Book Image

Hands-On Network Programming with C# and .NET Core

By : Sean Burns

Book Image

Hands-On Network Programming with C# and .NET Core

By: Sean Burns

Overview of this book

The C# language and the .NET Core application framework provide the tools and patterns required to make the discipline of network programming as intuitive and enjoyable as any other aspect of C# programming. With the help of this book, you will discover how the C# language and the .NET Core framework make this possible. The book begins by introducing the core concepts of network programming, and what distinguishes this field of programming from other disciplines. After this, you will gain insights into concepts such as transport protocols, sockets and ports, and remote data streams, which will provide you with a holistic understanding of how network software fits into larger distributed systems. The book will also explore the intricacies of how network software is implemented in a more explicit context, by covering sockets, connection strategies such as Transmission Control Protocol (TCP) and User Datagram Protocol (UDP), asynchronous processing, and threads. You will then be able to work through code examples for TCP servers, web APIs served over HTTP, and a Secure Shell (SSH) client. By the end of this book, you will have a good understanding of the Open Systems Interconnection (OSI) network stack, the various communication protocols for that stack, and the skills that are essential to implement those protocols using the C# programming language and the .NET Core framework.

Preface

Who this book is for

What this book covers

To get the most out of this book

Free Chapter

Section 1: Foundations of Network Architecture

Section 1: Foundations of Network Architecture

Networks in a Nutshell

Networks in a Nutshell

Technical requirements

Expanding the scope of software – distributed systems and the challenges they introduce

Topologies and physical infrastructure

The software impact of distributing resources on a network

Network objects and data structures in .NET Core

A whole new computing world

Further reading

DNS and Resource Location

DNS and Resource Location

Technical requirements

Needles in a haystack – data on the internet

URLs, domain names, and device addresses

Further reading

Communication Protocols

Communication Protocols

Technical requirements

The Open Systems Interconnection network stack

The application layer

The Transport layer

Further reading

Packets and Streams

Packets and Streams

Technical requirements

Leveraging networks – transmitting packets for use by remote resources

The anatomy of a packet

Streams and serialization – understanding sequential data transmission

Further reading

Section 2: Communicating Over Networks

Section 2: Communicating Over Networks

Generating Network Requests in C#

Generating Network Requests in C#

Technical requirements

One class to rule them all – the WebRequest abstract class

The sub-classes of the WebRequest class

Further reading

Streams, Threads, and Asynchronous Data

Streams, Threads, and Asynchronous Data

Technical requirements

Going with the flow – data streams in C#

The right stream for the job

Picking up the pace – multithreading data processing

Asynchronous programming for asynchronous data sources

Further reading

Error Handling over the Wire

Error Handling over the Wire

Technical requirements

Multiple devices, multiple points of failure

Status codes and error messages

Error-handling strategies

Further reading

Section 3: Application Protocols and Connection Handling

Section 3: Application Protocols and Connection Handling

Sockets and Ports

Sockets and Ports

Technical requirements

Sockets versus ports

Leveraging sockets in C#

Further reading

HTTP in .NET

Technical requirements

Cracking open HTTP

The many methods of HTTP

HTTP request formatting

HTTPS – security over HTTP

Further reading

FTP and SMTP

Technical requirements

File transfer over the web

Securing FTP requests

Further reading

The Transport Layer - TCP and UDP

The Transport Layer - TCP and UDP

Technical requirements

The transport layer

Connection-based and connectionless communication

Multicasting packets

Further reading

Section 4: Security, Stability, and Scalability

Section 4: Security, Stability, and Scalability

The Internet Protocol

The Internet Protocol

Technical requirements

The IP standard

IPv4 and its limits

IPv6 – the future of the protocol

Leveraging IP in C#

Further reading

Transport Layer Security

Transport Layer Security

Technical requirements

Private connections and SSL

TLS as the new standard

Configuring TLS in .NET Core

Further reading

Authentication and Authorization on Networks

Authentication and Authorization on Networks

Technical requirements

The authorization header

Authorization tokens

Authorization in .NET Core

Further reading

Caching Strategies for Distributed Systems

Caching Strategies for Distributed Systems

Technical requirements

Why cache at all?

Distributed caching systems

Working with caches in code

Cache providers

Further reading

Performance Analysis and Monitoring

Performance Analysis and Monitoring

Technical requirements

Network performance analysis

Performance monitoring

Performance and health monitoring in C#

Further reading

Section 5: Advanced Subjects

Section 5: Advanced Subjects

Pluggable Protocols in .NET Core

Pluggable Protocols in .NET Core

Technical requirements

Understanding pluggable protocols

Building our custom subclasses

Leveraging a custom protocol

Further reading

Network Analysis and Packet Inspection

Network Analysis and Packet Inspection

Technical requirements

Network resources and topography

Network analysis

Additional tools and analysis

Further reading

Remote Logins and SSH

Remote Logins and SSH

Technical requirements

Establishing SSH connections

Remote execution with SSH

Further reading

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Summary

In this chapter, we examined the primary characteristics network engineers identified as necessary to make networks viable. We considered the trade-off of usability for routing hardware versus readability for humans when defining a standard syntax for network addressing. With that consideration in mind, we looked at how the work of the telecom engineers of previous generations contributed hugely to the solutions that were ultimately standardized on all modern networks today.

Within that context, we looked at how IP addresses are used by network hardware to locate resources, and how the DNS facilitates the more memorable, human-readable addressing schemes of URLs and URIs. We learned how those domain names are explicitly mapped to their underlying IP addresses by implementing a domain name server of our own, using the hosts file of our operating system. Using the sandbox...