. You'll also learn how to optimize input and output operations with files and streams of data, which are useful tools in building pseudo-terminal applications. You'll gain insights into how processes communicate with each other, and learn about processes and daemon control using signals, pipes, and exit codes. This book will also enable you to understand how to use network communication using various protocols, including TCP and HTTP. As you advance, you'll focus on Go's best feature - concurrency, which will help you handle communication with channels and goroutines, other concurrency tools to synchronize shared resources, and the context package to write elegant applications. By the end of this book, you will have learned how to build concurrent system applications using Go
Table of Contents (24 chapters)
Free Chapter
1
Section 1: An Introduction to System Programming and Go
5
Section 2: Advanced File I/O Operations
9
Section 3: Understanding Process Communication
14
Section 4: Deep Dive into Concurrency
19
Section 5: A Guide to Using Reflection and CGO

Working with slices

Go slices and C slices differ in one fundamental aspect—the Go version embeds both length and capacity, while in C, all we have is a pointer to the first element. This means that in C, length and capacity must be stored somewhere else, such as in another variable.

Let's take the following Go function, which calculates the mean of a series of float64 numbers:

func mean(l []float64) (m float64) {
for _, a := range l {
m += a
}
return m / float64(len(l))
}

If we want to have a similar function in C, we need to pass a pointer together with its length. This will avoid errors such as segmentation fault, which happens when an application tries to gain access to memory that has not been assigned to it. If the memory is still assigned to the application, the result is that it provides access to a memory area with an unknown value, causing...