UNIX file system permissions tutorial

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Checking and Understanding Permissions

Access permissions of every file and folder in a UNIX system is controlled by a system based on two identification numbers: user-identification number (UID) and group identification number (UID). Every file or folder should belong to a UID and GID. In practice is it hard to remember these numbers, so the accepted way is to map a user-name and a group-name to each number. In a typical stand-aloone, UNIX computer, all UIDs along with these mappings are listed in the UNIX file /etc/passwd. A typical entry of passwd file is like the following:

alex:x:503:100:Dr. Alexander the Great:/home/alex:/bin/bash

The fields of this entry (seperated by colons, :), relevant to this discussion are:

  1. alex: username (a short name to identify the user, which is normally used in place of UID). Typically a lowercase, single word.
  2. 503 : UID
  3. 100 : GID of the primary group the user belongs to.
  4. Dr. Alexander the Great : A descriptive name

The primary administrative user -- root, present in every UNIX system has UID 0.

root:x:0:0:root:/root:/bin/bash

There is another file, /etc/group, lising all the GIDs with their descriptive names. A typical entry is like:

kings:x:100:alex,ramses,menes

. The important fields are:

  1. kings : The name of the group (A lowercase word)
  2. 100 : GID
  3. alex,ramses,menes : users that are members of this group

It is possible for a user to belong to more than one group. However, there is only one primary group for a user.

Unless specific steps are taken beforehand, any files or directories created by a user belong to that ueser and that users primary group.

Checking permissions

The ls -l command lists files with a number of details in UNIX systems. Following is an example of the output of the command

drwx------  2 alex  kings   4096 Feb 21 13:47 backup
-rw-rw-r--  1 alex  kings   4010 Mar 22 16:55 backup.tar.gz
-rwx------  1 alex  kings  20372 Mar 14 14:04 battle-plans
drwxrwxr-x  2 alex  kings   4096 Mar 23 11:46 GMTstore
drwxrwsr-x  2 alex  greeks  4096 Apr  4 14:00 hands
lrwxrwxrwx  1 alex  kings     27 Feb 20 14:32 images -> /opt/images
-rwxr--r--  1 root  root   45458 Mar 23 11:55 install_gmt

Following is a description of the fields relevent to the present discussion.

drwx------
permission string.
alex
owning user
kings
owning group
backup
filename

The permission flag is a set of ten positions each describing an aspect of the file's permissions.

Position Possible values
1 d : This is a directory. - : this is a normal file. (Occationaly some other things can appear)
2 r : owner is permitted read this file. - : He/she can't
3 w : owner is permitted to overwrite/append to this file. - : can't
4 x : owner is permitted to execute (run) this file, by calling it by its name. - : can't. (See the examples as well)
5-7 : Permissions for group members (meaning same as above).
8-10 : Permissions for all others (Not owner, not group members).
Note
  • To access a directory (to change directory by cd command or to list it's contents by ls -l <directory-name>) the execution flag (x) should be set.
Examples
  • drwx------ (backup) : This is a directory, user can read, write and execute (since this is a directory this is needed to access the directory) , group (kings) can't do anything, others can't do anything.
  • -rwx------ (battle-plans) : This is a regular file. Only user has access.
  • drwxrwxr-x (GMTstore) : This directory can be accessed, changed by members of group (kings), but others can not change it.
  • -rwxr--r-- (install_gmt): Evrybody can read. But only owner can write. Owner can also execute this by calling it by filename. e.g.
    ./install_gmt #at bash prompt
  • drwxrwsr-x (hands): This directory is said to be GID-set, which is done by
    chmod u+s hands
    and indicated by the presence of s at the permission flag. This means, whatever files created in this folder by anybody (of course they should be permitted to do that, in this case that means 1. owner, 2. group members and 3. root) belongs to the group greeks.
  • lrwxrwxrwx (images) : See the right-most end of the row.
    images -> /opt/images
    indicates this is a symbolic link. These are special 'files' which can not be set permissions. Instead 'target' of the link (images in /opt folder in this case) should have desired permissions.

Setting permissions chmod

chmod command is used to change the ownership of exising files. There are two ways of using the command.

Symbolic mode

  • example:
    chmod g+rx READEME.info
    Here, the members of the group(g) is granted(+) read(r) and execute(x) permissoins.

Numeric mode

Permissions of each class (user, group or others) are handled by an Octal Number. Three ocatal numbers written togather (e.g. 644) fully specify the file permissions of a file.

Green info.gif

See wikipedia article File_system_permissions for more information. Some of the text here is from that article.

Each of these digits is the sum of its component bits (see also this article). As a result, specific bits add to the sum as it is represented by a numeral:

  • The read bit adds 4 to its total,
  • The write bit adds 2 to its total, and
  • The execute bit adds 1 to its total.

These values never produce ambiguous combinations; each sum represents a specific set of permissions.

These are the examples from the Symbolic notation section given in octal notation:

  • "-rwxr-xr-x" would be represented as 755 in three-digit octal.
  • "-rw-rw-r--" would be represented as 664 in three-digit octal.
  • "-r-x------" would be represented as 500 in three-digit octal.
  • "-rw-------" would be represented as 600 in three-digit octal.
  • example:
    chmod 644 README.info
    Here, the permissions of the file is set, so that
    1. owner has read, write permissions
    2. group and others have read permissions.
  • Meaning of symbolic mode numbers are described
  • Note that numeric permissions are absolute (i.e. They dictate all the permission settings) whereas symbolic settings are cumulative (i.e. They manage certain permissions while leaving others as they are).

Setting default file permissions

When a user creates a file or a directory, the initial permissoins of those are determined by the 'uname' value which is set by

  1. uname command
  2. user's initialization file
  3. system-wide initialization file

Typically the default configuration is equivalent to typing 'umask 22' which produces permissions of:

 -rw-r--r-- for regular files, or
 drwxr-xr-x for directories.

In other words, user has full access, everyone else (group and other) has read access to files, lookup access to directories.

When working with group-access files and directories, it is common to use 'umask 2' which produces permissions of:

 -rw-rw-r-- for regular files, or
 drwxrwxr-x for directories.

For private work, use 'umask 77' which produces permissions:

 -rw------- for regular files, or
 drwx------ for directories.

umask Unmasked

umask is a ocatal number between 000 and 777, directly affecting the resulting file and directory permissions. The three numbers from left, governs the permissions for user, group and others respectively. Each number relates to the respective chmod value as follows.

	umask	File	Directory
	0	6	7
	1	6	6
	2	4	5
	3	4	4
	4	2	3
	5	2	2
	6	0	1
	7	0	0

Some common umask settings in a more understandable way.

Green info.gif

The results shown in the table can be obtained from this bash script.

  umask   file   dirs          files           dirs
    022    759    648     -rw-r--r--     drwxr-xr-x
    027    754    643     -rw-r-----     drwxr-x---
    002    775    664     -rw-rw-r--     drwxrwxr-x
    006    771    660     -rw-rw----     drwxrwx--x
    007    770    659     -rw-rw----     drwxrwx---
    077    714    603     -rw-------     drwx------

Checking umask

The umask command can be used to check the current umask values. There are two ways to use this. Either

umask -p 

to get the numeric umask value or

umask -S

to get a more human readable output. The results of these commands are like,

umask 0022

and

u=rwx,g=rx,o=rx

, respectively.

A note on source

This article has used sections from several outside sources.

  1. Computing at Dartmouth College.
  2. linuxforms.

I have assumed that I am not violating a copyright by doing so. Please contact me if this is not the case.

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