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| Red Hat Linux 7.3: The Official Red Hat Linux x86 Installation Guide |
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| Prev | Chapter 3. Installing Red Hat Linux | Next |
If you chose automatic partitioning and did not
select Review, please skip ahead to the Section called Network Configuration.
If you chose automatic partitioning and selected
Review, you can either accept the current partition
settings (click Next), or modify the setup using
Disk Druid, the manual partitioning tool.
If you chose Manually partition with
fdisk, please skip ahead to the Section called Partitioning with fdisk.
At this point, you must tell the installation program where to install
Red Hat Linux. This is done by defining mount points for one
or more disk partitions in which Red Hat Linux will be installed. You may also need to create and/or delete partitions at this time (refer to Figure 3-13).
 | Note |
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| | If you have not yet planned how you
will set up your partitions, refer to Appendix E. At a
bare minimum, you need an appropriately-sized root partition, and a swap
partition equal to twice the amount of RAM you have on the system.
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The partitioning tool used in Red Hat Linux 7.3 is
Disk Druid. With the exception of certain
esoteric situations, Disk Druid can handle the
partitioning requirements for a typical Red Hat Linux installation. Disk Druid offers a graphical
representation of your hard drive(s).
Using your mouse, click once to highlight a particular field in the
graphical display. Double-click to edit an existing partition or to create a partition out of existing
free space.
Above the display, you will see the drive name
(such as /dev/hda), the
geom (which shows the hard disk's geometry and
consists of three numbers representing the number of cylinders, heads, and
sectors as reported by the hard disk), and the model
of the hard drive as detected by the installation program.
These buttons control Disk Druid's actions.
They are used to change the attributes of a partition (for example the
file system type and mount point) and also to create RAID devices. Buttons
on this screen are also used to accept the changes you have made, or to
exit Disk Druid. For further explanation, take
a look at each button in order:
New: Used to request a new partition. When
selected, a dialog box appears containing fields (such as mount point
and size) that must be filled in.
Edit: Used to modify attributes of the
partition currently selected in the Partitions
section. Selecting Edit opens a dialog box.
Some or all of the fields can be edited, depending on whether the
partition information has already been written to disk.
You can also edit free space as represented in the
graphical display to create a new partition within that space. Either
highlight the free space and then select the
Edit button, or double-click on the free space
to edit it. Delete: Used to remove
the partition currently highlighted in the Current Disk
Partitions section. You will be asked to confirm the deletion
of any partition.
Reset: Used to restore Disk
Druid to its original state. All changes made will be
lost if you Reset the partitions.
Make RAID: Make RAID
can be used if you want to provide redundancy to any or all disk
partitions. It should only be used if you have experience
using RAID. To read more about RAID, please refer to
RAID (Redundant Array of Independent Disks) in
the Official Red Hat Linux Customization Guide.
To make a RAID device, you must first create software RAID
partitions. Once you have created two or more software RAID
partitions, select Make RAID to join the
software RAID partitions into a RAID device.
Above the partition hierarchy are labels which present information
about the partitions you are creating. The labels are defined as follows:
Device: This field displays the partition's
device name.
Start: This field shows the sector on your
hard drive where the partition begins.
End: This field shows the sector on your hard
drive where the partition ends.
Size: This field shows the partition's size
(in MB).
Type: This field shows the partition's type
(for example, ext2, ext3, or vfat).
Mount Point: A mount point is the location
within the directory hierarchy at which a volume exists; the volume is
"mounted" at this location. This field indicates where the partition
will be mounted. If a partition exists, but is not set, then you need
to define its mount point. Double-click on the partition or click the
Edit button.
Format: This field shows if the partition
being created will be formatted.
Unless you have a reason for doing otherwise, we recommend that you create
the following partitions: A swap partition (at least 32 MB) — swap partitions are
used to support virtual memory. In other words, data is written to a swap
partition when there is not enough RAM to store the data your system is
processing. The size of your swap partition should be equal to twice your
computer's RAM, or 32 MB, whichever amount is larger, but no more than
2048 MB (or 2 GB). In Disk Druid, the partition
field for swap should look similar to the following: <Swap> hda6 64M 64M Linux swap |
For example, if you have 1 GB of RAM or less, your swap
partition should be at least equal to the amount of RAM on your
system, up to two times the RAM. For more than 1 GB of RAM, 2 GB of
swap is recommended. Creating a large swap space partition will be
especially helpful if you plan to upgrade your RAM at a later
time.
A /boot partition (50 MB) — the
partition mounted on /boot contains the operating
system kernel (which allows your system to boot Red Hat Linux), along with files
used during the bootstrap process. Due to the limitations of most PC
BIOSes, creating a small partition to hold these files is a good idea. For
most users, a 50 MB boot partition is sufficient. In Disk
Druid, the partition field for /boot
should look similar to: /boot hda1 50M 50M Linux native |
 | Caution |
|---|
| | If your hard drive is more than 1024
cylinders (and your system was manufactured more than two years ago), you
may need to create a /boot partition if you want the
/ (root) partition to use all of the remaining space
on your hard drive.
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A root partition (1.5-3.7 GB) —
this is where "/" (the root directory) will be
located. In this setup, all files (except those stored in
/boot) are on the root partition. A 1.5 GB root
partition will permit the equivalent of a workstation installation (with
very little free space), while a 3.7 GB root
partition will let you install every package. In Disk
Druid, the partition field for / should
look similar to: / hda5 3734M 3734M Linux native |
To add a new partition, select the New button. A dialog box appears.
| Note |
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| | You must dedicate at least one partition to
Red Hat Linux, and optionally more. For more information,
see Appendix E.
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Mount Point: Enter the partition's mount
point. For example, if this partition should be the root partition,
enter /; enter /boot for
the /boot partition, and so on. You can also
use the pull-down menu to choose the correct mount point for your
partition.
File System Type: Using the pull-down menu,
select the appropriate file system type for this partition. For more
information on file system types, see the Section called File System Types.
Allowable Drives: This field contains a list
of the hard disks installed on your system. If a hard disk's box is
highlighted, then a desired partition can be created on that hard
disk. If the box is not checked, then the
partition will never be created on that hard
disk. By using different checkbox settings, you can have
Disk Druid place partitions as you see fit,
or let Disk Druid decide where partitions
should go.
Size (Megs): Enter the size (in megabytes) of
the partition. Note, this field starts with a "1" (one); unless
changed, only a 1 MB partition will be created.
Additional Size Options: Choose whether to
keep this partition at a fixed size, to allow it to "grow" (fill up
the available hard drive space) to a certain point, or to allow it to
grow to fill any remaining hard drive space available.
If you choose Fill all space up to (MB), you
must give size constraints in the field to the right of this
option. This allows you to keep a certain amount of space free on your
hard drive for future use.
Force to be a primary partition: Select
whether the partition you are creating should be one of the first four
partitions on the hard drive. If unselected, the partition created
will be a logical partition. See the Section called Partitions within Partitions — An Overview of Extended
Partitions in Appendix E, for more information.
Check for bad blocks: Checking for bad blocks
can help prevent data loss by locating the bad blocks on a drive and
making a list of them to prevent using them in the future. If you wish
to check for bad blocks while formatting each file system, please make
sure to select this option.
Selecting Check for bad blocks may
dramatically increase your total installation time. Since most newer
hard drives are quite large in size, checking for bad blocks may take
a long time; the length of time depends on the size of your hard
drive. If you choose to check for bad blocks, you can monitor your
progress on virtual console #6.
Ok: Select Ok once
you are satisfied with the settings and wish to create the partition.
Cancel: Select
Cancel if you do not want to create the
partition.
Red Hat Linux allows you to create different partition types,
based on the file system they will use. The following is a brief description
of the different file systems available, and how they can be utilized.
ext2 — An ext2 file system supports
standard Unix file types (regular files, directories, symbolic
links, etc). It provides the ability to assign long file names, up
to 255 characters. Versions prior to Red Hat Linux 7.2 used ext2
file systems by default. ext3 — The ext3 file system is based on
the ext2 file system and has one main advantage —
journaling. Using a journaling file system reduces time spent
recovering a file system after a crash as there is no need to
fsck[1] the file system. The ext3 file
system will selected by default and is highly recommended.
software RAID — Creating two or more
software RAID partitions allows you to create a RAID device. For more
information regarding RAID, refer to the chapter RAID
(Redundant Array of Independent Disks) in the
Official Red Hat Linux Customization Guide.
swap — Swap partitions are used to
support virtual memory. In other words, data is written to a swap
partition when there is not enough RAM to store the data your system
is processing. vfat — The VFAT file system is a Linux
file system that is compatible with Windows 95/NT long filenames on
the FAT file system.
To edit a partition, select the Edit button or
double-click on the existing partition.
| Note |
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| | If the partition already exists on your hard
disk, you will only be able to change the partition's mount point. If you
want to make any other changes, you will need to delete the partition and
recreate it.
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To delete a partition, highlight it in the
Partitions section and click the
Delete button. You will be asked to confirm the
deletion.
Skip to the Section called Boot Loader Installation for further
installation instructions.
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Disclaimer: For authoritative source or latest update to this
documentation, please refer to http://www.redhat.com/docs/manuals/linux/ |
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Quotes: Every normal man must be tempted at times to spit upon his hands, hoist the black flag and begin slitting throats.It's a funny thing about life; if you refuse to accept anything but the best, you very often get it.
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