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Coding Done in C language using Linux Ubuntu Unix Shell In this project, you'll build a simple Unix shell. The shell is the heart of

Coding Done in C language using Linux Ubuntu

Unix Shell

In this project, you'll build a simple Unix shell. The shell is the heart of the command-line interface, and thus is central to the Unix/C programming environment. Mastering use of the shell is necessary to become proficient in this world; knowing how the shell itself is built is the focus of this project.

There are three specific objectives to this assignment:

  • To further familiarize yourself with the Linux programming environment.
  • To learn how processes are created, destroyed, and managed.
  • To gain exposure to the necessary functionality in shells.

Overview

In this assignment, you will implement a command line interpreter (CLI) or, as it is more commonly known, a shell. The shell should operate in this basic way: when you type in a command (in response to its prompt), the shell creates a child process that executes the command you entered and then prompts for more user input when it has finished.

The shells you implement will be similar to, but simpler than, the one you run every day in Unix. If you don't know what shell you are running, it's probably bash. One thing you should do on your own time is learn more about your shell, by reading the man pages or other online materials.

Program Specifications

Basic Shell: wish

Your basic shell, called wish (short for Wisconsin Shell, naturally), is basically an interactive loop: it repeatedly prints a prompt wish> (note the space after the greater-than sign), parses the input, executes the command specified on that line of input, and waits for the command to finish. This is repeated until the user types exit. The name of your final executable should be wish.

The shell can be invoked with either no arguments or a single argument; anything else is an error. Here is the no-argument way:

prompt> ./wish

wish>

At this point, wish is running, and ready to accept commands. Type away!

The mode above is called interactive mode, and allows the user to type commands directly. The shell also supports a batch mode, which instead reads input from a batch file and executes commands from therein. Here is how you run the shell with a batch file named batch.txt:

prompt> ./wish batch.txt

One difference between batch and interactive modes: in interactive mode, a prompt is printed (wish> ). In batch mode, no prompt should be printed.

You should structure your shell such that it creates a process for each new command (the exception are built-in commands, discussed below). Your basic shell should be able to parse a command and run the program corresponding to the command. For example, if the user types ls -la /tmp, your shell should run the program /bin/ls with the given arguments -la and /tmp (how does the shell know to run /bin/ls? It's something called the shell path; more on this below).

Structure

Basic Shell

The shell is very simple (conceptually): it runs in a while loop, repeatedly asking for input to tell it what command to execute. It then executes that command. The loop continues indefinitely, until the user types the built-in command exit, at which point it exits. That's it!

For reading lines of input, you should use getline(). This allows you to obtain arbitrarily long input lines with ease. Generally, the shell will be run in interactive mode, where the user types a command (one at a time) and the shell acts on it. However, your shell will also support batch mode, in which the shell is given an input file of commands; in this case, the shell should not read user input (from stdin) but rather from this file to get the commands to execute.

In either mode, if you hit the end-of-file marker (EOF), you should call exit(0) and exit gracefully.

To parse the input line into constituent pieces, you might want to use strsep(). Read the man page (carefully) for more details.

To execute commands, look into fork(), exec(), and wait()/waitpid(). See the man pages for these functions, and also read the relevant book chapter for a brief overview.

You will note that there are a variety of commands in the exec family; for this project, you must use execv. You should not use the system() library function call to run a command. Remember that if execv() is successful, it will not return; if it does return, there was an error (e.g., the command does not exist). The most challenging part is getting the arguments correctly specified.

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