boot
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NAME
boot-scripts - General description of boot sequence
DESCRIPTION
The boot sequence varies in details among systems but can be roughly
divided to the following steps: (i) hardware boot, (ii) OS loader,
(iii) kernel startup, (iv) init and inittab, (v) boot scripts. We will
describe each of these in more detail below.
Hardware-boot
After power-on or hard reset, control is given to a program stored on
read only memory (normally PROM). In PC we usually call this program
the BIOS.
This program normally makes a basic self-test of the machine and
accesses non-volatile memory to read further parameters. This memory in
the PC is battery-backed CMOS memory, so most people refer to it as the
CMOS, although outside of the PC world, it is usually called nvram
(non-volatile ram).
The parameters stored in the nvram vary between systems, but as a mini-
mum, the hardware boot program should know what is the boot device, or
which devices to probe as possible boot devices.
Then the hardware boot stage accesses the boot device, loads the OS
Loader, which is located on a fixed position on the boot device, and
transfers control to it.
Note: We do not cover here booting from network. Those who want to
investigate this subject may want to research: DHCP, TFTP, PXE,
Etherboot.
OS Loader
In PC, the OS Loader is located in the first sector of the boot device
- this is the MBR (Master Boot Record).
In most systems, this primary loader is very limited due to various
constraints. Even on non-PC systems there are some limitations to the
size and complexity of this loader, but the size limitation of the PC
MBR (512 bytes including the partition table) makes it almost impossi-
ble to squeeze a full OS Loader into it.
Therefore, most operating systems make the primary loader call a sec-
ondary OS loader which may be located on a specified disk partition.
In Linux the OS loader is normally lilo(8) or grub(8). Both of them
may install either as secondary loaders (where the DOS installed MBR
points to them), or as a two part loader where they provide special MBR
containing the bootstrap code to load the second part of the loader
from the root partition.
The main job of the OS Loader is to locate the kernel on the disk, load
it and run it. Most OS loaders allow interactive use, to enable speci-
fication of alternative kernel (maybe a backup in case the last com-
piled one isn't functioning) and to pass optional parameters to the
kernel.
Kernel Startup
When the kernel is loaded, it initializes the devices (via their
drivers), starts the swapper (it is a "kernel process", called kswapd
in modern Linux kernels), and mounts the root file system (/).
Some of the parameters that may be passed to the kernel relate to these
activities (e.g: You can override the default root file system). For
further information on Linux kernel parameters read bootparam(7).
Only then the kernel creates the first (user land) process which is
numbered 1. This process executes the program /sbin/init, passing any
parameters that weren't handled by the kernel already.
init and inittab
When init starts it reads /etc/inittab for further instructions. This
file defines what should be run in different run-levels.
This gives the system administrator an easy management scheme, where
each run-level is associated with a set of services (e.g: S is sin-
gle-user, on 2 most network services start, etc.). The administrator
may change the current run-level via init(8) and query the current
run-level via runlevel(8).
However, since it is not convenient to manage individual services by
editing this file, inittab only bootstraps a set of scripts that actu-
ally start/stop the individual services.
Boot Scripts
Note: The following description applies to SYSV-R4 based system, which
currently covers most commercial Unices (Solaris, HPUX, Irix,
Tru64) as well as the major Linux distributions (RedHat, Debian,
Mandrake, Suse, Caldera). Some systems (Slackware Linux,
FreeBSD, OpenBSD) have a somewhat different scheme of boot
scripts.
For each managed service (mail, nfs server, cron, etc.) there is a sin-
gle startup script located in a specific directory (/etc/init.d in most
versions of Linux). Each of these scripts accepts as a single argument
the word 'start' -- causing it to start the service, or the word accept
other "convenience" parameters (e.g: 'restart', to stop and then start,
'status' do display the service status). Running the script without
parameters displays the possible arguments.
Sequencing Directories
To make specific scripts start/stop at specific run-levels and in spe-
cific order, there are sequencing directories. These are normally in
/etc/rc[0-6S].d. In each of these directories there are links (usually
symbolic) to the scripts in the init.d directory.
A primary script (usually /etc/rc) is called from inittab(5) and calls
the services scripts via the links in the sequencing directories. All
links with names that begin with 'S' are being called with the argument
'start' (thereby starting the service). All links with names that begin
with 'K' are being called with the argument 'stop' (thereby stopping
the service).
To assert order withing the same run-level, the names of the links con-
tains order-numbers. Also, to make the names clearer, they usually ends
with the name of the service they refer to. Example: the link
/etc/rc2.d/S80sendmail is starting the sendmail service on runlevel 2.
This is happening after /etc/rc2.d/S12syslog is run but before
/etc/rc2.d/S90xfs is run.
To manage the boot order and run-levels, we have to manage these links.
However, on many versions of Linux, there are tools to help with this
task (e.g: chkconfig(8)).
Boot Configuration
Usually the daemons started may optionally receive command line options
and parameters. To allow system administrators to change these parame-
ters without editing the boot scripts themselves, configuration files
are used. These are located in a specific directory (/etc/sysconfig on
RedHat systems) and are used by the boot scripts.
In older Unices, these files contained the actual command line options
for the daemons, but in modern Linux systems (and also in HPUX), these
files just contain shell variables. The boot scripts in /etc/init.d
source the configuration files, and then use the variable values.
FILES
/etc/init.d/, /etc/rc[S0-6].d/. /etc/sysconfig/
SEE ALSO
inittab(5), bootparam(7), init(8), runlevel(8), shutdown(8)
2002-06-07 BOOT(7)
