My linux

Posted by : Unknown Friday, July 26, 2013

INTRODUCTION:

LINUX is one of the most flexible and popular operating systems in the market today.

UNIX was designed and developed in 1969 to provide an environment to create programs. It became popular with its usage beginning to educational institutions, scientific research laboratories and industries. Later a student in Finland developed LINUX from UNIX and made the source code available on the INTERNET. Later more developers added additional functions to LINUX.

Computers are used by all sections of the society. Hence it becomes necessary to know about the various packages, languages, and the Operating Systems (OS) available in the market.

Definition of an Operating System:

An Operating System (OS) forms a very important part of the computer. It is a software program designed to act as an interface between a user and computer. It controls the hardware, manages system resources and supervises interaction between the system and its users.

Functions of an Operating System:

An operating system provides the following functions.

· As a Command Interpreter

· As a Peripherals Manager

· As a Memory Manager

· As a Process Manager

As a Command Interpreter:

The OS interprets the command typed in by the user and translates it to the machine language. Similarly, it also translates the result of a command into the language, which the user understands. This is called Command Interpretation.

As a Peripherals Interpreter:

The OS manages the devices attached to its system. Inputs from the keyboard are taken as commands by the computer. The result of a command is sent to the printer or to the monitor as output. The OS manages this task of accepting the input and producing the output. This is called Peripheral management.

As a Memory Manager:

Within a computer there might be different processes running which require memory from the Central Processing Unit (CPU). The decision to allocate a certain amount of memory for a particular process is done by the OS. This is called Memory Management.

As a Process Manager:

As said above, within a computer there might be different processes running simultaneously. The amount of time to be spent on a process by the CPU is also decided by the OS. This is called Process Management.

Types of an Operating System:

There are different types of OS available. They are

· Single User Operating System

· Multi User Operating System

· Networks Operating System

Single user operating systems are those, which are used in PCs. E.g. DOS

Multi user operating systems are those, which can handle multiple users as well as multiple peripherals simultaneously. E.g. LINUX

Network systems – Number of systems linked together for the purpose of communication and centralization of data or resources. E.g. LAN

About LINUX:

The Linux operating system has many unique features. Linux consists of a set of tools that enables the users to connect and use the tools to build systems and applications. Linux is a UNIX work-alike. Some of the features are discussed on the following types of functions.

· Kernel Programming Interface

· Many users at a time

· Many tasks at a time

· File System

Kernel programming interface:

The kernel is the heart of the operating system, responsible for controlling the resources and scheduling user jobs in such a manner that each user gets

equal share of system resources. All the programs interact with the kernel through the system calls, which are special functions.

Many users at a time:

A multi-user operating system allows many users to access all the system resources almost simultaneously. The costly resources are utilized to the maximum and the cost per user is minimized. This is because one user on a machine cannot use all the devices attached to the computer.

Many tasks at a time:

Linux is a fully protected multitasking operating system. It allows a user to run more than one job at a time. The processes can communicate with each other and are also protected from one another. A user can execute different jobs in the background and at the same time focus on another task in the forefront. We can also switch between jobs.

File System:

The Linux file system provides a file structure where files are arranged under a directory. To ease the work of system administrators and programmers, a group of developers over the internet together developed the Linux file systems standard (FSSTND), which is evolving into Linux File Systems Hierarchy (FHS). The FHS system brought all the key programs that were previously located at different places in different Linux distributions to a single machine.

Features Of Linux:

1. There's no single owner for Linux. Linux is the combined effort of many a thousand programmers. But then so is Windows, and NetWare, and Mac OS and Delphi, and VB, and any other software that you may care to add to the list.

2. Cornerstone of the Linux effort has been the peer review, that not only the software but also the source code itself is subjected to.

3. Documentation- Linux's documentation-the how-tos as they are called -is some of the most extensive hands-on guide that you can get.

4. Linux is customizable like no other software.

5. Support- One of the stated plus points of commercial software is that there's a structured support program that you can avail of. But reality is often different. Those of you who have had occasion to ask for help would know that often it's not from the structured support programs, but from non-structured ones like user groups and Internet news groups that you get more precise and faster help.

6. Linux doesn't need the latest, fastest, hardware to run on.

7. And last but not the least, because it's free.

STRUCTURE OF LINUX SYSTEM:

Linux is very popular due to its special features and its structure. Its structure consists of kernel, shell, tools, and applications.

· Kernel

· Shell

· Tools

· Applications

Kernel:

Kernel forms the core of the LINUX operating system. This interacts with the hardware. It is loaded into the memory when a system is booted. Its functions are

Ø Managing the system resources

Ø Allocating time for different users and processes

Ø Deciding process priorities and performing them

Since the kernel isolates itself from user programs, it can be moved across different systems. Kernel does not interact with the user directly. Instead, it starts up a separate file called SHELL.

Shell:

Linux’s Shell interacts with the user and the computer. Some of its features are as follows:

Interactive Processing: Communication between the user and the system tasks the form of interactive dialogue with the Shell.

Background Processing: There are processes that are time consuming and which are non-interactive in nature. Such processes can be done in the background while we can continue using the system to do other tasks.

Input/Output Redirection: Programs can be instructed to take input from a file other than the standard input i.e. the keyboard and send the output to a file instead of the standard output i.e. the Visual Display Unit. This is called Redirection. Simultaneous use of Input and Output Redirection is possible.

Pipes: Simple programs can be developed to do complex operations with minimum effort using pipes. This reduces the necessity for writing new programs for the complex operations.

Wild Card Patterns: files matching a particular pattern can be grouped together and actions may be performed on it. We shall deal with Wild Card patterns in later chapters.

Shell scripts: The shell scripts contain a sequence of commands to be performed with a single filename. The scripts can be executed using that filename.

Shell Variables: By storing date in variable we can control the behavior of shell as well as that of programs and utilities.

Programming Language Constructs: Shell has features which enables it to be used as a programming language. These help in building complex shells to perform complex operations.

Tools and Applications:

LINUX supports business application oriented packages like Word Processors, Electronic Spreadsheets, databases etc. Which makes it a favorite among operating systems, used in Offices.

Some of the simple commands:

DATE command:

The date command tells us the current date and time.

Ex: $ date

Thu Aug 23 12:23:50 PST 2001

$ _

WHO command:

The output of the who command gives us the details of the users who have logged in to the LINUX system currently.

WHO AM I command:

The who am I command gives us details regarding the login time and the system’s name for the connection being used.

MAN command:

If we get stuck on something, and cannot find an expert to help, we can print any manual page on our terminal with the command ‘man’ command-name.

HEAD and TAIL command:

The head command is used to display the initial part of a text file. This can be thought of as a complement command to the tail command, which displays the last part of a text file. By default head command displays first 10 lines of a file and tail command the last 10 lines.

Syntax: $ head [- count] [filename…]

$ tail [+/- number] file

Some of the directory commands:

Let us look at some directory commands.

PWD command:

The pwd command has no options. It displays the full pathname for the current directory.

The syntax is $ pwd.

ls Command:

The ls command displays the list of files in the current working directory.

$ ls

mkdir command:

This command is used to create a new directory.

$ mkdir directoryname

cd Command:

The cd command is used to change from the working directory to any other directory specified. There are no options connected with this.

$ cd

rmdir Command:

This command is used to remove a directory specified in the command line. It requires the specified directory to be empty before removing it.

$ rmdir directoryname

Some of the File Commands

We shall continue with getting to know some simple file commands.

Cat Command:

The cat command helps us to list the contents of a file we specify. If we do not specify the name of the file, it takes input from the standard input.

$ cat [option…] [file…].

The cat command comes with different options. They are

Cat Takes input from the standard input file. We can type in our

text and terminate with Ctrl+d to take us back to $ prompt.

Cat –s Suppresses warnings about non-existent files.

Cp Command:

The cp command is used to create duplicate copies ordinary files.

$ cp file target

The target is the file to which the contents of the file have to be copied. If the name of the target file already exists, the original contents are erased and the contents of the file are written on the target.

ln – link Command:

The ln command is to establish an additional filename for the same ordinary file.

$ ln firstname secondname

Here firstname is the name of the file for which we would like to establish an additional name or link. The secondname is the additional name of the file firstname. The advantage of link command is that several users can have access to a common data file. Any modification made in the additional file or in the original file is reflected in both of them.

Linking allows a user to access a file by means of two or more names. The alternative names can be located in the same or different directory. Since Linux is a multi-user operating system, it allows the user to protect the data from other user.

mv command:

The mv command is used to rename and move ordinary and directory files. To do this we need both execute and write permissions.

$ mv file target

To move the contents of the file old to the file new, the syntax is:

$ mv old new

rm Command:

The rm command is used to remove one or more files from a directory. This can be used to delete all files as well as the directory.

$ rm [option…] file

The FILE system in LINUX:

A file is just a sequence of bytes that may contain text, binary data or even machine language instructions. One important thing to note in LINUX is that, all information is treated as files.

We know that Linux is multi-user Operating System, Hence it is necessary to protect unauthorized access of a user’s file from another user. To do this, Linux offers a facility called File Access Permissions (FAP).

File System:

We are aware that LINUX treats all information as files. Hence files are important part of Linux system. They are stored in a hierarchical order and are grouped together. This enables easier search of the files. Directories and devices are also treated as files. The directory files are prefixed with a ‘d’. The standard input device, standard output device and the standard error device are treated as files.

The Directory Hierarchy:

A file system is a data structure that resides on part of a disk. The Linux file system is also called a tree. This consists of a set of files. The structure allows the user to organize files so that a particular file can be located easily. Every user starts with a single directory. This in turn may contain many sub directories. Each directory contains files and other sub directories. The set of directories from the root forms the path name. This path name with the filename forms the absolute path of the file.

The main strength of the Linux file system is the ability to adapt to different user’s needs. The Linux file structure is set up according to a document called the File Hierarchy Standard (FHS).

When the system starts, an ordinary file called Linux is read from the disk into the memory. Actually, the process occurs in two steps: first the file /boot is read and then /Linux is read.

The /bin directory contains the executable files for most LINUX commands. The /etc directory contains other additional commands that are related to system maintenance and administration. The /lib directory contains all the library functions provided by LINUX for the programmers. The /dev directory is created for each user to have a private work area where the user can store his files. This is called the user’s HOME directory. The /tmp directory is the directory into which temporary files are kept. The files stored in this directory are deleted as soon as the system is shutdown and restarted.

File Access Permissions:

There are three types of files in Linux. They are Directory files, Ordinary files and special files. We will be dealing with directory and ordinary files only. Ordinary files start with ‘-‘ and the directory files start with ‘d’.

When any user creates a file, the creator is said to be the owner of the file. We can perform any operation like delete, edit on that file. If a user wants other people to access his/her files, then permission has to be granted by the owner of the file. This way LINUX helps in the security of files.

There are various types of permissions available. They are read (r), write (w) and execute (x). Associated with any LINUX file is the owner of the file, the group which consists of users who need to share that file and others who do not belong to that group. The “ls –l” option gives the list of permissions granted to each file.

Changing the FAP of a file:

We can change the mode of any file or directory using the “chmod command”.

PIPES AND FILTERS:

In LINUX, commands are used to perform only a specific task. It is not possible for the user to perform multiple tasks in one command. Pipes and Filters are used to overcome this obstacle.

Pipes: A pipe is a mechanism in which the output from one command can be redirected as input to another command.

Example: $ who | wc –l

$ _

Pipes are considered as temporary files, which store the output of one command in memory and passes it as the input to the next command. The important advantage of the pipes is that they prevent the user from making temporary files using I/O redirection.

Filters: A Filter accepts input from the Standard input, processes the input and then sends the output to the Standard output. Filters also take input from a file.

Filters are used to extract the lines, which contain a specific pattern, to arrange the contents of a file in a sorted order, to replace the existing characters with other characters, etc. Filters are also used to store the intermediate results of a long pipe. We can extract specific portions of a file and can merge two or more files together using filters.

Generally used Filters are

· Sort filter

· Grep filter

Sort filter:

The sort filter arranges the input taken from the Standard Input in the alphabetical order. The options available with sort are –r, -f, -n, -b, -t etc.

Grep filter:

The grep command is used to search for a particular pattern from a file or from the Standard Input and display those lines on the Standard Output. ”grep” stands for “global search for regular expression”.

The various options available with the “grep” command are:

-v Displays only those lines that do not match the specified pattern

-c Displays only the count of the lines that match the specified pattern

-n Displays only those lines that match the specified pattern along with the line number at the beginning of the line.

-i Displays those lines that match the specified pattern ignoring the case distinction

These are the various ways to specify the regular expressions or the patterns to be searched.

EDITORS:

The editor helps in creating and editing files. The editor in operating system has the same importance as the editor of a newspaper.

Linux offers various types of editors like vi, ex, sed, ed, etc. Among the editors, the vi editor stands as the most powerful and widely used in the LINUX environment. Vi and ex editors are basically same. Their commands are mutually compatible to each other. While ex is a line editor, vi is a full screen editor.

SHELL programming:

A set of commands can also be grouped together under a single

filename and executed. This is achieved using Shell scripts. Shell provides features that enable it to be used as a programming language. The features include programming constructs, logical and conditional operators, command substitution, escape mechanisms, positional parameters, etc.

Introduction to shell scripts:

A set of commands to be performed repeatedly is executed using a batch file in MS-DOS. Shell scripts are similar to the batch file in MS-DOS except that they offer varied facilities for effective programming.

Creation and execution:

A set of commands to be performed can be entered into a file by using any of the editors discussed earlier or by using the CAT command.

Ex: $ cat > greet

echo “please enter your name”

read name

echo “Hi !! Welcome to the Linux programming” name

$ _

Execution: A shell script can be executed using two methods. One method is to type “sh filename” at the $ prompt and the second method is to grant execute permission to the file and then type the filename at the $prompt

Ex: FIRST METHOD

$ sh greet

Please enter your name: VENKI

Hi !! Welcome to the Linux programming VENKI

$ _

SECOND METHOD

$ chmod u+x greet

$ greet

Please enter your name: VENKI

Hi!! Welcome to the Linux programming VENKI

$ _

Shell variables: Shell has different types of variables. They are user defined variables and environment or pre-defined variables. The other category of shell variables is local variables and global variables.

Apart from the environment variables that are set automatically, there are also other Shell variables that are set automatically. Some of these special shell variables are as follows…

$#, $-, $?, $$, $!, $0, $*, $@.

Shell Features:

Comment: The # symbol is used in shell scripts to insert a comment line.

Command substitution: when a command is enclosed within back quotes (‘ ‘) or grave accent, the command is replaced by the output that it produces.

Exit command: The exit command is used to terminate the Shell script and informs the exit status of the script.

Numerical comparisons: Numerical comparisons are used to compare two integers within a shell script. Some of the comparison operators are…

-eq, -ne, -gt, -lt, -ge, and –le.

Logical operators: Logical operators help us in writing Shell scripts in a more efficient way. A list of the operators is given below:

! Negates the expression following this operator.

-a Used for indicating “and”.

-o Used for indicating “or”.

Arithmetic Operators and Expressions: The arithmetic operators provided by Shell are +, -, * and /. However, numeric strings are accepted as a series of characters by Shell, unless specified to take their numerical value. The expr command is used in retrieving the numerical value of the numeric string.

Ex: $ expr 6+4

Programming Language constructs:

Shell offers standard programming structures like loops and branching, operations on variables, file creation and argument passing. This is performed using Shell scripts. For this reason Shell scripts are more powerful than batch files in MS-DOS.

Some of the structured language constructs are as follows:

If…then…else…fi

For…do…done

While…do…done

Until…do…done

Case…esac

test command: some times we may want to know if the argument of a shell script is a file or a directory or we may want to test for the equality of two given strings.

Ex: $ pet=dog

$ test pet=dog

LINUX APPLICATIONS:

Commercial: Corel word perfect – word processing.

Star office - office application suite.

Acroread from Adobe.

Database implementations:

Mysql, db2. Jdbc drivers from open link to ensure that there is easy access to databases from any programming environment into Linux.

Shell script languages:

Bourne shell script.

Interpreted programming languages:

Perl, tcl, python,c.

CONCLUSION:

Linux is a modern, free operating system based on UNIX standards. It has been designed to run efficiently and reliably on common PC hardware; it also runs on a variety of other platforms. It provides a programming interface compatible with standard UNIX systems, and can run a large number of UNIX applications, including an increasing number of commercially supported applications.

A complete Linux system includes many components that were developed independently of Linux. The core Linux OS kernel is entirely original, but it allows much existing free UNIX software to run, resulting in an entire UNIX-compatible operating system free from proprietary code.

The Linux kernel is implemented as a traditional monolithic kernel for performance reasons, but is modular enough in design to allow most drivers to be dynamically loaded and unloaded at run time.

Linux is a multi-user operating system, providing protection between processes and running multiple processes according to a time-sharing scheduler. It allows multithreaded programming. To the user, the file system appears as a hierarchical directory tree that obeys UNIX semantics. Internally, Linux uses an abstraction layer to manage m0ultiple different file systems. Device-oriented, networked, and virtual file systems are supported.

The memory-management system uses page sharing and copy-on-write to minimize the duplication of data shared by different processes. Pages are loaded on demand when they are first referenced, and are paged back out to backing store according to an LFU algorithm if physical memory needs to be reclaimed.