diff options
Diffstat (limited to 'da/partitioning/partition')
-rw-r--r-- | da/partitioning/partition/alpha.xml | 56 | ||||
-rw-r--r-- | da/partitioning/partition/hppa.xml | 22 | ||||
-rw-r--r-- | da/partitioning/partition/i386.xml | 86 | ||||
-rw-r--r-- | da/partitioning/partition/ia64.xml | 129 | ||||
-rw-r--r-- | da/partitioning/partition/mips.xml | 17 | ||||
-rw-r--r-- | da/partitioning/partition/powerpc.xml | 55 | ||||
-rw-r--r-- | da/partitioning/partition/sparc.xml | 33 |
7 files changed, 398 insertions, 0 deletions
diff --git a/da/partitioning/partition/alpha.xml b/da/partitioning/partition/alpha.xml new file mode 100644 index 000000000..a925db8ab --- /dev/null +++ b/da/partitioning/partition/alpha.xml @@ -0,0 +1,56 @@ +<!-- retain these comments for translator revision tracking --> +<!-- original version: 11648 untranslated --> + + + <sect2 arch="alpha"><title>Partitioning for &arch-title;</title> +<para> + +If you have chosen to boot from the SRM console, you must use +<command>fdisk</command> to partition your disk, as it is the only +partitioning program that can manipulate the BSD disk labels required +by <command>aboot</command> (remember, the SRM boot block is +incompatible with MS-DOS partition tables - see +<xref linkend="alpha-firmware"/>). +<command>debian-installer</command> will run <command>fdisk</command> +by default if you have not booted from <command>MILO</command>. + +</para><para> + +If the disk that you have selected for partitioning already contains a +BSD disk label, <command>fdisk</command> will default to BSD disk +label mode. Otherwise, you must use the `b' 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. + +</para><para> + +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> - 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>
\ No newline at end of file diff --git a/da/partitioning/partition/hppa.xml b/da/partitioning/partition/hppa.xml new file mode 100644 index 000000000..c9c1c7ff4 --- /dev/null +++ b/da/partitioning/partition/hppa.xml @@ -0,0 +1,22 @@ +<!-- retain these comments for translator revision tracking --> +<!-- original version: 11648 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 -- at least +4Mb (I like 8-16Mb). 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 you might wish load; 8-16MB is generally +sufficient. + +</para> + </sect2> diff --git a/da/partitioning/partition/i386.xml b/da/partitioning/partition/i386.xml new file mode 100644 index 000000000..1b2794b45 --- /dev/null +++ b/da/partitioning/partition/i386.xml @@ -0,0 +1,86 @@ +<!-- retain these comments for translator revision tracking --> +<!-- original version: 11648 untranslated --> + + + <sect2 arch="i386"><title>Partitioning for &arch-title;</title> +<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 +1994-98 BIOS, 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 +1995-98 (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 (5-10MB +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/da/partitioning/partition/ia64.xml b/da/partitioning/partition/ia64.xml new file mode 100644 index 000000000..aa0742356 --- /dev/null +++ b/da/partitioning/partition/ia64.xml @@ -0,0 +1,129 @@ +<!-- retain these comments for translator revision tracking --> +<!-- original version: 18660 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: + +</para><para> +<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> +</para><para> + +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/da/partitioning/partition/mips.xml b/da/partitioning/partition/mips.xml new file mode 100644 index 000000000..760156368 --- /dev/null +++ b/da/partitioning/partition/mips.xml @@ -0,0 +1,17 @@ +<!-- retain these comments for translator revision tracking --> +<!-- original version: 11648 untranslated --> + + + <sect2 arch="mips"><title>Partitioning for &arch-title;</title> +<para> + +SGI Indys 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. +In order to be able to store several different kernels in it a size of +10MB is recommended. 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>
\ No newline at end of file diff --git a/da/partitioning/partition/powerpc.xml b/da/partitioning/partition/powerpc.xml new file mode 100644 index 000000000..729f1ba75 --- /dev/null +++ b/da/partitioning/partition/powerpc.xml @@ -0,0 +1,55 @@ +<!-- retain these comments for translator revision tracking --> +<!-- original version: 11648 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 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>
\ No newline at end of file diff --git a/da/partitioning/partition/sparc.xml b/da/partitioning/partition/sparc.xml new file mode 100644 index 000000000..f4996a519 --- /dev/null +++ b/da/partitioning/partition/sparc.xml @@ -0,0 +1,33 @@ +<!-- retain these comments for translator revision tracking --> +<!-- original version: 11648 untranslated --> + + + <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>
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