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566 lines
20 KiB
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566 lines
20 KiB
Plaintext
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The Diskless Terminal running from NT server Mini-HOWTO
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Pavel Tkatchouk, ptkatcho@portal.ca
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v0.1, June 19th 1999
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Table of Contents
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1. Introduction.
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1.1 What is it for?
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1.2 Do we need this HOWTO?
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1.3 A bit of History.
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2. Project description.
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2.1 Packaging.
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2.2 Image.
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2.2.1 Kernel.
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2.2.2 MRFS.
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2.2.3 Building MRFS.
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2.3 Remotefs.
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2.4 Booting sequence.
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2.4.1 BOOTP, TFTP.
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2.5 Bootprom.
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3. Resources.
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4. Copyright.
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5. Feedback and credits.
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1. Introduction.
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1.1. What is it for?
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This document describes how to build software distribution to run Java client on diskless
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terminal booted from Microsoft Windows 95/98/NT workstation. Package can also be easily
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modified to be used as Linux terminal or X Windows terminal's software. I found it also
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convenient for setup over the Ethernet of floppyless PS's, hard disk of which for some
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reason can not be accessed (sealed case under warranty, etc.).
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1.2. Do we need this HOWTO?
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To be honest, I'm not sure. There are few excellent HOWTO's (see 3. Recources) that up until
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recently I considered quite sufficient to build what I've done two years ago. But since my
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project uses MS Windows as a file server vs. traditional NFS there were some know-how's
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involved which number of people wanted to see in some formal document.
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1.3. A bit of history.
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My project at that time (1996) was to find OS/JVM that will allow to run Java application
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on hardware we manufacture. Hardware is practically generic x86 PC except it has no keyboard,
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hard drive, floppy drive, mouse, but touchscreen over LCD, plus some POS specific peripherals
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(badge reader, credit card reader, etc.). Due to cost consideration it had no any significant
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storage, so OS and Java client along with support binaries, libraries etc. had to be loaded
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remotely. Because our clients are exclusively Windows shops, Server had to be Windows as well.
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During evaluation of different commercial OS'es along with JVM's available it become apparent
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to my surprise that most promising solution was GPL one - Linux.
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2. Project description.
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2.1. Packaging.
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The whole distribution consists of remote file system (RemoteFS) residing on MS Windows
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server (NT Workstation, NT Server or Windows9x) and tagged bootable image.
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2.2. Image.
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Image (~1.5MB) is generated by mknbi utility that comes with Etherboot package
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<http://etherboot.sourceforge.net>. It can include minimal root file system (MRFS)
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like in my case (since I had to boot client from MS Windows server and Linux kernel doesn't
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support SMBFS-Root, only NFS-Root. So I had to keep rootfs in the ramdisk). To generate
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image the following script can be used.
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#!/bin/sh
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# mkrootnet: makes tagged netbootable image
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# This image includes kernel and minimal root filesystem
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# to do initial boot.
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#
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# Copyright (c) Pavel Tkatchouk 1996. All rights reserved.
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# Permission is granted for this material to be freely
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# used and distributed, provided the source is acknowledged.
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# No warranty of any kind is provided. You use this material
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# at your own risk.
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#
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DEVICEFILENAME="/tmp/file" # temporary file to be used as device
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FSBLOCKS=4096 # uncompressed filesystem size in K
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BOOTDISKDIR="/usr/BOOT/ROOTFS" # root filesystem model
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MOUNT="/mnt2" # temporary mount point
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ROOTFS="/tmp/rootfs" # root filesystem image
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ROOTFSGZ="/tmp/rootfs.gz" # compressed root filesystem image
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KERNEL="/usr/KERNELS/vmlinuz-nt" # kernel image
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KERNELTMP="/tmp/vmlinuz" # temporary copy of kernel image
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BOOTIMAGE="/tmp/img" # tagged image to be booted by client
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# if you want ramisk more than default 4096 set CMDLINE, don't forget to
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# adjust $FSBLOCKS
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# CMDLINE="ramdisk_size=8192" # parameters to pass to the kernel
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#
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echo "check:"
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echo "- if tftp server's download dir mounted to /mnt"
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echo "- loopback device is built-in or loaded"
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echo "\n press Enter when done"
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read tmp
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UPLOAD="/mnt/tmp" # tftp server's dir to upload bootimage
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echo -e "\nZeroing $DEVICEFILENAME of $FSBLOCKS k"
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echo "to be used as device for root filesystem model"
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dd if=/dev/zero of=$DEVICEFILENAME bs=1k count=$FSBLOCKS
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echo -e "\nMaking file system on $DEVICEFILENAME"
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mke2fs -m 0 $DEVICEFILENAME
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echo "Mounting $DEVICEFILENAME as a loopback device"
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mount -o loop -t ext2 $DEVICEFILENAME $MOUNT
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curdir=`pwd`
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cd $BOOTDISKDIR
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echo -e "Copying files from $BOOTDISKDIR to $DEVICEFILENAME, please wait"
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find . -print|cpio -pmd $MOUNT
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echo "Unmounting $MOUNT"
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umount $MOUNT
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cd $curdir
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echo "Copying $DEVICEFILENAME to $ROOTFS"
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dd if=$DEVICEFILENAME of=$ROOTFS bs=1k
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echo "Compressing $ROOTFS, it may take a while"
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echo "Please wait..."
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if [ -f $ROOTFSGZ ];then
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rm -f $ROOTFSGZ
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fi
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gzip -c $ROOTFS>$ROOTFSGZ
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rm -f $ROOTFS
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echo -e "\nCreating netbootable image"
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cp $KERNEL $KERNELTMP
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mknbi -d ram -i rom -r $ROOTFSGZ -k $KERNELTMP -a $CMDLINE -o $BOOTIMAGE
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echo "Uploading $BOOTIMAGE to $UPLOAD"
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cp $BOOTIMAGE $UPLOAD
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echo "Cleaning after ourselves"
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rm -f $KERNELTMP $DEVICEFILENAME $BOOTIMAGE
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echo "All done"
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In the above script actual image is generated by the following comand
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#mknbi -d ram -i rom -r rootfs.gz -k vmlinuz-nt -o img
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where:
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rootfs.gz - minimal root file system (MRFS);
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vmlinuz-nt - kernel;
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img - resulting image.
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Note:
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Default ramdisk size is 4096. It was enough for RedHat4.1 based minimal file system, but
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apparently not enough for 5.2 based. When this happens "end request:I/O error, dev 01:00 ..."
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error shows up. To fix that either use "mknbi -a ramdisk_size=8192" to pass parameter to the
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kernel (doesn't require kernel recompilation), or change /usr/src/linux/drivers/block/rd.c:
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int rd_size= from 4096 to 8192 or whatever and rebuild the kernel.
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2.2.1. Kernel.
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Kernels 2.0.30 and 2.0.36 have been used by author, although nothing is preventing you from
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experimenting with others. Kernel should include ramdisk support. The following
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<link to .config> configuration has been used to build <link to binary (kernel 2.0.30)>.
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You may find some components unnecessary, just exclude them and rebuild.
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Don't forget to change root device after you built the kernel (rdev vmlinuz /dev/rd).
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Gotcha's: apparently smbfs is broken in 2.2.x kernels. Symptoms: remote share is mounted
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just fine but after a while fails with "smb_request: result = -32" errmsg. I've heard
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SuSe has fix for that.
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2.2.2. MRFS.
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Minimal root file system is required to get Linux up and running along with networking until
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it can mount remote file system to run X/Java from there. After image gets loaded from the
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server MRFS is decompressed into ramdisk. If you can afford a lot of ram on your terminal the
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entire remote file system can be moved to rootfs.gz. That will make your terminal more
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responsive.
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2.2.3. Building MRFS.
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Some folks found it easier to start from scratch, others use known "minimal" Linux distributions
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(Linux Router, tomsrtbt, etc.), yet others prefer to start from "big" Linuces like I did. Every
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path has it's pro and contras.
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Pruning standard distribution (RedHat, Debian, etc.) to your needs might be very time consuming.
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To ease that painful process I have used remotely booted diskless client with NFS-Root (see
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Etherboot's Readme, NFS-Root and NFS-Root-Client mini-HOWTO's, Diskless-HOWTO):
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- setup minimal RedHat4.1 install (networked workstation, X, no development, mail, etc., ~117MB);
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- find . -print|cpio -pmd /usr/NFS/ROOTFS - copy entire fs tree to NFS exported dir;
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- mknod /usr/NFS/ROOTFS/dev/nfsroot b 0 255;
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- build vmlinuz-nfs kernel according to NFS-Howto (built-in bootp,rarp,NFS,NFS root,NIC
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driver,RAM disk);
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- rdev vmlinuz-nfs /dev/nfsroot - to set NFS root device;
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- build image for NFS-Root fs:
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#mknbi -d rom -i rom -k vmlinuz-nfs -o nfsImage;
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- boot client while monitoring NFS file requests (by Solaris snoop);
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- copy files from /usr/NFS/ROOTFS to /usr/BOOT/ROOTFS (MRFS model) according to snoop's
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filelist;
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- generate image by mkrootnet script (don't forget to point to the right kernel vmlinuz-nt).
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The above trick not only allows to determine the sought files set but also debug boot process
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analyzing NFS messages. I found it convenient to put "read tmp" statements into init scripts
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for debugging. Tracking files up until issuing login gives you <link to rootfs.gz> MRFS (~1MB)
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that can be used to boot Linux from ROM (flash, eprom, DiskOnChip, SanDisk, etc.) as well. All
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the other files requested by client (during starting X, Java, Java client) were put into (link
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to remotefs.zip, ~9MB).
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To restore MRFS model on your PC from the above rootfs.gz:
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- #cd /tmp
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- #gunzip rootfs.gz
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- #mount -o loop -t ext2 /tmp/rootfs /mnt
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- #cd /mnt
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- #find . -print|cpio -pmd /usr/BOOT/ROOTFS
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- #umount /mnt
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Note:
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You will have to change attributes of some dirs, files (/etc/mtab, /etc/mtab~, /var/lock/subsys/*,
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/var/run/*, /dev/tty*, etc.) against standard. This is because with standard attribs diskless
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client refused to work. For example I had to change /dev/tty* ownerships to 99:99 from original
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0:0 or 0:5, to get rid of errmsg "INIT: Id "1" respawning too fast: disabled for 5 minutes".
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Being admin illiterate I just chmod them to 777 and chown to 99:99 to make life easier.
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THIS IS SERIOUS SECURITY VIOLATION!!! Using keyboardless terminal with no daemons running in
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my case reduces the risk, yet I would appreciate very much those more experienced who will help
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to restore the right attribs while keeping the distribution working.
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Some "gotcha's" to watch for during MRFS building:
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- standard attributes/ownership of some files don't work;
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- rdev must be set (non-tagged image didn't work, so couldn't use config file to pass parrs
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to the kernel);
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- diskless client writes 99:99 ownership on generated files;
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- "password incorrect" for root, but any other OK and su OK too.
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2.3. RemoteFS.
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Remotefs.zip file includes everything required by the system that can be located on
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remote file system, i.e after booting has been complete and remote file system mounted.
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In my case it is X Windows System and Java binaries, libraries etc. To use that file on
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MS Windows NT:
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- unzip remotefs.zip to some directory;
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- share this directory read-only as "usr" (or share as some other name and pass this name to
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the client through bootptab configuration file for BOOTP server;
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- create an account username=root, password=linux on NT (can be set in bootptab).
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Note:
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There's no symbolic links on NTFS, so UNIX links must be replaced by copies on NTFS.
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To determine potential troublmakers one could use the following:
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- first copy required subset (according to snoop's intercept) from /usr/NFS/ROOTFS to
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/usr/BOOT/REMOTEFS;
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- mount some share from NTFS to /mnt;
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- /usr/BOOT/REMOTEFS#find . -print|cpio -pmd /mnt 2>links;
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In the links file you will find names to work with.
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2.4. Booting sequence.
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Boot occurs in the following sequence:
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- bootprom sends bootp request,
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- bootp server responds with subnet mask, client's name, client's IP, TFTP server's IP,
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bootfile name and some optional parameters (like NT's username/password to use it's share,
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you could pass some other share name here as say T104="somedir");
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- bootprom downloads image from TFTP server;
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- kernel starts;
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- kernel decompresses MRFS in RAM;
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- system starts init using ramdisk root,
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- mounts remote file system from NT via SMBFS;
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- automatically logins;
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- starts xstart script located on remotefs (/usr/sbin) where you can start any of your
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programs, change parameters, etc. without rebuilding the image.
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Below are some config/init sample files from <rootfs.gz>, <remotefs.zip>:
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<bootptab, change to link>
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t1:sm=255.255.255.0:sa=192.168.33.150:bf=img:T100="pavelnt4":T101="root":T102="linux"
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touch1:hn=touch1:tc=t1:ha=00A0F00035CD:ip=192.168.33.127
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</etc/fstab, change to link>:
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/dev/ram / ext2 defaults 1 1
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/proc /proc proc defaults 0 0
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</etc/rc.d/rc.bootp, change to link later>:
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#!/bin/sh
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# Written to simply set the IP stuff up from the
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# bootpc data.
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# Last updated : Mon Mar 10 15:17:01 1997
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#
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# Variables
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BOOTPC=/sbin/bootpc
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IFCONFIG=/sbin/ifconfig
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ROUTE=/sbin/route
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BINHOST=/bin/hostname
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DEV=eth0
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ASKSERVER="255.255.255.255"
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TW="--timeoutwait 320"
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RIF="--returniffail"
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RIFMESSAGE="Bootp failed -- disabling network."
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RCONF=/etc/resolv.conf
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EHOSTS=/etc/hosts
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LHOSTS=/etc/hosts.local
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TMPFILE=/tmp/bootp
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# Functions
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# Remove the networking by taking down the interface
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netdown() {
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${ROUTE} del default
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${IFCONFIG} ${DEV} down
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}
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## End of the functions
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## Start of the actual work
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# Bring up minimal networking use 0.0.0.0 as our address as we don't
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# know it yet (Means "Me but I don't know my address or network")
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${IFCONFIG} ${DEV} up 0.0.0.0
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${ROUTE} add default dev ${DEV}
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# Perform the bootp -- doesn't return unless it gets an answer
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if ${BOOTPC} --dev ${DEV} --server ${ASKSERVER} ${RIF} ${TW} > ${TMPFILE}
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then
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# Take down networking (use the 0.0.0.0 for as short a time as possible)
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netdown
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# Read in the values
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. ${TMPFILE}
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# To use in mountsmb script later
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SMBSERVER=${T100}
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# And delete the temporary file
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# rm ${TMPFILE}
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else
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# Take down networking (use the 0.0.0.0 for as short a time as possible)
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netdown
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# give message and quit
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echo ${RIFMESSAGE}
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exit 1
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fi
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# Start the loopback interface and add a route to it
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# It's already set by standard init?
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${IFCONFIG} lo 127.0.0.1
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${ROUTE} add -net 127.0.0.0
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# Setup of IP stuff needs doing first
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#
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if [ -z "${NETMASK}" ] ; then
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# No netmask info, all this is guessed from the IP number
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# If this is wrong for your network FIX the bootpd to know
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# what it should send in the RFC1497 cookie! 11/02/94 JSP
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#
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${IFCONFIG} ${DEV} up ${IPADDR} broadcast ${BROADCAST}
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${ROUTE} -n add -net ${NETWORK} dev ${DEV}
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else
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# We will have NETMASK, BROADCAST, and NETWORK defined
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${IFCONFIG} ${DEV} up ${IPADDR} broadcast ${BROADCAST} netmask ${NETMASK}
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${ROUTE} -n add -net ${NETWORK} dev ${DEV}
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fi
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# Set the hostname from what we got via bootp or reverse lookup
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echo "127.0.0.1 loopback localhost">${EHOSTS}
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${BINHOST} "${HOSTNAME}"
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echo "${IPADDR} ${HOSTNAME}" >>${EHOSTS}
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echo "${SERVER} ${SMBSERVER}" >>${EHOSTS}
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</etc/rc.d/rc.local, change to link>:
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#!/bin/sh
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# This script will be executed *after* all the other init scripts.
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# You can put your own initialization stuff in here if you don't
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# want to do the full Sys V style init stuff.
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#
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# 07/02/97 Pavel Tkatchouk
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#
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echo "Start networking"
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insmod /lib/8390.o
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insmod /lib/ne.o io=0x300 irq=9
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echo "Install serial"
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insmod /lib/serial.o
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echo "Install touch"
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insmod /lib/touch.o
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echo "Install smbfs"
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insmod /lib/smbfs.o
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echo "Getting TCP/IP parameters from bootp server"
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echo "and start networking"
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/etc/rc.d/rc.bootp
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if [ -f /etc/squirrel-release ]; then
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R=$(cat /etc/squirrel-release)
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else
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R="release 0.02"
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fi
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echo "Mounting remote fs"
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/sbin/mountsmb
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echo "XYZ Inc. Diskless Linux $R"
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echo "Starting X and Java client without login"
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su -c /sbin/xstart root
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</usr/sbin/xstart, change to link>:
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#!/bin/bash
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#
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# Script to start X and Java client
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# 08/07/97 Pavel Tkatchouk
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#
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# Read bootps response first
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. /tmp/bootp
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# -s 0 to disable screen-saver
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/usr/X11R6/bin/X -s 0 &
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export DISPLAY=:0.0
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# /usr is share mounted from Windows workstation
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cd /usr/program/
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java SomeJavaApp
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</sbin/mountsmb, change to link>:
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#!/bin/bash
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# mountsmb: mounts remote filesystems from NT workstation
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# using Microsoft's SMB protocol
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#
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# Copyright (c) Pavel Tkatchouk 1997. All rights reserved.
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# Permission is granted for this material to be freely
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# used and distributed, provided the source is acknowledged.
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# No warranty of any kind is provided. You use this material
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# at your own risk.
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#
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# Last edit June 29 8:30 1997
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#
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MOUNTDIR="usr"
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SHRDIR="usr"
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BOOTPRES="/tmp/bootp"
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# Read botpc response
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. ${BOOTPRES}
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# Sharename from NT server, uncomment if you want to use
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# non-hardcoded "usr" but from bootptab
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#SHRDIR=${T104}
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SMBSRV="//${T100}"
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CLIENT="${HOSTNAME}"
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USER="${T101}"
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PASSWORD="${T102}"
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echo -e "\nMounting $SMBSRV/$SHRDIR to /$MOUNTDIR"
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smbmount $SMBSRV/$SHRDIR $MOUNTDIR -c $CLIENT -U $USER -P $PASSWORD
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echo -e "\nDone"
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Gotcha's:
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Looks like smbmount client from smbfs package used to mount remote Windows shares to local
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Linux dirs in pre 2.2.x era isn't maintained anymore so you should use one coming with
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Samba package. Also binary smbmount won't work with 2.2.x, so you have to recompile with
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2.2.x headers following Samba's readme. Yet even that won't guarantee reliable work until
|
|
somebody fixes kernel's smbfs module.
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|
|
|
2.4.1. BOOTP, TFTP.
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|
|
|
There are number of BOOTP, TFTP servers for Windows on the market. You could find them
|
|
here:
|
|
|
|
- www.walusoft.co.uk (Walusoft's tftp);
|
|
- ftp.coast.net/simtel/nt/internet/tftpds12.zip (Millwood AB's tftp);
|
|
- ftp.cabletron.com/pub/snmp/bootftp/boottft2.zip (Cabletron's bootp/tftp combo);
|
|
- www.tellurian.au.com (Tellurian's bootp, tftp, dhcp servers).
|
|
- www.metainfo.com (Metainfo's DHCP server)
|
|
- www.nts.com (Network Telesystems's DHCP server in IPserver package)
|
|
|
|
My choice was Tellurian's products - very reliable, simple to install, attractively priced
|
|
(fully capable evaluation versions are available).
|
|
|
|
2.5. Bootprom.
|
|
|
|
Ken Yap's Etherboot <etherboot.sourceforge.net> will tell you everything about bootprom.
|
|
Here I just want to mention that normally you would have to put bootprom's code into network
|
|
adapter's PROM. But if your hardware like mine has BIOS programmed in flash you could
|
|
re-program it to add bootprom (some BIOS requires special programmer to do that, others don't)
|
|
as BIOS extension.
|
|
|
|
This is what I did to add ne.rom (bootprom generated by Etherboot's makerom for NE2000 clone)
|
|
to AMI BIOS on my flash:
|
|
|
|
- read flash content by programmer into bios.bin binary file;
|
|
- use one of available binary editors (say www.simtel.net/Win95/editors/hxp3005.zip to add
|
|
ne.rom to bios.bin (and to edit ne.rom if necessary);
|
|
- write new bios.bin back to flash.
|
|
|
|
Notes:
|
|
- makerom generates bootprom for standard EPROM sizes (8k, 16k, 32k, etc.), so if you tight on
|
|
space use -s flag to adjust size (or cut it manually to multiple of 512 bytes blocks, just
|
|
don't forget to adjust extension's length which is coded in Byte 2 and checksum to 8 bits
|
|
of zero;
|
|
- valid absolute addresses for BIOS extensions are from 0xC8000 to 0xF4000 (check with
|
|
motherboard's manufacturer how flash is mapped onto system memory space);
|
|
- Byte 0 must be 0x55, Byte 1 must be 0xAA, Byte 2 must be extension's length in 512 bytes
|
|
blocks;
|
|
- extension BIOS has to start at a 2k boundary;
|
|
|
|
|
|
3. Resources.
|
|
|
|
FAQ's:
|
|
- tomsrtbt.FAQ (www.toms.net);
|
|
|
|
HOWTO's:
|
|
- Paul Moody's miniHOWTO (www.linuxembedded.com/pmhowto.html)
|
|
- Diskless;
|
|
- Diskless-HOWTO;
|
|
- NFS-Root;
|
|
- NFS-Root-Client;
|
|
- Bootdisk-HOWTO;
|
|
- BootPrompt-HOWTO;
|
|
- NCD-X-Terminal;
|
|
- Remote-Boot;
|
|
- Remote-X-Apps;
|
|
|
|
Web:
|
|
- etherboot.sourceforge.net/
|
|
- www.waste.org/~zanshin
|
|
- www.tellurian.com.au.
|
|
- www.toms.net
|
|
- www.trinux.org
|
|
- www.linux.org.uk/ELKS-Home
|
|
- www.embedded.com
|
|
- www.linuxembedded.com
|
|
- www.thinlinux.org
|
|
- www.linuxrouter.org
|
|
- linux-mandrake.com
|
|
- www.disklessworkstations.com
|
|
|
|
Newsgroups:
|
|
- comp.arch.embedded
|
|
|
|
Lists:
|
|
- netboot-owner@baghira.han.de
|
|
- linux-embedded@waste.org
|
|
|
|
Magazines:
|
|
- Circuit Cellar #100 - 105
|
|
|
|
|
|
4. Copyright.
|
|
|
|
Copyright (c) Pavel Tkatchouk 1999.
|
|
Permission is granted for this material to be freely used and distributed, provided the source
|
|
is acknowledged. Copyright policy is GPL as published by the Free Software Foundation.
|
|
|
|
No warranty of any kind is provided. You use this material at your own risk.
|
|
|
|
|
|
|
|
5. Feedback and credits.
|
|
|
|
Since I am neither have a lot of Linux experience nor native English speaker, there would be
|
|
errors in this document. I would accept any help with gratitude whether in form of proof-reading,
|
|
techical corrections or otherwise. Please send your comments, suggestions and questions to Pavel
|
|
Tkatchouk (ptkatcho@portal.ca)
|
|
|
|
I wish to thank Pierre Mondie who convinced me to start this document. I'm also very much in
|
|
debt to all those who's work made this project possible:
|
|
|
|
Ken Yap <ken_yap@users.sourceforge.net> (Etherboot)
|
|
David Newall <www.tellurian.com.au> (Bootpdnt/Ftpdnt)
|
|
(to be continued)
|
|
|