Before we start, we first list what hardware requirements you need to successfully install Gentoo on your box. This of course depends on your architecture.

Check the following requirements before you continue with the Gentoo installation:

• You need at least 1 Gb of free disk space
• For the Alpha architecture, you should check with the Alpha/Linux FAQ

Still interested in trying out Gentoo? Well, then it is now time to choose the installation medium you want to use. Yes, you have the choice, no, they are not all equal, and yes, the result is always the same: a Gentoo base system.

The installation media we will describe are:

• The Gentoo Alpha LiveCD

Before we continue, let's explain our three-stage installation.

Gentoo Linux can be installed using one of three stage tarball files. The one you choose depends on how much of the system you want to compile yourself. The stage1 tarball is used when you want to bootstrap and build the entire system from scratch. The stage2 tarball is used for building the entire system from a bootstrapped "semi-compiled" state. The stage3 tarball already contains a basic Gentoo Linux system that has been built for you.

Now what stage do you have to choose?

Starting from a stage1 allows you to have total control over the optimization settings and optional build-time functionality that is initially enabled on your system. This makes stage1 installs good for power users who know what they are doing. It is also a great installation method for those who would like to know more about the inner workings of Gentoo Linux.

A stage1 installation can only be performed when you have a working Internet connection.

Stage2 installs allow you to skip the bootstrap process and doing this is fine if you are happy with the optimization settings that we chose for your particular stage2 tarball.

A stage2 installation can only be performed when you have a working Internet connection.

Choosing to go with a stage3 allows for the fastest install of Gentoo Linux, but also means that your base system will have the optimization settings that we chose for you (which to be honest, are good settings and were carefully chosen to enhance performance while maintaining stability). stage3 is also required if you want to install Gentoo using prebuilt packages or without a network connection.

Write down (or remember) what stage you want to use. You need this later when you decide what LiveCD (or other installation medium) you want to use. You might be interested to know that, if you decide to use different optimization settings after having installed Gentoo, you will be able to recompile your entire system with the new optimization settings.

Now take a look at the available installation media.

The Gentoo Alpha LiveCD is a bootable CD which contain a self-sustained Gentoo environment. It allows you to boot Linux from the CD. During the boot process your hardware is detected and the appropriate drivers are loaded. It is maintained by Gentoo developers.

The Gentoo Alpha LiveCD is a small, no-nonsense, bootable CD which sole purpose is to boot the system, prepare the networking and continue with the Gentoo installation. It does not contain any stages (or, in some cases, a single stage1 file), source code or precompiled packages. For example the alpha variant of this LiveCD can be found in the releases/1.4_rc1/alpha subdirectory and is called gentoo-alpha-1.4rc1-test3.iso.bz2.

You have chosen to use a Gentoo LiveCD (if not, then you are reading the wrong document). We'll first start by downloading and burning the chosen LiveCD.

Visit one of our mirrors and go to releases/1.4rc1/alpha which is where the LiveCD(s) of your choice are located. Inside that directory you'll find so-called ISO-files. Those are full CD images which you can write on a CD-R.

In case you wonder if your downloaded file is corrupted or not, you can check its MD5 checksum and compare it with the MD5 checksum we provide (such as gentoo-alpha-1.4rc1-test3.iso.bz2.md5sum). You can check the MD5 checksum with the md5sum tool under Linux/Unix or md5sum for Windows.

Once downloaded, decompress the ISO file (as it is stored in a compressed format using the Burrows-Wheeler text compression algorithm) using bunzip2 (on Unix/Linux systems):

# bunzip2 gentoo-alpha-1.4rc1-test3.iso.bz2

Another way to check the validity of the downloaded file is to use GnuPG to verify the cryptographic signature that we provide (the file ending with .asc). Download the signature file and obtain the public key:

$ gpg --keyserver pgp.mit.edu --recv-keys 17072058

Now verify the signature:

$ gpg --verify <signature file> <downloaded iso>

To burn the downloaded ISO(s), you have to select raw-burning. How you do this is highly program-dependent. We will discuss cdrecord and K3B here; more information can be found in our Gentoo FAQ.

• With cdrecord, you simply type cdrecord dev=/dev/hdc (replace /dev/hdc with your CD-RW drive's device path) followed by the path to the ISO file :)
• With K3B, select Tools > CD > Burn Image. Then you can locate your ISO file within the 'Image to Burn' area. Finally click Start.

When your Alpha is powered on, the first thing that gets started is the firmware. It is loosely synonymous with the BIOS software on PC systems. There are two types of firmware on Alpha systems: SRM (Systems Reference Manual) and ARC (Advanced Risc Console).

SRM is based on the Alpha Console Subsystem specification, which provides an operating environment for OpenVMS, Tru64 UNIX, and Linux operating systems. ARM is based on the Advanced RISC Computing (ARC) specification, which provides an operating environment for Windows NT. You can find a detailed guide on using SRM over at the Alpha Linux website.

If your Alpha system supports both SRC and ARCs (ARC, AlphaBIOS, ARCSBIOS) you should follow these instructions for switching to SRM. If your system already uses SRM, you are all set. If your system can only use ARCs (Ruffian, nautilus, xl, etc.) you will need to choose MILO later on when we are talking about bootloaders.

Now to boot an Alpha LiveCD, put the CD-ROM in the tray and reboot the system. You can use SRM to boot the LiveCD. If you cannot do that, you will have to use MILO. If you don't have MILO installed already, use one of the precompiled MILO images available on taviso's homepage.

(List available hardware drives)
>>> show device
dkb0.0.1.4.0        DKB0       TOSHIBA CDROM
(...)
(Substitute dkb0 with your CD-ROM drive device)
>>> boot dkb0 -flags 0

(Substitute hdb with your CD-ROM drive device)
MILO> boot hdb:boot/vmlinuz initrd=initrd.img root=/dev/ram0 init=/linuxrc

You should have a root ("#") prompt on the current console and can also switch to other consoles by pressing Alt-F2, Alt-F3 and Alt-F4. Get back to the one you started on by pressing Alt-F1.

Now continue with Extra Hardware Configuration.

When the Live CD boots, it tries to detect all your hardware devices and loads the appropriate kernel modules to support your hardware. In the vast majority of cases, it does a very good job. However, in some cases (the SPARC LiveCDs don't even do autodetection), it may not auto-load the kernel modules you need. If the PCI auto-detection missed some of your system's hardware, you will have to load the appropriate kernel modules manually.

In the next example we try to load the 8139too module (support for certain kinds of network interfaces):

# modprobe 8139too

If you are an advanced user, you might want to tweak the IDE hard disk performance using hdparm. With the -tT options you can test the performance of your disk (execute it several times to get a more precise impression):

# hdparm -tT /dev/hda

To tweak, you can use any of the following examples (or experiment yourself) which use /dev/hda as disk (substitute with your disk):

Activate DMA:                                       # hdparm -d 1 /dev/hda
Activate DMA + Safe Performance-enhancing Options:  # hdparm -d 1 -A 1 -m 16 -u 1 -a 64 /dev/hda

If you plan on giving other people access to your installation environment or you want to chat using irssi without root privileges (for security reasons), you need to create the necessary user accounts and change the root password.

To change the root password, use the passwd utility:

# passwd
New password: (Enter your new password)
Re-enter password: (Re-enter your password)

To create a user account, we first enter their credentials, followed by its password. We use useradd and passwd for these tasks. In the next example, we create a user called "john".

# useradd john
# passwd john
New password: (Enter john's password)
Re-enter password: (Re-enter john's password)

You can change your user id from root to the newly created user by using su:

# su john -

If you want to view the Gentoo Handbook (either from-CD or online) during the installation, make sure you have created a user account (see Optional: User Accounts). Then press Alt-F2 to go to a new terminal and log in.

If you want to view the documentation on the CD you can immediately run links2 to read it:

# links2 /mnt/cdrom/docs/html/index.html

However, it is preferred that you use the online Gentoo Handbook as it will be more recent than the one provided on the CD. You can view it using links2 as well, but only after having completed the Configuring your Network chapter (otherwise you won't be able to go on the Internet to view the document):

# links2 http://www.gentoo.org/doc/en/handbook/handbook-alpha.xml

You can go back to your original terminal by pressing Alt-F1.

If you want to allow other users to access your computer during the Gentoo installation (perhaps because those users are going to help you install Gentoo, or even do it for you), you need to create a user account for them and perhaps even provide them with your root password (only do that if you fully trust that user).

To fire up the SSH daemon, execute the following command:

# /etc/init.d/sshd start

To be able to use sshd, you first need to setup your networking. Continue with the chapter on Configuring your Network.