- Switch Finnish from XML-based to PO-based translation

- Correct placement of changelog entries from Joey

13 files changed, 0 insertions, 1030 deletions

diff --git a/fi/partitioning/device-names.xml b/fi/partitioning/device-names.xml
deleted file mode 100644
index 49effd568..000000000
--- a/fi/partitioning/device-names.xml
+++ /dev/null
@@ -1,161 +0,0 @@
-<!-- retain these comments for translator revision tracking -->
-<!-- original version: 28997 untranslated -->
-
-
- <sect1 id="device-names">
- <title>Device Names in Linux</title>
-<para>
-
-Linux disks and partition names may be different from other operating
-systems.  You need to know the names that Linux uses when you create
-and mount partitions. Here's the basic naming scheme:
-
-</para>
-<itemizedlist arch="not-s390">
-<listitem><para>
-
-The first floppy drive is named <filename>/dev/fd0</filename>.
-
-</para></listitem>
-<listitem><para>
-
-The second floppy drive is named <filename>/dev/fd1</filename>.
-
-</para></listitem>
-<listitem><para>
-
-The first SCSI disk (SCSI ID address-wise) is named
-<filename>/dev/sda</filename>.
-
-</para></listitem>
-<listitem><para>
-
-The second SCSI disk (address-wise) is named
-<filename>/dev/sdb</filename>, and so on.
-
-</para></listitem>
-<listitem><para>
-
-The first SCSI CD-ROM is named <filename>/dev/scd0</filename>, also
-known as <filename>/dev/sr0</filename>.
-
-</para></listitem>
-<listitem><para>
-
-The master disk on IDE primary controller is named
-<filename>/dev/hda</filename>.
-
-</para></listitem>
-<listitem><para>
-
-The slave disk on IDE primary controller is named
-<filename>/dev/hdb</filename>.
-
-</para></listitem>
-<listitem><para>
-
-The master and slave disks of the secondary controller can be called
-<filename>/dev/hdc</filename> and <filename>/dev/hdd</filename>,
-respectively.  Newer IDE controllers can actually have two channels,
-effectively acting like two controllers.
-
-<phrase arch="m68k">
-The letters may differ from what shows in the mac program pdisk
-(i.e. what shows up as <filename>/dev/hdc</filename> on pdisk may show
-up as <filename>/dev/hda</filename> in Debian).
-</phrase>
-
-</para></listitem>
-
-<listitem arch="i386"><para>
-
-The first XT disk is named <filename>/dev/xda</filename>.
-
-</para></listitem>
-<listitem arch="i386"><para>
-
-The second XT disk is named <filename>/dev/xdb</filename>.
-
-</para></listitem>
-<listitem arch="m68k"><para>
-
-The first ACSI device is named <filename>/dev/ada</filename>, the
-second is named <filename>/dev/adb</filename>.
-
-</para></listitem>
-</itemizedlist>
-
-<itemizedlist arch="s390">
-<listitem><para>
-
-The first DASD device is named
-<filename>/dev/dasda</filename>.
-
-</para></listitem>
-<listitem><para>
-
-The second DASD device is named
-<filename>/dev/dasdb</filename>, and so on.
-
-</para></listitem>
-</itemizedlist>
-
-<para arch="not-s390">
-
-The partitions on each disk are represented by appending a decimal
-number to the disk name: <filename>sda1</filename> and
-<filename>sda2</filename> represent the first and
-second partitions of the first SCSI disk drive in your system.
-
-</para><para arch="not-s390">
-
-Here is a real-life example.  Let's assume you have a system with 2
-SCSI disks, one at SCSI address 2 and the other at SCSI address 4.
-The first disk (at address 2) is then named <filename>sda</filename>,
-and the second <filename>sdb</filename>.  If the
-<filename>sda</filename> drive has 3 partitions on it, these will be
-named <filename>sda1</filename>, <filename>sda2</filename>, and
-<filename>sda3</filename>.  The same applies to the
-<filename>sdb</filename> disk and its partitions.
-
-</para><para arch="not-s390">
-
-Note that if you have two SCSI host bus adapters (i.e., controllers),
-the order of the drives can get confusing.  The best solution in this
-case is to watch the boot messages, assuming you know the drive models
-and/or capacities.
-
-</para><para arch="i386">
-
-Linux represents the primary partitions as the drive name, plus the
-numbers 1 through 4.  For example, the first primary partition on the
-first IDE drive is <filename>/dev/hda1</filename>.  The logical partitions are
-numbered starting at 5, so the first logical partition on that same
-drive is <filename>/dev/hda5</filename>.  Remember that the extended
-partition, that is, the primary partition holding the logical
-partitions, is not usable by itself.  This applies to SCSI disks as
-well as IDE disks.
-
-</para><para arch="m68k">
-
-VMEbus systems using the TEAC FC-1 SCSI floppy drive will see it as normal
-SCSI disk. To make identification of the drive simpler the installation
-software will create a symbolic link to the appropriate device and name
-it <filename>/dev/sfd0</filename>.
-
-</para><para arch="sparc">
-
-Sun disk partitions allow for 8 separate partitions (or slices). The
-third partition is usually (and is preferred to have) the <quote>Whole
-Disk</quote> partition. This partition references all of the sectors of the
-disk, and is used by the boot loader (either SILO, or Sun's).
-
-</para><para arch="s390">
-
-The partitions on each disk are represented by appending a decimal
-number to the disk name: <filename>dasda1</filename> and
-<filename>dasda2</filename> represent the first and
-second partitions of the first DASD device in your system.
-
-</para>
- </sect1>
diff --git a/fi/partitioning/partition-programs.xml b/fi/partitioning/partition-programs.xml
deleted file mode 100644
index 4bd51a9bb..000000000
--- a/fi/partitioning/partition-programs.xml
+++ /dev/null
@@ -1,165 +0,0 @@
-<!-- retain these comments for translator revision tracking -->
-<!-- original version: 36732 untranslated -->
-
- <sect1 id="partition-programs">
- <title>Debian Partitioning Programs</title>
-<para>
-
-Several varieties of partitioning programs have been adapted by Debian
-developers to work on various types of hard disks and computer
-architectures. Following is a list of the program(s) applicable for
-your architecture.
-
-</para>
-
-<variablelist>
-
-<varlistentry>
-<term><command>partman</command></term>
-<listitem><para>
-
-Recommended partitioning tool in Debian. This Swiss army knife can
-also resize partitions, create filesystems
-<phrase arch="i386"> (<quote>format</quote> in Windows speak)</phrase>
-and assign them to the mountpoints.
-
-</para></listitem>
-</varlistentry>
-
-<varlistentry condition="fdisk.txt">
-<term><command>fdisk</command></term>
-<listitem><para>
-
-The original Linux disk partitioner, good for gurus.
-
-</para><para>
-
-Be careful if you have existing FreeBSD partitions on your machine.
-The installation kernels include support for these partitions, but the
-way that <command>fdisk</command> represents them (or not) can make the
-device names differ.  See the
-<ulink url="&url-linux-freebsd;">Linux+FreeBSD HOWTO</ulink>
-
-</para></listitem>
-</varlistentry>
-
-<varlistentry condition="cfdisk.txt">
-<term><command>cfdisk</command></term>
-<listitem><para>
-
-A simple-to-use, full-screen disk partitioner for the rest of us.
-
-</para><para>
-
-Note that <command>cfdisk</command> doesn't understand FreeBSD
-partitions at all, and, again, device names may differ as a result.
-
-</para></listitem>
-</varlistentry>
-
-<varlistentry condition="atari-fdisk.txt">
-<term><command>atari-fdisk</command></term>
-<listitem><para>
-
-Atari-aware version of <command>fdisk</command>.
-
-</para></listitem>
-</varlistentry>
-
-<varlistentry condition="amiga-fdisk.txt">
-<term><command>amiga-fdisk</command></term>
-<listitem><para>
-
-Amiga-aware version of <command>fdisk</command>.
-
-</para></listitem>
-</varlistentry>
-
-<varlistentry condition="mac-fdisk.txt">
-<term><command>mac-fdisk</command></term>
-<listitem><para>
-
-Mac-aware version of <command>fdisk</command>.
-
-</para></listitem>
-</varlistentry>
-
-<varlistentry condition="pmac-fdisk.txt">
-<term><command>pmac-fdisk</command></term>
-<listitem><para>
-
-PowerMac-aware version of <command>fdisk</command>, also used by BVM
-and Motorola VMEbus systems.
-
-</para></listitem>
-</varlistentry>
-
-<varlistentry condition="fdasd.txt">
-<term><command>fdasd</command></term>
-<listitem><para>
-
-&arch-title; version of <command>fdisk</command>; Please read the
-fdasd manual page or chapter 13 in
-<ulink url="http://oss.software.ibm.com/developerworks/opensource/linux390/docu/l390dd08.pdf">
-Device Drivers and Installation Commands</ulink> for details.
-
-</para></listitem>
-</varlistentry>
-</variablelist>
-
-<para>
-
-One of these programs will be run by default when you select
-<guimenuitem>Partition disks</guimenuitem> (or similar). It may be possible
-to use a different partitioning tool from the command line on VT2, but this
-is not recommended.
-
-</para><para>
-
-If you will be working with more than 20 partitions on your ide disk,
-you will need to create devices for partitions 21 and beyond. The next
-step of initializing the partition will fail unless a proper device is
-present. As an example, here are commands you can use in
-<userinput>tty2</userinput> or under <guimenuitem>Execute a shell</guimenuitem>
-to add a device so the 21st partition can be initialized:
-
-<informalexample><screen>
-# cd /dev
-# mknod hda21 b 3 21
-# chgrp disk hda21
-# chmod 660 hda21
-</screen></informalexample>
-
-Booting into the new system will fail unless proper devices are present
-on the target system. After installing the kernel and modules, execute:
-
-<informalexample><screen>
-# cd /target/dev
-# mknod hda21 b 3 21
-# chgrp disk hda21
-# chmod 660 hda21
-</screen></informalexample>
-
-<phrase arch="i386">Remember to mark your boot partition as
-<quote>Bootable</quote>.</phrase>
-
-</para><para condition="mac-fdisk.txt">
-
-One key point when partitioning for Mac type disks is that the
-swap partition is identified by its name; it must be named <quote>swap</quote>.
-All Mac linux partitions are the same partition type,
-Apple_UNIX_SRV2. Please read the fine manual. We also suggest reading the
-<ulink url="&url-mac-fdisk-tutorial;">mac-fdisk Tutorial</ulink>, which
-includes steps you should take if you are sharing your disk with MacOS.
-
-</para>
-
-&partition-alpha.xml;
-&partition-hppa.xml;
-&partition-i386.xml;
-&partition-ia64.xml;
-&partition-mips.xml;
-&partition-powerpc.xml;
-&partition-sparc.xml;
-
- </sect1>
diff --git a/fi/partitioning/partition/alpha.xml b/fi/partitioning/partition/alpha.xml
deleted file mode 100644
index 240e7bd3d..000000000
--- a/fi/partitioning/partition/alpha.xml
+++ /dev/null
@@ -1,58 +0,0 @@
-<!-- retain these comments for translator revision tracking -->
-<!-- original version: 28997 untranslated -->
-
-
-  <sect2 arch="alpha"><title>Partitioning for &arch-title;</title>
-<para>
-
-Booting Debian from the SRM console (the only disk boot method supported
-by &releasename;) requires you to have a BSD disk label, not a DOS
-partition table, on your boot disk.  (Remember, the SRM boot block is
-incompatible with MS-DOS partition tables &mdash; see
-<xref linkend="alpha-firmware"/>.)  As a result, <command>partman</command>
-creates BSD disk labels when running on &architecture;, but if your disk
-has an existing DOS partition table the existing partitions will need to
-be deleted before partman can convert it to use a disk label.
-
-</para><para>
-
-If you have chosen to use <command>fdisk</command> to partition your
-disk, and the disk that you have selected for partitioning does not
-already contain a BSD disk label, you must use the <quote>b</quote>
-command to enter disk label mode.
-
-</para><para>
-
-Unless you wish to use the disk you are partitioning from Tru64 Unix
-or one of the free 4.4BSD-Lite derived operating systems (FreeBSD,
-OpenBSD, or NetBSD), it is suggested that you do
-<emphasis>not</emphasis> make the third partition contain the whole
-disk.  This is not required by <command>aboot</command>, and in fact,
-it may lead to confusion since the <command>swriteboot</command>
-utility used to install <command>aboot</command> in the boot sector
-will complain about a partition overlapping with the boot block.
-
-</para><para>
-
-Also, because <command>aboot</command> is written to the first few
-sectors of the disk (currently it occupies about 70 kilobytes, or 150
-sectors), you <emphasis>must</emphasis> leave enough empty space at
-the beginning of the disk for it.  In the past, it was suggested that
-you make a small partition at the beginning of the disk, to be left
-unformatted.  For the same reason mentioned above, we now suggest that
-you do not do this on disks that will only be used by GNU/Linux.  When
-using <command>partman</command>, a small partition will still be
-created for <command>aboot</command> for convenience reasons.
-
-</para><para condition="FIXME">
-
-For ARC installations, you should make a small FAT partition at the
-beginning of the disk to contain <command>MILO</command> and
-<command>linload.exe</command> &mdash; 5 megabytes should be sufficient, see
-<xref linkend="non-debian-partitioning"/>. Unfortunately, making FAT
-file systems from the menu is not yet supported, so you'll have to do
-it manually from the shell using <command>mkdosfs</command> before
-attempting to install the boot loader.
-
-</para>
-  </sect2>
diff --git a/fi/partitioning/partition/hppa.xml b/fi/partitioning/partition/hppa.xml
deleted file mode 100644
index e93a8bb7f..000000000
--- a/fi/partitioning/partition/hppa.xml
+++ /dev/null
@@ -1,22 +0,0 @@
-<!-- retain these comments for translator revision tracking -->
-<!-- original version: 35595 untranslated -->
-
-
-  <sect2 arch="hppa"><title>Partitioning for &arch-title;</title>
-<para>
-
-PALO, the HPPA boot loader, requires a partition of type <quote>F0</quote> somewhere
-in the first 2GB.  This is where the boot loader and an optional kernel
-and RAMdisk will be stored, so make it big enough for that &mdash; at least
-4Mb (I like 8&ndash;16MB).  An additional requirement of the firmware is that
-the Linux kernel must reside within the first 2GB of the disk.  This
-is typically achieved by making the root ext2 partition fit entirely
-within the first 2GB of the disk.  Alternatively you can create a small
-ext2 partition near the start of the disk and mount that on
-<filename>/boot</filename>, since that is the directory where the Linux
-kernel(s) will be stored.  <filename>/boot</filename> needs to be big enough
-to hold whatever kernels (and backups) you might wish to load; 25&ndash;50MB
-is generally sufficient.
-
-</para>
-  </sect2>
diff --git a/fi/partitioning/partition/i386.xml b/fi/partitioning/partition/i386.xml
deleted file mode 100644
index c7864c635..000000000
--- a/fi/partitioning/partition/i386.xml
+++ /dev/null
@@ -1,94 +0,0 @@
-<!-- retain these comments for translator revision tracking -->
-<!-- original version: 35590 untranslated -->
-
-
-  <sect2 arch="i386"><title>Partitioning for &arch-title;</title>
-<para>
-
-If you have an existing other operating system such as DOS or Windows and
-you want to preserve that operating system while installing Debian, you may
-need to resize its partition to free up space for the Debian installation.
-The installer supports resizing of both FAT and NTFS filesystems; when you
-get to the installer's partitioning step, select the option to partition
-manually and then simply select an existing partition and change its size.
-
-</para><para>
-
-The PC BIOS generally adds additional constraints for disk
-partitioning.  There is a limit to how many <quote>primary</quote> and
-<quote>logical</quote> partitions a drive can contain.  Additionally, with pre
-1994&ndash;98 BIOSes, there are limits to where on the drive the BIOS can boot
-from.  More information can be found in the
-<ulink url="&url-partition-howto;">Linux Partition HOWTO</ulink> and the
-<ulink url="&url-phoenix-bios-faq-large-disk;">Phoenix BIOS FAQ</ulink>, but
-this section will include a brief overview to help you plan most situations.
-
-</para><para>
-
-<quote>Primary</quote> partitions are the original partitioning scheme for PC
-disks.  However, there can only be four of them.  To get past this
-limitation, <quote>extended</quote> and <quote>logical</quote> partitions were invented.  By
-setting one of your primary partitions as an extended partition, you
-can subdivide all the space allocated to that partition into logical
-partitions.  You can create up to 60 logical partitions per extended
-partition; however, you can only have one extended partition per
-drive.
-
-</para><para>
-
-Linux limits the partitions per drive to 15 partitions for SCSI disks
-(3 usable primary partitions, 12 logical partitions), and 63
-partitions on an IDE drive (3 usable primary partitions, 60 logical
-partitions). However the normal &debian; system provides
-only 20 devices for partitions, so you may not install on partitions
-higher than 20 unless you first manually create devices for those
-partitions.
-
-</para><para>
-
-If you have a large IDE disk, and are using neither LBA addressing,
-nor overlay drivers (sometimes provided by hard disk manufacturers),
-then the boot partition (the partition containing your kernel image)
-must be placed within the first 1024 cylinders of your hard drive
-(usually around 524 megabytes, without BIOS translation).
-
-</para><para>
-
-This restriction doesn't apply if you have a BIOS newer than around
-1995&ndash;98 (depending on the manufacturer) that supports the <quote>Enhanced
-Disk Drive Support Specification</quote>.  Both Lilo, the Linux loader, and
-Debian's alternative <command>mbr</command> must use the BIOS to read the
-kernel from the disk into RAM.  If the BIOS int 0x13 large disk access
-extensions are found to be present, they will be utilized. Otherwise,
-the legacy disk access interface is used as a fall-back, and it cannot
-be used to address any location on the disk higher than the 1023rd
-cylinder.  Once Linux is booted, no matter what BIOS your computer
-has, these restrictions no longer apply, since Linux does not use the
-BIOS for disk access.
-
-</para><para>
-
-If you have a large disk, you might have to use cylinder translation
-techniques, which you can set from your BIOS setup program, such as
-LBA (Logical Block Addressing) or CHS translation mode (<quote>Large</quote>).
-More information about issues with large disks can be found in the
-<ulink url="&url-large-disk-howto;">Large Disk HOWTO</ulink>.  If you
-are using a cylinder translation scheme, and the BIOS does not support
-the large disk access extensions, then your boot partition has to fit
-within the <emphasis>translated</emphasis> representation of the
-1024th cylinder.
-
-</para><para>
-
-The recommended way of accomplishing this is to create a small (25&ndash;50MB
-should suffice) partition at the beginning of the disk to be used as
-the boot partition, and then create whatever other partitions you wish
-to have, in the remaining area.  This boot partition
-<emphasis>must</emphasis> be mounted on <filename>/boot</filename>,
-since that is the directory where the Linux kernel(s) will be stored.
-This configuration will work on any system, regardless of whether LBA
-or large disk CHS translation is used, and regardless of whether your
-BIOS supports the large disk access extensions.
-
-</para>
-  </sect2>
diff --git a/fi/partitioning/partition/ia64.xml b/fi/partitioning/partition/ia64.xml
deleted file mode 100644
index 1dc42db62..000000000
--- a/fi/partitioning/partition/ia64.xml
+++ /dev/null
@@ -1,125 +0,0 @@
-<!-- retain these comments for translator revision tracking -->
-<!-- original version: 28672 untranslated -->
-
-
-  <sect2 arch="ia64"><title>Partitioning for &arch-title;</title>
-
-<para>
-
-The <command>partman</command> disk partitioner is the default
-partitioning tool for the installer.
-It manages the set of partitions and their mount points to ensure
-that the disks and filesystems is properly configured for a successful
-installation.  It actually uses the <command>parted</command> to
-do the on-disk partitioning.
-
-</para>
-
-   <note>
-   <title>EFI Recognized Formats</title>
-<para>
-
-The IA64 EFI firmware supports two partition table (or disk label)
-formats, GPT and MS-DOS.  MS-DOS, the format typically used on i386
-PCs, is no longer recommended for IA64 systems.  Although
-the installer also provides the <command>cfdisk</command>,
-you should only use the <ulink url="parted.txt">
-<command>parted</command></ulink> because only it can manage both GPT
-and MS-DOS tables correctly.
-
-</para></note>
-
-<para>
-
-The automatic partitioning recipes for <command>partman</command>
-allocate an EFI partition as the first partition on the disk.
-You can also set up the partition under the <guimenuitem>Guided
-partitioning</guimenuitem> from the main menu in a manner similar to
-setting up a <emphasis>swap</emphasis> partition.
-
-</para><para>
-
-The <command>partman</command> partitioner will handle most disk
-layouts.
-For those rare cases where it is necessary to manually set up a disk,
-you can use the shell as described above and run the
-<command>parted</command> utility directly using its command line interface.
-Assuming that you want to erase your whole disk and create a GPT table
-and some partitions, then something similar to the following command
-sequence could be used:
-
-<informalexample><screen>
-      mklabel gpt
-      mkpartfs primary fat 0 50
-      mkpartfs primary linux-swap 51 1000
-      mkpartfs primary ext2 1001 3000
-      set 1 boot on
-      print
-      quit
-</screen></informalexample>
-
-This creates a new partition table, and three partitions to be used as
-an EFI boot partition, swap space, and a root file system.  Finally it
-sets the boot flag on the EFI partition.  Partitions are specified in
-Megabytes, with start and end offsets from the beginning of the disk.
-So, for example, above we created a 1999MB ext2 file system starting
-at offset 1001MB from the start of the disk.  Note that formatting swap
-space with <command>parted</command> can take a few minutes to
-complete, as it scans the partition for bad blocks.
-
-</para>
-  </sect2>
-
-  <sect2 arch="ia64"><title>Boot Loader Partition Requirements</title>
-
-<para>
-
-ELILO, the ia64 boot loader, requires a partition containing a FAT
-file system with the <userinput>boot</userinput> flag set.
-The partition must be big enough to hold the boot loader and any
-kernels or RAMdisks you may wish to boot.  A minimum size would be
-about 20MB, but if you expect to run with multiple kernels, then
-128MB might be a better size.
-
-</para><para>
-
-The EFI Boot Manager and the EFI Shell fully support the GPT table
-so the boot partition does not necessarily have to be the first
-partition or even on the same disk.
-This is convenient if you should forget to allocate the partition and
-only find out after you have formatted the other partitions on your disk(s).
-The <command>partman</command> partitioner checks for an EFI partition
-at the same time it checks for a properly set up <emphasis>root</emphasis>
-partition.
-This gives you an opportunity to correct the disk layout before the
-package install begins.
-The easiest way to correct this omission is to shrink the last partition
-of the disk to make enough free space for adding an EFI partition.
-
-</para><para>
-
-It is strongly recommended that you allocate the EFI boot partition
-on the same disk as the <emphasis>root</emphasis> filesystem.
-
-</para>
-
-  </sect2>
-
-  <sect2 arch="ia64"><title>EFI Diagnostic Partitions</title>
-
-<para>
-
-The EFI firmware is significantly more sophisticated than the usual
-BIOS seen on most x86 PCs.
-Some system vendors take advantage of the ability of the EFI to
-access files and run programs from a hard disk filesystem to store diagnostics
-and EFI based system management utilities on the hard disk.
-This is a separate FAT format filesystem on the system disk.
-Consult the system documentation and accessories that come with the
-system for details.
-The easiest time to set up a diagnostics partition is at the same time you
-set up the EFI boot partition.
-
-</para>
-
-   </sect2>
diff --git a/fi/partitioning/partition/mips.xml b/fi/partitioning/partition/mips.xml
deleted file mode 100644
index edd4d7176..000000000
--- a/fi/partitioning/partition/mips.xml
+++ /dev/null
@@ -1,16 +0,0 @@
-<!-- retain these comments for translator revision tracking -->
-<!-- original version: 35613 untranslated -->
-
-
-  <sect2 arch="mips"><title>Partitioning for &arch-title;</title>
-<para>
-
-SGI machines require an SGI disk label in order to make the system bootable
-from hard disk. It can be created in the fdisk expert menu. The thereby
-created volume header (partition number 9) should be at least 3MB large.
-If the volume header created is too small, you can simply delete
-partition number 9 and re-add it with a different size. Note that the
-volume header must start at sector 0.
-
-</para>
-  </sect2>
diff --git a/fi/partitioning/partition/powerpc.xml b/fi/partitioning/partition/powerpc.xml
deleted file mode 100644
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-<!-- original version: 23146 untranslated -->
-
-
-  <sect2 arch="powerpc"><title>Partitioning Newer PowerMacs</title>
-<para>
-
-If you are installing onto a NewWorld PowerMac you must create a
-special bootstrap partition to hold the boot loader. The size of this
-partition must be 800KB and its partition type must be
-<emphasis>Apple_Bootstrap</emphasis>.  If the bootstrap partition is
-not created with the <emphasis>Apple_Bootstrap</emphasis> type your
-machine cannot be made bootable from the hard disk.  This partition
-can easily be created by creating a new partition in
-<command>partman</command> and telling it to use it as a <quote>NewWorld
-boot partition</quote>, or in <command>mac-fdisk</command> using the
-<userinput>b</userinput> command.
-
-</para><para>
-
-The special partition type Apple_Bootstrap is required to prevent
-MacOS from mounting and damaging the bootstrap partition, as there are
-special modifications made to it in order for OpenFirmware to boot it
-automatically.
-
-</para><para>
-
-Note that the bootstrap partition is only meant to hold 3 very small
-files: the <command>yaboot</command> binary, its configuration
-<filename>yaboot.conf</filename>, and a first stage OpenFirmware
-loader <command>ofboot.b</command>.  It need not and must not be
-mounted on your file system nor have kernels or anything else copied
-to it. The <command>ybin</command> and <command>mkofboot</command>
-utilities are used to manipulate this partition.
-
-</para><para>
-
-In order for OpenFirmware to automatically boot &debian; the bootstrap
-partition should appear before other boot partitions on the disk,
-especially MacOS boot partitions.  The bootstrap partition should be
-the first one you create. However, if you add a bootstrap partition
-later, you can use <command>mac-fdisk</command>'s
-<userinput>r</userinput> command to reorder the partition map so the
-bootstrap partition comes right after the map (which is always
-partition 1). It's the logical map order, not the physical address
-order, that counts.
-
-</para><para>
-
-Apple disks normally have several small driver partitions. If you
-intend to dual boot your machine with MacOSX, you should retain these
-partitions and a small HFS partition (800k is the minimum size). That
-is because MacOSX, on every boot, offers to initialize any disks which do
-not have active MacOS partitions and driver partitions.
-
-</para>
-  </sect2>
diff --git a/fi/partitioning/partition/sparc.xml b/fi/partitioning/partition/sparc.xml
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-
-
-  <sect2 arch="sparc"><title>Partitioning for &arch-title;</title>
-<para>
-
-Make sure you create a <quote>Sun disk label</quote> on your boot disk.  This is
-the only kind of partition scheme that the OpenBoot PROM understands,
-and so it's the only scheme from which you can boot.  The
-<keycap>s</keycap> key is used in <command>fdisk</command> to
-create Sun disk labels.
-
-</para><para>
-
-Furthermore, on &arch-title; disks, make sure your first partition on
-your boot disk starts at cylinder 0.  While this is required, it also
-means that the first partition will contain the partition table and
-the boot block, which are the first two sectors of the disk.  You must
-<emphasis>not</emphasis> put swap on the first partition of the boot
-drive, since swap partitions do not preserve the first few sectors of
-the partition.  You can put Ext2 or UFS partitions there; these will
-leave the partition table and the boot block alone.
-
-</para><para>
-
-It is also advised that the third partition should be of type <quote>Whole
-disk</quote> (type 5), and contain the entire disk (from the first cylinder
-to the last).  This is simply a convention of Sun disk labels, and
-helps the <command>SILO</command> boot loader keep its bearings.
-
-</para>
-  </sect2>
\ No newline at end of file
diff --git a/fi/partitioning/partitioning.xml b/fi/partitioning/partitioning.xml
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-
-<appendix id="partitioning">
-<title>Partitioning for Debian</title>
-
-&sizing.xml;
-&tree.xml;
-&schemes.xml;
-&device-names.xml;
-&partition-programs.xml;
-
-</appendix>
diff --git a/fi/partitioning/schemes.xml b/fi/partitioning/schemes.xml
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-<!-- original version: 31069 untranslated -->
-
-
- <sect1>
- <title>Recommended Partitioning Scheme</title>
-<para>
-
-For new users, personal Debian boxes, home systems, and other
-single-user setups, a single <filename>/</filename> partition (plus
-swap) is probably the easiest, simplest way to go.  However, if your
-partition is larger than around 6GB, choose ext3 as your partition
-type.  Ext2 partitions need periodic file system integrity checking,
-and this can cause delays during booting when the partition is large.
-
-</para><para>
-
-For multi-user systems or systems with lots of disk space, it's best
-to put <filename>/usr</filename>, <filename>/var</filename>,
-<filename>/tmp</filename>, and <filename>/home</filename> each on
-their own partitions separate from the <filename>/</filename>
-partition.
-
-</para><para>
-
-You might need a separate <filename>/usr/local</filename> partition if
-you plan to install many programs that are not part of the Debian
-distribution.  If your machine will be a mail server, you might need
-to make <filename>/var/mail</filename> a separate partition.  Often,
-putting <filename>/tmp</filename> on its own partition, for instance
-20 to 50MB, is a good idea.  If you are setting up a server with lots
-of user accounts, it's generally good to have a separate, large
-<filename>/home</filename> partition.  In general, the partitioning
-situation varies from computer to computer depending on its uses.
-
-</para><para>
-
-For very complex systems, you should see the
-<ulink url="&url-multidisk-howto;">
-Multi Disk HOWTO</ulink>.  This contains in-depth information, mostly
-of interest to ISPs and people setting up servers.
-
-</para><para>
-
-With respect to the issue of swap partition size, there are many
-views.  One rule of thumb which works well is to use as much swap as
-you have system memory. It also shouldn't be smaller than 16MB, in
-most cases.  Of course, there are exceptions to these rules. If you
-are trying to solve 10000 simultaneous equations on a machine with
-256MB of memory, you may need a gigabyte (or more) of swap.
-
-</para><para arch="m68k">
-
-On the other hand, Atari Falcons and Macs feel pain when swapping, so
-instead of making a large swap partition, get as much RAM as possible.
-
-</para><para>
-
-On 32-bit architectures (i386, m68k, 32-bit SPARC, and PowerPC), the
-maximum size of a swap partition is 2GB. That should be enough for
-nearly any installation.  However, if your swap requirements are this
-high, you should probably try to spread the swap across different
-disks (also called <quote>spindles</quote>) and, if possible, different SCSI or
-IDE channels.  The kernel will balance swap usage between multiple
-swap partitions, giving better performance.
-
-</para><para>
-
-As an example, an older home machine might have 32MB of RAM and a
-1.7GB IDE drive on <filename>/dev/hda</filename>. There might be a
-500MB partition for another operating system on
-<filename>/dev/hda1</filename>, a 32MB swap partition on
-<filename>/dev/hda3</filename> and about 1.2GB on
-<filename>/dev/hda2</filename> as the Linux partition.
-
-</para><para>
-
-For an idea of the space taken by tasks
-you might be interested in adding after your system installation is
-complete, check <xref linkend="tasksel-size-list"/>.
-
-</para>
-
- </sect1>
diff --git a/fi/partitioning/sizing.xml b/fi/partitioning/sizing.xml
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-<!-- original version: 11648 untranslated -->
-
-
- <sect1 id="partition-sizing">
- <title>Deciding on Debian Partitions and Sizes</title>
-<para>
-
-At a bare minimum, GNU/Linux needs one partition for itself.  You can
-have a single partition containing the entire operating system,
-applications, and your personal files. Most people feel that a
-separate swap partition is also a necessity, although it's not
-strictly true.  <quote>Swap</quote> is scratch space for an operating system,
-which allows the system to use disk storage as <quote>virtual
-memory</quote>. By putting swap on a separate partition, Linux can make much
-more efficient use of it.  It is possible to force Linux to use a
-regular file as swap, but it is not recommended.
-
-</para><para>
-
-Most people choose to give GNU/Linux more than the minimum number of
-partitions, however.  There are two reasons you might want to break up
-the file system into a number of smaller partitions. The first is for
-safety.  If something happens to corrupt the file system, generally
-only one partition is affected. Thus, you only have to replace (from
-the backups you've been carefully keeping) a portion of your
-system. At a bare minimum, you should consider creating what is
-commonly called a <quote>root partition</quote>. This contains the most essential
-components of the system. If any other partitions get corrupted, you
-can still boot into GNU/Linux to fix the system. This can save you the
-trouble of having to reinstall the system from scratch.
-
-</para><para>
-
-The second reason is generally more important in a business setting,
-but it really depends on your use of the machine. For example, a mail
-server getting spammed with e-mail can easily fill a partition. If you
-made <filename>/var/mail</filename> a separate partition on the mail
-server, most of the system will remain working even if you get spammed.
-
-</para><para>
-
-The only real drawback to using more partitions is that it is often
-difficult to know in advance what your needs will be. If you make a
-partition too small then you will either have to reinstall the system
-or you will be constantly moving things around to make room in the
-undersized partition. On the other hand, if you make the partition too
-big, you will be wasting space that could be used elsewhere. Disk
-space is cheap nowadays, but why throw your money away?
-
-</para>
- </sect1>
diff --git a/fi/partitioning/tree.xml b/fi/partitioning/tree.xml
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-<!-- original version: 33773 untranslated -->
-
-
- <sect1 id="directory-tree">
- <title>The Directory Tree</title>
-<para>
-
-&debian; adheres to the
-<ulink url="&url-fhs-home;">Filesystem Hierarchy Standard</ulink>
-for directory and file naming. This standard allows users and software
-programs to predict the location of files and directories. The root
-level directory is represented simply by the slash
-<filename>/</filename>. At the root level, all Debian systems include
-these directories:
-
-<informaltable>
-<tgroup cols="2">
-<thead>
-<row>
-  <entry>Directory</entry><entry>Content</entry>
-</row>
-</thead>
-
-<tbody>
-<row>
-  <entry><filename>bin</filename></entry>
-  <entry>Essential command binaries</entry>
-</row><row>
-  <entry><filename>boot</filename></entry>
-  <entry>Static files of the boot loader</entry>
-</row><row>
-  <entry><filename>dev</filename></entry>
-  <entry>Device files</entry>
-</row><row>
-  <entry><filename>etc</filename></entry>
-  <entry>Host-specific system configuration</entry>
-</row><row>
-  <entry><filename>home</filename></entry>
-  <entry>User home directories</entry>
-</row><row>
-  <entry><filename>lib</filename></entry>
-  <entry>Essential shared libraries and kernel modules</entry>
-</row><row>
-  <entry><filename>media</filename></entry>
-  <entry>Contains mount points for replaceable media</entry>
-</row><row>
-  <entry><filename>mnt</filename></entry>
-  <entry>Mount point for mounting a file system temporarily</entry>
-</row><row>
-  <entry><filename>proc</filename></entry>
-  <entry>Virtual directory for system information (2.4 and 2.6 kernels)</entry>
-</row><row>
-  <entry><filename>root</filename></entry>
-  <entry>Home directory for the root user</entry>
-</row><row>
-  <entry><filename>sbin</filename></entry>
-  <entry>Essential system binaries</entry>
-</row><row>
-  <entry><filename>sys</filename></entry>
-  <entry>Virtual directory for system information (2.6 kernels)</entry>
-</row><row>
-  <entry><filename>tmp</filename></entry>
-  <entry>Temporary files</entry>
-</row><row>
-  <entry><filename>usr</filename></entry>
-  <entry>Secondary hierarchy</entry>
-</row><row>
-  <entry><filename>var</filename></entry>
-  <entry>Variable data</entry>
-</row><row>
-  <entry><filename>opt</filename></entry>
-  <entry>Add-on application software packages</entry>
-</row>
-</tbody></tgroup></informaltable>
-</para>
-
-<para>
-
-The following is a list of important considerations regarding
-directories and partitions. Note that disk usage varies widely given
-system configuration and specific usage patterns. The recommendations
-here are general guidelines and provide a starting point for
-partitioning.
-
-</para>
-<itemizedlist>
-<listitem><para>
-
-The root partition <filename>/</filename> must always physically
-contain <filename>/etc</filename>, <filename>/bin</filename>,
-<filename>/sbin</filename>, <filename>/lib</filename> and
-<filename>/dev</filename>, otherwise you won't be able to boot.
-Typically 150&ndash;250 MB is needed for the root partition.
-
-</para></listitem>
-<listitem><para>
-
-<filename>/usr</filename>: contains all user programs
-(<filename>/usr/bin</filename>), libraries
-(<filename>/usr/lib</filename>), documentation
-(<filename>/usr/share/doc</filename>), etc.
-This is the part of the file system that generally takes up most space.
-You should provide at least 500 MB of disk space. This amount should
-be increased depending on the number and type of packages you plan
-to install. A generous workstation or server installation should allow
-4-6 GB.
-
-</para></listitem>
-<listitem><para>
-
-<filename>/var</filename>: variable data like news articles, e-mails,
-web sites, databases, the packaging system cache, etc. will be placed
-under this directory. The size of this directory depends greatly on
-the usage of your system, but for most people will be dictated by
-the package management tool's overhead.  If you are going to do a full
-installation of just about everything Debian has to offer, all in one
-session, setting aside 2 or 3 gigabyte of space for
-<filename>/var</filename> should be sufficient. If you are going to
-install in pieces (that is to say, install services and utilities,
-followed by text stuff, then X, ...), you can get away with 300&ndash;500
-MB. If hard drive space is at a premium and you don't plan on doing
-major system updates, you can get by with as little as 30 or 40 MB.
-
-</para></listitem>
-<listitem><para>
-
-<filename>/tmp</filename>: temporary data created by programs will
-most likely go in this directory. 40&ndash;100 MB should usually
-be enough. Some applications &mdash; including archive manipulators,
-CD/DVD authoring tools, and multimedia software &mdash; may use
-<filename>/tmp</filename> to temporarily store image files. If you
-plan to use such applications, you should adjust the space available
-in <filename>/tmp</filename> accordingly.
-
-</para></listitem>
-<listitem><para>
-
-<filename>/home</filename>: every user will put his personal data
-into a subdirectory of this directory. Its size depends on how many
-users will be using the system and what files are to be stored in
-their directories.  Depending on your planned usage you should reserve
-about 100 MB for each user, but adapt this value to your needs. Reserve
-a lot more space if you plan to save a lot of multimedia files (pictures, MP3, movies)
-in your home directory.
-
-</para></listitem>
-</itemizedlist>
-
- </sect1>