Difference between pages "Install/Stage3" and "Install/pt-br/Kernel"

< Install(Difference between pages)
(Your SubArch)
 
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<noinclude>
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=== Configurando e instalando o kernel Linux ===
{{InstallPart|the process of installing the Stage3 tarball}}
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</noinclude>
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=== Installing the Stage 3 tarball ===
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After creating filesystems, the next step is downloading the initial Stage 3 tarball. The Stage 3 is a pre-compiled system used as a starting point to install Funtoo Linux. Load one of the following URLs in another browser window:
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Agora é hora de construir e instalar um kernel Linux, o qual é o coração de qualquer sistema Funtoo Linux. O kernel é carregado pelo boot loader, e interfaces diretamente com o hardware do seu sistema, e permite programas regulares (userspace) serem executador.
  
{{MirrorList}}
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Um kernel deve ser configurado propriamente para o hardware do seu sistema, desse modo ele suporta seus hard drives, file systems, placas de rede, e assim por diante. Usuários de Linux mais experientes pode escolher instalar o kernel sources e configurar e instalar seu próprio kernel. Se você não sabe como fazer isso, nós fornecemos ebuilds que construirão automaticamente um kernel "universal", módulos e initramfs para a inicialização do seu sistema que suporte todo o hardware. Esse é um jeito extremamente simples de construção de um kernel que colocará seu sistema para inicializar.
  
Now, let's navigate the directories on the mirrors to find the appropriate build of Funtoo Linux for you.
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Qual é o nosso objetivo? Para construir um kernel que reconhecerá todo o hardware em seu sistema necessário para inicialização, você será cumprimentado por um prompt de login amigável depois que a instalação estiver completa. Esses instruções lhe guiarão através do processo de instalação de um kernel no modo "fácil" -- sem exigir configuração do usuário, ao utilizar um kernel "universal".
  
==== Which Build? ====
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==== Package Sets ====
  
'''If you're not sure, pick <code>funtoo-current</code>.'''
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Antes que estalemos um kernel, vamos cobrir um recurso do Portage chamado package sets. Portage, o sistema gerenciador/ports de pacotes para o Funtoo Linux, manterá rastro de pacotes do sistema assim como pacotes que você tem instalado ao invocar <code>emerge</code> diretamente. Esses pacotes que são parte do sistema base são considerados parte do conjunto de pacote do "sistema", enquanto pacotes que você tem instalado ao digitá-los na linha de comando (tal qual "gnome" em <code>emerge gnome</code>) serão adicionados ao conjunto de pacote "world". Isso proporciona um jeito fácil de atualizar o sistema inteiro.
  
Funtoo Linux has various different 'builds', or variants. Here is a list of the various builds that are available, and what their distinctive features are:
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No entanto, as vezes é bom ser capaz de atualizar o kernel todo por sim só, ou deixar uma atualização do kernel fora da sua regular atualização completa do sistema. Para fazer isso, criaremo uma nova configuração de pacote chamada "kernel".
  
{{TableStart}}
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==== Configuração de Pacote do Kernel ====
<tr><th class="info">Build</th><th class="info">Description</th></tr>
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<tr><td><code>funtoo-current</code></td><td>The most commonly-selected build of Funtoo Linux. Receives rapid updates and preferred by desktop users.</td></tr>
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<tr><td><code>funtoo-current-hardened</code></td><td>Same package set as <code>funtoo-current</code>, but with a hardened, exploit-resistant toolchain.</td></tr>
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<tr><td><code>funtoo-stable</code></td><td>Emphasizes less-frequent package updates and trusted, reliable versions of packages over the latest versions.</td></tr>
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{{TableEnd}}
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If you want to read more about this, have a look at [[Funtoo_Linux#What_are_the_differences_between_.27stable.27.2C_.27current.27_and_.27experimental.27_.3F|Differences between stable, current and experimental]].
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Para criar a configuração de pacote do kernel, realize os seguintes passos:
  
==== What Architecture?  ====
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<console>
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(chroot) # ##i##mkdir /etc/portage/sets
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(chroot) # ##i##echo sys-kernel/debian-sources > /etc/portage/sets/kernel
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</console>
  
'''If you're not sure, pick <code>x86-64bit</code>, or possibly <code>pure64</code> for server systems.'''
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Agora, vamos querer definir uma variável USE para dizer ao <code>debian-sources</code> que construa um kernel "universal" e o initramfs para nós, para levar Funtoo Linux a funcionamento na inicialização. Para fazer isso, vamos configurar a variável <code>binary</code> USE para <code>debian-sources</code>, como a seguir:
  
For PC-compatible systems, the following choices are available:
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<console>
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(chroot) # ##i##echo "sys-kernel/debian-sources binary" >> /etc/portage/package.use
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</console>
  
{{TableStart}}
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Se as varáveis USE forem novas para você, você estará se familiarizando com elas um pouco mais enquanto utiliza o Funtoo Linux. At their essence, ela são "switches" que você pode definir para configurar opções que podem ser construídas em vários pacotes. Elas são utilizadas para assim personalizar seu Funtoo Linux system para que conheça as suas exatas necessidades. We added support for a <code>binary</code> USE flag to the <code>debian-sources</code> ebuilds, as well as a few other of our kernel ebuilds, to make it easier for new users to get Funtoo Linux up and running.
<tr><th class="info">Architecture</th><th class="info">Description</th></tr>
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<tr><td><code>x86-64bit</code></td><td>For modern 64-bit processors. Uses new 64-bit instructions and address space. Maintains 32-bit compatibility with multilib.</td></tr>
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<tr><td><code>pure64</code></td><td>For modern 64-bit processors but with no support for 64-bit compatibility.</td></tr>
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<tr><td><code>x86-32bit</code></td><td>For older 32-bit systems such as Athlon XP, Pentium 4, or earlier Atom.</td></tr>
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{{TableEnd}}
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==== Your SubArch ====
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Now, when we just want to update our system's packages, we'll type <code>emerge -auDN @world</code>, and it will update our world set, leaving out the kernel. Likewise, when we just want to update our kernel, we'll type <code>emerge -au @kernel</code>, and it will update our kernel, leaving out the world set.
  
Inside <code>/funtoo-current/x86-64bit/</code> on one of our mirrors, you'll see a bunch of directories for various ''subarches'' of Funtoo Linux. Subarches are builds of Funtoo Linux that are designed to run on a particular type of CPU, to offer the best possible performance. They also take advantage of the instruction sets available for each CPU.
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==== Building the Kernel ====
  
If you are using an AMD-based CPU, download a stage3 from <code>generic_64</code>, <code>amd64-k8</code>, <code>amd64-k10</code>, <code>amd-bulldozer</code>, <code>amd-piledriver</code> or <code>amd64-steamroller</code>.  
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{{Fancynote|1=
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See [[Funtoo Linux Kernels]] for a full list of kernels supported in Funtoo Linux. We recommend <code>debian-sources</code> for new users.}}
  
If you are using an Intel-based CPU, download a stage3 from <code>generic_64</code>, <code>atom_64</code>, <code>core2_64</code> or <code>corei7</code>.
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{{fancyimportant|1=
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<code>debian-sources</code> with <code>binary</code> USE flag requires at least 14GB free in <code>/var/tmp</code> and takes around 1 hour to build on a Intel Core i7 Processor.}}
  
If you are using a 32-bit CPU, download a stage3 from <code>generic_32</code>, <code>i686</code>, <code>core2_32</code>, <code>atom_32</code> or <code>athlon-xp</code>.
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Let's emerge our kernel:
 
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==== Setting the Date ====
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{{fancyimportant|If your system's date and time are too far off (typically by months or years,) then it may prevent Portage from properly downloading source tarballs. This is because some of our sources are downloaded via HTTPS, which use SSL certificates and are marked with an activation and expiration date.}}
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Now is a good time to verify the date and time are correctly set to UTC. Use the <code>date</code> command to verify the date and time:
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<console>
 
<console>
# ##i##date
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(chroot) # ##i##emerge -1 @kernel
Fri Jul 15 19:47:18 UTC 2011
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</console>
 
</console>
  
If the date and/or time need to be corrected, do so using <code>date MMDDhhmmYYYY</code>, keeping in mind <code>hhmm</code> are in 24-hour format. The example below changes the date and time to "July 16th, 2011 @ 8:00PM" UTC:
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{{Important|Right now, the <code>-1</code> option is required to not add our <code>@kernel</code> set to <code>world-sets</code>. This allows you to emerge it independently from @world. If you forget to use this option, edit <code>/var/lib/portage/world-sets</code> and remove the <code>@kernel</code> line. This will prevent kernel updates from being included in @world updates.}}
  
<console>
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Note that while use of the <code>binary</code> USE flag makes installing a working kernel extremely simple, it is one part of Funtoo Linux that takes a ''very'' long time to build from source, because it is building a kernel that supports ''all'' hardware that Linux supports! So, get the build started, and then let your machine compile. Slower machines can take up to several hours to build the kernel, and you'll want to make sure that you've set <code>MAKEOPTS</code> in <code>/etc/portage/make.conf</code> to the number of processing cores/threads (plus one) in your system before starting to build it as quickly as possible -- see the [[#/etc/portage/make.conf|/etc/portage/make.conf section]] if you forgot to do this.
# ##i##date 071620002011
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Fri Jul 16 20:00:00 UTC 2011
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</console>
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==== Download the Stage3 ====
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{{fancynote|NVIDIA card users: the <code>binary</code> USE flag installs the Nouveau drivers which cannot be loaded at the same time as the proprietary drivers, and cannot be unloaded at runtime because of KMS. You need to blacklist it under <code>/etc/modprobe.d/</code>.}}
Once you are in your Funtoo Linux root filesystem, use <code>wget</code> to download the Stage 3 tarball you have chosen to use as the basis for your new Funtoo Linux system. It should be saved to the <code>/mnt/funtoo</code> directory as follows:
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<console># ##i##cd /mnt/funtoo
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{{fancynote|For an overview of other kernel options for Funtoo Linux, see [[Funtoo Linux Kernels]]. There may be modules that the Debian kernel doesn't include, a situation where [http://www.funtoo.org/wiki/Funtoo_Linux_Kernels#Using_Debian-Sources_with_Genkernel genkernel] would be useful. Also be sure to see [[:Category:Hardware Compatibility|hardware compatibility]] information.}}
# ##i##wget http://ftp.osuosl.org/pub/funtoo/funtoo-current/x86-64bit/generic_64/stage3-latest.tar.xz
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</console>
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Note that 64-bit systems can run 32-bit or 64-bit stages, but 32-bit systems can only run 32-bit stages. Make sure that you select a Stage 3 build that is appropriate for your CPU. If you are not certain, it is a safe bet to choose the <code>generic_64</code> or <code>generic_32</code> stage. Consult the [[Download]] page for more information.
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Once the stage is downloaded, extract the contents with the following command, substituting in the actual name of your stage 3 tarball:
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<console>
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# ##i##tar xpf stage3-latest.tar.xz
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</console>
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{{important|It is very important to use <code>tar's</code> "<code>'''p'''</code>" option when extracting the Stage 3 tarball - it tells <code>tar</code> to ''preserve'' any permissions and ownership that exist within the archive. Without this option, your Funtoo Linux filesystem permissions will be incorrect.}}
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Once <code>emerge</code> completes, you'll have a brand new kernel and initramfs installed to <code>/boot</code>, plus kernel headers installed in <code>/usr/src/linux</code>, and you'll be ready to configure the boot loader to load these to boot your Funtoo Linux system.

Revision as of 18:39, February 25, 2015

Configurando e instalando o kernel Linux

Agora é hora de construir e instalar um kernel Linux, o qual é o coração de qualquer sistema Funtoo Linux. O kernel é carregado pelo boot loader, e interfaces diretamente com o hardware do seu sistema, e permite programas regulares (userspace) serem executador.

Um kernel deve ser configurado propriamente para o hardware do seu sistema, desse modo ele suporta seus hard drives, file systems, placas de rede, e assim por diante. Usuários de Linux mais experientes pode escolher instalar o kernel sources e configurar e instalar seu próprio kernel. Se você não sabe como fazer isso, nós fornecemos ebuilds que construirão automaticamente um kernel "universal", módulos e initramfs para a inicialização do seu sistema que suporte todo o hardware. Esse é um jeito extremamente simples de construção de um kernel que colocará seu sistema para inicializar.

Qual é o nosso objetivo? Para construir um kernel que reconhecerá todo o hardware em seu sistema necessário para inicialização, você será cumprimentado por um prompt de login amigável depois que a instalação estiver completa. Esses instruções lhe guiarão através do processo de instalação de um kernel no modo "fácil" -- sem exigir configuração do usuário, ao utilizar um kernel "universal".

Package Sets

Antes que estalemos um kernel, vamos cobrir um recurso do Portage chamado package sets. Portage, o sistema gerenciador/ports de pacotes para o Funtoo Linux, manterá rastro de pacotes do sistema assim como pacotes que você tem instalado ao invocar emerge diretamente. Esses pacotes que são parte do sistema base são considerados parte do conjunto de pacote do "sistema", enquanto pacotes que você tem instalado ao digitá-los na linha de comando (tal qual "gnome" em emerge gnome) serão adicionados ao conjunto de pacote "world". Isso proporciona um jeito fácil de atualizar o sistema inteiro.

No entanto, as vezes é bom ser capaz de atualizar o kernel todo por sim só, ou deixar uma atualização do kernel fora da sua regular atualização completa do sistema. Para fazer isso, criaremo uma nova configuração de pacote chamada "kernel".

Configuração de Pacote do Kernel

Para criar a configuração de pacote do kernel, realize os seguintes passos:

(chroot) # mkdir /etc/portage/sets
(chroot) # echo sys-kernel/debian-sources > /etc/portage/sets/kernel

Agora, vamos querer definir uma variável USE para dizer ao debian-sources que construa um kernel "universal" e o initramfs para nós, para levar Funtoo Linux a funcionamento na inicialização. Para fazer isso, vamos configurar a variável binary USE para debian-sources, como a seguir:

(chroot) # echo "sys-kernel/debian-sources binary" >> /etc/portage/package.use

Se as varáveis USE forem novas para você, você estará se familiarizando com elas um pouco mais enquanto utiliza o Funtoo Linux. At their essence, ela são "switches" que você pode definir para configurar opções que podem ser construídas em vários pacotes. Elas são utilizadas para assim personalizar seu Funtoo Linux system para que conheça as suas exatas necessidades. We added support for a binary USE flag to the debian-sources ebuilds, as well as a few other of our kernel ebuilds, to make it easier for new users to get Funtoo Linux up and running.

Now, when we just want to update our system's packages, we'll type emerge -auDN @world, and it will update our world set, leaving out the kernel. Likewise, when we just want to update our kernel, we'll type emerge -au @kernel, and it will update our kernel, leaving out the world set.

Building the Kernel

Note

See Funtoo Linux Kernels for a full list of kernels supported in Funtoo Linux. We recommend debian-sources for new users.

Important

debian-sources with binary USE flag requires at least 14GB free in /var/tmp and takes around 1 hour to build on a Intel Core i7 Processor.

Let's emerge our kernel:

(chroot) # emerge -1 @kernel
Important

Right now, the -1 option is required to not add our @kernel set to world-sets. This allows you to emerge it independently from @world. If you forget to use this option, edit /var/lib/portage/world-sets and remove the @kernel line. This will prevent kernel updates from being included in @world updates.

Note that while use of the binary USE flag makes installing a working kernel extremely simple, it is one part of Funtoo Linux that takes a very long time to build from source, because it is building a kernel that supports all hardware that Linux supports! So, get the build started, and then let your machine compile. Slower machines can take up to several hours to build the kernel, and you'll want to make sure that you've set MAKEOPTS in /etc/portage/make.conf to the number of processing cores/threads (plus one) in your system before starting to build it as quickly as possible -- see the /etc/portage/make.conf section if you forgot to do this.

Note

NVIDIA card users: the binary USE flag installs the Nouveau drivers which cannot be loaded at the same time as the proprietary drivers, and cannot be unloaded at runtime because of KMS. You need to blacklist it under /etc/modprobe.d/.

Note

For an overview of other kernel options for Funtoo Linux, see Funtoo Linux Kernels. There may be modules that the Debian kernel doesn't include, a situation where genkernel would be useful. Also be sure to see hardware compatibility information.

Once emerge completes, you'll have a brand new kernel and initramfs installed to /boot, plus kernel headers installed in /usr/src/linux, and you'll be ready to configure the boot loader to load these to boot your Funtoo Linux system.