FilePermissions

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In Linux and Unix everything is a file. Directories are files, files are files and devices are files. Devices are usually refered to as a node, however, they are still files. All of the files on a system have permissions that allow or prevent others from viewing, modifying or executing. If the file is of type Directory then it restricts different actions than files and device nodes. The super user "root" has the ability to access any file on the system. Each file has access restrictions with permissions, user restrictions with owner/group association. Permissions are refered to as bit's.
In Linux and Unix everything is a file. Directories are files, files are files and devices are files. Devices are usually refered to as a node, however, they are still files. All of the files on a system have permissions that allow or prevent others from viewing, modifying or executing. If the file is of type Directory then it restricts different actions than files and device nodes. The super user "root" has the ability to access any file on the system. Each file has access restrictions with permissions, user restrictions with owner/group association. Permissions are refered to as bits.

To change or edit files that are owned by root, '''sudo''' must be used - please see RootSudo for details.
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Three types of access restrictions. There are three types of access restrictions:
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|| read|| (view) ||r = 4||
|| write|| (edit) ||w = 2||
|| execute|| (execute) ||x = 1||


Three types of user restrictions.
|| read|| (view) ||r or 4||
|| write|| (edit) ||w or 2||
|| execute|| (execute) ||x or1||


There are also three types of user restrictions:
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Directories have whats called directory permissions. The directory permissions restrict different actions than with files or device nodes.

|| '''Permission'''|| '''Action'''|| chmod option'''||
|| read|| (view contents, i.e. ls command) ||r = 4||
|| write|| (create or remove files from dir) ||w = 2||
|| execute|| (cd into directory) ||x = 1||
Directories have directory permissions. The directory permissions restrict different actions than with files or device nodes.

|| '''Permission'''|| '''Action'''|| '''chmod option'''||
|| read|| (view contents, i.e. ls command) ||r or 4||
|| write|| (create or remove files from dir) ||w or 2||
|| execute|| (cd into directory) ||x or 1||
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    * write restricts or allows creating new files or deleting files in the directory. (Caution: write access for a directory allows deleting of files in the directory even if the user does not have write permissions for the file!)     * write restricts or allows creating new files or deleting files in the directory. (Caution: '''write access for a directory allows deleting of files in the directory even if the user does not have write permissions for the file!''')
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=== Changing Permissions === == Changing Permissions ==
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==== chmod with Letters ====

Here are a few examples of chmod usage with letters (try these out on your system):

''First create some empty files:''
=== chmod with Letters ===

{{{
Usage: chmod {options} filename
}}}

|| '''Options'''|| '''Definition'''||
|| u || owner ||
|| g || group ||
|| o || other ||
|| x || execute ||
|| w || write ||
|| r || read ||
|| + || add permission ||
|| - || remove permission ||

Here are a few examples of chmod usage with letters (try these out on your system).

First create some empty files:
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''Add owner execute bit:'' Add owner execute bit:
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''Add other write & execute bit:'' Add other write & execute bit:
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''Remove group read bit:'' Remove group read bit:
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''Add read, write and execute to everyone:'' Add read, write and execute to everyone:
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==== chmod with Numbers ====

Here are a few examples of chmod usage with numbers (try these out on your system):

''First create some empty files:''
=== chmod with Numbers ===

{{{
Usage: chmod {options} filename
}}}

|| '''Options'''|| '''Definition'''||
|| #-- || owner ||
|| -#- || group ||
|| --# || other ||
|| 1 || execute ||
|| 2 || write ||
|| 4 || read ||

Owner, Group and Other is represented by three numbers. To get the value for the options determine the type of access needed for the file then add.

For example if you want a file that has -rw-rw-rwx permissions you will use the following:

|| '''Owner'''|| '''Group'''|| '''Other'''||
|| read & write|| read & write || read, write & execute||
|| 4+2=6 || 4+2=6 || 4+2+1=7 ||

{{{
user@host:/home/user$ chmod 667 filename
}}}

Another example if you want a file that has --w-r-x--x permissions you will use the following:

|| '''Owner'''|| '''Group'''|| '''Other'''||
|| write|| read & execute || execute||
|| 2 || 4+1=5 || 1 ||

{{{
user@host:/home/user$ chmod 251 filename
}}}

Here are a few examples of chmod usage with numbers (try these out on your system).

First create some empty files:
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''Add owner execute bit:'' Add owner execute bit:
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''Add other write & execute bit:'' Add other write & execute bit:
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''Remove group read bit:'' Remove group read bit:
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''Add read, write and execute to everyone:'' Add read, write and execute to everyone:
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==== chmod with sudo ====

Changing permissions on files that you do not have permission to access:
=== chmod with sudo ===

Changing permissions on files that you do not have ownership of: ('''Note''' that changing permissions the wrong way on the wrong files can quickly mess up your system a great deal! Please be careful when using '''sudo'''!)

Understanding and Using File Permissions

In Linux and Unix everything is a file. Directories are files, files are files and devices are files. Devices are usually refered to as a node, however, they are still files. All of the files on a system have permissions that allow or prevent others from viewing, modifying or executing. If the file is of type Directory then it restricts different actions than files and device nodes. The super user "root" has the ability to access any file on the system. Each file has access restrictions with permissions, user restrictions with owner/group association. Permissions are refered to as bits.

To change or edit files that are owned by root, sudo must be used - please see RootSudo for details.

If the owner read & execute bit are on, then the permissions are:

-r-x------

There are three types of access restrictions:

Permission

Action

chmod option

read

(view)

r or 4

write

(edit)

w or 2

execute

(execute)

x or1

There are also three types of user restrictions:

User

ls output

owner

-rwx------

group

----rwx---

other

-------rwx

Directories have directory permissions. The directory permissions restrict different actions than with files or device nodes.

Permission

Action

chmod option

read

(view contents, i.e. ls command)

r or 4

write

(create or remove files from dir)

w or 2

execute

(cd into directory)

x or 1

  • read restricts or allows viewing the directories contents, i.e. ls command

  • write restricts or allows creating new files or deleting files in the directory. (Caution: write access for a directory allows deleting of files in the directory even if the user does not have write permissions for the file!)

  • execute restricts or allows changing into the directory, i.e. cd command

Permissions in Action

user@host:/home/user$ ls -l /etc/hosts
-rw-r--r--  1 root root 288 2005-11-13 19:24 /etc/hosts
user@host:/home/user$

Using the example above we have the file "/etc/hosts" which is owned by the user root and belongs to the root group.

What are the permissions from the above /etc/hosts ls output?

-rw-r--r--

owner = Read & Write (rw-)
group = Read (r--)
other = Read (r--)

Changing Permissions

The command to use when modifying permissions is chmod. There are two ways to modify permissions, with numbers or with letters. Using letters is easier to understand for most people. When modifying permissions be careful not to create security problems. Some files are configured to have very restrictive permissions to prevent unauthorized access. For example, the /etc/shadow file (file that stores all local user passwords) does not have permissions for regular users to read or otherwise access.

user@host:/home/user# ls -l /etc/shadow
-rw-r-----  1 root shadow 869 2005-11-08 13:16 /etc/shadow
user@host:/home/user#

Permissions:
owner = Read & Write (rw-)
group = Read (r--)
other = None (---)

Ownership:
owner = root
group = shadow

chmod with Letters

Usage: chmod {options} filename

Options

Definition

u

owner

g

group

o

other

x

execute

w

write

r

read

+

add permission

-

remove permission

Here are a few examples of chmod usage with letters (try these out on your system).

First create some empty files:

user@host:/home/user$ touch file1 file2 file3 file4
user@host:/home/user$ ls -l
total 0
-rw-r--r--  1 user user 0 Nov 19 20:13 file1
-rw-r--r--  1 user user 0 Nov 19 20:13 file2
-rw-r--r--  1 user user 0 Nov 19 20:13 file3
-rw-r--r--  1 user user 0 Nov 19 20:13 file4

Add owner execute bit:

user@host:/home/user$ chmod u+x file1
user@host:/home/user$ ls -l file1
-rwxr--r--  1 user user 0 Nov 19 20:13 file1

Add other write & execute bit:

user@host:/home/user$ chmod o+wx file2
user@host:/home/user$ ls -l file2
-rw-r--rwx  1 user user 0 Nov 19 20:13 file2

Remove group read bit:

user@host:/home/user$ chmod g-r file3
user@host:/home/user$ ls -l file3
-rw----r--  1 user user 0 Nov 19 20:13 file3

Add read, write and execute to everyone:

user@host:/home/user$ chmod ugo+rwx file4
user@host:/home/user$ ls -l file4
-rwxrwxrwx  1 user user 0 Nov 19 20:13 file4
user@host:/home/user$

chmod with Numbers

Usage: chmod {options} filename

Options

Definition

#--

owner

-#-

group

--#

other

1

execute

2

write

4

read

Owner, Group and Other is represented by three numbers. To get the value for the options determine the type of access needed for the file then add.

For example if you want a file that has -rw-rw-rwx permissions you will use the following:

Owner

Group

Other

read & write

read & write

read, write & execute

4+2=6

4+2=6

4+2+1=7

user@host:/home/user$ chmod 667 filename

Another example if you want a file that has --w-r-x--x permissions you will use the following:

Owner

Group

Other

write

read & execute

execute

2

4+1=5

1

user@host:/home/user$ chmod 251 filename

Here are a few examples of chmod usage with numbers (try these out on your system).

First create some empty files:

user@host:/home/user$ touch file1 file2 file3 file4
user@host:/home/user$ ls -l
total 0
-rw-r--r--  1 user user 0 Nov 19 20:13 file1
-rw-r--r--  1 user user 0 Nov 19 20:13 file2
-rw-r--r--  1 user user 0 Nov 19 20:13 file3
-rw-r--r--  1 user user 0 Nov 19 20:13 file4

Add owner execute bit:

user@host:/home/user$ chmod 744 file1
user@host:/home/user$ ls -l file1
-rwxr--r--  1 user user 0 Nov 19 20:13 file1

Add other write & execute bit:

user@host:/home/user$ chmod 647 file2
user@host:/home/user$ ls -l file2
-rw-r--rwx  1 user user 0 Nov 19 20:13 file2

Remove group read bit:

user@host:/home/user$ chmod 604 file3
user@host:/home/user$ ls -l file3
-rw----r--  1 user user 0 Nov 19 20:13 file3

Add read, write and execute to everyone:

user@host:/home/user$ chmod 777 file4
user@host:/home/user$ ls -l file4
-rwxrwxrwx  1 user user 0 Nov 19 20:13 file4
user@host:/home/user$

chmod with sudo

Changing permissions on files that you do not have ownership of: (Note that changing permissions the wrong way on the wrong files can quickly mess up your system a great deal! Please be careful when using sudo!)

user@host:/home/user$ ls -l /usr/local/bin/somefile
-rw-r--r--  1 root root 550 2005-11-13 19:45 /usr/local/bin/somefile
user@host:/home/user$

user@host:/home/user$ sudo chmod o+x /usr/local/bin/somefile

user@host:/home/user$ ls -l /usr/local/bin/somefile
-rw-r--r-x  1 root root 550 2005-11-13 19:45 /usr/local/bin/somefile
user@host:/home/user$

For more information see:

  • man chmod

  • man chown

  • man chgrp

ToDo

  • sticky bit
  • umask
  • Recursive chmod with -R

FilePermissions (last edited 2008-08-06 16:27:42 by localhost)