Course details
About This Course is about learning How Linux Processes Talk to each Other. This is a sub-domain of Linux System Programming. We shall explore various popular mechanism used in the industry through which Linux processes exchange data with each other. We will go through the concepts in detail behind each IPC mechanism, discuss the implementation and design and analyse the situation where the given IPC is preferred over other.
We also discuss how application should be designed to use IPCfacility provided by underlying Linux OS.
You will have Assignments wherever possible, and throughout the course there shall be one project in which you shall be incrementally applying the new IPC technique you have learned. Towards the end of the course, you would have practiced and applied all IPCtechniques learned in this course.
For Each IPC mechanism, we will have a detailed code walk in which I show you how actually a given IPC mechanism is implemented on sending and receiving side. When you would join industry, from day 1 you will witness IPC concepts being applied all over the software in order to facilitate communication between different parts of the software.
Who should do this course?
This course is meant for UGComputer science students, job seekers and professional developers. This is MUST do course for those who want to join MNCs as a developer in System Programming. In System Programming, almost all the time you have to useIPC to carry out data exchange between processes, therefore students graduating in computer science and looking to seek an opportunity in MNCs as a developer should have IPC concepts at his/her finger tips.
Pre-requisite
It shall be advantageous if you know a little of C andOS. We designed this course assuming student is a complete beginner in Linux IPC and we raise the level of course gradually as we move from Basic to advance concepts wherever necessary.
Also, Please just do not sit and watch my codes. Write your own codes, even if it is same as mine !
RelatedCourses
RPC (Remote Procedure Calls) is another way of carrying out Inter Process Communication between two processes running on separate machines in the network. You may also want to check my another course on Linux RPCs where you will learn how to implement RPCs from scratch.
Programming Language used In this course :
We have a strong reasons to choose C as a language for this course:
IPC is a facility provided by the OS to developers to carry out data exchange between processes. Learning IPC using C helps you understand what is going on behind the scenes. C language really exposes the low level details about how system actually works. In System programming, C is the only language to be used and there is not even a remote substitute of this language when it comes to System programming.
No Third Party libraries
Whatever logic you implement, you need to implement it from scratch. This course do not suggest taking help of any third party library to get the jobs done. Use of external libraries completely defeats the purpose of the course. However, it is recommended to use third party libraries for commonly used data structures such as linked lists/Trees/Queues etc which saves a lot of time implementing these data structures.
Note 1: If you have done my other course "Network Concepts and Programming from Scratch", then there are some topics in this course (In Module 1 - Unix Domain Sockets) which overlap. However, it is mandatory to make overlapping topics as part of this course to make this course a complete unit. Please feel free to watch those topics with 2x speed Or skip altogether as per your convenience.
Note 2: Though we use Linux to teach the IPCtechniques, conceptually, IPC of linux is not very different from other OS platforms such as windows, iOS etc. So, if you are a programmer for other platforms, this course still holds a great value for you.
Warning : This course has auto system-generated subtitles which may not be perfect. Please disable subtitles as per your convenience.
Curriculum
Introduction
Table of Contents
Computer Architecture - Overview
Various IPC Techniques
Communication Types
IPC Technique 1 - Unix Domain Sockets
Socket API Introduction
Socket Message Types
Socket Design Paradigm
Accept System Call
Introducing Unix Domain Socket
Unix Domain Socket Server Implementation
Unix Domain Socket Client Implementation
Multiplexing
Select System Call
Multiplexing Server State machine
Multiplexed Server Implementation
Data Synchronization - IPC Project part 1
IPC Technique 2 - Message Queue
Introduction
MsgQ as a Kernel Resource
Open & Create a MsgQ
Closing a MsgQ
Enque Data in MsgQ
Dequeue Data from MsgQ
Unlinking a MsgQ
Using a Msg Q - Design perspective
Bi-Directional Communication
Code Walk - Implementation
Demonstration
IPC Technique 3 - Shared Memory
Overall Design Goals
Concept of Virtual Memory
Program Control Block
Shared Memory Basics
Kernel Memory
mmap() - Memory Mapping
Design Constraint
Shared Memory related APIs
Data Synchronization - IPC Project part 2
IPC Technique 4 - Signals
Introduction
Linux Well knows Signals
Signals Generation and Trapping
Sending Signals using Kill()
Data Synchronization - IPC Project part 3
Multiplexing on DifferentIPCs
Use select() to multiplex on different IPC interfaces
- JavaScript Full stack web developer virtual internship Virtual Bootcamp + Internship at LaimoonAED 1,449Duration: Upto 30 Hours
- CompTIA Linux+ Certification St. Paul's CollegeUSD 13Duration: Upto 20 Hours
- LPI Linux Essentials 010-160 Practice Exam Testprep TrainingUSD 15Duration: 1 To 3 Months