Book Image

Hands-On System Programming with C++

By : Dr. Rian Quinn

Book Image

Hands-On System Programming with C++

By: Dr. Rian Quinn

Overview of this book

C++ is a general-purpose programming language with a bias toward system programming as it provides ready access to hardware-level resources, efficient compilation, and a versatile approach to higher-level abstractions. This book will help you understand the benefits of system programming with C++17. You will gain a firm understanding of various C, C++, and POSIX standards, as well as their respective system types for both C++ and POSIX. After a brief refresher on C++, Resource Acquisition Is Initialization (RAII), and the new C++ Guideline Support Library (GSL), you will learn to program Linux and Unix systems along with process management. As you progress through the chapters, you will become acquainted with C++'s support for IO. You will then study various memory management methods, including a chapter on allocators and how they benefit system programming. You will also explore how to program file input and output and learn about POSIX sockets. This book will help you get to grips with safely setting up a UDP and TCP server/client. Finally, you will be guided through Unix time interfaces, multithreading, and error handling with C++ exceptions. By the end of this book, you will be comfortable with using C++ to program high-quality systems.

Preface

Who this book is for

What this book covers

To get the most out of this book

Free Chapter

Getting Started with System Programming

Getting Started with System Programming

Technical requirements

Understanding system calls

Benefits of using C++ when system programming

Further reading

Learning the C, C++17, and POSIX Standards

Learning the C, C++17, and POSIX Standards

Technical requirements

Beginning with the C standard language

Learning about the C++ standard

Beginning with the POSIX standard

Further reading

System Types for C and C++

System Types for C and C++

Technical requirements

Exploring C and C++ default types

Learning standard integer types

Further reading

C++, RAII, and the GSL Refresher

C++, RAII, and the GSL Refresher

Technical requirements

A brief overview of C++17

Resource Acquisition Is Initialization (RAII)

The Guideline Support Library (GSL)

Further Reading

Programming Linux/Unix Systems

Programming Linux/Unix Systems

Technical requirements

The Unix filesystem

Further reading

Learning to Program Console Input/Output

Learning to Program Console Input/Output

Technical requirements

Learning about stream-based IO

Beginning with user-defined types

Learning about manipulators

Recreating the echo program

Understanding the Serial Echo server example

Further reading

A Comprehensive Look at Memory Management

A Comprehensive Look at Memory Management

Technical requirements

Learning about the new and delete functions

Understanding smart pointers and ownership

Learning about mapping and permissions

Learning importance of memory fragmentation

Further reading

Learning to Program File Input/Output

Learning to Program File Input/Output

Technical requirements

Reading and writing to a file

Understanding file utilities

Understanding the logger example

Learning about the tail file example

Comparing C++ versus mmap benchmark

Further reading

A Hands-On Approach to Allocators

A Hands-On Approach to Allocators

Technical requirements

Introducing the C++ allocators

Studying an example of stateless, cache–aligned allocator

Studying an example of a stateful, memory–pool allocator

Further reading

Programming POSIX Sockets Using C++

Programming POSIX Sockets Using C++

Technical requirements

Beginning with POSIX sockets

Beginning with APIs

Studying an example on the UDP echo server

Studying an example on the TCP echo server

Exploring an example on TCP Logger

Trying out an example for processing packets

Processing an example of processing JSON

Further reading

Time Interfaces in Unix

Time Interfaces in Unix

Technical requirements

Learning about POSIX time.h APIs

Exploring C++ Chrono APIs

Studying an example on the read system clock

Studying an example on high-resolution timer

Further reading

Learning to Program POSIX and C++ Threads

Learning to Program POSIX and C++ Threads

Technical requirements

Understanding POSIX threads

Exploring C++ threads

Studying an example on parallel computation

Studying an example on benchmarking with threads

Studying an example on thread logging

Further reading

Error – Handling with Exceptions

Error – Handling with Exceptions

Technical requirements

Error handling POSIX-style

Learning about set jump exceptions

Understanding exception support in C++

Studying an example on exception benchmark

Further reading

Assessments

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Chapter 3

This depends on the CPU architecture. On some CPUs, a short int is 16 bits wide, while an int is 32 bits wide. This is not the case on all CPUs.
This depends on the CPU architecture. On most CPUs, an int is 32 bits wide, but this is not always the case.
No.
An int32_t will always be 32 bits wide. On some CPUs, an int could be 16, 32, or 64 bits wide.
Yes. These are called exact-width types and will always be the desired width.
Ensures that structures are not automatically padded by the compiler for optimizations.
No.