ALX Simple Shell Team Project This is an ALX collaboration project on Shell. We were tasked to create a simple shell that mimics the Bash shell. Our shell shall be called hsh
Project was completed using C language Shell Betty linter General Requirement for project All files will be compiled on Ubuntu 20.04 LTS using gcc, using the options -Wall -Werror -Wextra -pedantic -std=gnu89 All files should end with a new line A README.md file, at the root of the folder of the project is mandatory Use the Betty style. It will be checked using betty-style.pl and betty-doc.pl Shell should not have any memory leaks No more than 5 functions per file All header files should be include guarded Write a README with the description of the project Description hsh is a simple UNIX command language interpreter that reads commands from either a file or standard input and executes them.
How hsh works Prints a prompt and waits for a command from the user Creates a child process in which the command is checked Checks for built-ins, aliases in the PATH, and local executable programs The child process is replaced by the command, which accepts arguments When the command is done, the program returns to the parent process and prints the prompt The program is ready to receive a new command To exit: press Ctrl-D or enter "exit" (with or without a status) Works also in non interactive mode Compilation gcc -Wall -Werror -Wextra -pedantic -std=gnu89 *.c -o hsh
Invocation Usage: hsh [filename]
To invoke hsh, compile all .c files in the repository and run the resulting executable.
hsh can be invoked both interactively and non-interactively. If hsh is invoked with standard input not connected to a terminal, it reads and executes received commands in order.
Example:
$ echo "echo 'hello'" | ./hsh 'hello' $ If hsh is invoked with standard input connected to a terminal (determined by isatty(3)), an interactive shell is opened. When executing interactively, hsh displays the prompt $ when it is ready to read a command.
Example:
Example:
$ cat test echo 'hello' $ ./hsh test 'hello' $ Environment Upon invocation, hsh receives and copies the environment of the parent process in which it was executed. This environment is an array of name-value strings describing variables in the format NAME=VALUE. A few key environmental variables are:
HOME The home directory of the current user and the default directory argument for the cd builtin command.
$ echo "echo $HOME" | ./hsh /home/projects PWD The current working directory as set by the cd command.
$ echo "echo $PWD" | ./hsh /home/projects/alx/simple_shell OLDPWD The previous working directory as set by the cd command.
$ echo "echo $OLDPWD" | ./hsh /home/projects/alx/printf PATH A colon-separated list of directories in which the shell looks for commands. A null directory name in the path (represented by any of two adjacent colons, an initial colon, or a trailing colon) indicates the current directory.
$ echo "echo $PATH" | ./hsh /home/projects/.cargo/bin:/home/projects/.local/bin:/home/projects/.rbenv/plugins/ruby-build/bin:/home/projects/.rbenv/shims:/home/projects/.rbenv/bin:/home/projects/.nvm/versions/node/v10.15.3/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin:/home/projects/.cargo/bin:/home/projects/workflow:/home/projects/.local/bin Command Execution After receiving a command, hsh tokenizes it into words using " " as a delimiter. The first word is considered the command and all remaining words are considered arguments to that command. hsh then proceeds with the following actions:
If the first character of the command is neither a slash () nor dot (.), the shell searches for it in the list of shell builtins. If there exists a builtin by that name, the builtin is invoked. If the first character of the command is none of a slash (), dot (.), nor builtin, hsh searches each element of the PATH environmental variable for a directory containing an executable file by that name. If the first character of the command is a slash () or dot (.) or either of the above searches was successful, the shell executes the named program with any remaining given arguments in a separate execution environment. Exit Status hsh returns the exit status of the last command executed, with zero indicating success and non-zero indicating failure.
If a command is not found, the return status is 127; if a command is found but is not executable, the return status is 126.
All builtins return zero on success and one or two on incorrect usage (indicated by a corresponding error message).
Signals While running in interactive mode, hsh ignores the keyboard input Ctrl+c. Alternatively, an input of end-of-file (Ctrl+d) will exit the program.
User hits Ctrl+d in the third line.
$ ./hsh $ ^C $ ^C $ Variable Replacement hsh interprets the $ character for variable replacement.
$ENV_VARIABLE ENV_VARIABLE is substituted with its value.
Example:
$ echo "echo
Example:
$ echo "echo
Example:
$ echo "echo $$" | ./hsh 6494 Comments hsh ignores all words and characters preceeded by a # character on a line.
Example:
$ echo "echo 'hello' #this will be ignored!" | ./hsh 'hello' Operators hsh specially interprets the following operator characters:
; - Command separator Commands separated by a ; are executed sequentially.
Example:
$ echo "echo 'hello' ; echo 'world'" | ./hsh 'hello' 'world' && - AND logical operator command1 && command2: command2 is executed if, and only if, command1 returns an exit status of zero.
Example:
$ echo "error! && echo 'hello'" | ./hsh ./hsh: 1: error!: not found $ echo "echo 'all good' && echo 'hello'" | ./hsh 'all good' 'hello' || - OR logical operator command1 || command2: command2 is executed if, and only if, command1 returns a non-zero exit status.
Example:
$ echo "error! || echo 'but still runs'" | ./hsh ./hsh: 1: error!: not found 'but still runs' The operators && and || have equal precedence, followed by ;.
hsh Builtin Commands cd Usage: cd [DIRECTORY] Changes the current directory of the process to DIRECTORY. If no argument is given, the command is interpreted as cd $HOME. If the argument - is given, the command is interpreted as cd $OLDPWD and the pathname of the new working directory is printed to standad output. If the argument, -- is given, the command is interpreted as cd $OLDPWD but the pathname of the new working directory is not printed. The environment variables PWD and OLDPWD are updated after a change of directory. Example:
$ ./hsh $ pwd /home/projects/alx/simple_shell $ cd ../ $ pwd /home/projects/alx $ cd - $ pwd /home/projects/alx/simple_shell alias Usage: alias [NAME[='VALUE'] ...] Handles aliases. alias: Prints a list of all aliases, one per line, in the form NAME='VALUE'. alias NAME [NAME2 ...]: Prints the aliases NAME, NAME2, etc. one per line, in the form NAME='VALUE'. alias NAME='VALUE' [...]: Defines an alias for each NAME whose VALUE is given. If name is already an alias, its value is replaced with VALUE. Example:
$ ./hsh $ alias show=ls $ show AUTHORS builtins_help_2.c errors.c linkedlist.c shell.h test README.md env_builtins.c getline.c locate.c hsh alias_builtins.c environ.c helper.c main.c split.c builtin.c err_msgs1.c helpers_2.c man_1_simple_shell str_funcs1.c builtins_help_1.c err_msgs2.c input_helpers.c proc_file_comm.c str_funcs2.c exit Usage: exit [STATUS] Exits the shell. The STATUS argument is the integer used to exit the shell. If no argument is given, the command is interpreted as exit 0. Example:
$ ./hsh $ exit env Usage: env Prints the current environment. Example:
$ ./hsh $ env NVM_DIR=/home/projects/.nvm ... setenv Usage: setenv [VARIABLE] [VALUE] Initializes a new environment variable, or modifies an existing one. Upon failure, prints a message to stderr. Example:
$ ./hsh $ setenv NAME Poppy $ echo $NAME Poppy unsetenv Usage: unsetenv [VARIABLE] Removes an environmental variable. Upon failure, prints a message to stderr. Example:
$ ./hsh $ setenv NAME Poppy $ unsetenv NAME $ echo $NAME
$ What we learned: How a shell works and finds commands Creating, forking and working with processes Executing a program from another program Handling dynamic memory allocation in a large program Pair programming and team work Building a test suite to check our own code Authors 👤 Akporhuarho Vincent Abiodun Jatto