1998-01-09 21:45:24 +03:00
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$NetBSD: install,v 1.3 1998/01/09 18:46:51 perry Exp $
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1997-12-18 22:20:10 +03:00
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Installing NetBSD is a relatively complex process, but if you have
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this document in hand it should not be too difficult.
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There are several ways to install NetBSD onto your disk. If your
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machine has a tape drive the easiest way is "Installing from tape"
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(details below). If your machine is on a network with a suitable
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NFS server, then "Installing from NFS" is the next best method.
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Otherwise, if you have another VME147 machine running NetBSD you can
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initialize the disk on that machine and then move the disk.
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* Installing from tape:
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Create the NetBSD/mvme68k _VER boot tape as described in the section
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entitled "Preparing a boot tape". Then, with the tape in the drive,
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type the following at the 147Bug prompt:
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--> 147-Bug> bo 5
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As mentioned earlier, this assumes your tape is jumpered for SCSI-id 5.
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As the tape loads (which may take 20 to 30 seconds), you will see a
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series of status messages. It may be useful if you can capture these
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messages to a file, or a scrollable xterm window. In particular, you
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should make a note of the lines which describe the geometry of the
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SCSI disks detected by NetBSD. They are of the form:
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sd0 at scsibus0 targ 0 lun 0: <CDC, 94161-9, 2506> SCSI1 0/direct fixed
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sd0: 148MB, 967 cyl, 9 head, 35 sec, 512 bytes/sect x 304605 sectors
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The information of most interest is the number of sectors; here it's
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304605. You will need this number when you come to create a disklabel
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for that drive.
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[ START OF STATUS MESSAGES ]
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RAM address from VMEbus = $00000000
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Booting from: VME147, Controller 5, Device 0
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Loading: Operating System
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Volume: NBSD
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IPL loaded at: $003F0000
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1998-01-09 21:45:24 +03:00
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>> BSD MVME147 tapeboot [$Revision: 1.3 $]
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1997-12-18 22:20:10 +03:00
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578616+422344+55540+[46032+51284]=0x11a6e4
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Start @ 0x8000 ...
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Copyright (c) 1996, 1997 The NetBSD Foundation, Inc. All rights reserved.
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Copyright (c) 1982, 1986, 1989, 1991, 1993
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The Regents of the University of California. All rights reserved.
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NetBSD 1.3 (RAMDISK) #1: Sun Dec 21 16:19:04 GMT 1997
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steve@soapy.mctavish.demon.co.uk:/usr/src/sys/arch/mvme68k/compile/RAMDISK
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Motorola MVME-147S: 25MHz MC68030 CPU+MMU, MC68882 FPU
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real mem = 7237632
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avail mem = 6381568
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using 88 buffers containing 360448 bytes of memory
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mainbus0 (root)
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pcc0 at mainbus0: Peripheral Channel Controller, rev 0, vecbase 0x40
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clock0 at pcc0 offset 0x0 ipl 5: Mostek MK48T02, 2048 bytes of NVRAM
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.
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.
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[ END OF STATUS MESSAGES ]
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Note that the exact text of the messages will vary depending on which
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MVME147 variant you're using.
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Finally, you will see the following "welcome" message:
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[ START OF WELCOME MESSAGE ]
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Welcome to the NetBSD/mvme68k RAMDISK root!
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This environment is designed to do only four things:
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1: Partititon your disk (use the command: edlabel /dev/rsd0c)
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2: Copy a miniroot image into the swap partition (/dev/rsd0b)
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3: Make that partition bootable (using 'installboot')
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4: Reboot (using the swap partition, i.e. /dev/sd0b).
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Copying the miniroot can be done several ways, allowing the source
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of the miniroot image to be on any of these:
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boot tape, NFS server, TFTP server, rsh server
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The easiest is loading from tape, which is done as follows:
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mt -f /dev/nrst0 rewind
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mt -f /dev/nrst0 fsf 3
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dd bs=8k if=/dev/nrst0 of=/dev/rsd0b
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(For help with other methods, please see the install notes.)
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To reboot using the swap partition after running installboot, first
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use "halt", then at the Bug monitor prompt use a command like:
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bo 0,,b:
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To view this message again, type: cat /.welcome
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ssh:
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[ END OF WELCOME MESSAGE ]
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You must now create a disklabel on the disk you wish to use for the
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root filesystem. This will usually be 'sd0'. The disklabel is used by
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NetBSD to identify the starting block and size of each partition on
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the disk.
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Partitions are named 'sd0a', 'sd0b', 'sd0c' etc, up to 'sd0h'. The
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mvme68k port of NetBSD makes some assumptions about the first three
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partitions on a boot disk:
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sd0a The root filesystem.
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sd0b The swap partition.
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sd0c The whole disk. Also known as the Raw Partition.
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The 'Raw Partition' is special; NetBSD is able to use it even if the
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disk has no label. You should never create a filesystem on the Raw
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Partition, even on a non-boot disk.
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It is good practice to put /usr on a different partition than / (sd0a).
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So, the first available partition for /usr is 'sd0d'. Refer to the
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section entitled "NetBSD System Requirements and Supported Devices" for
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information on the recommended sizes of the /, /usr and swap partitions.
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You are not required to define any partitions beyond sd0d, but if you
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have a large disk drive, you might want to create several other partitions
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for filesystems such as /home or /usr/src. Note that at this time you
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are only required to partition the root/boot disk; you will get the
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opportunity to partition any other disks in your system from the main
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'miniroot' installation program.
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To create the disklabel and partitions, use the 'edlabel' program,
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passing it the name of the Raw Partition of your root/boot disk. Note
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that '-->' at the start of a line in the following examples indicates
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you are being prompted to enter some information. Obviously, you won't
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see this when you run the program for real.
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--> ssh: edlabel /dev/rsd0c
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edlabel menu:
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print - display the current disk label
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modify - prompt for changes to the label
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write - write the new label to disk
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quit - terminate program
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edlabel>
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The program shows what commands it recognises; "print", "modify",
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"write" and "quit". It will accept the first letter of a command if
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you don't feel like typing each one in full.
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To start creating the basic partitions, you should enter 'm' (modify)
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at the edlabel prompt, then enter the letter corresponding to the first
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1998-01-04 15:48:14 +03:00
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partition, 'a'.
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1997-12-18 22:20:10 +03:00
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--> edlabel> m
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modify subcommands:
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@ : modify disk parameters
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1998-01-04 15:48:14 +03:00
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a-h : modify partition
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1997-12-18 22:20:10 +03:00
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s : standarize geometry
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q : quit this subcommand
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--> edlabel/modify> a
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a (root) 0 (0/00/00) 0 (0/00/00) unused
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--> start as <blkno> or <cyls/trks/sects> : 0
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--> length as <nblks> or <cyls/trks/sects> : 38000
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--> type: 4.2BSD
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edlabel/modify>
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When you enter the start and length of a partition, you can use either
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blocks or cylinder/track/sector notation. If this is the first time
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you've partitioned a disk for NetBSD, it's probably easiest to use block
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notation. The above example creates partition 'a', starting at block zero
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and with a size of 38000 blocks. Note that the usual size of a block is
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512 bytes, so this creates a 19Mb partition.
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The 'type' of the partition should be "4.2BSD", otherwise you won't
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be able to create a filesystem on it.
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Next, create a swap partition (b). Note that the minimum size of this
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swap partition should be 8Mb, otherwise you won't be able to use a
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miniroot to complete the NetBSD installation!
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--> edlabel/modify> b
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b (swap) 0 (0/00/00) 0 (0/00/00) unused
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--> start as <blkno> or <cyls/trks/sects> : 38000
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--> length as <nblks> or <cyls/trks/sects> : 32768
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--> type: swap
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edlabel/modify>
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Here, we specify a value for 'start' such that the swap partition follows
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immediately after partition 'a', i.e. 38000. The length of the swap
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partition should be a multiple of the amount of RAM you have in your
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system. Here, I've chosen 32768, or 16Mb. The next available block on the
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drive is thus 38000 + 32768. We will use this to create partition 'd' for
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our /usr filesystem. (Note that for a busy system, or a system with more
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than 8Mb of RAM, you'll be better off with a 32 or 64Mb swap partition.)
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--> edlabel/modify> d
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d (user) 0 (0/00/00) 0 (0/00/00) unused
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--> start as <blkno> or <cyls/trks/sects> : 70768
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--> length as <nblks> or <cyls/trks/sects> : 233837
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--> type: 4.2BSD
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--> edlabel/modify> q
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edlabel>
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As you can see, I've chosen to assign the remainder of the disk to /usr.
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Since there are 304605 sectors on the example disk (did you remember to
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note down the number of sectors on your disk during boot?), and partition
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'd' starts at sector 70768, a simple bit of arithmetic (304605 - 70768)
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gives 'd' a size of 233837.
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You now need to write this new disklabel, together with the partition
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details you've just entered, to disk. You might also try the 'p' command
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to view the partitions. Once written, you can quit back to ssh using 'q'.
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--> edlabel> p
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type_num: 4
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sub_type: 0
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type_name: SCSI disk
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pack_name: fictitious
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bytes/sector: 512
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sectors/track: 35
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tracks/cylinder: 9
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cylinders: 967
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sectors/cylinder: 315
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partition start (c/t/s) nblks (c/t/s) type
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a (root) 0 (0/00/00) 38000 (120/05/25)* 4.2BSD
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b (swap) 38000 (120/05/25)* 32768 (104/00/08)* swap
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c (disk) 0 (0/00/00) 304605 (967/00/00) unused
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d (user) 70768 (224/05/33)* 233837 (742/03/02)* 4.2BSD
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--> edlabel> w
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--> edlabel> q
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ssh:
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Now that your disk's partitioned, you need to get the proper installation
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miniroot image onto it. The miniroot image is designed to be copied into
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the swap partition of your disk. This is a safe place which won't be
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overwritten by the installation procedure. From the ssh prompt, use the
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following commands to copy the miniroot image from tape to swap (b).
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--> ssh: mt -f /dev/nrst0 rewind
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--> ssh: mt -f /dev/nrst0 fsf 3
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--> ssh: dd bs=8k if=/dev/nrst0 of=/dev/rsd0b
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The disk and the miniroot must now be made bootable using the
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'installboot' command, To do this, issue the following commands:
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--> ssh: mount /dev/sd0b /mnt
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--> ssh: installboot /mnt/usr/mdec/bootsd /bootxx /dev/rsd0b
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--> ssh: umount /dev/sd0b
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You can now shutdown the system.
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--> ssh: halt
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signal 15
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ssh: syncing disks... done
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unmounting /mnt (/dev/sd1b)...
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unmounting / (root_device)...
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halted
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--> 147-Bug>reset
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--> Reset Local SCSI Bus [Y,N] N? y
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--> Automatic reset of known SCSI Buses on RESET [Y,N] = Y?
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--> Cold/Warm Reset flag [C,W] = C?
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--> Execute Soft Reset [Y,N] N? y
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You should now reboot from that just installed miniroot. See the section
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entitled "Booting the miniroot" for details.
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* Installing from NFS:
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Before you can install from NFS, you must have already configured
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your NFS server to support your machine as a bootable client.
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Instructions for configuring the server are found in the section
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entitled "Getting the NetBSD System onto Useful Media" above.
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To get started, you need to download "sboot" into RAM (you will find
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'sboot' in the "install" directory of the mvme68k distribution).
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You can either do that through the console line or through a 2nd serial
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connection. For example, a VME147 connected to a sun4/110 and accessed
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via "tip" can be loaded as follows:
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lo 0
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~Ccat sboot
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go 4000
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Which will look like this:
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--> 147-Bug>lo 0
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--> ~CLocal command? cat sboot
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away for 11 seconds
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!
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--> 147-Bug>g 4000
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Effective address: 00004000
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sboot: serial line bootstrap program (&end = 6018)
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>>>
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Now, if you want to do it through serial line 1, then connect serial
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line one to a machine. At the "147-Bug> " prompt do this "tm 1".
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You should then login to whatever machine it is connected to.
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Then hit "^A" to escape to Bug. do "lo 1;x=cat sboot" ... then when
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that is done you can reconnect "tm 1" and logout. Then do "go 4000"
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and you've got ">>> " prompt of sboot.
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Once you've got the ">>> " prompt, you can boot the RAMDISK kernel
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from the server:
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--> >>> b
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le0: ethernet address: 8:0:3e:20:cb:87
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My ip address is: 192.168.1.4
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Server ip address is: 192.168.1.1
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4800
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Download was a success!
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Start @ 0x8000 ...
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1998-01-09 21:45:24 +03:00
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>> BSD MVME147 netboot (via sboot) [$Revision: 1.3 $]
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1997-12-18 22:20:10 +03:00
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device: le0 attached to 08:00:3e:20:cb:87
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boot: client IP address: 192.168.1.4
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boot: client name: soapy
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root addr=192.168.1.1 path=/export/soapy
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578616+422344+55540+[46032+51284]=0x11a6e4
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Start @ 0x8000 ...
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Copyright (c) 1996, 1997 The NetBSD Foundation, Inc. All rights reserved.
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Copyright (c) 1982, 1986, 1989, 1991, 1993
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The Regents of the University of California. All rights reserved.
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NetBSD 1.3 (RAMDISK) #1: Sun Dec 21 16:19:04 GMT 1997
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|
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steve@soapy.mctavish.demon.co.uk:/usr/src/sys/arch/mvme68k/compile/RAMDISK
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|
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Motorola MVME-147S: 25MHz MC68030 CPU+MMU, MC68882 FPU
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real mem = 7237632
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avail mem = 6381568
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using 88 buffers containing 360448 bytes of memory
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mainbus0 (root)
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pcc0 at mainbus0: Peripheral Channel Controller, rev 0, vecbase 0x40
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clock0 at pcc0 offset 0x0 ipl 5: Mostek MK48T02, 2048 bytes of NVRAM
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.
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.
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After the boot program loads the RAMDISK kernel, you should see the
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welcome screen as shown in the "tape boot" section above.
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You now need to create a disklabel with partition information on the
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SCSI disk on which you intend to create your root filesystem. Follow
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the instructions in the previous section entitled "Installing from
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tape" to do this. (But stop short of the part which describes how to
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copy the miniroot from tape.)
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You must now configure the network interface before you can access the
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NFS server containing the miniroot image. For example the command:
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--> ssh: ifconfig le0 inet 192.168.1.4 up
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will bring up the network interface 'le0' with that address. The next
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step is to copy the miniroot from your server. This can be done using
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either NFS or remote shell. (In the examples that follow, the server has
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IP address 192.168.1.1) You may then need to add a default route if the
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server is on a different subnet:
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--> ssh: route add default 192.168.1.2 1
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You can look at the route table using:
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--> ssh: route show
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Now mount the NFS filesystem containing the miniroot image:
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--> ssh: mount -r 192.168.1.1:/export/soapy /mnt
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The procedure is simpler if you have space for an expanded (not
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compressed) copy of the miniroot image. In that case:
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--> ssh: dd bs=8k if=/mnt/miniroot of=/dev/rsd0b
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Otherwise, you will need to use "zcat" to expand the miniroot image
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while copying. This is tricky because the "ssh" program (small shell)
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does not handle sh(1) pipeline syntax. Instead, you first run the reader
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in the background with its input set to /dev/pipe and then run the other
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program in the foreground with its output to /dev/pipe. The result looks
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like this:
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--> ssh: run -bg dd obs=8k if=/dev/pipe of=/dev/rsd0b
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--> ssh: run -o /dev/pipe zcat /mnt/install/miniroot.gz
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To load the miniroot using rsh to the server, you would use a pair
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of commands similar to the above. Here is another example:
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--> ssh: run -b dd obs=8k if=/dev/pipe of=/dev/rsd0b
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--> ssh: run -o /dev/pipe rsh 192.168.1.1 zcat miniroot.gz
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You must now make the disk bootable. Refer to the previous section on
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installing from tape, where it describes how to run 'installboot'.
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This is immediately following the part which explains how to copy the
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miniroot from tape.
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* Booting the miniroot:
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Assuming the miniroot is installed on partition 'b' of the disk with
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SCSI-id 0, then the 147Bug boot command is:
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147-Bug> bo 0,,b:
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The command line parameters above are:
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0 controller (usually zero)
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,, bug argument separators
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b: tell the bootstrap code to boot from partition 'b'
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You should see a bunch of boot messages, followed by messages from
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the miniroot kernel just as you did when the RAMDISK kernel booted.
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You will then be prompted to enter the root device. Since the miniroot
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was booted from the swap partition, you should enter 'sd0b'. You will
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then be asked for the swap device and filesystem type. Just press
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return twice to accept the defaults. When asked to enter a terminal
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type, either accept the default, or use whatever the TERM environment
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variable is set to in the shell of your host system:
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vmel0 at vmechip0
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boot device: sd0
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--> root device (default sd0a): sd0b
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--> dump device (default sd0b):
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--> file system (default generic):
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root on sd0b dumps on sd0b
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mountroot: trying ffs...
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root file system type: ffs
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init: copying out path `/sbin/init' 11
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erase ^H, werase ^W, kill ^U, intr ^C
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--> Terminal type? [vt100]
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Congratulations! The system should now be running the miniroot
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installation program.
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Miniroot install program:
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------------------------
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The miniroot's install program is very simple to use. It will guide
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you through the entire process, and is well automated. Additional
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improvements are planned for future releases.
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The miniroot's install program will:
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* Allow you to place disklabels on additional disks.
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The disk we are installing on should already have
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been partitioned using the RAMDISK kernel.
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Note that partition sizes and offsets are expressed
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in sectors. When you fill out the disklabel, you will
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need to specify partition types and filesystem parameters.
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If you're unsure what the these values should be, use the
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following defaults:
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fstype: 4.2BSD
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fsize: 1024
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bsize: 4096
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cpg: 16
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If the partition will be a swap partition, use the following:
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fstype: swap
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fsize: 0 (or blank)
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bsize: 0 (or blank)
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cpg: 0 (or blank)
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Note that partition 'c' is special; it covers then entire
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disk and should not be assigned to a filesystem.
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The number of partitions is currently fixed at 8.
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* Create filesystems on target partitions.
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* Allow you to set up your system's network configuration.
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Remember to specify host names without the domain name
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appended to the end. For example use `foo' instead of
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`foo.bar.org'. If, during the process of configuring
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the network interfaces, you make a mistake, you will
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be able to re-configure that interface by simply selecting
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it for configuration again.
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* Mount target filesystems. You will be given the opportunity
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to manually edit the resulting /etc/fstab.
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* Extract binary sets from the media of your choice.
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* Copy configuration information gathered during the
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installation process to your root filesystem.
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* Make device nodes in your root filesystem.
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* Copy a new kernel onto your root partition.
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* Install a new boot block.
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* Check your filesystems for integrity.
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First-time installation on a system through a method other than the
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installation program is possible, but strongly discouraged.
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