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Book: LPI Linux Certification in a Nutshell
Section: Chapter 5.  Boot, Initialization, Shutdown, and Runlevels (Topic 2.6)



5.2 Objective 2: Change Runlevels and Shutdown or Reboot the System

As mentioned in the introduction, Linux and many Unix systems share the concept of runlevels. This concept specifies how a system is used by controlling which services are running. For example, a system that operates a web server program is configured to boot and initiate processing in a runlevel designated for sharing data, at which point the web server is started. However, the same system would not run the web server in a runlevel used for emergency administration, when all but the most basic services are shut down.

Runlevels are specified by the integers through 6 as well as a few single characters. Runlevels and 6 are unusual in that they specify the transitional states of shutdown and reboot, respectively. By instructing Linux to enter runlevel 0, it begins a clean shutdown procedure. Similarly, the use of runlevel 6 begins a reboot. The remaining runlevels differ in meaning slightly among Linux distributions and other Unix systems.

When a Linux system boots, the init process is responsible for taking the system to the default runlevel, which is usually either 3 or 5. Typical runlevel meanings are listed in Table 5-1.

Table 5-1. Typical Runlevels

Runlevel

Description

0

Halt the system; runlevel is a special transitional device used by administrators to shut down the system quickly. This, of course, shouldn't be a default runlevel, because the system would never come up -- it would shutdown immediately when the kernel launches the init process. Also see runlevel 6.

1, s, S

Single-user mode, sometimes called "maintenance mode." In this mode, system services such as network interfaces, web servers, and file sharing are not started. This mode is usually used for interactive filesystem maintenance.

2

Multiuser with no NFS file sharing.

3

Full multiuser mode. This is often used as the default runlevel by the init process.

4

Typically unused.

5

Full multiuser mode with GUI login. In runlevel 3, init does not attempt to launch the X11 system. In runlevel 5, X11 is started and the text-mode login is replaced with a GUI login. This is often used as the default runlevel but can cause problems if X11 cannot start for some reason.

6

Reboot the system; used by system administrators. Just like runlevel 0, this is a transitional device for administrators. It shouldn't be a default runlevel because the system would eternally reboot.

5.2.1 Single-User Mode

Runlevel 1, the single-user runlevel,[4] is a bare-bones operating environment intended for system maintenance. In single-user mode, remote logins are disabled, networking is disabled, and most daemons are shut down. One common reason you might be forced to use single-user mode is to correct problems with a corrupt filesystem that the system cannot handle automatically. Single-user mode is also used for the installation of software and other system configuration tasks that must be performed with no user activity.

[4] Runlevel 1 can also be specified using S or s. The three designations are equivalent.

If you wish to boot directly into single-user mode, you may specify it at boot time at the LILO prompt. After entering your kernel image name, give the argument single or simply the numeral 1. These arguments are not interpreted as kernel arguments but are instead passed along to the init process. For example, if your kernel image is named "linux," these commands would take the system to single-user mode, bypassing the default:

LILO: linux single

or:

LILO: linux 1

To switch into single-user mode from another runlevel, you can simply issue a runlevel change command with init:

# init 1

If others are using resources on the system, they will be unpleasantly surprised, so be sure to give users plenty of warning before doing this. To change from the text-mode login to the X login screen, simply initiate the X-enabled runlevel, usually 5:

# init 5

On the Exam

Make certain that you understand the use of the transitional runlevels and 6, the single-user runlevel, and the difference between GUI and text login configurations. You should also be prepared to demonstrate how to change the runlevel of a running system.

If X is configured improperly, starting the X login screen will lead to problems because X may die. It will be automatically restarted, and this will go on in an infinite loop until you reconfigure X. It is important to be sure X is working correctly before attempting the GUI logon.[5]

[5] The X Window System is described in Chapter 18.

5.2.1.1 Overview of the /etc/rc.d directory tree and the init process

By themselves, the runlevels listed in Table 5-1 don't mean much. It's what the init process does as a result of a runlevel specification or change that affects the system. The actions of init for each runlevel are derived from Unix System V-style initialization and are specified in a series of directories and script files under /etc/rc.d.

When a Linux system starts, a number of scripts in /etc/rc.d are used to initially configure the system and switch among runlevels:[6]

[6] System initialization techniques differ among Linux distributions. The examples here are typical of a Red Hat Linux system.

rc.sysinit

This file is a script launched by init at boot time. It handles some essential chores to ready the system for use, such as mounting filesystems.

rc.local

This file is a script that is called by rc.sysinit. It contains local customizations affecting system startup and provides an alternative to modifying rc.sysinit. Many administrators prefer to avoid changing rc.sysint because those changes could be lost during a system upgrade. The contents of rc.local are not lost in an upgrade.

rc

This file is a script that is used to change between runlevels.

The job of starting and stopping system services such as web servers is handled by the files and symbolic links in /etc/rc.d/init.d and by a series of runlevel-specific directories, rc0.d through rc6.d :

init.d

This directory contains individual startup/shutdown scripts for each service on the system. For example, the script /etc/rc.d/init.d/httpd is a Bourne shell script that safely starts or stops the Apache web server. These scripts have a standard basic form and take a single argument. Valid arguments are at least the words start and stop. Additional arguments are sometimes required by the script; examples are restart, status, and sometimes reload (to ask the service to reconfigure itself without exiting). Administrators can use these scripts directly to start and stop services. For example, to restart Apache, an administrator could issue commands like these:

# /etc/rc.d/init.d/httpd stop # /etc/rc.d/init.d/httpd start

or simply:

# /etc/rc.d/init.d/httpd restart

Either form would completely shut down and start up the web server. To ask Apache to remain running but reread its configuration file, you might enter:

# /etc/rc.d/init.d/httpd reload

This has the effect of sending the SIGHUP signal to the running httpd process, instructing it to initialize.[7]

[7] Signals such as SIGHUP are covered in Section 3.5.

If you add a new service (a daemon, intended to always run in the background), one of these initialization files may be installed automatically for you. In other cases, you may need to create one yourself, or as a last resort, place startup commands in the rc.local file.

Directories rc0.d through rc6.d

The initialization scripts in /etc/rc.d/init.d are not directly executed by the init process. Instead, each of the directories /etc/rc.d/rc0.d through rc6.d contain symbolic (soft) links[8] to the scripts in directory init.d. When the init process enters runlevel n, it examines all of the links in the associated rcn.d directory. These links are given special names in the form of [K|S ][nn ][init.d_name ], described as follows:

[8] These symbolic links could also be files, but using script files in each of the directories would be an administrative headache, as changes to any of the startup scripts would mean identical edits to multiple files.

K and S prefixes

The K and S prefixes mean kill and start, respectively. A runlevel implies a state in which certain services are running and all others are not. The S prefix is used for all services that are to be running (started) for the runlevel. The K prefix is used for all other services, which should not be running.

nn

Sequence number. This part of the link name is a two-digit integer (with a leading zero, if necessary). It specifies the relative order for services to be started or stopped. The lowest number is the first link executed by init, and the largest number is the last. There are no hard-and-fast rules for choosing these numbers, but it is important when adding a new service to be sure that it starts after any other required services are already running. If two services have an identical start order number, the order is indeterminate but probably alphabetical.

init.d_name

By convention, the name of the script being linked is used as the last part of the link name. init does not use this name, but excluding it makes things difficult for human readers.

As an example, when init enters runlevel 3 at boot time, all of the links with the S prefix in /etc/init.d/rc3.d will be executed in the order given by their sequence number. They will be run with the single argument start to launch their respective services. After the last of the scripts is executed, the requirements for runlevel 3 are satisfied.

5.2.1.2 Setting the default runlevel

To determine the default runlevel at boot time, init reads the configuration file /etc/inittab looking for a line containing the word initdefault, which will look like this:

id:n:initdefault:

In the preceding, n is a valid runlevel number, such as 3. This number is used as the default runlevel by init. The S scripts in the corresponding /etc/rc.d/rc n.d directory are executed to start their respective services. If you change the default runlevel for your system, it will most likely be to switch between the standard text login runlevel and the GUI login runlevel. In any case, never change the default runlevel to or 6, or your system will not boot to a usable state.

5.2.1.3 Determining your system's runlevel

From time to time, you may be unsure just what runlevel your system is in. For example, you may have logged into a Linux system from a remote location and not know how it was booted or maintained. You may also need to know what runlevel your system was in prior to its current runlevel -- perhaps wondering if the system was last in single-user mode for maintenance.

To determine this runlevel information, use the runlevel command. When executed, runlevel displays the previous and current runlevel as integers, separated by a space, on standard output. If no runlevel change has occurred since the system was booted, the previous runlevel is displayed as the letter N. For a system that was in runlevel 3 and is now in runlevel 5, the output is:

# runlevel 3 5

For a system with a default runlevel of 5 that has just completed booting, the output would be:

# runlevel N 5

On the Exam

Determining the present and previous runlevel -- including the correct interpretation of the N response in the output from runlevel -- is important.

runlevel does not alter the system runlevel. To do this, use either the init or the telinit commands.

5.2.2 Changing runlevels with init and telinit

The init process is the "grandfather" of all processes. If used as a command on a running system, init sends signals to the executing init process, instructing it to change to a specified runlevel. You must be logged in as the superuser to use the init command.

init

Syntax

init n

Description

The number of the runlevel, n, can be changed to an integer from through 6 or with the letter arguments S, s, or q. The numeric arguments instruct init to switch to the specified runlevel. The S and s runlevels are equivalent to runlevel 1. The q argument is used to tell init to reread its configuration file, /etc/inittab.

Examples

Shut down immediately:

# init 0

Reboot immediately:

# init 6

Go to single-user mode immediately:

# init 1

or:

# init s 

The telinit command may be used in place of init. telinit is simply a hard link to init, and the two may be used interchangeably.

Generally, you will use a runlevel change for the following reasons:

  • To shut down the system using runlevel 0.

  • To go to single-user mode using runlevel 1.

  • To reboot the system using runlevel 6.

  • To switch between text-based and X11 GUI login modes, usually runlevels 3 and 5, respectively.

On the Exam

Remember that init and telinit can be used interchangeably, since they both point to the same file.

If you are working on a personal Linux workstation with no logged-in users, shared files, or other shared resources, changing the state of your system is pretty much at your discretion. You're aware of the important processes that are active and will surely save your work before any runlevel change. You can then simply direct init to change the runlevel as desired. However, if you are working on a system acting as a file or web server, or some other public resource, changing a runlevel without notification could be a disaster for other users. It is imperative to notify users before any major system changes are made. Using init to shutdown the system doesn't automatically provide this courtesy, and in these situations the shutdown command is preferred.

5.2.3 System shutdown with shutdown

When shutdown is initiated, all users who are logged into terminal sessions are notified that the system is going down. In addition, further logins are blocked to prevent new users from entering the system as it is being shut down.

shutdown

Syntax

shutdown [options] time [warning message]

Description

The shutdown command brings the system down in a secure, organized fashion. By default, shutdown takes the system to single-user mode. Options can be used to either halt or reboot instead. The command uses init with an appropriate runlevel argument to affect the system change.

The mandatory time argument tells the shutdown command when to initiate the shutdown procedure. It can be a time of day in the form hh:mm, or it can be in the form +n, where n is a number of minutes to wait. The time can also be the word now, in which case the shutdown proceeds immediately. If the time specified is more than 15 minutes away, shutdown waits until 15 minutes remain before shutdown before making its first announcement.

If warning message (a text string) is provided, it is used in the system's announcements to end users. No quoting is necessary for warning message unless the message includes special characters such as * or &.

Frequently used options

-f

Fast boot; this skips filesystem checks on the next boot.

-F

Force filesystem checks on the next boot.

-h

Halt after shutdown.

-k

Don't really shutdown, but send the warning messages anyway.

-r

Reboot after shutdown.

Examples

To reboot immediately:

# shutdown -r now

To reboot in five minutes with a maintenance message:

# shutdown -r +5 System maintenance is required

To halt the system just before midnight tonight:

# shutdown -h 23:59

The two most common uses of shutdown by individuals are:

# shutdown -h now 

and

# shutdown -r now

These initiate for immediate halts and reboots, respectively. Although it's not really a bug, the shutdown manpage notes that omission of the required time argument yields unusual results. If you do forget the time argument, shutdown will probably exit without an error message. This might lead you to believe that a shutdown is starting, so it's important to be sure of your syntax when using shutdown.

On the Exam

Make certain that you are aware of the differences between system shutdown using init (and its link telinit) and shutdown.

 


LPI Linux Certification in a Nutshell
LPI Linux Certification in a Nutshell (In a Nutshell (OReilly))
ISBN: 0596005288
EAN: 2147483647
Year: 2000
Pages: 194

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