Linux File System

Characteristics of a Linux File System.

The Linux file system has the following characteristics:

Tree-like structure

Linux shares file system characteristics with operating systems like Windows in some areas but differ from Windows in other aspects. For example: like Windows, a Linux file system, has all its files and directories organized in a tree-like structure but unlike Windows, there are no drive letters (C: or D:) on a Linux file system (instead all removable and non-removable devices are available and accessible from the /dev directory on Linux). Similarly, both Linux and Windows have files and directories, but Windows refers to them as files and folders. So, a folder in Windows is a called a directory in Linux. We use the Linux terminology in these notes.

Common root directory

In a Linux file sytem all files and directories appear under a single parent file (called root),however, unlike Windows, even multiple storage devices appear under the same root file in a Linux file system.

Everything is a file

Everything within the Linux file system is considered a file. This means directories in Linux are a special kind of file that can hold zero or more files (including nested subdirectories) in them.

As mentioned above, all files within the Linux file system are organized in a tree-like structure and this is why a Linux file system is commonly referred to as a hierarchical file system.

What is a Hierarchical File System?

In Linux (or any Unix for that matter) the root directory (denoted by /) is source (or uppermost) directory at the top of all other directories and files. This means all other files, child, and grandchild directories are shown as descendants of that single root directory. This hierarchical structure resembles an 'upside-down tree'. There is actually a command called tree that can display an upside-down tree-like diagram of the Linux (Unix) file system as shown below:

# display files and directories below root (/) with the tree command
$ tree /
/
|-home
| |-les
| |-mark
| |-uli101
| ...
|
|-bin
| |-nled
|
....

In the code shown above, the $ refers to the prompt that waits for you to type something. That's where you type the command tree; some sample output of the command tree is shown below (notice the leading root directory, i.e. / at the top of the output following the tree command).

This course will teach you the skills you require to navigate the directory tree in a Linux file system because learning command-line navigation of the file system is essential for efficient system usage and administration.

Some Unix/Linux directories directly below root

A sample of some of the commonly found subdirectories that lie below the root directory (/) is shown in the table below. The table includes a brief description of the purpose of that subdirectory.

Home directory

• Almost every user in a Linux file system gets a 'home' directory when their account was created.
• This is where the users keep their personal files
• The ~ symbol represents the home directory of the logged in user.
• The ~ symbol may be used in file pathnames. More about file pathnames later.
• The cd command when used without any other parameters gets you into your home directory no matter where you previously were in the Linux file system.
• As Linux is a multi-user filesystem, remember to keep your files private. You shall learn how to do this in a later class.

Types of Files

On a Unix/Linux file system a 'file' can be anything. To an average computer user a file is a container for: a text document, video, music, photo and so on.

A directory is a special type of file (index file) containing references to other file locations on the physical disc or to other file related information. Even devices like a terminal, a scanner, or a printer are also files. You will learn more details about these types of files later in this course. Any file (or directory) name starting with a period (such as . or ..) is considered a hidden file (or directory). You can use the ls -l command to determine the type of file.

For Example:

$ ls -l /dev/tty
crw-rw-rw- 1 root root 5, 0 2003-03-14 08:07 /dev/tty

$ ls -l monday.txt w1.c
-rw-r--r-- 1 someuser users 214 2006-01-23 14:20 monday.txt
-rw-r--r-- 1 someuser users 248 2005-10-12 13:36 w1.c

$ ls -ld uli101
drwxr-xr-x 2 someuser users 4096 2006-01-17 16:43 uli101

Notes for listing above:

• Use the -l option of the ls command to get detailed information about a file.
• Use the -ld option of the ls command to get detailed information for just the directory.
• The first character in detailed listing determines the file type, so:
  • - indicates a regular file
  • b or c indicates a device file
  • d indicates a directory file

Hidden Files

What are hidden files?

A filename that begins with a '.' is a hidden file. So, if a filename name starts with a '.' as its first character, like .profile for example, it is a considered to be a hidden file by Linux commands and is suppressed from the normal listing of files. See the examples shown below:

$ pwd
/home/murray

$ ls
uli101.txt

$ ls -a
. .. .profile uli101.txt

$ ls -A
.profile uli101.txt

In the file listing shown above

• pwd displays the present working directory. This command is used to display where on in the Linux file system the logged in user is presently working in. In the example shown above, that location is /home/murray
• ls displays the normal listing of file, i.e. all non-hidden files in the present working directory (this is usually abbreviated to pwd in these notes).
• ls -a displays all files, i.e. hidden and non-hidden files, in the present working directory. In the listing of ls -a the first two items (i.e. '.' and '..') are hidden directories to indicate the present working directory (the item: '.') and the item '..' indicates the parent directory of the present working directory. Both (. and ..) are found in every directory in the Linux file system. They cannot be removed, by any user, because both these directories are required for the internal working of the Linux file system.
• ls -A displays 'almost' all files, that is all hidden files like .profile except the first two items . and ... This means . and .. are never shown within the ls -A output listing.

Why hide files?

• To clean up directories.
• To hide backups.
• To protect important files from accidental deletion.
• Since directories are really files, you can hide them as well.

Working With The File System

• Be very careful when working with files on the command line, as there is no undo command or a Trash/Recycling Bin
  • A single command can wipe out your entire account
  • Changes are instant and permanent
• Make backups of important files, preferably outside of your account - USB storage is a good option
• You will learn later additional ways to control file access through file permissions which will help you prevent accidental file damage or deletion

Basic Commands

pwd

Displays the user's present working directory to show where the user is located on the computer system in order to build directories, copy files, etc

cd path/to/dir

Changes pwd to /path/to/dir. Entering the cd command without the directory path will change to the userfs home directory.

ls

Displays the contents of a directory (eg. regular files or sub-directories). By default, the ls command displays non-hidden filenames only. The following are common options associated with the ls command: -a short display of hidden & non-hidden files -l detailed display of files excluding hidden files -F displays / after directory, * after executable file Options can be combined, for example: ls -la (or ls -l -a)

mkdir path/to/dir

Creates a subdirectory with a directory. Multiple arguments can be used to create many subdirectories. The option .p allows for parent directories to be created.

rmdir path/to/dir

Removes only empty directories (i.e. directories that contain no subdirectories or regular files). A user cannot remove a directory from within the directory location itself.

mv path/to/source path/to/destination

Moves a file from one location to another and/or rename the file. The mv command can be used to move directories as well as files. The -i option asks for confirmation if the destination filename already exists.

cp path/to/source path/to/destination

Copies a file from one location to another. The cp command can be used to backup important files. The -i option asks for confirmation if the destination filename already exists. The -r option allows copying of directories and their contents

rm path/to/file

Removes a regular file. The -r option is used to recursively remove a directory and it's contents. Recursive means to descend to lower levels, which in this case, indicates that subdirectories and it contents are also removed. Note: it is a good idea to include the .i option to confirm deletion of subdirectories and its contents!

cat path/to/file

To join files (i.e. to concatenate files). For example, cat file1 file2 file3 will display the contents of file1 and file2 and file3 on the screen at the same time. To display the contents of small files (files longer than the screen will scroll to the end). For example, issuing the command cat .bash_profile in your home directory would display the contents of your setup file.

more path/to/file

Displays the contents of large regular files one screen at a time. The user can navigate throughout the file by pressing keys such as:

spacebar	Move to next screen
b	Move to previous screen
enter	Move to next line
/car	Search for pattern "car"
q	Exit to shell

less path/to/file

Works like more command.

touch path/to/file

Updates the date and time of existing files. The touch command is also used to create empty files. You will be using the touch command to create empty files when you practice the file management on-line tutorial.

file path/to/file

Determines a file type Useful when a particular file has no file extension or the extension is unknown/incorrect

The find Command

The find command allows searching for files by file name, size as well as file attributes recursively throughout the file system. An optional action can be performed on matches

#Search for a file named bob:
find / -name bob

# Delete empty files belonging to user alice:
find / -user alice -empty -delete

# Find all files modified less than 5 minutes ago:
find / -mmin -5

# Find large files
find . -size +100M

File Naming

• Unix/Linux is case sensitive!
• Adopt a consistent file naming scheme . this will help you find your files later
• Make your file and directory names meaningful
• Avoid non alphanumeric characters, as they have a special meaning to the system and will make your work more difficult
• Avoid using spaces in file names . consider periods, hyphens and underscores instead
• Feel free to use file name extensions to describe the file purpose

Getting Help with Commands

• A comprehensive online manual for common UNIX/Linux commands exists on your server
• The online manual is a command called man

# show man page of ls command
$ man ls

man [options] command

Options:

-k provides short (one-line) explanation relating to the commands matching the character string.
   This can be used if user doesn't know name of command.

Text Editing

Editing text files is an everyday activity for both users as well as administrators on a Unix and Linux system

• System configuration files
• Scripts and programs
• Documentation
• Web pages

As the GUI may not always be available, knowing command-line text editors is a very valuable skill.

Although both Unix/Linux and Windows use ASCII to encode text files, there are small differences that may cause problems (particularly with scripts) when copying files between different systems:

• If needed, use the unix2dos and dos2unix utilities to convert between the two systems
• A specific system may have many editors available and as you work with one for a while you will probably pick a favourite one
• A traditional fall-back is the vi editor, as it is most likely to be present on all Unix-like systems, especially when installed with a minimum software complement

Consider knowing vi as one of many badges of a competent Unix/Linux user

• Vi has a relatively steep learning curve and is not user friendly, but it offers nice advanced features which will be introduced later in the course

  (Visual) Editor

vi is a powerful, interactive, visually-oriented text editor with these features:

• Efficient editing by using keystrokes instead of mouse.
• Use of regular expressions
• Possibility to recover files after accidental loss of connection
• Features for programmers (eg. line numbering, auto-indent, etc)
• Although you may prefer to use other editors (such as nano or nled), knowing vi is very useful, as this is one editor that is present on all Unix-like systems

Starting vi Session

There are two ways to start an editing session with vi:

• vi filename is recommended when filename has already been assigned and changes will be saved to filename by entering ZZ while in vi.
• vi to start a new file editing session, when filename is not assigned to a file. therefore user has to type <ESC> :w filename <ENTER> in order to save file.

Modes

There are three operational modes while using the vi editor:

Command Mode

User presses letter for a command. for example, input text, delete text, append text, etc.

Input Mode

Input Mode allows user to enter or edit text. Press ESC to return to command mode.

Last-line Mode

Pressing colon g:h opens a prompt to enter letter or word commands. More complex operations such as search and replace can be performed.

Moving in Command Mode

You can move around to text in the screen by using the following keys:

• You may be able to move around by using the arrow keys (depends on version of vi).
• For more advanced editing, you can return to Command Mode and use appropriate editing commands.

Getting into Input Mode

While in command mode, you can issue the following commands to input text:

Common Editing Commands

Editing commands can be preceded with a number, for example: 3x = delete the next three characters 2u = undo the last two edits 12dd = delete 12 lines

Searching

Search for text (in command mode)

Saving Edited File

• Work performed during vi session is stored in a Work Buffer (temporary storage) until the user saves their work.
• When saving, changes in the work buffer are placed in a new file if creating a new file, or changes in work buffer modify existing (previously created) file.
• To save your vi session, you must make sure you are in command mode by pressing <ESC>
• To save your changes and exit, enter ZZ (i.e. two capital zfs). You could perform the same operation in last line mode by :x
• You can also save without exiting by entering :w
• To save your vi session, you must make sure you are in command mode by pressing <ESC>
• To save your changes and exit, enter ZZ (i.e. two capital zfs). You could perform the same operation in last line mode by :x
• You can also save without exiting by entering :w

Aborting Editing Session

• If you make a mistake in your editing session (that undo cannot solve), you can abort your session without modifying the contents of your file (dump the work buffer)
• To abort the current editing session, press <ESC> :q! <ENTER>

File utilities discussed in this section

There are many utilities you will discover as you learn ULI101. Here are some of the most common ones discussed here.

pwd    #   print working directory tells you where you are in the filesystem
ls     #   list (files in current directory)
ls -l  #   long list files (show all file properties)
cd     #   change directory
find   #   find files
clear  #   clear the screen
rm     #   remove files (delete them - NO UNDO)