[l10n] pt_BR: updating translation

 * partman-crypto is still untranslated
 * the build will complain about XRef that need to go inside boot-new, but 
   translation in ongoing, still need a few days to finish the update :-)

2 files changed, 367 insertions, 3 deletions

diff --git a/pt_BR/using-d-i/modules/mdcfg.xml b/pt_BR/using-d-i/modules/mdcfg.xml
index cf1385621..c6aba4d84 100644
--- a/pt_BR/using-d-i/modules/mdcfg.xml
+++ b/pt_BR/using-d-i/modules/mdcfg.xml
@@ -1,8 +1,7 @@
 <!-- retain these comments for translator revision tracking -->
-<!-- original version: 33725 -->
+<!-- original version: 38703 -->
 <!-- revised by Marco Carvalho (macs) 2005.12.31 -->
-<!-- reviewed by Felipe Augusto van de Wiel (faw) 2006.01.01 -->
-<!-- reviewed by Felipe Augusto van de Wiel (faw) 2006.04.10 -->
+<!-- reviewed by Felipe Augusto van de Wiel (faw) 2006.07.05 -->
 
    <sect3 id="mdcfg">
    <title>Configurando o dispositivo Multi-Discos (RAID via Software)</title>
@@ -181,6 +180,8 @@ ou configurações manualmente através do interpretador de comandos.
 
 Como próximo passo, você deverá selecionar <guimenuitem>Configurar o RAID via
 software</guimenuitem> através do menu principal do <command>partman</command>.
+(O menu só aparecerá após você marcar pelo menos uma partição para uso
+como <guimenuitem>Volume Físico para RAID</guimenuitem>).
 Na primeira tela do <command>mdcfg</command> selecione o item
 <guimenuitem>Criar um dispositivo MD</guimenuitem>. Você será presenteado com
 uma lista de tipos suportados de dispositivos MD, no qual poderá escolher um
diff --git a/pt_BR/using-d-i/modules/partman-crypto.xml b/pt_BR/using-d-i/modules/partman-crypto.xml
new file mode 100644
index 000000000..08fbbe1ec
--- /dev/null
+++ b/pt_BR/using-d-i/modules/partman-crypto.xml
@@ -0,0 +1,363 @@
+<!-- retain these comments for translator revision tracking -->
+<!-- original version: 38703 untranslated -->
+
+   <sect3 id="partman-crypto">
+   <title>Configuring Encrypted Volumes</title>
+<para>
+
+&d-i; allows you to set up encrypted partitions. Every file you write
+to such a partition is immediately saved to the device in encrypted
+form. Access to the encrypted data is granted only after entering
+the <firstterm>passphrase</firstterm> used when the encrypted
+partition was originally created. This feature is useful to protect
+sensitive data in case your laptop or hard drive gets stolen. The
+thief might get physical access to the hard drive, but without knowing
+the right passphrase, the data on the hard drive will look like random
+characters.
+
+</para><para>
+
+The two most important partitions to encrypt are: the home partition,
+where your private data resides, and the swap partition, where
+sensitive data might be stored temporarily during operation. Of
+course, nothing prevents you from encrypting any other partitions that might
+be of interest. For example <filename>/var</filename> where database
+servers, mail servers or print servers store their data, or
+<filename>/tmp</filename> which is used by various programs to store
+potentially interesting temporary files. Some people may even want to
+encrypt their whole system.  The only exception is
+the <filename>/boot</filename> partition which must remain
+unencrypted, because currently there is no way to load the kernel from
+an encrypted partition.
+
+</para><note><para>
+
+Please note that the performance of encrypted partitions will be
+less than that of unencrypted ones because the data needs to be
+decrypted or encrypted for every read or write. The performance impact
+depends on your CPU speed, chosen cipher and a key length.
+
+</para></note><para>
+
+To use encryption, you have to create a new partition by selecting
+some free space in the main partitioning menu. Another option is to
+choose an existing partition (e.g. a regular partition, an LVM logical
+volume or a RAID volume). In the <guimenu>Partition setting</guimenu>
+menu, you need to select <guimenuitem>physical volume for
+encryption</guimenuitem> at the <menuchoice> <guimenu>Use
+as:</guimenu> </menuchoice> option. The menu will then change to
+include several cryptographic options for the partition.
+
+</para><para>
+
+&d-i; supports several encryption methods. The default method
+is <firstterm>dm-crypt</firstterm> (included in newer Linux kernels,
+able to host LVM physical volumes), the other
+is <firstterm>loop-AES</firstterm> (older, maintained separately from
+the Linux kernel tree). Unless you have compelling reasons to do
+otherwise, it is recommended to use the default.
+
+<!-- TODO: link to the "Debian block device encryption guide"
+     once Max writes it :-) -->
+
+</para><para>
+
+First, let's have a look at available options available when you
+select <userinput>Device-mapper (dm-crypt)</userinput> as the
+encryption method. As always: when in doubt, use the defaults, because
+they have been carefully chosen with security in mind.
+
+<variablelist>
+
+<varlistentry>
+<term>Encryption: <userinput>aes</userinput></term>
+
+<listitem><para>
+
+This option lets you select the encryption algorithm
+(<firstterm>cipher</firstterm>) which will be used to encrypt the data
+on the partition. &d-i; currently supports the following block
+ciphers: <firstterm>aes</firstterm>, <firstterm>blowfish</firstterm>,
+<firstterm>serpent</firstterm>, and <firstterm>twofish</firstterm>.
+It is beyond the scope of this document to discuss the qualities of
+these different algorithms, however, it might help your decision to
+know that in 2000, <emphasis>AES</emphasis> was chosen by the American
+National Institute of Standards and Technology as the standard
+encryption algorithm for protecting sensitive information in the 21st
+century.
+
+</para></listitem>
+</varlistentry>
+
+<varlistentry>
+<term>Key size: <userinput>256</userinput></term>
+
+<listitem><para>
+
+Here you can specify the length of the encryption key. With a larger
+key size, the strength of the encryption is generally improved. On the
+other hand, increasing the length of the key usually has a negative
+impact on performance. Available key sizes vary depending on the
+cipher.
+
+</para></listitem>
+</varlistentry>
+
+<varlistentry>
+<term>IV algorithm: <userinput>cbc-essiv:sha256</userinput></term>
+
+<listitem><para>
+
+The <firstterm>Initialization Vector</firstterm> or
+<firstterm>IV</firstterm> algorithm is used in cryptography to ensure
+that applying the cipher on the same <firstterm>clear text</firstterm>
+data with the same key always produces a unique
+<firstterm>cipher text</firstterm>. The idea is to prevent the
+attacker from deducing information from repeated patterns in the encrypted
+data.
+
+</para><para>
+
+From the provided alternatives, the default
+<userinput>cbc-essiv:sha256</userinput> is currently the least
+vulnerable to known attacks. Use the other alternatives only when you
+need to ensure compatibility with some previously installed system
+that is not able to use newer algorithms.
+
+</para></listitem>
+</varlistentry>
+
+<varlistentry>
+<term>Encryption key: <userinput>Passphrase</userinput></term>
+
+<listitem><para>
+
+Here you can choose the type of the encryption key for this partition.
+
+ <variablelist>
+ <varlistentry>
+ <term>Passphrase</term>
+ <listitem><para>
+
+The encryption key will be computed<footnote>
+<para>
+
+Using a passphrase as the key currently means that the partition will
+be set up using <ulink url="&url-luks;">LUKS</ulink>.
+
+</para></footnote> on the basis of a passphrase which you will be able
+to enter later in the process.
+
+ </para></listitem>
+ </varlistentry>
+
+ <varlistentry>
+ <term>Random key</term>
+ <listitem><para>
+
+A new encryption key will be generated from random data each time you
+try to bring up the encrypted partition.  In other words: on every
+shutdown the content of the partition will be lost as the key is
+deleted from memory. (Of course, you could try to guess the key with a
+brute force attack, but unless there is an unknown weakness in the
+cipher algorithm, it is not achievable in our lifetime.)
+
+ </para><para>
+
+Random keys are useful for swap partitions because you do not need to
+bother yourself with remembering the passphrase or wiping sensitive
+information from the swap partition before shutting down your
+computer. However, it also means that you
+will <emphasis>not</emphasis> be able to use
+the <quote>suspend-to-disk</quote> functionality offered by newer
+Linux kernels as it will be impossible (during a subsequent boot) to
+recover the suspended data written to the swap partition.
+
+ </para></listitem>
+ </varlistentry>
+ </variablelist>
+
+</para></listitem>
+</varlistentry>
+
+<varlistentry>
+<term>Erase data: <userinput>yes</userinput></term>
+
+<listitem><para>
+
+Determines whether the content of this partition should be overwritten
+with random data before setting up the encryption. This is recommended
+because it might otherwise be possible for an attacker to discern
+which parts of the partition are in use and which are not. In
+addition, this will make it harder to recover any leftover data from
+previous installations<footnote><para>
+
+It is believed that the guys from three-letter agencies can restore
+the data even after several rewrites of the magnetooptical media,
+though.
+
+</para></footnote>.
+
+</para></listitem>
+</varlistentry>
+
+</variablelist>
+
+</para><para>
+
+If you select <menuchoice> <guimenu>Encryption method:</guimenu>
+<guimenuitem>Loopback (loop-AES)</guimenuitem> </menuchoice>, the menu
+changes to provide the following options:
+
+
+<variablelist>
+<varlistentry>
+<term>Encryption: <userinput>AES256</userinput></term>
+
+<listitem><para>
+
+For loop-AES, unlike dm-crypt, the options for cipher and key size are
+combined, so you can select both at the same time.  Please see the
+above sections on ciphers and key sizes for further information.
+
+</para></listitem>
+</varlistentry>
+
+<varlistentry>
+<term>Encryption key: <userinput>Keyfile (GnuPG)</userinput></term>
+
+<listitem><para>
+
+Here you can select the type of the encryption key for this partition.
+
+ <variablelist>
+ <varlistentry>
+ <term>Keyfile (GnuPG)</term>
+ <listitem><para>
+
+The encryption key will be generated from random data during the
+installation. Moreover this key will be encrypted
+with <application>GnuPG</application>, so to use it, you will need to
+enter the proper passphrase (you will be asked to provide one later in
+the process).
+
+ </para></listitem>
+ </varlistentry>
+
+ <varlistentry>
+ <term>Random key</term>
+ <listitem><para>
+
+Please see the the section on random keys above.
+
+ </para></listitem>
+ </varlistentry>
+ </variablelist>
+
+</para></listitem>
+</varlistentry>
+
+<varlistentry>
+<term>Erase data: <userinput>yes</userinput></term>
+
+<listitem><para>
+
+Please see the the section on erasing data above.
+
+</para></listitem>
+</varlistentry>
+
+</variablelist>
+
+</para><note><para>
+
+Please note that the <emphasis>graphical</emphasis> version of the
+installer still has some limitations when compared to the textual
+one. For cryptography it means you can set up only volumes using
+<emphasis>passphrases</emphasis> as the encryption keys.
+
+</para></note><para>
+
+
+After you have selected the desired parameters for your encrypted
+partitions, return back to the main partitioning menu. There should
+now be a new menu item called <guimenu>Configure encrypted
+volumes</guimenu>.  After you select it, you will be asked to confirm
+the deletion of data on partitions marked to be erased and possibly
+other actions such as writing a new partition table.  For large
+partitions this might take some time.
+
+</para><para>
+
+Next you will be asked to enter a passphrase for partitions configured
+to use one.  Good passphrases should be longer than 8 characters,
+should be a mixture of letters, numbers and other characters and
+should not contain common dictionary words or information easily
+associable with you (such as birthdates, hobbies, pet names, names of
+family members or relatives, etc.).
+
+</para><warning><para>
+
+Before you input any passphrases, you should have made sure that your
+keyboard is configured correctly and generates the expected
+characters. If you are unsure, you can switch to the second virtual
+console and type some text at the prompt. This ensures that you won't be
+surprised later, e.g. by trying to input a passphrase using a qwerty 
+keyboard layout when you used an azerty layout during the installation.
+This situation can have several causes. Maybe you switched to another
+keyboard layout during the installation, or the selected keyboard layout
+might not have been set up yet when entering the passphrase for the
+root file system.
+
+</para></warning><para>
+
+If you selected to use methods other than a passphrase to create
+encryption keys, they will be generated now. Because the kernel may
+not have gathered a sufficient amount of entropy at this early stage
+of the installation, the process may take a long time. You can help
+speed up the process by generating entropy: e.g. by pressing random
+keys, or by switching to the shell on the second virtual console and
+generating some network and disk traffic (downloading some files,
+feeding big files into <filename>/dev/null</filename>, etc.).
+
+<!-- TODO: Mention hardware random generators when we will support
+     them -->
+
+This will be repeated for each partition to be encrypted.
+
+</para><para>
+
+After returning to the main partitioning menu, you will see all
+encrypted volumes as additional partitions which can be configured in
+the same way as ordinary partitions. The following example shows two
+different volumes. The first one is encrypted via dm-crypt, the second
+one via loop-AES.
+
+<informalexample><screen>
+Encrypted volume (<replaceable>crypt0</replaceable>) - 115.1 GB Linux device-mapper
+     #1 115.1 GB  F ext3
+
+Loopback (<replaceable>loop0</replaceable>) - 515.2 MB AES256 keyfile
+     #1 515.2 MB  F ext3
+</screen></informalexample>
+
+Now is the time to assign mount points to the volumes and optionally
+change the file system types if the defaults do not suit you.
+
+</para><para>
+
+One thing to note here are the identifiers in parentheses
+(<replaceable>crypt0</replaceable>
+and <replaceable>loop0</replaceable> in this case) and the mount
+points you assigned to each encrypted volume. You will need this
+information later when booting the new system. The differences between
+ordinary boot process and boot process with encryption involved will
+be covered later in <xref linkend="mount-encrypted-volumes"/>.
+
+</para><para>
+
+Once you are satisfied with the partitioning scheme, continue with the
+installation.
+
+</para>
+   </sect3>