Udemy Part B - Networking Projects - Implement TCP/IP Stack in C

C/C++ Linux Project, Network Socket Programming, Build TCP/IP Stack, Final Year Project, System Programming in C

What you'll learn

• Working with Timers in Networking Domain
• How to implement Networking Oriented Algorithms
• Implement Callback Registration Model
• Parsing and Cooking Network Packets
• Notification Chains
• Developing more realistic virtual Networking Device environment

Requirements

• Part A of this Course is a pre-requisite
• Good in Coding in C or any one main stream language
• Must know how to work with git - atleast basics
• Good with Pointers and Memory management Skills in C

Description
Welcome to the Part-B of the TCP/IP Stack Development Course Series. This is a sequel course to Part-A in which we implemented a pseudo TCP/IP Stack working in Virtualized topology.
In this Course, We shall be implementing more advanced and additional features to our Pseudo TCP/IP Stack and would try to impart a more realistic flavor to it.

We will resume from where we left in Part-A. If you have signed up for this course, I presume you have completed Part-A of the course and we are ready for another roller coaster ride into our project.
This course is Advanced as compared to Part-A. In this course we will learn some more aspects of TCP/IP stack and in general, how Networking software is developed. You will not only doing Networking Based Programming but also, you will continue doing a typical Linux based System Programming development as Networking is strongly tied to System Programming.

Student Level: Intermediate to Advanced to Working Professionals, Beginners in Coding pls excuse this course.

Table of Contents
1. What is this Course all about?
2. Project 1 : Interface Management and Statistics

• Enable/Disable an Interface
• Gathering Interface Rx/Tx Statistics

3. Project 2 : Implementing the Packet Generator

• Create and Feed Pkt stream into Topology

4. Project 3 : Implementing Routing Table Construction Algorithm

• Designing Data Structure
• Shortest Path First Algorithm in Detail
• Implementation Strategy
• Testing SPF Algorithm Implementation
• Route Calculation

5. Project 4 : Logging Infra

• Track Ingress and Egress pkts per device per interface
• Track L3 Path taken by a pkt from src to dst

6. Project 5 : Notification Chains

• Introduction to NFC
• Understand with the help of Example
• Writing a Generic NOTIF Infra code
• Writing TCP/IP Stack NFC
• Implement Publisher Subscriber APIs
• See NFC in Action

7. Project 6 : Working with Timers

• Implementing Ageism
• Implement Timer State Machine

Who this course is for:

• Those who have finished Part A (Prequel Course)
• Who want to learn System and Network Programming