Difference between revisions of "Linux Primer"
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| cat <filename> || print the contents of <filename> to the screen | | cat <filename> || print the contents of <filename> to the screen | ||
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− | | cp | + | | cp <source> <destination> || copy from <source> to <destination> |
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− | | mv | + | | mv <source> <destination> || move or rename from <source> to <destination> |
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| touch <filename> || create an empty file if it doesn't exists or update the last modified timestamp if it does | | touch <filename> || create an empty file if it doesn't exists or update the last modified timestamp if it does |
Revision as of 14:15, 7 November 2016
Don't know anything about using Linux? Let us help you. This guide will give you basic info on terminology, file permissions, and using the command line.
NOTE: This document borrows heavily from the excellent documentation found in the Beocat wiki. Please have a look there for more details and in-depth examples.
What does this Linux term mean?
Here are a few basic terms we use when referring to "things" on a Linux system.
Term | Definition |
---|---|
Directory | A "Folder" in Windows or OS-X terms. A location where files or other directories are stored. The current directory is sometimes represented as . and the parent directory can be referenced as ..
|
Home Directory | |
Shell | The interface or environment under which you can run commands. For most users, your shell is bash |
SSH | Secure Shell. A protocol that encrypts data and can give access to another system, usually by a username and password |
SCP | Secure Copy. Copying to or from a remote system using part of SSH |
path | The list of directories which are searched when you type the name of a program. There is a section below on this |
ownership | Every file and directory has an user and a group attached to it, called its owners. These affect permissions. |
permissions | The ability to read, write, and/or execute a file. Permissions are based on ownership |
switches | Modifiers or options to a command-line program, usually in the form of -(letter) or --(word). Multiple single-letter switches may frequently be combined if needed for a command |
pipes and redirects | Changes the input (often called 'stdin') and/or output (often called stdout) to a program or a file |
What are some basic Linux commands?
Here are some of the most common commands you will be using:
Command | Function |
---|---|
ls | list files |
cd | change directory |
mkdir <dirname> | make a directory called <dirname> |
rmdir <dirname> | remove or delete a directory called <dirname> |
cat <filename> | print the contents of <filename> to the screen |
cp <source> <destination> | copy from <source> to <destination> |
mv <source> <destination> | move or rename from <source> to <destination> |
touch <filename> | create an empty file if it doesn't exists or update the last modified timestamp if it does |
file <filename> | show some information about <filename>, such as what type of file it is |
nano | edit files (probably the easiest text-based editor on our systems) |
man | user manuals |
If you need more details on how to use any of these, you can type man cmd
where "cmd" is the name of the command you want more information about.
General CLI Notes
- Linux interprets everything you type in a case-sensitve manner. This means upper- and lower-case letters matter, both in commands and filenames. e.g. "Documents" is not the same as "documents".
- Your shell does not deal with spaces in filenames very nicely. I would strongly discourage you from doing so. If you must use spaces in your filenames, you will need to enclose them with double-quotes (") to interact with them on the command line. Other special characters you should stay away from in filenames include
$, #, ;, \, ~, <, >, |, `, [, ], {, }, (, )
, and&
. These all have special meanings in bash (and other shells) and could result in unexpected (or damaging) behavior of your commands.
- Tab-completion is your friend. No need to type that very long directory or filename, just hit the
<Tab>
key once you've typed enough unique letters and the shell will complete the name as it matches in the current directory. You can even do this multiple times for any filename or path as you type it.
- Linux has no concept of "file extensions". Most GUI desktops will try to interpret them if you use typical ones (.pdf, .doc, .txt, etc), but there are no "rules" about what you name files. Use your own discretion. As with all things, consistent naming will keep you out of trouble later.
Some Practical Examples
Output is truncated in some of these. More can be found on the Beocat wiki.
- What files and directories are in the directory I am currently in?
testacct@viper:~$ ls
Application Data Favorites My Music Public Videos
Cookies foo My Pictures Sent workspace
Desktop Ghost.pif Pictures steamtest.vmf xauth
desktop.ini Maildir procmail-log Templates
Documents Music procmailrc Trash
- No, really, show me all the files.
testacct@viper:~$ ls -a
. .gnome2 .nx
.. .gnome2.old .openwin-menu
.AbiSuite .gnome2.old.old.old .phoenix
.acrobat .gnome2_private Pictures
.adobe .gnome2_private.old .pinerc
Application Data .gnome2_private.old.old.old .pki
.bash_history .gnome.old.old.old procmail-log
.bash_profile .gnupg procmailrc
.bash_profile.bak .gstreamer-0.10 .profile
.bashrc .gstreamer-0.8 .profile.bak
.bashrc.bak .gtk-bookmarks Public
.cache .gtkrc-1.2-gnome2 .pulse
<...>
-a
is for "all files"
- Can I have some more useful info about those files?
testacct@viper:~$ ls -la
total 380
drwxr-xr-x 70 testacct testacct_users 4096 Oct 2 15:56 .
drwxr-xr-x 199 root root 8192 Aug 26 18:10 ..
drwx------ 2 testacct testacct_users 28 Aug 28 2008 .AbiSuite
drwxr-x--- 2 testacct testacct_users 18 Jul 23 2004 .acrobat
drwx------ 5 testacct testacct_users 115 Aug 28 2008 .adobe
drwxrwx--- 4 testacct testacct_users 39 Aug 21 2007 Application Data
-rw------- 1 testacct testacct_users 6608 Aug 25 14:23 .bash_history
-rw-r--r-- 1 testacct testacct_users 533 Sep 3 2009 .bash_profile
-rw-r----- 1 testacct testacct_users 279 Sep 3 2009 .bash_profile.bak
-rw-r--r-- 1 testacct testacct_users 1733 Sep 3 2009 .bashrc
-rw-r----- 1 testacct testacct_users 2532 Sep 3 2009 .bashrc.bak
drwx------ 34 testacct testacct_users 4096 Aug 25 14:32 .cache
drwxr-xr-x 7 testacct testacct_users 72 Aug 8 2004 .cfagent
drwx------ 3 testacct testacct_users 20 Aug 28 2012 .compiz
drwxr-xr-x 22 testacct testacct_users 4096 Jul 24 16:40 .config
drwx------ 7 testacct testacct_users 155 Jan 8 2010 .config.bak
drwxrwx--- 2 testacct testacct_users 22 Aug 21 2007 Cookies
<...>
-l
is for "long listing"-la
is the equivalent of-l -a
- Can I get that with human-readable file sizes in bytes?
testacct@viper:~$ ls -lah
total 380K
drwxr-xr-x 70 testacct testacct_users 4.0K Oct 2 15:56 .
drwxr-xr-x 199 root root 8.0K Aug 26 18:10 ..
drwx------ 2 testacct testacct_users 28 Aug 28 2008 .AbiSuite
drwxr-x--- 2 testacct testacct_users 18 Jul 23 2004 .acrobat
drwx------ 5 testacct testacct_users 115 Aug 28 2008 .adobe
drwxrwx--- 4 testacct testacct_users 39 Aug 21 2007 Application Data
-rw------- 1 testacct testacct_users 6.5K Aug 25 14:23 .bash_history
-rw-r--r-- 1 testacct testacct_users 533 Sep 3 2009 .bash_profile
-rw-r----- 1 testacct testacct_users 279 Sep 3 2009 .bash_profile.bak
-rw-r--r-- 1 testacct testacct_users 1.7K Sep 3 2009 .bashrc
-rw-r----- 1 testacct testacct_users 2.5K Sep 3 2009 .bashrc.bak
drwx------ 34 testacct testacct_users 4.0K Aug 25 14:32 .cache
drwxr-xr-x 7 testacct testacct_users 72 Aug 8 2004 .cfagent
drwx------ 3 testacct testacct_users 20 Aug 28 2012 .compiz
drwxr-xr-x 22 testacct testacct_users 4.0K Jul 24 16:40 .config
drwx------ 7 testacct testacct_users 155 Jan 8 2010 .config.bak
drwxrwx--- 2 testacct testacct_users 22 Aug 21 2007 Cookies
<...>
- Change directory to
Documents
testacct@viper:~$ cd Documents
testacct@viper:~/Documents$
- Change directory to
foo
that is inDocuments
testacct@viper:~$ cd Documents/foo
testacct@viper:~/Documents/foo$
- Change back to the parent directory of the one I am currently in
testacct@viper:~/Documents/foo$ cd ..
testacct@viper:~/Documents$
- Change back to my home directory
testacct@viper:~/Documents/foo$ cd
testacct@viper:~$
- or
testacct@viper:~/Documents/foo$ cd ~
testacct@viper:~$
- or
testacct@viper:~/Documents/foo$ cd $HOME
testacct@viper:~$
- Make a directory here called
bar
testacct@viper:~$ mkdir bar
- Make a directory here called
bar
and contains another directory calledbaz
testacct@viper:~$ mkdir -p bar/baz
-p
is for "parents", or "create parent subdirectories as needed to get this full path created"
- Remove an empty directory here called
bar
testacct@viper:~$ rmdir bar
- Remove a directory here called
bar
and all of its contents, no matter how many sub-directories or files it contains (Potentially very dangerous as it will not ask you for confirmation).
testacct@viper:~$ rmdir -rf bar
-r
for "recursive" and-f
for "force"
Working with files
- Show me the contents of the file
lorem_ipsum.txt
testacct@viper:~$ cat lorem_ipsum.txt
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Vivamus placerat,
odio vel ultricies commodo, lectus mi ornare enim, in ornare risus lacus ac
ipsum. Sed ac dui nec risus maximus porttitor. Quisque at lacinia sem, at
blandit ex. Cras gravida felis in pretium tincidunt. Etiam nec hendrerit orci,
eget scelerisque est. Pellentesque ultricies non neque interdum euismod.
Quisque ac ante eu mauris eleifend commodo vitae id erat.
- Create an empty file named
empty.txt
testacct@viper:~$ touch empty.txt
- Copy the file
foo.c
to a new file calledbar.c
testacct@viper:~$ cp foo.c bar.c
- Rename or move the file
bar.c
tobaz.c
testacct@viper:~$ mv bar.c baz.c
- Delete or remove the file
baz.c
testacct@viper:~$ rm baz.c
- What the heck kind of file is
win-cis-64
testacct@viper:~$ file win-cis-64
win-cis-64: PNG image data, 64 x 64, 8-bit/color RGBA, non-interlaced
What are "Linux file permissions"?
All student and faculty files in the CIS department are stored on a Linux file server. However, not everyone needs or should have access to every file. Linux file permissions are how the file server decides who can access which files and what kind of access is permitted.
Ownership
Every file in Linux is assigned an user owner and a group owner. These form the basis of file security.
Each group may contain zero or more users. In the CIS department, every user has a special group which contains only their user (e.g., if your username were foobar
, your group would be foobar_users
).
You may not change the user ownership of your files. If you find that some of your files are owned by the wrong user, you will need to contact the systems staff to get that problem correct.
You may, however, change the group ownership of your files (or directories). You are only able to change a file's group ownership to another group to which you belong. You may change group ownership with the chgrp
program:
chgrp foobar_users file.txt
chgrp foobar_users dir
File Mode
The second component of Linux file ownership is called "file mode." The file mode determines what access the user owner, group owner, or other user has to a file.
There are three kinds of access: read, write, and execute. The access granted by each of these depends upon whether they are applied to a directory or to a file. For files, read access gives the user permission to see the contents of the file, write access gives the user permission to change the contents of the file, and execute access gives the user permission to run the file as a program. For directories, read access gives the user permission to see what files are stored in that directory, write access gives the user permission to create files in that directory, and execute access allows the user to enter that directory (note that directory execute is required for read or write to mean anything).
Viewing File Permissions
To view the permissions on a file or directory you can use the -l
option to the file list command, ls
:
foobar@viper projects$ ls -l
total 4
drwx------ 3 foobar foobar_users 4096 Mar 16 19:51 bin/
drwxrwxr-x 4 foobar foobar_users 4096 Mar 16 19:51 lib/
-rw-r--r-- 1 foobar foobar_users 667 Mar 16 19:51 foo.txt
-rwxrwxr-x 1 foobar foobar_users 408 Mar 16 19:51 a.out
Here we see two directories and two files. The permissions are shown in the first column of the listing. The user owner is the third column and the group owner is the fourth column. The permissions are shown via the 10-character string. The first character (either d
or -
here) tells us what kind of thing is shown: d
for directory and -
for regular file (there are other kinds of "things" in a Linux file system, but those are beyond the scope of this discussion). The rest of the columns show the file mode.
The file mode is divided into three sections. The first applies to the user onwer, the second to the group owner, and the third to all other users. These fields are then divided into three letters, one for each permission granted: r
for read, w
for write, and x
for execute.
The first row above shows a directory that is only accessible by user foobar
. This user is allowed to change to the bin
directory, see what files are in that directory, and allowed to put new files into that directory. The second row shows a publically accessible directory that is both user and group writable. Here anyone can change to and see the contents of the lib
directory. However, only foobar
and members of foobar_users
are allowed to create files in that directory.
The third and forth rows show files. The first file is readable by everyone, but only writeable by foobar
. The second file is readable and executable by everyone, but is only writable by foobar
or members of foobar_users
.
Changing File Mode
If you need to change the mode of a file or directory, you may do so with the chmod
command. The chmod
command takes two or more options. The first option is the permission changes you wish to make and the rest of the arguments are the files to change. (The actual command is a lot more flexible, but you may find out more about that by typing man chmod
.)
The permission changes are specified in three parts: (1) whose permissions are being changed, (2) stating that permissions are being added or removed, and (3) what access is being granted or revoked.
The first, or "who", part of the options are specified with one or more letters: u
for user, g
for group, o
for other, and a
for all.
The second part is specified with either the plus (+) sign to grant permission or the minus (-) sign to revoke permission.
The third part is specified with the same letters as were used by ls
when viewing permissions: r
for read, w
for write, and x
for execute.
For example:
chmod a+rx script.pl
chmod og-w file.txt
chmod ug+rw source.c
The first line above would grant read and execute permission to all users on the file named script.pl
. The second line would revoke write permissions on file.txt
for other users and the group owner. The third would grant read and write permissions to the user owner and group owner on source.c
.
Notice that this doesn't say anything about the existing permissions. For example, in the second line above, the user may not be allowed to write to the file either if the user was never granted that permission.
Absolute File mode
Advanced users may want to specify the mode quickly and exactly. This can be done by specifying the numeric file mode directly. The file mode may be specified as an octal number where the last three digits represent each of the three levels of access, user, group, and other, respectively. Each digit then specifies all three read, write, and execute for each of the three fields. Read is specified by the digit 4, write by 2, and execute by 1. Adding these together will get the overall permission.
For example:
chmod 755 script.pl
chmod 644 file.txt
chmod 660 source.c
After running these commands, we would see something like the following listing (note the first column especially):
foobar@viper src$ ls -l
total 3
-rwxr-xr-x 1 foobar foobar_users 432 Mar 10 12:40 script.pl
-rw-r--r-- 1 foobar foobar_users 2590 Mar 8 17:22 file.txt
-rw-rw---- 1 foobar foobar_users 596 Mar 12 7:04 source.c
Again see the man-page for chmod
for details.
General Note About Directories
Linux requires that directories have the "execute" permission enabled. Without this permission, you will not be able to display the contents of a directory, even if you have "read" permissions enabled.
What about the /tmp directory?
Whenever working on a Linux system in the department, please be aware of the /tmp
directory since it allows you to store files for a short time without affecting your quota. If you need to download a large file or work with some large files that you don't need to work with for long and can't fit into your home directory, you can place these files in /tmp
, which is stored on the local disk of the current machine.
However, there are some things you should be aware of when using the the /tmp
folder. First, filling up all space in the /tmp
folder is a bad idea. You can cause certain programs on the system to freeze up if there is no room left on the drive, which may make working on that computer difficult. Second, the temporary folder is temporary and is cleaned out automatically once every hour. You should not rely on this directory for anything important.