## 0-shell ### Objective The objective of this project is for you to create a simple [shell](https://en.wikipedia.org/wiki/Unix_shell). Through the `0-shell` you will get to the core of the `Unix` system and explore an important part of this system’s API which is the process creation and synchronization. Executing a command inside a shell implies creating a new process, which execution and final state will be monitored by its parents processes. This set of functions will be the key to success for your project. For this project you will only have to create a simple `Unix shell` where you can run some of the most known commands. For this part of the project, no advanced functions, pipes or redirection will be asked, but you can add them if you like. ### Instructions - You must program a mini `Unix shell`, try to focus on something simple like [BusyBox](https://en.wikipedia.org/wiki/BusyBox). - This interpreter must display at least a simple `$` and wait until you type a command line which will be validated by pressing enter. - The `$` will be shown again only once the command has been completely executed. - The command lines are simple, you will not have pipes, redirection or any other advanced functions. - You must manage the errors, by displaying a message adapted to the error output. - You must implement the following commands: - `echo` - `cd` - `ls`, including the flags `-l`, `-a` and `-F` - `pwd` - `cat` - `cp` - `rm`, including the flag `-r` - `mv` - `mkdir` - `exit` > The commands need to be implemented from scratch, without calling any external binaries and exclusively using low-level system calls directly, without relying on built-in functions or libraries that abstract file operations? - You must manage the program interruption `Ctrl + D`. - The project has to be written in a compiled language (like C, Rust, Go or other), **interpreted languages (like Perl and others) are not allowed**. - The code must respect the [good practices](https://public.01-edu.org/subjects/good-practices/) This project will help you learn about: - Shell - Operating systems services - Command-line interfaces - Unix system - Process creation and synchronization - Commands syntax - Scripting language ### Bonus You can also do more bonus features like: - Manage the interruption `Ctrl + C` - Auto complete when you are writing - Add piping - Add redirection - Have your path behind the `$` like (~/Desktop/0-shell $) - Add colors for the directories or errors - Other advanced commands you may like. ### Usage ``` student$ ./0-shell $ cd dev $ pwd dev $ ls -l total 0 crw------- 1 root root 10, 58 fev 5 09:21 acpi_thermal_rel crw-r--r-- 1 root root 10, 235 fev 5 09:21 autofs drwxr-xr-x 2 root root 540 fev 5 09:21 block crw------- 1 root root 10, 234 fev 5 09:21 btrfs-control drwxr-xr-x 3 root root 60 fev 5 09:20 bus drwxr-xr-x 2 root root 4400 fev 5 09:21 char crw------- 1 root root 5, 1 fev 5 09:21 console lrwxrwxrwx 1 root root 11 fev 5 09:20 core -> /proc/kcore drwxr-xr-x 2 root root 60 fev 5 09:20 cpu crw------- 1 root root 10, 59 fev 5 09:21 cpu_dma_latency $ something Command 'something' not found $ echo "Hello There" Hello There $ exit student$ ```