This assignment will make you more familiar with the Unix system call interface and the shell by implementing several features in a small shell, which we will refer to as the 6.828 shell. You can do this assignment on any operating system that supports the Unix API (a Linux Athena machine, your laptop with Linux or MacOS, etc.). Submit your 6.828 shell to the submission web site as a text file with the name "hwN.c", where N is the homework number as listed on the schedule.
Read Chapter 0 of the xv6 book.
If you are not familiar with what a shell does, do the Unix hands-on from 6.033.
Download the 6.828 shell, and look it over. The 6.828 shell contains two main parts: parsing shell commands and implementing them. The parser recognizes only simple shell commands such as the following:
ls > y cat < y | sort | uniq | wc > y1 cat y1 rm y1 ls | sort | uniq | wc rm yCut and paste these commands into a file t.sh
To compile sh.c, you need a C compiler, such as gcc. On Athena, you can type:
$ add gnuto make gcc available. If you are using your own computer, you may have to install gcc.
Once you have gcc, you can compile the skeleton shell as follows:
$ gcc sh.cwhich produces an a.out file, which you can run:
$ ./a.out < t.shThis execution will print error messages because you have not implemented several features. In the rest of this assignment you will implement those features.
Implement simple commands, such as:
The parser already builds an execcmd for you, so the only code you have to write is for the ' ' case in runcmd. You might find it useful to look at the manual page for exec; type "man 3 exec", and read about execv. Print an error message when exec fails.
To test your program, compile and run the resulting a.out:
6.828$./a.outThis prints a prompt and waits for input. sh.c prints as prompt 6.828$ so that you don't get confused with your computer's shell. Now type to your shell:
Your shell may print an error message (unless there is a program named ls in your working directory or you are using a version of exec that searches PATH). Now type to your shell:
This should execute the program /bin/ls, which should print out the file names in your working directory. You can stop the 6.828 shell by typing ctrl-d, which should put you back in your computer's shell.
You may want to change the 6.828 shell to always try /bin, if the program doesn't exist in the current working directory, so that below you don't have to type "/bin" for each program. If you are ambitious you can implement support for a PATH variable.
Implement I/O redirection commands so that you can run:
echo "6.828 is cool" > x.txt cat < x.txt
The parser already recognizes ">" and "<", and builds a redircmd for you, so your job is just filling out the missing code in runcmd for those symbols. You might find the man pages for open and close useful.
Note that the mode field in redircmd contains access modes (e.g., O_RDONLY), which you should pass in the flags argument to open; see parseredirs for the mode values that the shell is using and the manual page for open for the flags argument.
Make sure you print an error message if one of the system calls you are using fails.
Make sure your implementation runs correctly with the above test input. A common error is to forget to specify the permission with which the file must be created (i.e., the 3rd argument to open).
Implement pipes so that you can run command pipelines such as:
$ ls | sort | uniq | wc
The parser already recognizes "|", and builds a pipecmd for you, so the only code you must write is for the '|' case in runcmd. You might find the man pages for pipe, fork, close, and dup useful.
Test that you can run the above pipeline. The sort program may be in the directory /usr/bin/ and in that case you can type the absolute pathname /usr/bin/sort to run sort. (In your computer's shell you can type which sort to find out which directory in the shell's search path has an executable named "sort".)
Now you should be able to run the following command correctly:
6.828$ a.out < t.sh
Make sure you use the right absolute pathnames for the programs.
Don't forget to submit your solution to the submission web site (using the "hwN.c" naming convention as outlined above), with or without challenge solutions.
The following exercises are entirely optional and won't affect your grade. Add any feature of your choice to your shell, for example: