Commands for moving around the filesystem include the following.
- pwd: The
pwd
command allows you to know the directory in which you're located (pwd stands for "print working directory"). For example, pwd
in the desktop directory will show ~/Desktop. Note that the GNOME
terminal also displays this information in the title bar of its window.
- cd: The cd command allows you to change directories.
When you open a terminal, you will be in your home directory. To move
around the filesystem, use
cd
.
• To navigate to your desktop directory, use cd ~/Desktop
• To navigate into the root directory, use cd /
• To navigate to your home directory, use cd
• To navigate up one directory level, use cd ..
• To navigate to the previous directory (or back), use cd -
• To navigate through multiple levels of directories at once, use cd /var/www
, for example, which will take you directly to the /www subdirectory of /var.
Manipulating Files and Folders
You can manipulate files and folders by using the following commands.
- cp: The
cp
command makes a copy of a file for you. For example, cp file foo
makes an exact copy of the file whose name you entered and names the
copy foo, but the first file will still exist with its original name.
After you use mv
, the original file no longer exists, but after you use cp
, that file stays and a new copy is made.
- mv: The mv command moves a file to a different location or renames a file. Examples are as follows:
mv file foo
renames the original file to foo. mv foo ~/Desktop
moves the file foo to your desktop directory but does not rename it. You must specify a new filename to rename a file.
- To save on typing, you can substitute ~ in place of the home directory.
Note: If you are using mv
with sudo
, you will not be able to use the ~ shortcut. Instead, you will have to use the full pathnames to your files.
- rm: Use this command to remove or delete a file in your directory. It does not work on directories that contain files.
- ls: The
ls
command shows you the files in your
current directory. Used with certain options, it lets you see file
sizes, when files where created, and file permissions. For example, ls ~
shows you the files that are in your home directory.
- mkdir: The
mkdir
command allows you to create directories. For example, mkdir music
creates a music directory.
- chmod: The
chmod
command changes the permissions on the files listed.
Permissions are based on a fairly simple model. You can set
permissions for user, group, and world, and you can set whether each can
read, write, and/or execute the file. For example, if a file had
permission to allow everybody to read but only the user could write, the
permissions would read rwxr--r--
. To add or remove a permission, you append a +
or a -
in front of the specific permission. For example, to add the capability
for the group to edit in the previous example, you could type chmod g+x file
.
- chown: The
chown
command allows the user to change the user and group ownerships of a file. For example, chown jim file
changes the ownership of the file to Jim.
System Information Commands
System information commands include the following.
- df: The
df
command displays filesystem disk space usage for all partitions. The command df-h
is probably the most useful. It uses megabytes (M) and gigabytes (G) instead of blocks to report. (-h
means "human-readable.")
- free: The
free
command displays the amount of free and used memory in the system. For example, free -m
gives the information using megabytes, which is probably most useful for current computers.
- top: The
top
command displays information on
your Linux system, running processes, and system resources, including
the CPU, RAM, swap usage, and total number of tasks being run. To exit top
, press Q.
- uname -a: The
uname
command with the -a
option prints all system information, including machine name, kernel
name, version, and a few other details. This command is most useful for
checking which kernel you're using.
- lsb_release -a: The
lsb_release
command with the -a
option prints version information for the Linux release you're running. For example:
user@computer:~$ lsb_release -a
LSB Version: n/a
Distributor ID: Ubuntu
Description: Ubuntu (The Breezy Badger Release)
Release:
Codename: breezy
- ifconfig: This reports on your system's network interfaces.
- iwconfig: The
iwconfig
command shows you any
wireless network adapters and the wireless-specific information from
them, such as speed and network connected.
- ps: The
ps
command allows you to view all the processes running on the machine.
The following commands list the hardware on your computer, either of a
specific type or with a specific method. They are most useful for
debugging when a piece of hardware does not function correctly.
- lspci: The
lspci
command lists all PCI buses and devices connected to them. This commonly includes network cards and sound cards.
- lsusb: The
lsusb
command lists all USB buses and any connected USB devices, such as printers and thumb drives.
- lshal: The
lshal
command lists all devices the hardware abstraction layer (HAL) knows about, which should be most hardware on your system.
- lshw: The
lshw
command lists hardware on your system, including maker, type, and where it is connected.
Searching and Editing Text Files
Search and edit text files by using the following commands.
- grep: The
grep
command allows you to search
inside a number of files for a particular search pattern and then print
matching lines. For example, grep blah file
will search for the text "blah" in the file and then print any matching lines.
- sed: The
sed
(or Stream EDitor) command allows
search and replace of a particular string in a file. For example, if
you want to find the string "cat" and replace it with "dog" in a file
named pets, type
sed s/cat/dog/g pets
.
Both grep and sed are extremely powerful programs. There are many
excellent tutorials available on using them, but here are a few good Web
sites to get you started:
Three other commands are useful for dealing with text.
- cat: The
cat
command, short for concatenate, is useful for viewing and adding to text files. The simple command cat FILENAME
displays the contents of the file. Using cat FILENAME file
adds the contents of the first file to the second.
- nano: Nano is a simple text editor for the command line. To open a file, use
nano filename
. Commands listed at the bottom of the screen are accessed via pressing Ctrl followed by the letter.
- less: The
less
command is used for viewing
text files as well as standard output. A common usage is to pipe another
command through less to be able to see all the output, such as ls | less
.
Dealing with Users and Groups
You can use the following commands to administer users and groups.
- adduser: The
adduser
command creates a new user. To create a new user, simply type sudo adduser $loginname
.
This creates the user's home directory and default group. It prompts
for a user password and then further details about the user.
- passwd: The
passwd
command changes the user's
password. If run by a regular user, it will change his or her password.
If run using sudo, it can change any user's password. For example, sudo passwd joe
changes Joe's password.
- who: The
who
command tells you who is currently logged into the machine.
- addgroup: The
addgroup
command adds a new group. To create a new group, type sudo addgroup $groupname
.
- deluser: The
deluser
command removes a user from the system. To remove the user's files and home directory, you need to add the
-remove-home
option.
- delgroup: The
delgroup
command removes a group from the system. You cannot remove a group that is the primary group of any users.
Getting Help on the Command Line
This section provides you with some tips for getting help on the command line. The commands
--help
and
man
are the two most important tools at the command line.
Virtually all commands understand the
-h
(or
--help
) option, which produces a short usage description of the command and its options, then exits back to the command prompt. Try
man -h
or
man --help
to see this in action.
Every command and nearly every application in Linux has a man (manual) file, so finding such a file is as simple as typing
man command
to bring up a longer manual entry for the specified command. For example,
man mv
brings up the
mv
(move) manual.
Some helpful tips for using the man command include the following.
- Arrow keys: Move up and down the man file by using the arrow keys.
- q: Quit back to the command prompt by typing
q
.
- man man:
man man
brings up the manual entry for the man
command, which is a good place to start!
- man intro:
man intro
is especially useful. It
displays the Introduction to User Commands, which is a well-written,
fairly brief introduction to the Linux command line.
There are also info pages, which are generally more in-depth than man pages. Try
info info
for the introduction to info pages.
Searching for Man Files
If you aren't sure which command or application you need to use, you can try searching the man files.
- man -k foo: This searches the man files for "foo". Try
man -k nautilus
to see how this works.
Note: man -k foo
is the same as the apropos command.
- man -f foo: This searches only the titles of your system's man files. Try
man -f gnome
, for example.
Note: man -f foo
is the same as the whatis
command.
Using Wildcards
Sometimes you need to look at or use multiple files at the same time.
For instance, you might want to delete all .rar files or move all .odt
files to another directory. Thankfully, you can use a series of
wildcards to accomplish such tasks.
- * matches any number of characters. For example,
*.rar
matches any file with the ending .rar.
- ? matches any single character. For example, ?
.rar
matches a.rar but not ab.rar.
- [characters] matches any of the characters within the brackets. For example,
[ab].rar
matches a.rar and b.rar but not c.rar.
- [!characters] matches any characters that are not listed. For example,
[!ab].rar
matches c.rar but not a.rar or b.rar.
Executing Multiple Commands
Often you may want to execute several commands together, either by
running one after another or by passing output from one to another.
Running Sequentially
If you need to execute multiple commands in sequence but don't need to
pass output between them, there are two options based on whether or not
you want the subsequent commands to run only if the previous commands
succeed or not. If you want the commands to run one after the other
regardless of whether or not preceding commands succeed, place a
;
between the commands. For example, if you want to get information about your hardware, you could run
lspci ; lsusb
, which would output information on your PCI buses and USB devices in sequence.
However, if you need to conditionally run the commands based on whether the previous command has succeeded, insert
&&
between commands. An example of this is building a program from source, which is traditionally done with
./configure, make,
and
make install
. The commands
make
and
make install
require that the previous commands have completed successfully, so you would use
./configure && make && make install
.
Passing Output
If you need to pass the output of one command so that it goes to the
input of the next, after the character used between the commands, you
need something called a
pipe, which looks like a vertical bar or pipe (
|
).
To use the pipe, insert the
|
between each command. For example, using the
|
in the command
ls | less
allows you to view the contents of the
ls
more easily.
Moving to More Advanced Uses of the Command Line
There are a great number of good books out there for working the command
line. In addition, because most of the command line has not changed in
many years, a large body of information is available on the Internet. If
you need help with something, often simply searching for the command
will turn up what you need.
To get you started, here are some recommendations.