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1417 lines
59 KiB
Plaintext
<!-- $Id: hw.sgml,v 1.43 1996/10/01 05:28:20 jkh Exp $ -->
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<!-- The FreeBSD Documentation Project -->
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<!--
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<!DOCTYPE chapt PUBLIC "-//FreeBSD//DTD linuxdoc//EN"> -->
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<chapt><heading>PC Hardware compatibility<label id="hw"></heading>
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<p>Issues of hardware compatibility are among the most
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troublesome in the computer industry today and FreeBSD is by
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no means immune to trouble. In this respect, FreeBSD's
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advantage of being able to run on inexpensive commodity PC
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hardware is also its liability when it comes to support for
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the amazing variety of components on the market. While it
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would be impossible to provide a exhaustive listing of
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hardware that FreeBSD supports, this section serves as a
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catalog of the device drivers included with FreeBSD and the
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hardware each drivers supports. Where possible and
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appropriate, notes about specific products are included.
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As FreeBSD is a volunteer project without a funded testing
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department, we depend on you, the user, for much of the
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information contained in this catalog. If you have direct
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experience of hardware that does or does not work with
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FreeBSD, please let us know by sending e-mail to
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<tt>doc@freebsd.org</tt>. Questions about supported hardware
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should be directed to <tt>questions@freebsd.org</tt> (see
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<ref id="eresources:mail" name="Mailing Lists"> for more
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information). When submitting information or asking a
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question, please remember to specify exactly what version of
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FreeBSD you are using and include as many details of your
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hardware as possible.
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<sect><heading>Resources on the Internet</heading>
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<p>The following links have proven useful in selecting hardware.
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Though some of what you see won't necessarily be specific (or even
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applicable) to FreeBSD, most of the hardware information out there
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is OS independant. Please check with the FreeBSD hardware guide
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to make sure that your chosen configuration is supported before
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making any purchases.</p>
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<p>
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<itemize>
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<item><htmlurl url="http://www.u-net.com/~sysdoc/hardware.htm"
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name="The Pentium Systems Hardware Performance Guide"></item>
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</itemize>
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<sect><heading>Sample Configurations<label id="hw:configs"></heading>
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<p>The following list of sample hardware configurations by no means
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constitutes an endorsement of a given hardware vendor or product by
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<em>The FreeBSD Project</em>. This information is provided only as a public
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service and merely catalogs some of the experiences that various individuals
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have had with different hardware combinations. Your mileage may vary.
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Slippery when wet. Beware of dog.
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<sect1><heading>Jordan's Picks</heading>
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<p>I have had fairly good luck building workstation and server
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configurations with the following components. I can't guarantee that
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you will too, nor that any of the companies here will remain "best buys"
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forever. I will try, when I can, to keep this list up-to-date but
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cannot obviously guarantee that it will be at any given time.
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<sect2><heading>Motherboards</heading>
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<p>The <htmlurl url="http://asustek.asus.com.tw/" name="ASUS">
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<htmlurl url="http://asustek.asus.com.tw/FTP/ASUS/Info/Spec/pi-p55tp4xe.txt"
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name="P55TP4XE">
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motherboard appears to be a good choice for mid-to-high range Pentium
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server and workstation systems, though the newer Triton-II boards (see
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below) have largely supplanted them. If you buy one of these boards,
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be also sure to get it with the
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<htmlurl url="http://asustek.asus.com.tw/Products/TB/mem-0002.html"
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name="pipelined burst cache module">. If you're looking for a 486 class
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motherboard, you might also investigate ASUS's
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<htmlurl url="http://asustek.asus.com.tw/FTP/ASUS/Info/Spec/pvi-486sp3.txt"
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name="486SP3G"> offering (Note: These have become increasingly hard to
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get as ASUS apparently no longer manufactures them).
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NOTE: The Intel <htmlurl
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url="http://asustek.asus.com.tw/Products/TB/triton-intro.html"
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name="Triton"> chip-set based motherboards do not offer memory
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parity logic, making it almost impossible to detect when a memory error
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has occurred. Those wishing to build more fault-tolerant systems should
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therefore buy one of the newer Triton II based motherboards, which offer
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both better performance, parity checking and ECC. I'm also told that
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if you are using ECC memory, be sure to get a motherboard with uses the
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A2 or later steppings of the 82439HX Triton-II chipset. Don't get this
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confused with the 82371SB stepping - you have an A2 stepping if the
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82439HX chip has a marking of "SU102." You have an A1 stepping if it's
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not marked with an S-number or if the number is "SU087."
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<p>At the even higher end, the Intel/Venus Pro (<ref id="hw:mb:pci"
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name="VS440FX">) motherboard appears to work very well with FreeBSD,
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as does its accompanying 200Mhz P6 (Pentium Pro) CPU. Recent price
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drops (plummets might be a more accurate term) have dropped P6 systems
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into a very affordable price bracket, at least in the United States,
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and for serious server applications you may wish to look no further than
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the Pentium Pro.
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NOTE: The Intel motherboards are designed to a different form-factor
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and hence require <em>an entirely different PC case</em>, the so-called
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"ATX" case design. Consider this fact carefully if you're thinking of
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upgrading an existing system - all the commonly available ATX cases
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I've seen so far have been in the "midi-tower" class, with limited space
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for drives or other internal peripherals available. On the plus side,
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most ATX cases appear to be of much higher quality than their typical PC
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counterparts.
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<sect2><heading>Disk Controllers</heading>
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<p>This one is a bit trickier, and while I used to recommend the
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<htmlurl url="http://www.buslogic.com" name="Buslogic"> controllers
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unilaterally for everything from ISA to PCI, now I tend to lean
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towards the <htmlurl url="http://www.adaptec.com" name="Adaptec">
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1542CF for ISA, Buslogic Bt747c for EISA and Adaptec 2940 for PCI.
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<p>If you should find that you need more than one SCSI controller in a
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PCI machine, you may wish to consider conserving your scarce PCI
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bus resources by buying the Adaptec 3940 card, which puts two SCSI
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controllers (and internal busses) in a single slot.
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<sect2><heading>Disk drives</heading>
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<p>In this particular game of Russian roulette, I'll make few specific
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recommendations except to say "SCSI over IDE whenever you can afford it."
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Even in small desktop configurations, SCSI often makes more sense since it
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allows you to easily migrate drives from server to desktop as falling drive
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prices make it economical to do so. If you have more than one machine
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to administer then think of it not simply as storage, think of it as a
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food chain!
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<p>I do not currently see SCSI WIDE drives as a necessary expense unless
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you're putting together an NFS or NEWS server that will be doing a lot
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of multiuser disk I/O.
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<sect2><heading>CDROM drives</heading>
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<p>My SCSI preferences extend to SCSI CDROM drives as well, and the
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<htmlurl url="http://www.toshiba.com" name="Toshiba"> XM-3501B (now
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released in a caddy-less model called the XM-5401B) drive has always
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performed well for me. Generally speaking, most SCSI CDROM drives I've
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seen have been of pretty solid construction (probably because they don't
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occupy the lower end of the market, due to their higher price) and you
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probably won't go wrong with an HP or NEC SCSI CDROM drive either.
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NOTE: SCSI CDROM prices appear to have dropped considerably in the
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last few months and are now quite competetive with IDE CDROMs while
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remaining the technically superior solution.
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<sect2><heading>CD Recordable (WORM) drives</heading>
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<p>At the time of this writing, FreeBSD supports 3 types of CDR drives
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(though I believe they all ultimately come from Phillips anyway):
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The Phillips CDD 522 (Acts like a Plasmon), the PLASMON RF4100 and
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the HP 4020i. I myself use the HP 4020i for burning CDROMs (with
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2.2-current - it does not work with 2.1.5 or earlier releases of the
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SCSI code) and it works very well. See <htmlurl
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url="file:/usr/share/examples/worm" name="/usr/share/examples/worm">
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on your 2.2 system for example scripts used to created ISO9660
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filesystem images (with RockRidge extensions) and burn them onto an
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HP4020i CDR.
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<sect2><heading>Tape drives</heading>
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<p>I've had pretty good luck with both
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<htmlurl url="http://www.Exabyte.COM:80/Products/8mm/8505XL/Rfeatures.html"
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name="8mm drives"> from <htmlurl url="http://www.exabyte.com"
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name="Exabyte"> and
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<htmlurl url="http://www-dmo.external.hp.com:80/tape/_cpb0001.htm"
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name="4mm (DAT)"> drives from <htmlurl url="http://www.hp.com" name="HP">.
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<p>For backup purposes, I'd have to give the higher recommendation to the
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Exabyte due to the more robust nature (and higher storage capacity) of
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8mm tape.
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<sect2><heading>Video Cards</heading>
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<p>If you can also afford to buy a commercial X server for US$99 from
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<htmlurl url="http://www.xinside.com/" name="X Inside"> then I
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can heartily recommend the <htmlurl url="http://www.matrox.com/"
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name="Matrox"> <htmlurl url="http://www.matrox.com/mgaweb/brochure.htm"
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name="Millenium"> card, If free X servers are more to your
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liking, you certainly can't go wrong with one of <htmlurl url="http://www.nine.com/" name="Number 9's"> cards - their S3 Vision 868 and 968 based cards
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(the 9FX series) are pretty fast cards as well, and are supported by
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<htmlurl url="http://www.xfree86.org" name="XFree86">'s S3 server.
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<sect2><heading>Monitors</heading>
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<p>I have had very good luck with the <htmlurl url="http://cons3.sel.sony.com/SEL/ccpg/display/ms17se2.html"
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name="Sony Multiscan 17SE monitors">, as have I with
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the Viewsonic offering in the same (trinitron) tube. For larger than
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17", all I can recommend at the time of this writing is to not spend
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any less than U.S. $2,500 for a 21" monitor if that's what you really
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need. There are good monitors available in the >=20" range and there
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are also cheap monitors in the >=20" range. Unfortunately, none are
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both cheap and good!
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<sect2><heading>Networking</heading>
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<p>I can recommend the <htmlurl url="http://www.smc.com/" name="SMC">
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Ultra 16 controller for any ISA application and the SMC EtherPower
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or Compex ENET32 cards for any serious PCI based networking. Both of
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the PCI cards are based around DEC's DC21041 Ethernet controller
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chip and other cards using it, such as the Zynx ZX342 or DEC DE435,
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will generally work as well. For 100Mbit networking, either the
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SMC SMC9332DST 10/100MB or Intel EtherExpress Pro/100B cards will do
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a fine job.
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If what you're looking for is, on the other hand, the cheapest possible
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solution which will still work reasonably well, then almost any NE2000
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clone is a good choice.
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<sect2><heading>Serial</heading>
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<p>If you're looking for high-speed serial networking solutions, then
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<htmlurl url="http://www.dgii.com/" name="Digi International">
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makes the <htmlurl url="http://www.dgii.com/prodprofiles/profiles-prices/digiprofiles/digispecs/sync570.html" name="SYNC/570"> series, with drivers now in
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FreeBSD-current. <htmlurl url="http://www.etinc.com"
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name="Emerging Technologies"> also manufactures a board with T1/E1
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capabilities, using software they provide.
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<p>Multiport card options are somewhat more numerous, though it has to be
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said that FreeBSD's support for <htmlurl url="http://www.cyclades.com/"
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name="Cyclades">'s products is probably the tightest, primarily as a result
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of that company's committment to making sure that we are adequately supplied
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with evaluation boards and technical specs. I've heard that the Cyclom-16Ye
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offers the best price/performance, though I've not checked the prices lately.
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Other multiport cards I've heard good things about are the BOCA and AST
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cards, and <htmlurl url="http://www.stallion.com/" name="Stallion
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Technologies"> apparently offers an unofficial driver for their
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cards at <htmlurl url="ftp://ftp.stallion.com/drivers/unsupported/freebsd/stalbsd-0.0.4.tar.gz" name="this"> location.
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<sect2><heading>Audio</heading>
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<p>I currently use the <htmlurl url="http://www.gravis.com/" name="Gravis">
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Ultrasound MAX due to its high sound quality and full-duplex audio
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capabilities (dual DMA channels). Support for Windows NT and OS/2 is
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fairly anemic, however, so I'm not sure that I can recommend it as an
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all-around card for a machine that will be running both FreeBSD and NT
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or OS/2. In such a scenario, I might recommend the <htmlurl url="http://www.creaf.com/" name="Creative Labs"> AWE32 instead.
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<sect2><heading>Video</heading>
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<p>For video capture, there's really only once choice - the
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<htmlurl url="http://www.matrox.com/" name="Matrox">
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<htmlurl url="http://www.matrox.com/imgweb/meteor.htm" name="Meteor">
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card. FreeBSD also supports the older video spigot card from
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Creative Labs, but those are getting somewhat difficult to find
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and the Meteor is a more current generation frame-grabber with
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a higher-speed PCI interface. I use one for broadcasting video
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on the MBONE and it works quite well!
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<sect><heading>Core/Processing<label id="hw:core"></heading>
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<sect1><heading>Motherboards, busses, and chipsets</heading>
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<sect2><heading>* ISA</heading>
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<sect2><heading>* EISA</heading>
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<sect2><heading>* VLB</heading>
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<sect2><heading>PCI<label id="hw:mb:pci"></heading>
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<p><em>Contributed by &a.rgrimes;.<newline>25 April 1995.</em></p>
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<p><em>Continuing updates by &a.jkh;.</em><newline>Last update on
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<em>26 August 1996.</em></p>
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<p>Of the Intel PCI chip sets, the following list describes
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various types of known-brokenness and the degree of
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breakage, listed from worst to best.
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</p>
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<p><descrip>
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<tag>Mercury:</tag> Cache coherency problems,
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especially if there are ISA bus masters behind
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the ISA to PCI bridge chip. Hardware flaw, only
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known work around is to turn the cache
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off.
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<tag>Saturn-I <em>(ie, 82424ZX at rev 0, 1 or 2)</em>:</tag>
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Write back cache coherency
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problems. Hardware flaw, only known work around
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is to set the external cache to write-through
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mode. Upgrade to Saturn-II.
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<tag>Saturn-II <em>(ie, 82424ZX at rev 3 or 4)</em>:</tag>
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Works fine, but many MB
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manufactures leave out the external dirty bit
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SRAM needed for write back operation. Work
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arounds are either run it in write through mode,
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or get the dirty bit SRAM installed. (I have
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these for the ASUS PCI/I-486SP3G rev 1.6 and
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later boards).
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<tag>Neptune:</tag> Can not run more than 2 bus
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master devices. Admitted Intel design flaw.
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Workarounds include do not run more than 2 bus
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masters, special hardware design to replace the
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PCI bus arbiter (appears on Intel Altair board
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and several other Intel server group MB's). And
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of course Intel's official answer, move to the
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Triton chip set, we ``fixed it there''.
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<tag>Triton:</tag> No known cache coherency or bus
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master problems, chip set does not implement
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parity checking. Workaround for parity issue.
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Use Triton-II based motherboards if you have the choice.
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<tag>Triton-II:</tag> All reports on motherboards using
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this chipset have been favorable so far. No known
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problems.
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<tag>Orion:</tag> Early versions of this chipset suffered from
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a PCI write-posting bug which can cause noticeable performance
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degradation in applications where large amounts of PCI bus
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traffic is involved. B0 stepping or later revisions of the
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chipset fixed this problem.
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<tag><htmlurl
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url="http://www-cs.intel.com/oem_developer/motherbd/vs_index.htm"
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name="VS440FX">:</tag>This <htmlurl
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url="http://www.intel.com/procs/ppro/intro/index.htm"
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name="Pentium Pro"> support chipset seems to work well,
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and does not suffer from any of the early Orion chipset
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problems. It also supports a wider variety of memory,
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including ECC and parity.
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</descrip>
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</p>
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<sect1><heading>* CPUs/FPUs</heading>
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<sect1><heading>* Memory</heading>
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<sect1><heading>* BIOS</heading>
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<sect><heading>Input/Output Devices<label id="hw:io"></heading>
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<sect1><heading>* Video cards</heading>
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<sect1><heading>* Sound cards</heading>
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<sect1><heading>Serial ports and multiport cards</heading>
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&uart;
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&sio;
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&cy;
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<sect1><heading>* Parallel ports</heading>
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<sect1><heading>* Modems</heading>
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<sect1><heading>* Network cards</heading>
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<sect1><heading>* Keyboards</heading>
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<sect1><heading>* Mice</heading>
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<sect1><heading>* Other</heading>
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<sect><heading>Storage Devices<label id="hw:storage"></heading>
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&esdi;
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&scsi;
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<sect1><heading>* Disk/tape controllers
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<label id="hw:storage:controllers"></heading>
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<sect2><heading>* SCSI</heading>
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<sect2><heading>* IDE</heading>
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<sect2><heading>* Floppy</heading>
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<sect1><heading>* Hard drives</heading>
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<sect1><heading> Tape drives</heading>
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<p><em>Contributed by &a.jmb;.<newline>2 July 1996.</em></p>
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<sect2><heading> General tape access commands</heading>
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<p><tt>mt(1)</tt> provides generic access to the tape
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drives. Some of the more common commands are <tt>rewind</tt>,
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<tt>erase</tt>, and <tt>status</tt>. See the <tt>mt(1)</tt>
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manual page for a detailed description.
|
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<sect2><heading> Controller Interfaces</heading>
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|
<p>There are several different interfaces that support
|
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tape drives. The interfaces are SCSI, IDE, Floppy and Parallel
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Port. A wide variety of tape drives are available for these
|
|
interfaces. Controllers are discussed in
|
|
<ref id="hw:storage:controllers" name="Disk/tape controllers">
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<sect2><heading> SCSI drives</heading>
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|
<p>The <tt>st(4)</tt> driver provides support for 8mm
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|
(Exabyte), 4mm (DAT: Digital Audio Tape), QIC (Quarter-Inch
|
|
Cartridge), DLT (Digital Linear Tape), QIC Minicartridge
|
|
and 9-track (remember the big reels that you see spinning
|
|
in Hollywood computer rooms) tape drives. See the
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<tt>st(4)</tt> manual page for a detailed description.
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|
<p>The drives listed below are currently being used by
|
|
members of the FreeBSD community. They are not the only drives
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that will work with FreeBSD. They just happen to be the ones
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that we use.
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<sect3><heading> 4mm (DAT: Digital Audio Tape)</heading>
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|
<p><ref id="hw:storage:python" name="Archive Python"
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|
<p><ref id="hw:storage:hp1533a" name="HP C1533A">
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|
<p><ref id="hw:storage:hp1534a" name="HP C1534A">
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|
<p><ref id="hw:storage:hp35450a" name="HP 35450A">
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<p><ref id="hw:storage:hp35470a" name="HP 35470A">
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<p><ref id="hw:storage:hp35480a" name="HP 35480A">
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<p><ref id="hw:storage:sdt5000" name="SDT-5000">
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|
<p><ref id="hw:storage:wangtek6200" name="Wangtek 6200"
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<sect3><heading> 8mm (Exabyte)</heading>
|
|
<p><ref id="hw:storage:exb8200" name="EXB-8200">
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<p><ref id="hw:storage:exb8500" name="EXB-8500">
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|
<p><ref id="hw:storage:exb8505" name="EXB-8505">
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|
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<sect3><heading> QIC (Quarter-Inch Cartridge)</heading>
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|
<p><ref id="hw:storage:anaconda" name="Archive Ananconda 2750"
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|
<p><ref id="hw:storage:viper60" name="Archive Viper 60"
|
|
<p><ref id="hw:storage:viper150" name="Archive Viper 150"
|
|
<p><ref id="hw:storage:viper2525" name="Archive Viper 2525"
|
|
<p><ref id="hw:storage:tandberg3600" name="Tandberg TDC 3600"
|
|
<p><ref id="hw:storage:tandberg3620" name="Tandberg TDC 3620"
|
|
<p><ref id="hw:storage:tandberg4222" name="Tandberg TDC 4222"
|
|
<p><ref id="hw:storage:wangtek5525es" name="Wangtek 5525ES"
|
|
<sect3><heading> DLT (Digital Linear Tape)</heading>
|
|
<p><ref id="hw:storage:dectz87" name="Digital TZ87"
|
|
<sect3><heading> Mini-Cartridge</heading>
|
|
<p><ref id="hw:storage:ctms3200" name="Conner CTMS 3200"
|
|
<p><ref id="hw:storage:exb2501" name="Exabyte 2501"
|
|
<sect3><heading> Autoloaders/Changers</heading>
|
|
<p><ref id="hw:storage:hp1553a" name="Hewlett-Packard HP
|
|
C1553A Autoloading DDS2">
|
|
|
|
<sect2><heading>* IDE drives</heading>
|
|
<sect2><heading> Floppy drives</heading>
|
|
<p><ref id="hw:storage:conner420r" name="Conner 420R"
|
|
<sect2><heading>* Parallel port drives</heading>
|
|
<sect2><heading> Detailed Information </heading>
|
|
|
|
<sect3><heading><label id="hw:storage:anaconda">
|
|
Archive Ananconda 2750</heading>
|
|
<p>The boot message identifier for this drive is "ARCHIVE
|
|
ANCDA 2750 28077 -003 type 1 removable SCSI 2"
|
|
<p>This is a QIC tape drive.
|
|
<p>Native capacity is 1.35GB when using QIC-1350 tapes.
|
|
This drive will read and write QIC-150 (DC6150), QIC-250
|
|
(DC6250), and QIC-525 (DC6525) tapes as well.
|
|
<p>Data transfer rate is 350kB/s using <tt>dump(8)</tt>.
|
|
Rates of 530kB/s have been reported when using <ref
|
|
id="hw:storage:amanda" name="Amanda">
|
|
<p>Production of this drive has been discontinued.
|
|
<p>The SCSI bus connector on this tape drive is reversed
|
|
from that on most other SCSI devices. Make sure that you have
|
|
enough SCSI cable to twist the cable one-half turn before and
|
|
after the Archive Anaconda tape drive, or turn your other SCSI
|
|
devices upside-down.
|
|
<p>Two kernel code changes are required to use this
|
|
drive. This drive will not work as delivered.
|
|
<p>If you have a SCSI-2 controller, short jumper 6.
|
|
Otherwise, the drive behaves are a SCSI-1 device. When operating
|
|
as a SCSI-1 device, this drive, "locks" the SCSI bus during some
|
|
tape operations, including: fsf, rewind, and rewoffl.
|
|
<p>If you are using the NCR SCSI controllers, patch the
|
|
file /usr/src/sys/pci/ncr.c (as shown below). Build and install
|
|
a new kernel.
|
|
|
|
<tscreen><verb>
|
|
*** 4831,4835 ****
|
|
};
|
|
|
|
! if (np->latetime>4) {
|
|
/*
|
|
** Although we tried to wake it up,
|
|
--- 4831,4836 ----
|
|
};
|
|
|
|
! if (np->latetime>1200) {
|
|
/*
|
|
** Although we tried to wake it up,
|
|
|
|
</verb></tscreen>
|
|
<p>Reported by: &a.jmb;
|
|
|
|
|
|
<sect3><heading><label id="hw:storage:python">
|
|
Archive Python</heading>
|
|
<p>The boot message identifier for this drive is "ARCHIVE
|
|
Python 28454-XXX4ASB" "type 1 removable SCSI 2" "density code
|
|
0x8c, 512-byte blocks"
|
|
<p>This is a DDS-1 tape drive.
|
|
<p>Native capacity is 2.5GB on 90m tapes.
|
|
<p>Data transfer rate is XXX.
|
|
<p>This drive was repackaged by Sun Microsystems as model 411.
|
|
<p>Reported by: Bob Bishop rb@gid.co.uk
|
|
|
|
<sect3><heading><label id="hw:storage:viper60">
|
|
Archive Viper 60</heading>
|
|
<p>The boot message identifier for this drive is "ARCHIVE
|
|
VIPER 60 21116 -007" "type 1 removable SCSI 1"
|
|
<p>This is a QIC tape drive.
|
|
<p>Native capacity is 60MB.
|
|
<p>Data transfer rate is XXX.
|
|
<p>Production of this drive has been discontinued.
|
|
<p>Reported by: Philippe Regnauld regnauld@hsc.fr
|
|
|
|
<sect3><heading><label id="hw:storage:viper150">
|
|
Archive Viper 150</heading>
|
|
<p>The boot message identifier for this drive is "ARCHIVE
|
|
VIPER 150 21531 -004" "Archive Viper 150 is a known rogue" "type
|
|
1 removable SCSI 1". A multitude of firmware revisions exist
|
|
for this drive. Your drive may report different numbers (e.g
|
|
"21247 -005".
|
|
<p>This is a QIC tape drive.
|
|
<p>Native capacity is 150/250MB. Both 150MB (DC6150)
|
|
and 250MB (DC6250) tapes have the recording format. The 250MB
|
|
tapes are approximately 67% longer than the 150MB tapes. This
|
|
drive can read 120MB tapes as well. It can not write 120MB tapes.
|
|
<p>Data transfer rate is 100kB/s
|
|
<p>This drive reads and writes DC6150 (6150MB) and DC6250
|
|
(250MB) tapes.
|
|
<p>This drives quirks are known and pre-compiled into the
|
|
scsi tape device driver (<tt>st(4)</tt>).
|
|
<p>Under FreeBSD 2.2-current, use <tt>mt blocksize
|
|
512</tt> to set the blocksize. (The particular drive had
|
|
firmware revision 21247 -005. Other firmware revisions may
|
|
behave differently) Previous versions of FreeBSD did not have
|
|
this problem.
|
|
<p>Production of this drive has been discontinued.
|
|
<p>Reported by: Pedro A M Vazquez vazquez@IQM.Unicamp.BR
|
|
<p> Mike Smith msmith@atrad.adelaide.edu.au
|
|
|
|
<sect3><heading><label id="hw:storage:viper2525">
|
|
Archive Viper 2525</heading>
|
|
<p>The boot message identifier for this drive is "ARCHIVE
|
|
VIPER 2525 25462 -011" "type 1 removable SCSI 1"
|
|
<p>This is a QIC tape drive.
|
|
<p>Native capacity is 525MB.
|
|
<p>Data transfer rate is 180kB/s at 90 inches/sec.
|
|
<p>The drive reads QIC-525, QIC-150, QIC-120 and QIC-24 tapes.
|
|
Writes QIC-525, QIC-150, and QIC-120.
|
|
<p>Firmware revisions prior to "25462 -011" are bug
|
|
ridden and will not function properly.
|
|
<p>Production of this drive has been discontinued.
|
|
<p>Reported by: &a.hm;
|
|
|
|
<sect3><heading><label id="hw:storage:conner420r">
|
|
Conner 420R</heading>
|
|
<p>The boot message identifier for this drive is "Conner tape".
|
|
<p>This is a floppy controller, minicartridge tape drive.
|
|
<p>Native capacity is XXXX
|
|
<p>Data transfer rate is XXX
|
|
<p>The drive uses QIC-80 tape cartridges.
|
|
<p>Reported by: Mark Hannon mark@seeware.DIALix.oz.au
|
|
|
|
<sect3><heading><label id="hw:storage:ctms3200">
|
|
Conner CTMS 3200</heading>
|
|
<p>The boot message identifier for this drive is "CONNER
|
|
CTMS 3200 7.00" "type 1 removable SCSI 2".
|
|
<p>This is a minicartridge tape drive.
|
|
<p>Native capacity is XXXX
|
|
<p>Data transfer rate is XXX
|
|
<p>The drive uses QIC-3080 tape cartridges.
|
|
<p>Reported by: Thomas S. Traylor tst@titan.cs.mci.com
|
|
|
|
<sect3><heading><label id="hw:storage:dectz87">
|
|
<htmlurl
|
|
url="http://www.digital.com/info/Customer-Update/931206004.txt.html"
|
|
name="DEC TZ87"></heading>
|
|
<p>The boot message identifier for this drive is "DEC
|
|
TZ87 (C) DEC 9206" "type 1 removable SCSI 2" "density code 0x19"
|
|
<p>This is a DLT tape drive.
|
|
<p>Native capacity is 10GB.
|
|
<p>This drive supports hardware data compression.
|
|
<p>Data transfer rate is 1.2MB/s.
|
|
<p>This drive is identical to the Quantum DLT2000. The
|
|
drive firmware can be set to emulate several well-known drives,
|
|
including an Exabyte 8mm drive.
|
|
<p>Reported by: &a.wilko;
|
|
|
|
<sect3><heading><label id="hw:storage:exb2501">
|
|
<htmlurl
|
|
url="http://www.Exabyte.COM:80/Products/Minicartridge/2501/Rfeatures.html"
|
|
name="Exabyte EXB-2501"></heading>
|
|
<p>The boot message identifier for this drive is "EXABYTE
|
|
EXB-2501"
|
|
<p>This is a mini-cartridge tape drive.
|
|
<p>Native capacity is 1GB when using MC3000XL minicartridges.
|
|
<p>Data transfer rate is XXX
|
|
<p>This drive can read and write DC2300 (550MB), DC2750
|
|
(750MB), MC3000 (750MB), and MC3000XL (1GB) minicartridges.
|
|
<p>WARNING: This drive does not meet the SCSI-2
|
|
specifications. The drive locks up completely in response to a
|
|
SCSI MODE_SELECT command unless there is a formatted tape in the
|
|
drive. Before using this drive, set the tape blocksize with
|
|
|
|
<verb>mt -f /dev/st0ctl.0 blocksize 1024</verb>
|
|
|
|
Before using a minicartridge for the first time, the minicartridge
|
|
must be formated. FreeBSD 2.1.0-RELEASE and earlier:
|
|
|
|
<verb>/sbin/scsi -f /dev/rst0.ctl -s 600 -c "4 0 0 0 0 0"</verb>
|
|
|
|
(Alternatively, fetch a copy of the <tt>scsiformat</tt> shell script
|
|
from FreeBSD 2.1.5/2.2.) FreeBSD 2.1.5 and later:
|
|
|
|
<verb>/sbin/scsiformat -q -w /dev/rst0.ctl</verb>
|
|
|
|
<p>Right now, this drive cannot really be recommended for FreeBSD.
|
|
<p>Reported by: Bob Beaulieu ez@eztravel.com
|
|
|
|
<sect3><heading><label id="hw:storage:exb8200"> Exabyte
|
|
EXB-8200</heading>
|
|
<p>The boot message identifier for this drive is "EXABYTE
|
|
EXB-8200 252X" "type 1 removable SCSI 1"
|
|
<p>This is an 8mm tape drive.
|
|
<p>Native capacity is 2.3GB.
|
|
<p>Data transfer rate is 270kB/s.
|
|
<p>This drive is fairly slow in responding to the SCSI
|
|
bus during boot. A custom kernel may be required (set SCSI_DELAY
|
|
to 10 seconds).
|
|
<p>There are a large number of firmware configurations
|
|
for this drive, some have been customized to a particular
|
|
vendor's hardware. The firmware can be changed via EPROM
|
|
replacement.
|
|
<p>Production of this drive has been discontinued.
|
|
<p>Reported by: Mike Smith msmith@atrad.adelaide.edu.au
|
|
|
|
<sect3><heading><label id="hw:storage:exb8500">
|
|
Exabyte EXB-8500</heading>
|
|
<p>The boot message identifier for this drive is "EXABYTE
|
|
EXB-8500-85Qanx0 0415" "type 1 removable SCSI 2"
|
|
<p>This is an 8mm tape drive.
|
|
<p>Native capacity is 5GB.
|
|
<p>Data transfer rate is 300kB/s.
|
|
<p>Reported by: Greg Lehey grog@lemis.de
|
|
|
|
<sect3><heading><label id="hw:storage:exb8505">
|
|
<htmlurl
|
|
url="http://www.Exabyte.COM:80/Products/8mm/8505XL/Rfeatures.html"
|
|
name="Exabyte EXB-8505"></Heading>
|
|
<p>The boot message identifier for this drive is "EXABYTE
|
|
EXB-85058SQANXR1 05B0" "type 1 removable SCSI 2"
|
|
<p>This is an 8mm tape drive.
|
|
<p>Native capacity is 2GB.
|
|
<p>The drive supports hardware data compression.
|
|
<p>Data transfer rate is 300kB/s.
|
|
<p>Reported by: Glen Foster gfoster@gfoster.com
|
|
|
|
<sect3><heading><label id="hw:storage:hp1533a">
|
|
Hewlett-Packard HP C1533A</heading>
|
|
<p>The boot message identifier for this drive is "HP
|
|
C1533A 9503" "type 1 removable SCSI 2".
|
|
<p>This is a DDS-2 tape drive. DDS-2 means hardware data
|
|
compression and narrower tracks for increased data capacity.
|
|
<p>Native capacity is 4GB when using 120m tapes. This drive
|
|
supports hardware data compression.
|
|
<p>Data transfer rate is 510kB/s.
|
|
<p>This drive is used in Hewlett-Packard's SureStore
|
|
6000eU and 6000i tape drives and C1533A DDS-2 DAT drive.
|
|
<p>The drive has a block of 8 dip switches. The proper
|
|
settings for FreeBSD are: 1 ON; 2 ON; 3 OFF; 4 ON; 5 ON; 6 ON; 7
|
|
ON; 8 ON.
|
|
<tscreen><verb>
|
|
switch 1 2 Result
|
|
ON ON Compression enabled at power-on, with host control
|
|
ON OFF Compression enabled at power-on, no host
|
|
control
|
|
OFF ON Compression disabled at power-on; the
|
|
host is allowed to control compression
|
|
OFF OFF Compression disabled at power-on, no host
|
|
control
|
|
</verb></tscreen>
|
|
<p>Switch 3 controls MRS (Media Recognition System). MRS
|
|
tapes have stripes on the transparent leader. These identify the
|
|
tape as DDS (Digital Data Storage) grade media. Tapes
|
|
that do not have the stripes will be treated as write-protected.
|
|
Switch 3 OFF enables MRS. Switch 3 ON disables MRS.
|
|
<p><em>Warning:</em> Quality control on these drives
|
|
varies greatly. One FreeBSD core-team member has returned 2 of
|
|
these drives. Neither lasted more than 5 months.
|
|
<p>Reported by: &a.se;
|
|
|
|
<sect3><heading><label id="hw:storage:hp1534a">
|
|
Hewlett-Packard HP 1534A</heading>
|
|
<p>The boot message identifier for this drive is "HP
|
|
HP35470A T503" type 1 removable SCSI 2" "Sequential-Access
|
|
density code 0x13, variable blocks".
|
|
<p>This is a DDS-1 tape drive. DDS-1 is the original DAT
|
|
tape format.
|
|
<p>Native capacity is 2GB when using 90m tapes.
|
|
<p>Data transfer rate is 183kB/s.
|
|
<p>The same mechanism is used in Hewlett-Packard's
|
|
SureStore <htmlurl url="http://www.dmo.hp.com/tape/sst2000.htm"
|
|
name="2000i"> tape drive, C35470A DDS format DAT drive, C1534A DDS
|
|
format DAT drive and HP C1536A DDS format DAT drive.
|
|
<p>The HP C1534A DDS format DAT drive has two indicator
|
|
lights, one green and one amber. The green one indicates tape
|
|
action: slow flash during load, steady when loaded, fast flash
|
|
during read/write operations. The amber one indicates warnings:
|
|
slow flash when cleaning is required or tape is nearing the end
|
|
of its useful life, steady indicates an hard fault. (factory
|
|
service required?)
|
|
<p>Reported by Gary Crutcher gcrutchr@nightflight.com
|
|
|
|
<sect3><heading><label id="hw:storage:hp1553a">
|
|
Hewlett-Packard HP C1553A Autoloading DDS2</heading>
|
|
<p>The boot message identifier for this drive is "".
|
|
<p>This is a DDS-2 tape drive. DDS-2 means hardware data
|
|
compression and narrower tracks for increased data capacity.
|
|
<p>Native capacity is 24GB when using 120m tapes. This
|
|
drive supports hardware data compression.
|
|
<p>Data transfer rate is 510kB/s (native).
|
|
<p>This drive is used in Hewlett-Packard's SureStore
|
|
<htmlurl url="http://www.dmo.hp.com/tape/sst12000.htm"
|
|
name="12000e"> tape drive.
|
|
<p>The drive has two selectors on the rear panel. The
|
|
selector closer to the fan is SCSI id. The other selector should
|
|
be set to 7.
|
|
<p>There are four internal switches. These should be
|
|
set: 1 ON; 2 ON; 3 ON; 4 OFF.
|
|
<p>At present the kernel drivers do not automatically
|
|
change tapes at the end of a volume. This shell script can be
|
|
used to change tapes:
|
|
|
|
<tscreen><verb>
|
|
#!/bin/sh
|
|
PATH="/sbin:/usr/sbin:/bin:/usr/bin"; export PATH
|
|
|
|
usage()
|
|
{
|
|
echo "Usage: dds_changer [123456ne] raw-device-name
|
|
echo "1..6 = Select cartridge"
|
|
echo "next cartridge"
|
|
echo "eject magazine"
|
|
exit 2
|
|
}
|
|
|
|
if [ $# -ne 2 ] ; then
|
|
usage
|
|
fi
|
|
|
|
cdb3=0
|
|
cdb4=0
|
|
cdb5=0
|
|
|
|
case $1 in
|
|
[123456])
|
|
cdb3=$1
|
|
cdb4=1
|
|
;;
|
|
n)
|
|
;;
|
|
e)
|
|
cdb5=0x80
|
|
;;
|
|
?)
|
|
usage
|
|
;;
|
|
esac
|
|
|
|
scsi -f $2 -s 100 -c "1b 0 0 $cdb3 $cdb4 $cdb5"
|
|
</verb></tscreen>
|
|
|
|
<sect3><heading><label id="hw:storage:hp35450a">
|
|
Hewlett-Packard HP 35450A</heading>
|
|
<p>The boot message identifier for this drive is "HP
|
|
HP35450A -A C620" "type 1 removable SCSI 2" "Sequential-Access
|
|
density code 0x13"
|
|
<p>This is a DDS-1 tape drive. DDS-1 is the original DAT
|
|
tape format.
|
|
<p>Native capacity is 1.2GB.
|
|
<p>Data transfer rate is 160kB/s.
|
|
<p>Reported by: mark thompson mark.a.thompson@pobox.com
|
|
|
|
<sect3><heading><label id="hw:storage:hp35470a">
|
|
Hewlett-Packard HP 35470A</heading>
|
|
<p>The boot message identifier for this drive is "HP
|
|
HP35470A 9 09" type 1 removable SCSI 2"
|
|
<p>This is a DDS-1 tape drive. DDS-1 is the original DAT
|
|
tape format.
|
|
<p>Native capacity is 2GB when using 90m tapes.
|
|
<p>Data transfer rate is 183kB/s.
|
|
<p>The same mechanism is used in Hewlett-Packard's
|
|
SureStore <htmlurl url="http://www.dmo.hp.com/tape/sst2000.htm"
|
|
name="2000i"> tape drive, C35470A DDS format DAT drive, C1534A
|
|
DDS format DAT drive, and HP C1536A DDS format DAT drive.
|
|
<p><em>Warning:</em> Quality control on these drives
|
|
varies greatly. One FreeBSD core-team member has returned 5 of
|
|
these drives. None lasted more than 9 months.
|
|
<p>Reported by: David Dawes dawes@rf900.physics.usyd.edu.au (9 09)
|
|
|
|
<Sect3><heading><label id="hw:storage:hp35480a">
|
|
Hewlett-Packard HP 35480A</heading>
|
|
<p>The boot message identifier for this drive is "HP
|
|
HP35480A 1009" "type 1 removable SCSI 2" "Sequential-Access
|
|
density code 0x13".
|
|
<p>This is a DDS-DC tape drive. DDS-DC is DDS-1 with
|
|
hardware data compression. DDS-1 is the original DAT tape
|
|
format.
|
|
<p>Native capacity is 2GB when using 90m tapes. This
|
|
drive supports hardware data compression
|
|
<p>Data transfer rate is 183kB/s.
|
|
<p>This drive is used in Hewlett-Packard's SureStore
|
|
<htmlurl url="http://www.dmo.hp.com/tape/sst5000.htm" name=
|
|
"5000eU"> and <htmlurl
|
|
url="http://www.dmo.hp.com/tape/sst5000.htm" name="5000i"> tape
|
|
drives and C35480A DDS format DAT drive..
|
|
<p>This drive will occasionally hang during a tape eject
|
|
operation (<tt>mt offline</tt>). Pressing the front panel button
|
|
will eject the tape and bring the tape drive back to life.
|
|
<p>WARNING: HP 35480-03110 only. On at least two
|
|
occasions this tape drive when used with FreeBSD 2.1.0, an IBM
|
|
Server 320 and an 2940W SCSI controller resulted in all SCSI disk
|
|
partitions being lost. The problem has not be analyzed or
|
|
resolved at this time.
|
|
|
|
<sect3><heading><label id="hw:storage:sdt5000">
|
|
<htmlurl
|
|
url="http://www.sel.sony.com/SEL/ccpg/storage/tape/t5000.html"
|
|
name="Sony SDT-5000"</heading>
|
|
<p>There are at least two significantly different models: one is
|
|
a DDS-1 and the other DDS-2. The DDS-1 version is "SDT-5000 3.02". The
|
|
DDS-2 version is "SONY SDT-5000 327M". The DDS-2 version has a
|
|
1MB cache. This cache is able to keep the tape streaming in almost any
|
|
circumstances.
|
|
<p>The boot message identifier for this drive is "SONY
|
|
SDT-5000 3.02" "type 1 removable SCSI 2" "Sequential-Access
|
|
density code 0x13"
|
|
<p>Native capacity is 4GB when using 120m tapes. This
|
|
drive supports hardware data compression.
|
|
<p>Data transfer rate is depends upon the model or
|
|
the drive. The rate is 630kB/s for the "SONY SDT-5000 327M"
|
|
while compressing the data. For the "SONY SDT-5000 3.02", the
|
|
data transfer rate is 225kB/s.
|
|
<p>In order to get this drive to stream, set the
|
|
blocksize to 512 bytes (<tt>mt blocksize 512</tt>) reported by
|
|
Kenneth Merry ken@ulc199.residence.gatech.edu"
|
|
<p>"SONY SDT-5000 327M" information reported by Charles Henrich
|
|
henrich@msu.edu
|
|
<p>Reported by: &a.jmz;
|
|
|
|
<sect3><heading><label id="hw:storage:tandberg3600">
|
|
Tandberg TDC 3600</heading>
|
|
<p>The boot message identifier for this drive is
|
|
"TANDBERG TDC 3600 =08:" "type 1 removable SCSI 2"
|
|
<p>This is a QIC tape drive.
|
|
<p>Native capacity is 150/250MB.
|
|
<p>This drive has quirks which are known and work around
|
|
code is present in the scsi tape device driver (<tt>st(4)</tt>).
|
|
Upgrading the firmware to XXX version will fix the quirks and
|
|
provide SCSI 2 capabilities.
|
|
<p>Data transfer rate is 80kB/s.
|
|
<p>IBM and Emerald units will not work. Replacing the
|
|
firmware EPROM of these units will solve the problem.
|
|
<p>Reported by: Michael Smith msmith@atrad.adelaide.edu.au
|
|
|
|
<sect3><heading><label id="hw:storage:tandberg3620">
|
|
Tandberg TDC 3620</heading>
|
|
<p>This is very similar to the <ref
|
|
id="hw:storage:tandberg3600" name="Tandberg TDC 3600"> drive.
|
|
<p>Reported by: &a.joerg;
|
|
|
|
<sect3><heading><label id="hw:storage:tandberg4222">
|
|
Tandberg TDC 4222</heading>
|
|
<p>The boot message identifier for this drive is
|
|
"TANDBERG TDC 4222 =07" "type 1 removable SCSI 2"
|
|
<p>This is a QIC tape drive.
|
|
<p>Native capacity is 2.5GB. The drive will read all
|
|
cartridges from the 60 MB (DC600A) upwards, and write 150 MB
|
|
(DC6150) upwards. Hardware compression is optionally supported
|
|
for the 2.5 GB cartridges.
|
|
<p>This drives quirks are known and pre-compiled into the
|
|
scsi tape device driver (<tt>st(4)</tt>) beginning with FreeBSD
|
|
2.2-current. For previous versions of FreeBSD, use <tt>mt</tt>
|
|
to read one block from the tape, rewind the tape, and then
|
|
execute the backup program (<tt>mt fsr 1; mt rewind; dump ...</tt>)
|
|
<p>Data transfer rate is 600kB/s (vendor claim with compression),
|
|
350 KB/s can even be reached in start/stop mode. The rate
|
|
decreases for smaller cartridges.
|
|
<p>Reported by: &a.joerg;
|
|
|
|
<sect3><heading><label id="hw:storage:wangtek5525es">
|
|
Wangtek 5525ES</heading>
|
|
<p>The boot message identifier for this drive is "WANGTEK
|
|
5525ES SCSI REV7 3R1" "type 1 removable SCSI 1" "density code 0x11, 1024-byte
|
|
blocks"
|
|
<p>This is a QIC tape drive.
|
|
<p>Native capacity is 525MB.
|
|
<p>Data transfer rate is 180kB/s.
|
|
<p>The drive reads 60, 120, 150, and 525MB tapes. The
|
|
drive will not write 60MB (DC600 cartridge) tapes. In order to
|
|
overwrite 120 and 150 tapes reliably, first erase (<tt>mt
|
|
erase</tt>) the tape. 120 and 150 tapes used a wider track
|
|
(fewer tracks per tape) than 525MB tapes. The "extra" width of
|
|
the previous tracks is not overwritten, as a result the new data
|
|
lies in a band surrounded on both sides by the previous data
|
|
unless the tape have been erased.
|
|
<p>This drives quirks are known and pre-compiled into the
|
|
scsi tape device driver (<tt>st(4)</tt>).
|
|
<p>Other firmware revisions that are known to work are: M75D
|
|
<p>Reported by: Marc van Kempen marc@bowtie.nl "REV73R1"
|
|
Andrew Gordon Andrew.Gordon@net-tel.co.uk "M75D"
|
|
|
|
<sect3><heading><label id="hw:storage:wangtek6200">
|
|
Wangtek 6200</heading>
|
|
<p>The boot message identifier for this drive is "WANGTEK
|
|
6200-HS 4B18" "type 1 removable SCSI 2" "Sequential-Access density code 0x13"
|
|
<p>This is a DDS-1 tape drive.
|
|
<p>Native capacity is 2GB using 90m tapes.
|
|
<p>Data transfer rate is 150kB/s.
|
|
<p>Reported by: Tony Kimball alk@Think.COM
|
|
|
|
<sect2><heading>* Problem drives</heading>
|
|
|
|
<sect1><heading>* CD-ROM drives</heading>
|
|
<sect1><heading>* Other</heading>
|
|
|
|
<sect1><heading>* Adding and reconfiguring disks</heading>
|
|
<sect1><heading> Tapes and backups<label id="hw:storage:tapebackups"></heading>
|
|
<sect2><heading>* What about backups to floppies?</heading>
|
|
<sect2><heading> Tape Media</heading>
|
|
<sect3><heading><label id="hw:storage:tapebackups:4mm">
|
|
4mm (DDS: Digital Data Storage)</heading>
|
|
<!--gen-->
|
|
<p>4mm tapes are replacing QIC as the workstation backup
|
|
media of choice. This trend accelerated greatly when Conner
|
|
purchased Archive, a leading manufacturer of QIC drives, and then
|
|
stopped production of QIC drives. 4mm drives are small and quiet
|
|
but do not have the reputation for reliability that is enjoyed by 8mm drives.
|
|
The cartridges are less expensive and smaller (3 x 2 x 0.5
|
|
inches, 76 x 51 x 12 mm) than 8mm cartridges. 4mm, like 8mm, has
|
|
comparatively short head life for the same reason, both use
|
|
helical scan.
|
|
|
|
<!--spec-->
|
|
<p>Data thruput on these drives starts ~150kB/s, peaking
|
|
at ~500kB/s. Data capacity starts at 1.3 GB and ends at 2.0 GB.
|
|
Hardware compression, available with most of these drives,
|
|
approximately doubles the capacity. Multi-drive tape library
|
|
units can have 6 drives in a single cabinet with automatic tape
|
|
changing. Library capacities reach 240 GB.
|
|
|
|
<!--tech-->
|
|
<p>4mm drives, like 8mm drives, use helical-scan. All
|
|
the benefits and drawbacks of helical-scan apply to both 4mm and
|
|
8mm drives.
|
|
|
|
<p>Tapes should be retired from use after 2,000 passes or
|
|
100 full backups.
|
|
|
|
<sect3><heading><label id="hw:storage:tapebackups:8mm">
|
|
8mm (Exabyte)</heading>
|
|
|
|
<!--gen-->
|
|
<p>8mm tapes are the most common SCSI tape drives; they
|
|
are the best choice of exchanging tapes. Nearly every site has
|
|
an exabyte 2 GB 8mm tape drive. 8mm drives are reliable,
|
|
convienent and quiet. Cartidges are inexpensive and small (4.8 x
|
|
3.3 x 0.6 inches; 122 x 84 x 15 mm). One downside of 8mm tape is
|
|
relatively short head and tape life due to the high rate of
|
|
relative motion of the tape across the heads.
|
|
|
|
<!--spec-->
|
|
<p>Data thruput ranges from ~250kB/s to ~500kB/s. Data
|
|
sizes start at 300 MB and go up to 7 GB. Hardware compression,
|
|
available with most of these drives, approximately doubles the
|
|
capacity. These drives are available as single units or
|
|
multi-drive tape libraries with 6 drives and 120 tapes in a
|
|
single cabinet. Tapes are changed automatically by the unit.
|
|
Library capacities reach 840+ GB.
|
|
|
|
<!--tech-->
|
|
<p>Data is recorded onto the tape using helical-scan, the
|
|
heads are positioned at an angle to the media (approximately 6
|
|
degrees). The tape wraps around 270 degrees of the spool that
|
|
holds the heads. The spool spins while the tape slides over the
|
|
spool. The result is a high density of data and closely packed
|
|
tracks that angle across the tape from one edge to the other.
|
|
|
|
|
|
<sect3><heading><label id="hw:storage:tapebackups:qic">
|
|
QIC</heading>
|
|
<!--gen-->
|
|
<p>QIC-150 tapes and drives are, perhaps, the most common
|
|
tape drive and media around. QIC tape drives are the least
|
|
expensive "serious" backup drives. The downside is the cost of
|
|
media. QIC tapes are expensive compared to 8mm or 4mm tapes, up
|
|
to 5 times the price per GB data storage. But, if your needs can
|
|
be satisfied with a half-dozen tapes, QIC may be the correct
|
|
choice. QIC is the <em>most</em> common tape drive. Every site
|
|
has a QIC drive of some density or another. Therein lies the
|
|
rub, QIC has a large number of densities on physically similar
|
|
(sometimes identical) tapes. QIC drives are not quiet. These
|
|
drives audibly seek before they begin to record data and are
|
|
clearly audible whenever reading, writing or seeking. QIC tapes
|
|
measure (6 x 4 x 0.7 inches; 152 x 102 x 17 mm). <ref
|
|
id="hw:storage:tapebackups:mini" name="Mini-cartridges">, which also
|
|
use 1/4" wide tape are discussed separately. Tape libraries and
|
|
changers are not available.
|
|
|
|
<!--spec-->
|
|
<p>Data thruput ranges from ~150kB/s to ~500kB/s. Data
|
|
capacity ranges from 40 MB to 15 GB. Hardware compression is
|
|
available on many of the newer QIC drives. QIC drives are less
|
|
frequently installed; they are being supplanted by DAT drives.
|
|
|
|
<!--tech-->
|
|
<p>Data is recorded onto the tape in tracks. The tracks
|
|
run along the long axis of the tape media from one end to the
|
|
other. The number of tracks, and therefore the width of a track,
|
|
varies with the tape's capacity. Most if not all newer drives
|
|
provide backward-compatibility at least for reading (but often
|
|
also for writing). QIC has a good reputation regarding the
|
|
safety of the data (the mechanics are simpler and more robust
|
|
than for helical scan drives).
|
|
|
|
<p>Tapes should be retired from use after 5,000 backups.
|
|
|
|
<sect3><heading><label id="hw:storage:tapebackups:mini">
|
|
* Mini-Cartridge</heading>
|
|
|
|
<sect3><heading><label id="hw:storage:tapebackups:dlt">
|
|
DLT</heading>
|
|
<!--gen-->
|
|
<p>DLT has the fastest data transfer rate of all the drive
|
|
types listed here. The 1/2" (12.5mm) tape is contained in a
|
|
single spool cartridge (4 x 4 x 1 inches; 100 x 100 x 25 mm). The
|
|
cartridge has a swinging gate along one entire side of the
|
|
cartridge. The drive mechanism opens this gate to extract the
|
|
tape leader. The tape leader has an oval hole in it which the
|
|
drive uses to "hook" the tape. The take-up spool is located
|
|
inside the tape drive. All the other tape cartridges listed here
|
|
(9 track tapes are the only exception) have both the supply and
|
|
take-up spools located inside the tape cartridge itself.
|
|
|
|
<!--spec-->
|
|
Data thruput is approximately 1.5MB/s, three times the
|
|
thruput of 4mm, 8mm, or QIC tape drives. Data capacities range
|
|
from 10GB to 20GB for a single drive. Drives are available in
|
|
both multi-tape changers and multi-tape, multi-drive tape
|
|
libraries containing from 5 to 900 tapes over 1 to 20 drives,
|
|
providing from 50GB to 9TB of storage.
|
|
|
|
<!--tech-->
|
|
Data is recorded onto the tape in tracks parallel to the
|
|
direction of travel (just like QIC tapes). Two tracks are written
|
|
at once. Read/write head lifetimes are relatively long; once the
|
|
tape stops moving, there is no relative motion between the heads
|
|
and the tape.
|
|
|
|
<sect2><heading> Using a new tape for the first time</heading>
|
|
<p>The first time that you try to read or write a new,
|
|
completely blank tape, the operation will fail. The console
|
|
messages should be similar to:
|
|
<tscreen><verb>
|
|
st0(ncr1:4:0): NOT READY asc:4,1
|
|
st0(ncr1:4:0): Logical unit is in process of becoming ready
|
|
</verb></tscreen>
|
|
|
|
The tape does not contain an Identifier Block (block number
|
|
0). All QIC tape drives since the adoption of QIC-525 standard
|
|
write an Identifier Block to the tape. There are two
|
|
solutions:
|
|
<p><tt>mt fsf 1</tt> causes the tape drive to write an
|
|
Identifier Block to the tape.
|
|
<p>Use the front panel button to eject the tape.
|
|
<p>Re-insert the tape and <tt>dump(8)</tt> data to the
|
|
tape.
|
|
<p><tt>dump(8)</tt> will report <tt>DUMP: End of tape
|
|
detected</tt> and the console will show: <tt>HARDWARE FAILURE
|
|
info:280 asc:80,96</tt>
|
|
<p>rewind the tape using: <tt>mt rewind</tt>
|
|
|
|
<p>Subsequent tape operations are successful.
|
|
|
|
<sect2><heading> Backup Programs</heading>
|
|
<p>The three major programs are <tt>dump(8)</tt>,
|
|
<tt>tar(1)</tt>, and <tt>cpio(1)</tt>.
|
|
|
|
<sect3><heading> Dump and Restore</heading>
|
|
<!--gen-->
|
|
<p><tt>dump(8)</tt> and <tt>restore(8)</tt> are the
|
|
traditional Unix backup programs. They operate on the drive as a
|
|
collection of disk blocks, below the abstractions of files, links
|
|
and directories that are created by the filesystems.
|
|
<tt>dump(8)</tt> backs up devices, entire filesystems, not parts
|
|
of a filesystem and not directory trees that span more than one
|
|
filesystem, using either soft links <tt>ln(1)</tt> or mounting
|
|
one filesystem onto another. <tt>dump(8)</tt> does not write
|
|
files and directories to tape, but rather writes the data blocks
|
|
that are the building blocks of files and directories.
|
|
<tt>dump(8)</tt> has quirks that remain from its early days in
|
|
Version 6 of ATT Unix (circa 1975). The default parameters are
|
|
suitable for 9-track tapes (6250 bpi), not the high-density media
|
|
available today (up to 62,182 ftpi). These defaults must be
|
|
overridden on the command line to utilize the capacity of current
|
|
tape drives.
|
|
|
|
<p><tt>rdump(8)</tt> and <tt>rrestore(8)</tt> backup data
|
|
across the network to a tape drive attached to another computer.
|
|
Both programs rely upon <tt>rcmd(3)</tt> and <tt>ruserok(3)</tt>
|
|
to access the remote tape drive. Therefore, the user performing
|
|
the backup must have <tt>rhosts</tt> access to the remote
|
|
computer. The arguments to <tt>rdump(8)</tt> and
|
|
<tt>rrestore(8)</tt> must suitable to use on the remote computer.
|
|
(e.g. When <tt>rdump</tt>'ing from a FreeBSD computer to an
|
|
Exabyte tape drive connected to a Sun called komodo, use: <tt>/sbin/rdump
|
|
0dsbfu 54000 13000 126 komodo:/dev/nrst8 /dev/rsd0a 2>&1</tt>)
|
|
Beware: there are security implications to allowing
|
|
<tt>rhosts</tt> commands. Evaluate your situation carefully.
|
|
|
|
|
|
|
|
<sect3><heading> Tar</heading>
|
|
<!--gen-->
|
|
<p><tt>tar(1)</tt> also dates back to Version 6 of ATT
|
|
Unix (circa 1975). <tt>tar(1)</tt> operates in cooperation with
|
|
the filesystem; <tt>tar(1)</tt> writes files and directories to
|
|
tape. <tt>tar(1)</tt> does not support the full range of options
|
|
that are available from <tt>cpio(1)</tt>, but <tt>tar(1)</tt>
|
|
does not require the unusual command pipeline that
|
|
<tt>cpio(1)</tt> uses.
|
|
|
|
<p><tt>tar(1)</tt> does not support backups across the
|
|
network. You can use a pipeline and <tt>rsh(1)</tt> to send the
|
|
data to a remote tape drive. (XXX add an example command)
|
|
|
|
<sect3><heading> Cpio</heading>
|
|
<!--gen-->
|
|
<p><tt>cpio(1)</tt> is the original Unix file interchange
|
|
tape program for magnetic media. <tt>cpio(1)</tt> has options (among
|
|
many others) to perform byte-swapping, write a number of
|
|
different archives format, and pipe the data to other programs.
|
|
This last feature makes <tt>cpio(1)</tt> and excellent choice for
|
|
installation media. <tt>cpio(1)</tt> does not know how to walk
|
|
the directory tree and a list of files must be provided thru <tt>STDIN</tt>.
|
|
|
|
<p><tt>cpio(1)</tt> does not support backups across the
|
|
network. You can use a pipeline and <tt>rsh(1)</tt> to send the
|
|
data to a remote tape drive. (XXX add an example command)
|
|
|
|
<sect3><heading><label id="hw:storage:amanda"><htmlurl
|
|
url="http://www.freebsd.org/ports/misc.html#amanda-2.2.6.5"
|
|
name="Amanda"></heading>
|
|
<p>Amanda (Advanced Maryland Network Disk Archiver) is a
|
|
client/server backup system, rather than a single program. An
|
|
Amanda server will backup to a single tape drive any number of
|
|
computers that have Amanda clients and network communications
|
|
with the Amanda server. A common problem at locations with a
|
|
number of large disks is the length of time required to backup to
|
|
data directly to tape exceeds the amount of time available for
|
|
the task. Amanda solves this problem. Amanda can use a "holding
|
|
disk" to backup several filesystems at the same time. Amanda
|
|
creates "archive sets": a group of tapes used over a period of
|
|
time to create full backups of all the filesystems listed in
|
|
Amanda's configuration file. The "archive set" also contains
|
|
nightly incremental (or differential) backups of all the
|
|
filesystems. Restoring a damaged filesystem requires the most
|
|
recent full backup and the incremental backups.
|
|
|
|
<p>The configuration file provides fine control backups
|
|
and the network traffic that Amanda generates. Amanda will use
|
|
any of the above backup programs to write the data to tape.
|
|
Amanda is available as either a port or a package, it is not
|
|
installed by default.
|
|
|
|
<sect3><heading> Do nothing</heading>
|
|
<p>"Do nothing" is not a computer program, but it is the
|
|
most widely used backup strategy. There are no initial costs.
|
|
There is no backup schedule to follow. Just say no. If
|
|
something happens to your data, grin and bear it!
|
|
|
|
<p>If your time and your data is worth little to nothing,
|
|
then "Do nothing" is the most suitable backup program for your
|
|
computer. But beware, Unix is a useful tool, you may find that
|
|
within six months you have a collection of files that are
|
|
valuable to you.
|
|
|
|
<p>"Do nothing" is the correct backup method for
|
|
<tt>/usr/obj</tt> and other directory trees that can be exactly
|
|
recreated by your computer. An example is the files that
|
|
comprise these handbook pages-they have been generated from
|
|
<tt>SGML</tt> input files. Creating backups of these
|
|
<tt>HTML</tt> files is not necessary. The <tt>SGML</tt> source
|
|
files are backed up regularly.
|
|
|
|
<sect3><heading> Which Backup Program is Best?</heading>
|
|
<p><tt>dump(8)</tt> <em>Period.</em> Elizabeth D. Zwicky
|
|
torture tested all the backup programs discussed here. The clear
|
|
choice for preserving all your data and all the peculiarities of
|
|
Unix filesystems is <tt>dump(8)</tt>. Elizabeth created
|
|
filesystems containing a large variety of unusual conditions (and
|
|
some not so unusual ones) and tested each program by do a backup
|
|
and restore of that filesystems. The peculiarities included:
|
|
files with holes, files with holes and a block of nulls, files
|
|
with funny characters in their names, unreadable and unwriteable
|
|
files, devices, files that change size during the backup, files
|
|
that are created/deleted during the backup and more. She
|
|
presented the results at LISA V in Oct. 1991.
|
|
|
|
<sect2><heading>Emergency Restore Procedure</heading>
|
|
<sect3><heading> Before the Disaster</heading>
|
|
<p>There are only four steps that you need to perform in
|
|
preparation for any disaster that may occur.
|
|
|
|
<p>First, print the disklabel from each of your disks
|
|
(<tt>e.g. disklabel sd0 | lpr</tt>), your filesystem table
|
|
(<tt>/etc/fstab</tt>) and all boot messages, two copies of each.
|
|
|
|
<p>Second, determine the boot and fixit floppies
|
|
(boot.flp and fixit.flp) have all your devices. The easiest way
|
|
to check is to reboot your machine with the boot floppy in the
|
|
floppy drive and check the boot messages. If all your devices
|
|
are listed and functional, skip on to step three.
|
|
|
|
<p>Otherwise, you have to create two custom bootable
|
|
floppies which has a kernel that can mount your all of your disks
|
|
and access your tape drive. These floppies must contain:
|
|
<tt>fdisk(8)</tt>, <tt>disklabel(8)</tt>, <tt>newfs(8)</tt>,
|
|
<tt>mount(8)</tt>, and whichever backup program you use. These
|
|
programs must be statically linked. If you use <tt>dump(8)</tt>,
|
|
the floppy must contain <tt>restore(8)</tt>.
|
|
|
|
<p>Third, create backup tapes regularly.
|
|
Any changes that you make after your last backup may be
|
|
irretrievably lost. Write-protect the backup tapes.
|
|
|
|
<p>Fourth, test the floppies (either boot.flp and
|
|
fixit.flp or the two custom bootable floppies you made in step
|
|
two.) and backup tapes. Make notes of the procedure. Store
|
|
these notes with the bootable floppy, the printouts and the
|
|
backup tapes. You will be so distraught when restoring that the
|
|
notes may prevent you from destroying your backup tapes (How? In
|
|
place of <tt>tar xvf /dev/rst0</tt>, you might accidently type
|
|
<tt> tar cvf /dev/rst0</tt> and over-write your backup tape).
|
|
|
|
<p>For an added measure of security, make bootable
|
|
floppies and two backup tapes each time. Store one of each at a
|
|
remote location. A remote location is NOT the basement of the
|
|
same office building. A number of firms in the World Trade Center
|
|
learned this lesson the hard way. A remote location should be
|
|
physically separated from your computers and disk drives by a
|
|
significant distance.
|
|
|
|
<p>An example script for creating a bootable floppy:
|
|
<tscreen><verb>
|
|
#!/bin/sh
|
|
#
|
|
# create a restore floppy
|
|
#
|
|
# format the floppy
|
|
#
|
|
PATH=/bin:/sbin:/usr/sbin:/usr/bin
|
|
|
|
fdformat -q fd0
|
|
if [ $? -ne 0 ]
|
|
then
|
|
echo "Bad floppy, please use a new one"
|
|
exit 1
|
|
fi
|
|
|
|
# place boot blocks on the floppy
|
|
#
|
|
disklabel -w -B -b /usr/mdec/fdboot -s /usr/mdec/bootfd /dev/rfd0c fd1440
|
|
|
|
#
|
|
# newfs the one and only partition
|
|
#
|
|
newfs -t 2 -u 18 -l 1 -c 40 -i 5120 -m 5 -o space /dev/rfd0a
|
|
|
|
#
|
|
# mount the new floppy
|
|
#
|
|
mount /dev/fd0a /mnt
|
|
|
|
#
|
|
# create required directories
|
|
#
|
|
mkdir /mnt/dev
|
|
mkdir /mnt/bin
|
|
mkdir /mnt/sbin
|
|
mkdir /mnt/etc
|
|
mkdir /mnt/root
|
|
mkdir /mnt/mnt # for the root partition
|
|
mkdir /mnt/tmp
|
|
mkdir /mnt/var
|
|
|
|
#
|
|
# populate the directories
|
|
#
|
|
if [ ! -x /sys/compile/MINI/kernel ]
|
|
then
|
|
cat << EOM
|
|
The MINI kernel does not exist, please create one.
|
|
Here is an example config file:
|
|
#
|
|
# MINI -- A kernel to get FreeBSD on onto a disk.
|
|
#
|
|
machine "i386"
|
|
cpu "I486_CPU"
|
|
ident MINI
|
|
maxusers 5
|
|
|
|
options INET # needed for _tcp _icmpstat _ipstat
|
|
# _udpstat _tcpstat _udb
|
|
options FFS #Berkeley Fast File System
|
|
options FAT_CURSOR #block cursor in syscons or pccons
|
|
options SCSI_DELAY=15 #Be pessimistic about Joe SCSI device
|
|
options NCONS=2 #1 virtual consoles
|
|
options USERCONFIG #Allow user configuration with -c XXX
|
|
|
|
config kernel root on sd0 swap on sd0 and sd1 dumps on sd0
|
|
|
|
controller isa0
|
|
controller pci0
|
|
|
|
controller fdc0 at isa? port "IO_FD1" bio irq 6 drq 2 vector fdintr
|
|
disk fd0 at fdc0 drive 0
|
|
|
|
controller ncr0
|
|
|
|
controller scbus0
|
|
|
|
device sc0 at isa? port "IO_KBD" tty irq 1 vector scintr
|
|
device npx0 at isa? port "IO_NPX" irq 13 vector npxintr
|
|
|
|
device sd0
|
|
device sd1
|
|
device sd2
|
|
|
|
device st0
|
|
|
|
pseudo-device loop # required by INET
|
|
pseudo-device gzip # Exec gzipped a.out's
|
|
EOM
|
|
exit 1
|
|
fi
|
|
|
|
cp -f /sys/compile/MINI/kernel /mnt
|
|
|
|
gzip -c -best /sbin/init > /mnt/sbin/init
|
|
gzip -c -best /sbin/fsck > /mnt/sbin/fsck
|
|
gzip -c -best /sbin/mount > /mnt/sbin/mount
|
|
gzip -c -best /sbin/halt > /mnt/sbin/halt
|
|
gzip -c -best /sbin/restore > /mnt/sbin/restore
|
|
|
|
gzip -c -best /bin/sh > /mnt/bin/sh
|
|
gzip -c -best /bin/sync > /mnt/bin/sync
|
|
|
|
cp /root/.profile /mnt/root
|
|
|
|
cp -f /dev/MAKEDEV /mnt/dev
|
|
chmod 755 /mnt/dev/MAKEDEV
|
|
|
|
chmod 500 /mnt/sbin/init
|
|
chmod 555 /mnt/sbin/fsck /mnt/sbin/mount /mnt/sbin/halt
|
|
chmod 555 /mnt/bin/sh /mnt/bin/sync
|
|
chmod 6555 /mnt/sbin/restore
|
|
|
|
#
|
|
# create the devices nodes
|
|
#
|
|
cd /mnt/dev
|
|
./MAKEDEV std
|
|
./MAKEDEV sd0
|
|
./MAKEDEV sd1
|
|
./MAKEDEV sd2
|
|
./MAKEDEV st0
|
|
./MAKEDEV pty0
|
|
cd /
|
|
|
|
#
|
|
# create minimum filesystem table
|
|
#
|
|
cat > /mnt/etc/fstab <<EOM
|
|
/dev/fd0a / ufs rw 1 1
|
|
EOM
|
|
|
|
#
|
|
# create minimum passwd file
|
|
#
|
|
cat > /mnt/etc/passwd <<EOM
|
|
root:*:0:0:Charlie &:/root:/bin/sh
|
|
EOM
|
|
|
|
cat > /mnt/etc/master.passwd <<EOM
|
|
root::0:0::0:0:Charlie &:/root:/bin/sh
|
|
EOM
|
|
|
|
chmod 600 /mnt/etc/master.passwd
|
|
chmod 644 /mnt/etc/passwd
|
|
/usr/sbin/pwd_mkdb -d/mnt/etc /mnt/etc/master.passwd
|
|
|
|
#
|
|
# umount the floppy and inform the user
|
|
#
|
|
/sbin/umount /mnt
|
|
</verb></tscreen>
|
|
|
|
<sect3><heading>After the Disaster</heading>
|
|
<p>The key question is: did your hardware survive? You
|
|
have been doing regular backups so there is no need to worry
|
|
about the software.
|
|
|
|
<p>If the hardware has been damaged. First, replace
|
|
those parts that have been damaged.
|
|
|
|
<p>If your hardware is okay, check your floppies. If you
|
|
are using a custom boot floppy, boot single-user (type "-s" at
|
|
the "boot:" prompt). Skip the following paragraph.
|
|
|
|
<p>If you are using the boot.flp and fixit.flp floppies,
|
|
keep reading. Insert the boot.flp floppy in the first floppy drive
|
|
and boot the computer. The original install menu will be displayed
|
|
on the screen. Select the "Fixit--Repair mode with CDROM or floppy."
|
|
option. Insert the fixit.flp when prompted. <tt>restore</tt> and
|
|
the other programs that you need are located in <tt>/mnt2/stand</tt>.
|
|
|
|
<p>Recover each filesystem separately.
|
|
|
|
<p>Try to <tt>mount(8) (e.g. mount /dev/sd0a /mnt) </tt>
|
|
the root partition of your first disk. If the disklabel was
|
|
damaged, use <tt>disklabel(8)</tt> to re-partition and label the
|
|
disk to match the label that your printed and saved. Use
|
|
<tt>newfs(8)</tt> to re-create the filesystems. Re-mount the
|
|
root partition of the floppy read-write ("<tt>mount -u -o rw
|
|
/mnt</tt>"). Use your backup program and backup tapes to recover
|
|
the data for this filesystem (e.g. <tt>restore vrf
|
|
/dev/st0</tt>). Unmount the filesystem (e.g. <tt>umount
|
|
/mnt</tt>) Repeat for each filesystem that was damaged.
|
|
|
|
<p>Once your system is running, backup your data onto new
|
|
tapes. Whatever caused the crash or data loss may strike again.
|
|
An another hour spent now, may save you from further distress later.
|
|
|
|
<sect3><heading>* I did not prepare for the Disaster, What Now?</heading>
|
|
<sect1><heading>* Serial ports</heading>
|
|
<sect1><heading>* Sound cards</heading>
|
|
<sect1><heading>* PCMCIA</heading>
|
|
<sect1><heading>* Other<label id="hw:other"></heading>
|
|
|