RELNOTESng is now the default for -CURRENT release builds. (Floppy

images get TXT renderings only; CDROM and FTP areas get TXT and HTML.)

Remove the old *.TXT release documentation files, as they
have been subsumed into RELNOTESng.  The new layout will greatly
facilitate their maintenence and help keep them internally consistent.

14 files changed, 33 insertions, 8839 deletions

diff --git a/release/Makefile b/release/Makefile
index fbb407b..80b2500 100644
--- a/release/Makefile
+++ b/release/Makefile
@@ -73,11 +73,14 @@ OBJFORMAT?=		elf
 #NODOC=  YES
 #NOPORTS=  YES
 
-# RELNOTESng can be enabled be uncommenting the following variable
-# definition.  It depends on having ports and docs enabled for this
+# RELNOTESng can be disabled by uncommenting the following variable
+# definition.  RELNOTESng depends on having ports enabled for this
 # release build.
-#RELNOTESNG=	YES
-#RELNOTESNG_LANG=	en_US.ISO_8859-1
+#NORELNOTES=	YES
+
+# Uncomment and modify this definition if you want the release notes 
+# and other release documentation in a language other than English.
+#RELNOTES_LANG=	en_US.ISO_8859-1
 
 # As an alternative to installing the entire ports collection (which
 # can take a huge amount of time, in particular on slower disks),
@@ -95,8 +98,9 @@ NOPORTSATALL=	YES
 .endif
 .endif
 
-# Set ALLLANG=no if you want the release documentation to be
-# in English only.
+# Set ALLLANG=no if you want the documentation (e.g. Handbook, FAQ) to be
+# in English only.  The language for the release notes is controlled
+# by the RELNOTES_LANG variable above.
 ALLLANG?=	yes
 DOCPORTS=	textproc/docproj
 # Set this to wherever the distfiles required by ${DOCPORTS} live.
@@ -105,12 +109,9 @@ DOCDISTFILES?=	${.CURDIR}/../../ports/distfiles
 # on the boot floppy.  WARNING: Breaks on some Athlon (K7) motherboards.
 AUTO_KEYBOARD_DETECT?= 0
 
-.if defined(RELNOTESNG) && ${RELNOTESNG} == "YES"
+.if !defined(NORELNOTES)
 DIST_DOCS_ARCH_INDEP=	readme errata
 DIST_DOCS_ARCH_DEP=	installation relnotes hardware
-.else
-DIST_DOCS= ABOUT.TXT ERRATA.TXT LAYOUT.TXT README.TXT HARDWARE.TXT \
-           RELNOTES.TXT TROUBLE.TXT UPGRADE.TXT INSTALL.TXT
 .endif
 
 # Things which without too much trouble can be considered variables
@@ -219,7 +220,7 @@ EXTRAS= cdrom.1 ftp.1
 
 .if !defined(NODOC)
 DOCREL= doc.1
-.if defined(RELNOTESNG) && ${RELNOTESNG} == "YES"
+.if !defined(NORELNOTES)
 DOCREL+= doc.2
 .endif
 .endif
@@ -239,9 +240,9 @@ rerelease release:
 	@echo "unset NOPORTS, or set at least DOMINIMALDOCPORTS to YES!"
 	@exit 1
 .endif
-.if defined(RELNOTESNG) && ${RELNOTESNG} == "YES" && defined(NODOC)
-	@echo "Ports and docs are required for building RELNOTESng.  Either"
-	@echo "unset RELNOTESNG or unset both NOPORTS and NODOC!"
+.if !defined(NORELNOTES) && defined(NODOC)
+	@echo "Docs are required for building the release notes.  Either"
+	@echo "set NORELNOTES or unset NODOC!"
 	@exit 1
 .endif
 .if make(release)
@@ -356,13 +357,13 @@ rerelease release:
 .if defined(NOSRC)
 	echo "export NOSRC=${NOSRC}"		>> ${CHROOTDIR}/mk
 .endif
-.if defined(RELNOTESNG)
-	echo "export RELNOTESNG=${RELNOTESNG}"	>> ${CHROOTDIR}/mk
+.if defined(NORELNOTES)
+	echo "export NORELNOTES=${NORELNOTES}"	>> ${CHROOTDIR}/mk
 .endif
-.if defined(RELNOTESNG_LANG)
-	echo "export RELNOTESNG_LANG=${RELNOTESNG_LANG}"	>> ${CHROOTDIR}/mk
+.if defined(RELNOTES_LANG)
+	echo "export RELNOTES_LANG=${RELNOTES_LANG}"	>> ${CHROOTDIR}/mk
 .else
-	echo "export RELNOTESNG_LANG=en_US.ISO_8859-1"	>> ${CHROOTDIR}/mk
+	echo "export RELNOTES_LANG=en_US.ISO_8859-1"	>> ${CHROOTDIR}/mk
 .endif
 .if defined(NOSHARED)
 	echo "export NOSHARED=${NOSHARED}"	>> ${CHROOTDIR}/mk
@@ -616,22 +617,14 @@ release.8: write_mfs_in_kernel
 	ln ${RD}/mfsfd/stand/etc/services ${RD}/mfsfd/etc/services
 	ln ${RD}/mfsfd/stand/etc/netconfig ${RD}/mfsfd/etc/netconfig
 	gzip -9c ${.CURDIR}/../COPYRIGHT > ${RD}/mfsfd/stand/help/COPYRIGHT.hlp.gz
-.if defined(RELNOTESNG) && ${RELNOTESNG} == "YES"
+.if !defined(NORELNOTES)
 	@for i in ${DIST_DOCS_ARCH_INDEP}; do \
-	  gzip -9c ${.CURDIR}/doc/${RELNOTESNG_LANG}/$$i/article.txt > ${RD}/mfsfd/stand/help/`echo $${i} | tr 'a-z' 'A-Z'`.TXT.gz; \
+	  gzip -9c ${.CURDIR}/doc/${RELNOTES_LANG}/$$i/article.txt > ${RD}/mfsfd/stand/help/`echo $${i} | tr 'a-z' 'A-Z'`.TXT.gz; \
 	done
 	@for i in ${DIST_DOCS_ARCH_DEP}; do \
-	  gzip -9c ${.CURDIR}/doc/${RELNOTESNG_LANG}/$$i/${MACHINE_ARCH}/article.txt > ${RD}/mfsfd/stand/help/`echo $${i} | tr 'a-z' 'A-Z'`.TXT.gz; \
+	  gzip -9c ${.CURDIR}/doc/${RELNOTES_LANG}/$$i/${MACHINE_ARCH}/article.txt > ${RD}/mfsfd/stand/help/`echo $${i} | tr 'a-z' 'A-Z'`.TXT.gz; \
 	done
 	@mv ${RD}/mfsfd/stand/help/INSTALLATION.TXT.gz ${RD}/mfsfd/stand/help/INSTALL.TXT.gz
-.else
-	@for i in README.TXT RELNOTES.TXT INSTALL.TXT UPGRADE.TXT HARDWARE.TXT; do \
-	  if [ -f ${.CURDIR}/texts/${MACHINE_ARCH}/$${i} ]; then \
-	     gzip -9c ${.CURDIR}/texts/${MACHINE_ARCH}/$${i} > ${RD}/mfsfd/stand/help/$${i}.gz; \
-	  else \
-	     gzip -9c ${.CURDIR}/texts/$${i} > ${RD}/mfsfd/stand/help/$${i}.gz; \
-	  fi; \
-	done
 .endif
 	-test -f ${.CURDIR}/install.cfg && cp ${.CURDIR}/install.cfg ${RD}/mfsfd
 	@mkdir -p ${RD}/mfsfd/boot
@@ -714,27 +707,17 @@ ftp.1:
 	-@ln -s . ${FD}/${BUILDNAME}
 	@cd ${RD} && find floppies -print | cpio -dumpl ${FD}
 	@cd ${RD}/dists && find . -print | cpio -dumpl ${FD}
-.if defined(RELNOTESNG) && ${RELNOTESNG} == "YES"
+.if !defined(NORELNOTES)
 	@for i in ${DIST_DOCS_ARCH_INDEP}; do \
-	  cp ${.CURDIR}/doc/${RELNOTESNG_LANG}/$$i/article.txt ${FD}/`echo $${i} | tr 'a-z' 'A-Z'`.TXT; \
-	  cp ${.CURDIR}/doc/${RELNOTESNG_LANG}/$$i/article.html ${FD}/`echo $${i} | tr 'a-z' 'A-Z'`.HTM; \
+	  cp ${.CURDIR}/doc/${RELNOTES_LANG}/$$i/article.txt ${FD}/`echo $${i} | tr 'a-z' 'A-Z'`.TXT; \
+	  cp ${.CURDIR}/doc/${RELNOTES_LANG}/$$i/article.html ${FD}/`echo $${i} | tr 'a-z' 'A-Z'`.HTM; \
 	done
 	@for i in ${DIST_DOCS_ARCH_DEP}; do \
-	  cp ${.CURDIR}/doc/${RELNOTESNG_LANG}/$$i/${MACHINE_ARCH}/article.txt ${FD}/`echo $${i} | tr 'a-z' 'A-Z'`.TXT; \
-	  cp ${.CURDIR}/doc/${RELNOTESNG_LANG}/$$i/${MACHINE_ARCH}/article.html ${FD}/`echo $${i} | tr 'a-z' 'A-Z'`.HTM; \
+	  cp ${.CURDIR}/doc/${RELNOTES_LANG}/$$i/${MACHINE_ARCH}/article.txt ${FD}/`echo $${i} | tr 'a-z' 'A-Z'`.TXT; \
+	  cp ${.CURDIR}/doc/${RELNOTES_LANG}/$$i/${MACHINE_ARCH}/article.html ${FD}/`echo $${i} | tr 'a-z' 'A-Z'`.HTM; \
 	done
 	@mv ${FD}/INSTALLATION.TXT ${FD}/INSTALL.TXT
 	@mv ${FD}/INSTALLATION.HTM ${FD}/INSTALL.HTM
-.else
-	@for i in ${DIST_DOCS}; do \
-	  if [ -f ${.CURDIR}/texts/$${i} ]; then \
-	     cp ${.CURDIR}/texts/$${i} ${FD}; \
-	  fi; \
-	  if [ -f ${.CURDIR}/texts/${MACHINE_ARCH}/$${i} ]; then \
-	     echo "=== Platform specifics for ${MACHINE_ARCH}" >> ${FD}/$${i}; \
-	     cat ${.CURDIR}/texts/${MACHINE_ARCH}/$${i} >> ${FD}/$${i}; \
-	  fi; \
-	done
 .endif
 	@echo "CD_VERSION = ${BUILDNAME}" > ${FD}/cdrom.inf
 .if !defined(NOPORTS)
@@ -763,27 +746,17 @@ cdrom.1:
 	@cp ${.CURDIR}/fixit.profile ${CD_DISC2}/.profile
 	@echo "CD_VERSION = ${BUILDNAME}" > ${CD_DISC1}/cdrom.inf
 	@echo "CD_VERSION = ${BUILDNAME}" > ${CD_DISC2}/cdrom.inf
-.if defined(RELNOTESNG) && ${RELNOTESNG} == "YES"
+.if !defined(NORELNOTES)
 	@for i in ${DIST_DOCS_ARCH_INDEP}; do \
-	  cp ${.CURDIR}/doc/${RELNOTESNG_LANG}/$$i/article.txt ${CD_DISC1}/`echo $${i} | tr 'a-z' 'A-Z'`.TXT; \
-	  cp ${.CURDIR}/doc/${RELNOTESNG_LANG}/$$i/article.html ${CD_DISC1}/`echo $${i} | tr 'a-z' 'A-Z'`.HTM; \
+	  cp ${.CURDIR}/doc/${RELNOTES_LANG}/$$i/article.txt ${CD_DISC1}/`echo $${i} | tr 'a-z' 'A-Z'`.TXT; \
+	  cp ${.CURDIR}/doc/${RELNOTES_LANG}/$$i/article.html ${CD_DISC1}/`echo $${i} | tr 'a-z' 'A-Z'`.HTM; \
 	done
 	@for i in ${DIST_DOCS_ARCH_DEP}; do \
-	  cp ${.CURDIR}/doc/${RELNOTESNG_LANG}/$$i/${MACHINE_ARCH}/article.txt ${CD_DISC1}/`echo $${i} | tr 'a-z' 'A-Z'`.TXT; \
-	  cp ${.CURDIR}/doc/${RELNOTESNG_LANG}/$$i/${MACHINE_ARCH}/article.html ${CD_DISC1}/`echo $${i} | tr 'a-z' 'A-Z'`.HTM; \
+	  cp ${.CURDIR}/doc/${RELNOTES_LANG}/$$i/${MACHINE_ARCH}/article.txt ${CD_DISC1}/`echo $${i} | tr 'a-z' 'A-Z'`.TXT; \
+	  cp ${.CURDIR}/doc/${RELNOTES_LANG}/$$i/${MACHINE_ARCH}/article.html ${CD_DISC1}/`echo $${i} | tr 'a-z' 'A-Z'`.HTM; \
 	done
 	@mv ${CD_DISC1}/INSTALLATION.TXT ${CD_DISC1}/INSTALL.TXT
 	@mv ${CD_DISC1}/INSTALLATION.HTM ${CD_DISC1}/INSTALL.HTM
-.else
-	@for i in ${DIST_DOCS}; do \
-	  if [ -f ${.CURDIR}/texts/$${i} ]; then \
-	     cp ${.CURDIR}/texts/$${i} ${CD_DISC1}; \
-	  fi; \
-	  if [ -f ${.CURDIR}/texts/${MACHINE_ARCH}/$${i} ]; then \
-	     echo "=== Platform specifics for ${MACHINE_ARCH}" >> ${CD_DISC1}/$${i}; \
-	     cat ${.CURDIR}/texts/${MACHINE_ARCH}/$${i} >> ${CD_DISC1}/$${i}; \
-	  fi; \
-        done
 .endif
 .if ${MACHINE_ARCH} == "alpha"
 	@echo "Setting up Alpha CD disc1 for booting"
diff --git a/release/texts/ABOUT.TXT b/release/texts/ABOUT.TXT
deleted file mode 100644
index 53a9172..0000000
--- a/release/texts/ABOUT.TXT
+++ /dev/null
@@ -1,215 +0,0 @@
-o About FreeBSD:
-
-What is FreeBSD?  FreeBSD is an operating system based on 4.4 BSD Lite
-for Intel, AMD, Cyrix or NexGen "x86" based PC hardware and Compaq
-(formerly DEC) Alpha computers.  It works with a very wide variety of PC
-peripherals and configurations and can be used for everything from
-software development to Internet Service Provision.
-
-This release of FreeBSD contains everything you need to run such a
-system, including full source code for everything.  With the source
-distribution installed you can literally recompile the entire system
-from scratch with one command, making it ideal for students,
-researchers or folks who simply want to see how it all works.
-
-A large collection of 3rd party ported software (the "ports
-collection") is also provided to make it easier for you to obtain and
-install all your favorite traditional UNIX utilities for FreeBSD.
-Over 5000 ports, from editors to programming languages to graphical
-applications, make FreeBSD a powerful and comprehensive operating
-environment that extends far beyond what's provided by many commercial
-versions of UNIX.
-
-For more documentation on this system it is recommended that you
-purchase The Complete FreeBSD, available from local bookstores
-and from the FreeBSD Mall (http://www.freebsdmall.com), as well
-as the 4.4BSD Document Set from O'Reilly Associates and the USENIX
-Association, ISBN 1-56592-082-1.  We have no connection with O'Reilly,
-we're just satisfied customers!
-
-If you're new to FreeBSD then you should also read EVERYTHING listed
-in the Documentation menu on the boot floppy.  It may seem like a lot
-to read, but you should at least acquaint yourself with the types of
-information available should you later get stuck.  Once the system is
-installed, you can also revisit this menu and use a WEB browser to
-read the installed FAQ (Frequently Asked Questions) and Handbook HTML
-documentation sets for FreeBSD.  You can also use the browser to visit
-other WEB sites on the net (such as http://www.freebsd.org) if you
-have an Internet connection.
-
-NOTE: If you read no other documentation before installing a given
-version of FreeBSD, you should at least by all means *READ THE ERRATA*
-for that release so that you don't stumble over problems which have
-already been found and fixed.  The ERRATA.TXT file accompanying your
-release (it should be right next to this file) is obviously already
-out of date by definition, but other copies are kept updated on the
-net and should be consulted as the "current errata" for your release
-(this is also what your ERRATA.TXT file says, by the way).  These
-other copies of the errata are located at:
-
-  1. http://www.freebsd.org/releases/
-
-  2. ftp://ftp.freebsd.org/pub/FreeBSD/releases/<your-release>/ERRATA.TXT
-     (and any sites which keep up-to-date mirrors of this location).
-
-
-DISCLAIMER: While FreeBSD does its best to safeguard against
-accidental loss of data, it's still more than possible to WIPE OUT
-YOUR ENTIRE DISK with this installation!  Please do not proceed to the
-final FreeBSD installation menu unless you've adequately backed up any
-important data first!  We really mean it!
-
-
-o E-mail addresses and tech support info:
-
-For general questions, please send email to :
-
-        freebsd-questions@FreeBSD.org
-
-Please also have patience if your questions are not answered right
-away - this mailing list is staffed purely by volunteers and they also
-have real life schedules to contend with.  Questions which are asked
-intelligently (e.g. not "My system doesn't work!  What's wrong!?")
-also stand a far greater chance of being answered. If your question
-does not contain enough information to allow the responder to generate
-a meaningful answer, they generally won't.
-
-Bug reports submitted with the send-pr command are also logged and
-tracked in our bugs database, and you'll be kept informed of any
-changes in status during the life of the bug (or feature request).
-
-Technical comments on this release should be sent (in English!) to:
-
-        freebsd-hackers@FreeBSD.org
-
-Bug reports should be sent using the `send-pr' command or the Web page
-at http://www.freebsd.org/send-pr.html.  If you cannot use either of
-these two methods, you may also send mail to:
-
-        freebsd-bugs@FreeBSD.org
-
-
-PLEASE ALSO BE SURE TO INDICATE WHICH VERSION OF FREEBSD YOU'RE
-RUNNING IN ANY BUG REPORTS OR QUESTIONS!
-
-Sorry for the caps, but you'd be amazed at how many times people
-forget this and there are many different release versions of FreeBSD
-out there now.  It's imperative that we know what you're running so
-that we tell if you're suffering from a bug which has already been
-fixed.
-
-
-o WWW Resources:
-
-Our WEB site, http://www.freebsd.org, is also a very good source for
-updated information and provides a number of advanced documentation
-searching facilities.  If you wish to use Netscape as your browser,
-several versions may be found in the ports collection under
-/usr/ports/www if you've installed the ports collection on your
-machine (always a good idea).
-
-Several other non-commercial browsers are also available in
-/usr/ports/www and may be compiled and installed in the same fashion.
-Many are also available as pre-compiled packages - see the Packages
-entry in the Configuration menu for more details.
-
-The Handbook and FAQ are also available as on-line documents in
-/usr/share/doc and can be read using the ``file:/usr/share/doc''
-syntax in any HTML capable browser.
-
-
-o Distributions:
-
-A typical FreeBSD distribution directory looks like this:
-
-ABOUT.TXT       bin             compat3x        games           proflibs
-HARDWARE.TXT    compat1x        info		src             tools
-INSTALL.TXT     compat20        dict            manpages        packages
-README.TXT      compat21        des             doc
-RELNOTES.TXT    compat22        floppies        ports
-XF86336
-
-If you want to do a CDROM, FTP or NFS installation from this
-distribution directory, all you need to do is make a pair of 1.44MB
-floppies from the floppies/kern.flp and floppies/mfsroot.flp image
-files (see floppies/README.TXT for instructions on how to do this),
-boot it and follow the instructions.
-
-If you're trying to do some other type of installation, or are just
-curious about how the distribution is organized in general, what
-follows is a more thorough description of each item in more detail:
-
-The *.TXT files obviously contain documentation (ABOUT.TXT being what
-you're reading now).
-
-The XF86336 directory contains the XFree86 project's 3.3.6 release and
-consists of a series of gzip'd tar files which contain each component
-of the XFree86 distribution.
-
-The bin, dict, des, doc, games, info, manpages, proflibs, and src
-directories contain the primary distribution components of FreeBSD
-itself and are split into smaller files for easy packing onto floppies
-(should that be necessary).
-
-The compat1x, compat20, compat21, compat22, and compat3x directories
-contain distributions for compatibility with older releases and are
-distributed as single gzip'd tar files - they can be installed during
-release time or later by running their `install.sh' scripts.
-
-A typical distribution (we'll use the info distribution as an example)
-looks like this:
-
-CHECKSUM.MD5    info.ab         info.ad         info.inf        install.sh
-info.aa         info.ac         info.ae         info.mtree
-
-The CHECKSUM.MD5 file contains MD5 signatures for each file, should
-data corruption be suspected, and is purely for reference - it is not
-used by the actual installation and does not need to be copied with
-the rest of the distribution files.  The info.a* files are split,
-gzip'd tar files, the contents of which can be viewed by doing:
-
-	cat info.a* | tar tvzf -
-
-During installation, they are automatically concatenated and extracted
-by the installation procedure.
-
-The info.inf file is also necessary since it is read by the installation
-program in order to figure out how many pieces to look for when fetching and
-concatenating the distribution.  When putting distributions onto floppies,
-the .inf file MUST occupy the first floppy of each distribution set!
-
-The info.mtree file is another non-essential file which is provided
-for user reference.  It contains the MD5 signatures of the *unpacked*
-distribution files and can be later used with the mtree(1) program
-to verify the installation permissions and checksums against any possible
-modifications to the file.  When used with the bin distribution, this can
-be an excellent way of detecting trojan horse attacks on your system.
-
-Finally, the install.sh file is for use by those who want to install the
-distribution after installation time.  To install the info distribution from
-CDROM after a system was installed, for example, you'd do:
-
-		cd /cdrom/info
-		sh install.sh
-
-And that's all there is to it!  Each distribution contains its own
-install.sh file for this.
-
-
-The floppies subdirectory contains the floppy installation images and
-the floppies/README.TXT file should be read for further information
-on them.
-
-The packages and ports directories contain the FreeBSD packages and
-ports collections.  Packages may be installed from the packages directory
-by running the sysinstall utility with the argument ``configPackages''
-or by feeding the individual filenames to the pkg_add(1) command.
-
-The ports collection may be installed like any other distribution
-and requires about 100MB unpacked.  More information on the ports collection
-may be obtained from http://www.freebsd.org/ports or locally from
-file:/usr/share/doc/handbook if you've installed the doc distribution.
-
-Last of all, the tools directory contains various DOS tools for
-discovering disk geometries, installing boot managers and the like.
-It is purely optional and provided only for user convenience.
diff --git a/release/texts/ERRATA.TXT b/release/texts/ERRATA.TXT
deleted file mode 100644
index 72f0096..0000000
--- a/release/texts/ERRATA.TXT
+++ /dev/null
@@ -1,30 +0,0 @@
-If you read no other documentation before installing this
-version of FreeBSD, you should at least by all means *READ
-THE ERRATA* for this release so that you don't stumble over
-problems which have already been found and fixed.  This ERRATA.TXT
-file is obviously already out of date by definition, but other
-copies are kept updated on the net and should be consulted as
-the "current errata" for your release.  These other copies of
-the errata are located at: 
-
-  1. http://www.freebsd.org/releases/   
-
-  2. ftp://ftp.freebsd.org/pub/FreeBSD/releases/<your-release>/ERRATA.TXT   
-     (and any sites which keep up-to-date mirrors of this location).          
-
-Any changes to this file are also automatically emailed to:
-
-	freebsd-current@freebsd.org
-
-For all CERT security advisories, see:
-
-	ftp://ftp.freebsd.org/pub/FreeBSD/CERT/
-
-For the latest security incident information.
-
----- Security Advisories:
-
-Current active security advisories:	None
-
----- System Update Information:
-
diff --git a/release/texts/FLOPPIES.TXT b/release/texts/FLOPPIES.TXT
deleted file mode 100644
index 4a60e5c..0000000
--- a/release/texts/FLOPPIES.TXT
+++ /dev/null
@@ -1,57 +0,0 @@
-For a normal CDROM or network installation, all you need to copy onto
-actual floppies from this directory are the kern.flp and mfsroot.flp
-images (for 1.44MB floppies).
-
-Get two blank, freshly formatted floppies and image copy kern.flp
-onto one and mfsroot.flp onto the other.  These images are NOT DOS
-files!  You cannot simply copy them to a DOS or UFS floppy as
-regular files, you need to "image" copy them to the floppy with
-fdimage.exe under DOS (see the tools/ directory on your CDROM or
-FreeBSD FTP mirror) or the `dd' command in UNIX.
-
-For example:
-
-To create the kern floppy image from DOS, you'd do something like
-this:
-
-C> fdimage kern.flp a:
-
-Assuming that you'd copied fdimage.exe and kern.flp into a directory
-somewhere.  You would do the same for mfsroot.flp, of course.
-
-If you're creating the boot floppy from a UNIX machine, you may find
-that one of the following:
-
-        dd if=floppies/kern.flp of=/dev/fd0
-        dd if=floppies/kern.flp of=/dev/rfd0
-        dd if=floppies/kern.flp of=/dev/floppy
-
-work well, depending on your hardware and operating system environment
-(different versions of UNIX have totally different names for the
-floppy drive - neat, huh? :-).
-
-If you're on an ALPHA machine which can network-boot its floppy images
-or you have a 2.88MB or LS-120 floppy capable of taking a 2.88MB image
-on an x86 machine, you may still wish to use the older (but now
-twice as large) boot.flp image which we also provide.  That contains
-the contents of kern.flp and mfsroot.flp on a single floppy,
-essentially.  This file should also be used as the boot file for those
-mastering "El Torito" bootable CD images.  See the mkisofs(1) command
-for more information.
-
-Going to two installation boot floppies is a step we definitely
-would have rather avoided but we simply no longer could due to
-general code bloat and FreeBSD's many new device drivers in GENERIC.
-
-One positive side-effect of this new organizational scheme, however,
-is that it also allows one to easily make one's own kern or MFS
-floppies should a need to customize some aspect of the installation
-process or use a custom kernel for an otherwise unsupported piece of
-hardware arise.  As long as the kernel is compiled with
-``options MFS'' and ``options MFS_ROOT'', it will properly look for
-and boot an mfsroot.flp image in memory when run (see how the
-/boot/loader.rc file in kern.flp does its thing).  The mfsroot.flp
-image is also just a gzip'd filesystem image which is used as root,
-something which can be made rather easily using mdconfig(8).
-If none of that makes any sense to you then don't worry about it -
-just use the kern.flp and mfsroot.flp images as described above.
diff --git a/release/texts/HARDWARE.TXT b/release/texts/HARDWARE.TXT
deleted file mode 100644
index 16d9f61..0000000
--- a/release/texts/HARDWARE.TXT
+++ /dev/null
@@ -1,1083 +0,0 @@
-Table of Contents
------------------
-0.  Document Conventions
-1.  Default Configuration (GENERIC kernel)
-2.  Using UserConfig to change FreeBSD kernel settings
-3.  LINT - other possible configurations
-4.  Supported Hardware
-
-See TROUBLE.TXT for Q&A on known hardware problems.
-
-=========================================================================
-
-0.      Document Conventions
---      --------------------
-
-We have `underlined' text which represents user input with `-' symbols
-throughout this document to differentiate it from the machine output.
-
-1.      Default (GENERIC) Configuration
---      -------------------------------
-
-The following table contains a list of all of the devices that are
-present in the GENERIC kernel.  This is the essential part of the 
-operating system that is placed in your root partition during the 
-installation process.  A compressed version of the GENERIC kernel is
-also used on the installation floppy diskette and DOS boot image.
-
-The table describes the various parameters used by the driver to
-communicate with the hardware in your system.  There are four
-parameters in the table, though not all are used by each and every
-device:
-
-   Port   The starting I/O port used by the device, shown in hexadecimal.
-
-   IOMem  The lowest (or starting) memory address used by the device,
-          also shown in hexadecimal.
-
-   IRQ    The interrupt the device uses to alert the driver to an event,
-          given in decimal.
-
-   DRQ    The DMA (direct memory access) channel the device uses to move
-          data to and from main memory, also given in decimal.
-
-If an entry in the table has `n/a' for a value then it means that the
-parameter in question does not apply to that device.  A value of `dyn'
-means that the correct value should be determined automatically by the
-kernel when the system boots and that you don't need to worry about
-it.
-
-If an entry is marked with an *, it means that support is currently
-not available for it but should be back as soon as someone converts
-the driver to work within the new 4.0 framework.
-
-FreeBSD GENERIC kernel:
-
-        Port    IRQ     DRQ     IOMem   Description
-        ----    ---     ---     -----   ---------------------------------
-fdc0    3f0     6       2       n/a     Floppy disk controller
-ata0	170	14	n/a	n/a	ATA/ATAPI controller
-ata1	170	15	n/a	n/a	ATA/ATAPI controller
-atadisk0 n/a	n/a	n/a	n/a	ATA disk drives
-atapicd0 n/a	n/a	n/a	n/a	ATAPI CDROM drives
-atapifd0 n/a	n/a	n/a	n/a	ATAPI floppy drives
-atapist0 n/a	n/a	n/a	n/a	ATAPI tape drives
-
-adv0    n/a     n/a     n/a     n/a     AdvanSys Narrow SCSI controllers
-adw0    n/a     n/a     n/a     n/a     AdvanSys Wide SCSI controllers
-amd0    n/a     n/a     n/a     n/a     AMD 53C974 (Tekram DC390(T))
-ncr0    n/a     n/a     n/a     n/a     NCR PCI SCSI controller
-bt0     330     dyn     dyn     dyn     Buslogic SCSI controller
-aha0    330     dyn     5       dyn     Adaptec 154x/1535 SCSI controller
-ahb0    dyn     dyn     dyn     dyn     Adaptec 174x SCSI controller
-ahc0    dyn     dyn     dyn     dyn     Adaptec 274x/284x/294x SCSI controller
-aic0    340     11      dyn     dyn     Adaptec 152x/AIC-6360/AIC-6260 SCSI
-                                        controller
-isp0    dyn     dyn     dyn     dyn     QLogic 10X0, 1240 Ultra SCSI, 1080/1280
-					Ultra2 SCSI, 12160 Ultra3 SCSI, 2X00
-					Fibre Channel SCSI controller
-dpt0    dyn    	dyn     n/a     n/a     DPT RAID SCSI controllers
-amr0    dyn	dyn	n/a	n/a	AMI MegaRAID controllers
-mlx0    dyn	dyn	n/a	dyn	Mylex DAC960 RAID controllers
-twe0	dyn	dyn	n/a	n/a	3ware Escalade RAID controllers
-asr0	dyn	dyn	dyn	dyn	DPT SmartRaid V, VI, and 
-					Adaptec SCSI RAID
-mly0	dyn	dyn	dyn	dyn	Mylex AcceleRAID/eXtremeRAID
-aac	dyn	dyn	dyn	dyn	Adaptec FSA family PCI SCSI RAID
-ncv	dyn	dyn	n/a	n/a	NCR 53C500 based PC-Card SCSI
-nsp	dyn	dyn	n/a	dyn	Workbit Ninja SCSI-3 based PC-Card SCSI
-stg	dyn	dyn	n/a	n/a	TMC 18C30/50 based ISA/PC-Card SCSI
-
-wt0     300     5       1       dyn     Wangtek and Archive QIC-02/QIC-36
-
-psm0    60      12      n/a     n/a     PS/2 Mouse
-
-mcd0    300     10      n/a     n/a     Mitsumi CD-ROM
-matcd0  230     n/a     n/a     n/a     Matsushita/Panasonic CD-ROM
-scd0    230     n/a     n/a     n/a     Sony CD-ROM
-
-sio0    3f8     4       n/a     n/a     Serial Port 0 (COM1)
-sio1    2f8     3       n/a     n/a     Serial Port 1 (COM2)
-
-ppc0    dyn     7       n/a     n/a     Printer ports
-
-dc0     n/a     n/a     n/a     n/a     DEC/Intel 21143 cards and workalikes
-de0     n/a     n/a     n/a     n/a     DEC DC21x40 PCI based cards
-                                        (including 21140 100bT cards)
-ed0     280     10      dyn     d8000   WD & SMC 80xx; Novell NE1000 &
-                                        NE2000; 3Com 3C503; HP PC Lan+
-ep0     300     10      dyn     dyn     3Com 3C509, 3C529, 3C556, 3C562D,
-                                        3C563D, 3C572, 3C574X, 3C579, 3C589
-ex0     dyn     dyn     dyn     n/a     Intel EtherExpress Pro/10 cards
-fe0     300     dyn     n/a     n/a     Allied-Telesyn AT1700, RE2000 and
-                                        Fujitsu FMV-180 series cards.
-fxp0    dyn     dyn     n/a     dyn     Intel EtherExpress Pro/100B and
-					Intel PRO/100+ Management Adapter
-ie0     300     10      dyn     d0000   AT&T StarLAN 10 and EN100;
-                                        3Com 3C507; NI5210; 
-                                        Intel EtherExpress (8/16,16[TP]) cards
-lnc0    280     10      n/a     dyn     Lance/PCnet cards
-                                        (Isolan, Novell NE2100, NE32-VL,
-					 some PCnet-PCI cards)
-nge0	dyn	dyn	n/a	dyn	NatSemi DP83820 gigabit ethernet
-pcn0	dyn	dyn	n/a	dyn	AMD PCnet/FAST, PCnet/FAST+, 
-					PCnet/FAST III, PCnet/PRO, PCnet/Home,
-					and HomePNA cards
-rl0     dyn     dyn     n/a     dyn     RealTek 8129/8139 Fast Ethernet
-sf0     dyn     dyn     n/a     dyn     Adaptec AIC-6915 Fast Ethernet
-sis0    dyn     dyn     n/a     dyn     SiS 900/SiS 7016 Fast Ethernet
-sn0     0x300   10      n/a     n/a	SMC 91xx Ethernet
-sk0     dyn     dyn     n/a     dyn     SysKonnect gigabit ethernet
-ste0    dyn     dyn     n/a     dyn     Sundance ST201 Fast Ethernet
-ti0     dyn     dyn     n/a     dyn     Alteon Tigon 1 & 2 gigabit ethernet
-tl0     dyn     dyn     n/a     dyn     TI TNET100 'ThunderLAN' cards.
-tx0     dyn     dyn     n/a     dyn     SMC 9432 'Epic' Fast Ethernet
-wb0     dyn     dyn     n/a     dyn     Winbond W89C840F PCI based cards.
-vr0     dyn     dyn     n/a     dyn     VIA VT3043/VT86C100A PCI based cards.
-vx0     dyn     dyn     n/a     dyn     3Com 3c59x ((Fast) Etherlink III)
-xe0     dyn     dyn     n/a     dyn     Xircom CreditCard adapters(16bit)
-xl0     dyn     dyn     n/a     dyn     3Com 3c900, 3c905, 3c905B, 3c905C,
-                                        3c980, 3cSOHO100 ((Fast) Etherlink XL)
-cs0     0x300   dyn     n/a     n/a     Crystal Semiconductor CS89x0-based
-                                        cards.
---- End of table ---
-
-
-If the hardware in your computer is not set to the same settings as
-those shown in the table and the item in conflict is not marked 'dyn',
-you will have to either reconfigure your hardware or use UserConfig
-to reconfigure the kernel to match the way your hardware is currently set
-(see the next section).
-
-If the settings do not match, the kernel may be unable to locate
-or reliably access the devices in your system.
-
-
-2.      Using UserConfig to change FreeBSD kernel settings
---      --------------------------------------------------
-
-The FreeBSD kernel on the install floppy contains drivers for every
-piece of hardware that could conceivably be used to install the rest
-of the system with.  Unfortunately, PC hardware being what it is, some
-of these devices can be difficult to detect accurately, and for some,
-the process of detecting another can cause irreversible confusion.
-
-To make this process easier, FreeBSD provides UserConfig.  With this
-tool the user can configure and disable device drivers before
-the kernel is loaded, avoiding potential conflicts, and eliminating
-the need to reconfigure hardware to suit the default driver settings.
-
-Once FreeBSD is installed, it will remember the changes made using
-UserConfig, so that they only need be made once.
-
-It is important to disable drivers that are not relevant to a system
-in order to minimize the possibility of interference, which can cause
-problems that are difficult to track down.
-
-UserConfig features a command line interface for users with serial
-consoles or a need to type commands, and a full screen 'visual'
-interface, which provides point-and-shoot configuration functionality.
-
-Here is a sample UserConfig screen shot in 'visual' mode:
-
----Active Drivers---------------------------10 Conflicts------Dev---IRQ--Port--
- Storage :  (Collapsed)
- Network :
-  NE1000,NE2000,3C503,WD/SMC80xx Ethernet adapters    CONF  ed0       5  0x280
-  NE1000,NE2000,3C503,WD/SMC80xx Ethernet adapters    CONF  ed1       5  0x300 
- Communications : (Collapsed)
- Input : (Collapsed)
- Multimedia :
----Inactive Drivers-------------------------------------------Dev--------------
- Storage :
- Network : (Collapsed)
- Communications :
- Input :
- Multimedia :
-
-
----Parameters-for-device-ed0---------------------------------------------------
- Port address : 0x280      Memory address : 0xd8000
- IRQ number   : 5          Memory size    : 0x2000
- Flags        : 0x0000
--------------------------------------------------------------------------------
-  IO Port address (Hexadecimal, 0x1-0x2000)
-  [TAB]   Change fields           [Q]   Save device parameters
-
-
-  The screen is divided into four sections :
-
- - Active Drivers.  Listed here are the device drivers that are currently
-   enabled, and their basic parameters.
- - Inactive Drivers.  These drivers are present, but are disabled.
- - Parameter edit field.  This area is used for editing driver parameters.
- - Help area.  Keystroke help is displayed here.
-
-One of the Active and Inactive lists is always in use, and the current
-entry in the list will be shown with a highlight bar.  If there are
-more entries in a list than can be shown, it will scroll.  The bar can
-be moved up and down using the cursor keys, and moved between lists
-with the TAB key.
-
-Drivers in the Active list may be marked "CONF".  This indicates that
-one or more of their parameters conflicts with another device, and
-indicates a potential for problems.  The total number of conflicts is
-displayed at the top of the screen.
-
-As a general rule, conflicts should be avoided, either by disabling
-conflicting devices that are not present in the system, or by altering
-their configuration so that they match the installed hardware.
-
-In the list areas, drivers are grouped by their basic function.
-Groups can be 'Collapsed' to simplify the display (this is the default
-state for all groups).  If a group is collapsed, it will be shown with
-'(Collapsed)' in the list, as above.  To Expand a Collapsed group,
-position the highlight bar over the group heading and press Enter.  To
-Collapse it again, repeat the process.
-
-When a device driver in the Active list is highlighted, its full
-parameters are displayed in the Parameter edit area.  Note that not
-all drivers use all possible parameters, and some hardware supported
-by drivers may not use all the parameters the driver supports.
-
-To disable a driver, go to the Active list, Expand the group it is in,
-highlight the driver and press Del.  The driver will move to its group
-in the Inactive list.  (If the group is collapsed or off the screen,
-you may not see the driver in its new location.)
-
-To enable a driver, go to the Inactive list, Expand the group it is
-in, highlight the driver and press Enter.  The highlight will move to
-the Active list, and the driver you have just enabled will be
-highlighted, ready to be configured.
-
-To configure a driver, go to the Active list, Expand the group it is
-in, highlight the driver and press Enter.  The cursor will move to the
-Parameter edit area, and the device's parameters may be edited.
-
-While editing parameters, the TAB and cursor keys can be used to move
-between fields.  Most numeric values (except IRQ) are entered in
-hexadecimal, as indicated by the '0x' at the beginning of the field.
-The allowable values for a given field are show in the Key Help area
-when the field is active.
-
-To finish configuring a driver, press 'Q'.
-
-Note that PCI, Microchannel and EISA devices can be probed reliably,
-therefore they are not shown in the table above nor can their settings
-be changed using UserConfig.
-
-
-3.      LINT - other possible configurations
---      ------------------------------------
-
-The following drivers are not in the GENERIC kernel but remain
-available to those who do not mind compiling a custom kernel (see
-section 6 of FreeBSD.FAQ).  The LINT configuration file
-(/sys/i386/conf/LINT) also contains prototype entries for just about
-every device supported by FreeBSD and is a good general reference.
-
-The device names and a short description of each are listed below.  The port
-numbers, etc, are not meaningful here since you will need to compile a
-custom kernel to gain access to these devices anyway and can thus
-adjust the addresses to match the hardware in your computer in the process.
-The LINT file contains prototype entries for all of the below which you
-can easily cut-and-paste into your own file (or simply copy LINT and edit
-it to taste):
-
-ata:    Alternate high-performance driver for IDE controllers
-ctx:    Cortex-I frame grabber
-cx:     Cronyx/Sigma multiport sync/async
-cy:     Cyclades high-speed serial driver
-el:     3Com 3C501
-fea:    DEC DEFEA EISA FDDI adapter
-fpa:    DEC DEFPA PCI FDDI adapter
-gp:     National Instruments AT-GPIB and AT-GPIB/TNT board
-gsc:    Genius GS-4500 hand scanner
-gus:    Gravis Ultrasound - Ultrasound, Ultrasound 16, Ultrasound MAX
-gusxvi: Gravis Ultrasound 16-bit PCM
-hea:    Efficient ENI-155p ATM PCI adapter
-hfa:    FORE PCA-200E ATM PCI adapter
-ifpi:	isdn4bsd AVM Fritz!card PCI driver
-ifpnp:	isdn4bsd AVM Fritz!card PnP driver
-ihfc:	isdn4bsd Cologne Chip HFC ISA driver
-isic:	isdn4bsd Siemens/Infineon ISDN chipset driver (ISAC+HSCX/IPAC)
-iwic:	isdn4bsd Winbond W6692 PCI ISDN chip driver
-iavc:	isdn4bsd AVM B1 and AVM T1 active CAPI-based ISDN cards
-joy:    Joystick
-labpc:  National Instrument's Lab-PC and Lab-PC+
-meteor: Matrox Meteor frame-grabber card
-bktr:   Brooktree Bt848 / Bt 878 based frame-grabber cards.
-mpu:    Roland MPU-401 stand-alone card
-mse:    Microsoft, Logitech, ATI bus mouse ports
-mss:    Microsoft Sound System
-opl:    Yamaha OPL-2 and OPL-3 FM - SB, SB Pro, SB 16, ProAudioSpectrum
-pas:    ProAudioSpectrum PCM and MIDI
-pca:    PCM audio ("/dev/audio") through your PC speaker
-pcm:    PCM audio on most modern PCI/ISA audio codecs
-psm:    PS/2 mouse port
-rc:     RISCom/8 multiport card
-sb:     SoundBlaster PCM - SoundBlaster, SB Pro, SB16, ProAudioSpectrum
-sbmidi: SoundBlaster 16 MIDI interface
-sbxvi:  SoundBlaster 16
-si:     Specialix SI/XIO/SX (old and enhanced ISA, PCI, EISA) serial
-sym:    Alternate high-performance driver for NCR/LSI Logic SCSI controllers
-spigot: Creative Labs Video Spigot video-acquisition board
-uart:   Stand-alone 6850 UART for MIDI
-wds:    Western Digital WD7000 IDE
-
---- end of list ---
-
-
-4.      Supported Hardware
---      ------------------
-
-FreeBSD currently runs on a wide variety of ISA, VLB, EISA,
-Microchannel and PCI bus based PC's, ranging from 386sx to Pentium
-class machines (though the 386sx is not recommended).  Support for
-generic IDE or ESDI drive configurations, various SCSI controller,
-network and serial cards is also provided.
-
-What follows is a list of all peripherals currently known to work with
-FreeBSD.  Other configurations may also work, we have simply not as yet
-received confirmation of this.
-
-
-4.1.    Disk Controllers
-----    ----------------
-
-IDE
-ATA controllers:
-    Acerlabs Aladdin
-    AMD 756
-    CMD 646
-    CMD 648 ATA66
-    CMD 649 ATA100
-    Cypress 82C693
-    Cyrex 5530
-    HighPoint HPT366
-    HighPoint HPT370
-    Intel PIIX
-    Intel PIIX3
-    Intel PIIX4
-    Intel ICH
-    Intel ICH2
-    Promise ATA100 OEM chip (pdc20265)
-    Promise Fasttrak-33
-    Promise Fasttrak-66
-    Promise Fasttrak-100
-    Promise Ultra-33
-    Promise Ultra-66
-    Promise Ultra-100
-    ServerWorks ROSB4 ATA33
-    SiS 5591
-    VIA 82C586
-    VIA 82C686a
-    VIA 82C686b
-
-WD1003 (any generic MFM/RLL - obsolete)
-WD1007 (any generic ESDI - obsolete)
-* Note: now that the wd driver has been replaced by the ata driver framework,
-which does not have bad144 support, the true MFM/RLL/ESDI drives/adapters 
-have become obsolete.
-
-Adaptec 1535 ISA SCSI controllers
-Adaptec 154x series ISA SCSI controllers
-Adaptec 174x series EISA SCSI controller in standard and enhanced mode.
-Adaptec 274X/284X/2920C/294x/2950/19160/29160/3940/3950/39160
-        Narrow/Wide/Twin series EISA/VLB/PCI SCSI controllers.
-Adaptec AIC7850, AIC7860, AIC7880, AIC789x, on-board SCSI controllers.
-Adaptec 1510 series ISA SCSI controllers (not for bootable devices)
-Adaptec 152x series ISA SCSI controllers
-Adaptec AIC-6260 and AIC-6360 based boards, which includes the AHA-152x
-and SoundBlaster SCSI cards.
-
-Adaptec 2100S, 3200S, and 3400S SCSI RAID controllers.
-Adaptec 2400A ATA-100 RAID controller.
-
-Adaptec FSA family RAID controllers:
-    Adaptec AAC-2622
-    Adaptec AAC-364
-    Adaptec AAC-3642
-    Dell PERC 2/QC
-    Dell PERC 2/Si
-    Dell PERC 3/Di
-    Dell PERC 3/QC
-    Dell PERC 3/Si
-    HP NetRAID-4M
-
-AdvanSys SCSI controllers (all models).
-
-BusLogic MultiMaster controllers:
-
-[ Please note that BusLogic/Mylex "Flashpoint" adapters are NOT yet supported ]
-
-BusLogic MultiMaster "W" Series Host Adapters:
-    BT-948, BT-958, BT-958D
-BusLogic MultiMaster "C" Series Host Adapters:
-    BT-946C, BT-956C, BT-956CD, BT-445C, BT-747C, BT-757C, BT-757CD, BT-545C,
-    BT-540CF
-BusLogic MultiMaster "S" Series Host Adapters:
-    BT-445S, BT-747S, BT-747D, BT-757S, BT-757D, BT-545S, BT-542D, BT-742A,
-    BT-542B
-BusLogic MultiMaster "A" Series Host Adapters:
-    BT-742A, BT-542B
-
-AMI FastDisk controllers that are true BusLogic MultiMaster clones are also
-supported.
-
-DPT SmartCACHE Plus, SmartCACHE III, SmartRAID III, SmartCACHE IV and
-SmartRAID IV SCSI/RAID controllers.
-
-DPT SmartRAID V and VI SCSI RAID controllers:
-    PM1554, PM2554, PM2654, PM2865, PM2754, PM3755, PM3757
-
-AMI MegaRAID Express and Enterprise family RAID controllers:
-    MegaRAID Series 418
-    MegaRAID Enterprise 1200 (Series 428)
-    MegaRAID Enterprise 1300 (Series 434)
-    MegaRAID Enterprise 1400 (Series 438)
-    MegaRAID Enterprise 1500 (Series 467)
-    MegaRAID Enterprise 1600 (Series 471)
-    MegaRAID Elite 1500 (Series 467)
-    MegaRAID Elite 1600 (Series 493)
-    MegaRAID Express 100 (Series 466WS)
-    MegaRAID Express 200 (Series 466)
-    MegaRAID Express 300 (Series 490)
-    MegaRAID Express 500 (Series 475)
-    Dell PERC
-    Dell PERC 2/SC
-    Dell PERC 2/DC
-    Dell PERC 3/DCL
-    HP NetRAID-1si
-    HP NetRAID-3si
-    HP Embedded NetRAID
-Booting from these controllers is supported.
-
-Mylex DAC960 and DAC1100 RAID controllers with 2.x, 3.x, 4.x and 5.x 
-firmware:
-    DAC960P
-    DAC960PD
-    DAC960PDU
-    DAC960PL
-    DAC960PJ
-    DAC960PG
-    AcceleRAID 150
-    AcceleRAID 250
-    eXtremeRAID 1100
-This list includes controllers sold by Digital/Compaq in Alpha systems
-in the StorageWorks family, eg. KZPSC, KZPAC.  EISA adaptes are not 
-supported.
-
-Mylex PCI to SCSI RAID controllers with 6.x firmware:
-    AcceleRAID 160
-    AcceleRAID 170
-    AcceleRAID 352
-    eXtremeRAID 2000
-    eXtremeRAID 3000
-Compatible Mylex controllers not listed should work, but have not been 
-verified.
-
-3ware Escalade ATA RAID controllers.  All members of the 5000,
-6000, and 7000 series are supported.
-
-Qlogic Controllers and variants:
-    Qlogic 1020, 1040 SCSI and Ultra SCSI host adapters
-    Qlogic 1240 dual Ultra SCSI controllers
-    Qlogic 1080 Ultra2 LVD and 1280 Dual Ultra2 LVD controllers
-    Qlogic 12160 Ultra3 LVD controllers
-    Qlogic 2100 and Qlogic 2200 Fibre Channel SCSI controllers
-    Performance Technology SBS440 ISP1000 variants
-    Performance Technology SBS450 ISP1040 variants
-    Performance Technology SBS470 ISP2100 variants
-    Antares Microsystems P-0033 ISP2100 variants
-
-LSI/SymBios (formerly NCR) 53C810, 53C810a, 53C815, 53C825, 53C825a,
-53C860, 53C875, 53C875a, 53C876, 53C885, 53C895, 53C895a, 53C896, 
-53C1010-33, 53C1010-66, 53C1000, 53C1000R PCI SCSI controllers, 
-either embedded on mainboard, or on add-on boards:
-    ASUS SC-200, SC-896
-    Data Technology DTC3130 (all variants)
-    DawiControl DC2976UW
-    Diamond FirePort (all)
-    NCR cards (all)
-    Symbios cards (all)
-    Tekram DC390W, 390U, 390F, 390U2B, 390U2W, 390U3D and 390U3W
-    Tyan S1365
-
-NCR 53C500 based PC-Card SCSI host adapters:
-    IO DATA PCSC-DV
-    KME KXLC002(TAXAN ICD-400PN, etc.), KXLC004
-    Macnica Miracle SCSI-II mPS110
-    Media Intelligent MSC-110, MSC-200
-    NEC PC-9801N-J03R
-    New Media Corporation BASICS SCSI
-    Qlogic Fast SCSI
-    RATOC REX-9530, REX-5572 (as SCSI only)
-    
-TMC 18C30, 18C50 based ISA/PC-Card SCSI host adapters:
-    Future Domain SCSI2GO
-    IBM SCSI PCMCIA Card
-    ICM PSC-2401 SCSI
-    Melco IFC-SC
-    RATOC REX-5536, REX-5536AM, REX-5536M, REX-9836A
-
-DTC 3290 EISA SCSI controller in 1542 emulation mode.
-
-Tekram DC390 and DC390T controllers (maybe other cards based on the
-AMD 53c974 as well).
-
-Workbit Ninja SCSI-3 based PC-Card SCSI host adapters:
-    Alpha-Data AD-PCS201
-    IO DATA CBSC16
-
-With all supported SCSI controllers, full support is provided for
-SCSI-I & SCSI-II peripherals, including hard disks, optical disks,
-tape drives (including DAT and 8mm Exabyte), medium changers, processor
-target devices and CDROM drives.  WORM devices that support CDROM commands
-are supported for read-only access by the CDROM driver.  WORM/CD-R/CD-RW
-writing support is provided by cdrecord, which is in the ports tree.
-
-The following CD-ROM type systems are supported at this time:
-(cd)    SCSI interface (also includes SoundBlaster SCSI)
-(matcd) Matsushita/Panasonic (Creative SoundBlaster) proprietary
-        interface (562/563 models)
-(scd)   Sony proprietary interface (all models)
-(acd)   ATAPI IDE interface
-
-Unmaintained drivers, they might or might not work for your hardware:
-NatSemi DP83820 gigabit ethernet
-(mcd)   Mitsumi proprietary CD-ROM interface (all models)
-
-4.2.    Network cards
-----    -------------
-
-Adaptec Duralink PCI Fast Ethernet adapters based on the Adaptec
-AIC-6915 Fast Ethernet controller chip, including the following:
-    ANA-62011 64-bit single port 10/100baseTX adapter
-    ANA-62022 64-bit dual port 10/100baseTX adapter
-    ANA-62044 64-bit quad port 10/100baseTX adapter
-    ANA-69011 32-bit single port 10/100baseTX adapter
-    ANA-62020 64-bit single port 100baseFX adapter
-
-Allied-Telesyn AT1700 and RE2000 cards
-
-Alteon Networks PCI gigabit Ethernet NICs based on the Tigon 1 and Tigon 2
-chipsets, including the following:
-    3Com 3c985-SX (Tigon 1 and 2)
-    Alteon AceNIC (Tigon 1 and 2)
-    Alteon AceNIC 1000baseT (Tigon 2)
-    DEC/Compaq EtherWORKS 1000
-    Farallon PN9000SX
-    NEC Gigabit Ethernet
-    Netgear GA620 (Tigon 2)
-    Netgear GA620T (Tigon 2, 1000baseT)
-    Silicon Graphics Gigabit Ethernet
-    Asante PCI 1000BASE-SX Gigabit Ethernet Adapter
-    Asante GigaNIX1000T Gigabit Ethernet Adapter
-
-AMD PCnet/PCI (79c970 & 53c974 or 79c974)
-AMD PCnet/FAST, PCnet/FAST+, PCnet/FAST III, PCnet/PRO, HomePCI, and HomePNA.
-
-SMC Elite 16 WD8013 Ethernet interface, and most other WD8003E,
-WD8003EBT, WD8003W, WD8013W, WD8003S, WD8003SBT and WD8013EBT
-based clones.  SMC Elite Ultra is also supported.
-
-RealTek 8129/8139 Fast Ethernet NICs including the following:
-    Accton "Cheetah" EN1207D (MPX 5030/5038; RealTek 8139 clone)
-    Allied Telesyn AT2550
-    Allied Telesyn AT2500TX
-    Genius GF100TXR (RTL8139)
-    KTX-9130TX 10/100 Fast Ethernet
-    NDC Communications NE100TX-E
-    Netronix Inc. EA-1210 NetEther 10/100
-    OvisLink LEF-8129TX
-    OvisLink LEF-8139TX
-    SMC EZ Card 10/100 PCI 1211-TX
-    
-Lite-On 82c168/82c169 PNIC Fast Ethernet NICs including the following:
-    Kingston KNE110TX
-    LinkSys EtherFast LNE100TX
-    Matrox FastNIC 10/100
-    NetGear FA310-TX Rev. D1
-
-Macronix 98713, 98713A, 98715, 98715A and 98725 Fast Ethernet NICs
-    Accton EN1217 (98715A)
-    Adico AE310TX (98715A)
-    Compex RL100-TX
-    CNet Pro120A (98713 or 98713A)
-    CNet Pro120B (98715)
-    NDC Communications SFA100A (98713A)
-    SVEC PN102TX (98713)
-
-Macronix/Lite-On PNIC II LC82C115 Fast Ethernet NICs including the following:
-    LinkSys EtherFast LNE100TX Version 2
-
-Winbond W89C840F Fast Ethernet NICs including the following:
-    Trendware TE100-PCIE
-
-VIA Technologies VT3043 "Rhine I" and VT86C100A "Rhine II" Fast Ethernet
-NICs including the following:
-    AOpen/Acer ALN-320
-    D-Link DFE-530TX
-    Hawking Technologies PN102TX
-
-Silicon Integrated Systems SiS 900 and SiS 7016 PCI Fast Ethernet NICs
-
-National Semiconductor DP83815 Fast Ethernet NICs including the following:
-    NetGear FA311-TX
-    NetGear FA312-TX
-
-National Semiconductor DP83820 and DP83821 Gigabit Ethernet NICs including
-the following:
-    D-Link DGE-500T
-    SMC EZ Card 1000 (SMC9462TX)
-    Asante FriendlyNet GigaNIC 1000TA and 1000TPC
-    Addtron AEG320T
-
-Sundance Technologies ST201 PCI Fast Ethernet NICs including
-the following:
-    D-Link DFE-550TX
-
-SysKonnect SK-984x PCI gigabit Ethernet cards including the following:
-    SK-9841 1000baseLX single mode fiber, single port
-    SK-9842 1000baseLX single mode fiber, dual port
-    SK-9843 1000baseSX multimode fiber, single port
-    SK-9844 1000baseSX multimode fiber, dual port
-    SK-9821 1000baseT copper, single port
-    SK-9822 1000baseT copper, dual port
-
-Texas Instruments ThunderLAN PCI NICs, including the following:
-    Compaq Netelligent 10, 10/100, 10/100 Proliant, 10/100 Dual-Port
-    Compaq Netelligent 10/100 TX Embedded UTP, 10 T PCI UTP/Coax, 10/100 TX UTP
-    Compaq NetFlex 3P, 3P Integrated, 3P w/ BNC
-    Olicom OC-2135/2138, OC-2325, OC-2326 10/100 TX UTP
-    Racore 8165 10/100baseTX
-    Racore 8148 10baseT/100baseTX/100baseFX multi-personality
-
-ADMtek Inc. AL981-based PCI Fast Ethernet NICs
-
-ADMtek Inc. AN985-based PCI Fast Ethernet NICs including the following:
-    LinkSys EtherFast LNE100TX v4.0/4.1
-
-ADMtek Inc. AN986-based USB Ethernet NICs including the following:
-    Billionton USB100
-    D-Link DSB-650TX
-    LinkSys USB100TX
-    Melco Inc. LUA-TX
-    SMC 2202USB
-
-CATC USB-EL1210A-based USB Ethernet NICs including the following:
-    Belkin F5U011
-    Belkin F5U111
-    CATC Netmate
-    CATC Netmate II
-
-Kawasaki LSI KL5KUSB101B-based USB Ethernet NICs including
-the following:
-    3Com 3c19250
-    ADS Technologies USB-10BT
-    ATen UC10T
-    Corega USB-T
-    D-Link DSB-650
-    Entrega NET-USB-E45
-    LinkSys USB10T
-    Netgear EA101
-    Peracom USB Ethernet Adapter
-    SMC 2102USB
-    SMC 2104USB
-
-ASIX Electronics AX88140A PCI NICs, including the following:
-    Alfa Inc. GFC2204
-    CNet Pro110B
-
-DEC EtherWORKS III NICs (DE203, DE204, and DE205)
-DEC EtherWORKS II NICs (DE200, DE201, DE202, and DE422)
-DEC DC21040, DC21041, or DC21140 based NICs (SMC Etherpower 8432T, DE245, etc)
-DEC FDDI (DEFPA/DEFEA) NICs
-
-DEC/Intel 21143 based Fast Ethernet NICs, including the following:
-  DEC DE500-BA
-  Compaq Presario 7900 series built-in Ethernet
-  D-Link DFE-570TX
-  Kingston KNE100TX
-  LinkSys EtherFast 10/100 Instant GigaDrive built-in Ethernet
-
-Davicom DM9100 and DM9102 PCI Fast Ethernet NICs, including the
-following:
-    Jaton Corporation XPressNet
-
-Efficient ENI-155p ATM PCI
-
-FORE PCA-200E ATM PCI
-
-Fujitsu MB86960A/MB86965A, including the following:
-  CONTEC C-NET(PC)C Ethernet
-  Eiger Labs EPX-10BT
-  Fujitsu FMV-J182, FMV-J182A, MBH10302, MBH10303 Ethernet PCMCIA
-  Fujitsu Towa LA501 Ethernet
-  HITACHI HT-4840-11
-  NextCom J Link NC5310
-  RATOC REX-5588, REX-9822, REX-4886, REX-R280
-  TDK LAK-CD021, LAK-CD021A, LAK-CD021BX
-
-HP PC Lan+ cards (model numbers: 27247B and 27252A).
-
-Intel EtherExpress (not recommended due to driver instability)
-Intel EtherExpress Pro/10
-Intel EtherExpress Pro/100B PCI Fast Ethernet
-Intel PRO/100+ Management Adapter
-Intel Gigabit Ethernet (PRO/1000, PRO1000/F, PRO1000/T)
-
-Isolan AT 4141-0 (16 bit)
-Isolink 4110     (8 bit)
-
-Novell NE1000, NE2000, and NE2100 Ethernet interface.
-PCI network cards emulating the NE2000: RealTek 8029, NetVin 5000,
-Winbond W89C940, Surecom NE-34, VIA VT86C926, etc.
-
-3Com 3C501 cards
-
-3Com 3C503 Etherlink II
-
-3Com 3C507 Etherlink 16/TP
-
-3Com 3C509, 3C529, 3C556, 3C562D, 3C563D, 3C572, 3C574X, 3C579, 
-3C589/589B/589C/589D/589E/XE589ET/574TX/574B (PC-card/PCMCIA), 
-3C590/592/595/900/905/905B/905C PCI,
-3C556-556B MiniPCI,
-3C575TX/575B/XFE575BT/575C/656/656B/656C Cardbus,
-and EISA (Fast) Etherlink III / (Fast) Etherlink XL
-
-3Com 3c980/3c980B/3c980C Fast Etherlink XL server adapter
-
-3Com 3cSOHO100-TX OfficeConnect adapter
-
-3Com 3c450-TX HomeConnect adapter
-
-NE2000 compatible PC-Card (PCMCIA) Ethernet/FastEthernet cards,
-including the following:
-    AR-P500 Ethernet card
-    Accton EN2212/EN2216/UE2216(OEM)
-    Allied Telesis CentreCOM LA100-PCM_V2
-    AmbiCom 10BaseT card
-    BayNetworks NETGEAR FA410TXC Fast Ethernet
-    CNet BC40 adapter
-    COREGA Ether PCC-T/EtherII PCC-T/FEther PCC-TXF/PCC-TXD
-    Compex Net-A adapter
-    CyQ've ELA-010
-    D-Link DE-650/660
-    Danpex EN-6200P2
-    ELECOM Laneed LD-CDL/TX
-    IO DATA PCLA/TE, PCET/TX, PCET/TX-R
-    IBM Creditcard Ethernet I/II
-    IC-CARD Ethernet/IC-CARD+ Ethernet
-    Linksys EC2T/PCMPC100,EtherFast 10/100 PC Card (PCMPC100 V2)
-    Melco LPC-T/LPC2-T/LPC2-CLT/LPC2-TX/LPC3-TX/LPC3-CLX
-    NDC Ethernet Instant-Link
-    National Semiconductor InfoMover NE4100
-    Network Everywhere Ethernet 10BaseT PC Card
-    Planex FNW-3600-T
-    Socket LP-E
-    Surecom EtherPerfect EP-427
-    TDK LAK-CD031,Grey Cell GCS2000 Ethernet Card
-    Telecom Device SuperSocket RE450T
-
-Megahertz X-Jack Ethernet PC-Card CC-10BT
-
-Xircom X3201 (Cardbus) based Ethernet cards,
-including the following:
-  IBM EtherJet Cardbus Adapter
-  Intel PRO/100 Mobile Cardbus (versions that uses the X3201 chipset)
-  Xircom Cardbus Realport
-  Xircom Cardbus Ethernet 10/100
-  Xircom Cardbus Ethernet II 10/100
-
-Xircom CreditCard adapters(16bit) and workalikes
-    Accton EN2226/Fast EtherCard (16-bit verison)
-    Compaq Netelligent 10/100 PC Card
-    Intel EtherExpress PRO/100 Mobile Adapter (16-bit verison)
-    Xircom 10/100 Network PC Card adapter.
-    Xircom Realport card + modem(Ethernet part)
-    Xircom CreditCard Ethernet 10/100
-    Xircom CreditCard 10Base-T "CreditCard Ethernet Adaptor IIps" (PS-CE2-10)
-    Xircom CreditCard Ethernet 10/100 + modem (Ethernet part)
-
-National Semiconductor DP8393X (SONIC) Ethernet cards
-    NEC PC-9801-83, -84, -103, and -104
-    NEC PC-9801N-25 and -J02R
-
-
-4.3.    USB
-----    ---
-
-A range of USB peripherals are supported.  Owing to the generic nature
-of most USB devices, with some exceptions any device of a given class
-will be supported even if not explicitly listed here.
-
-USB keyboards.
-
-USB mice.
-
-USB printers and USB to parallel printer conversion cables.
-
-USB hubs.
-
-USB Ethernet controllers.
-
-
-USB Host Controllers:
-    ALi Aladdin-V.
-    AMD-756.
-    CMD Tech 670 & 673.
-    Intel 82371SB (PIIX3).
-    Intel 82371AB and EB chipsets (PIIX4).
-    NEC uPD 9210.
-    OPTi 82C861 (FireLink).
-    SiS 5571.
-    VIA 83C572 USB.
-    and any other UHCI or OHCI compliant motherboard chipset (no exceptions
-    known).
-
-
-PCI plug-in USB host controllers:
-    ADS Electronics PCI plug-in card (2 ports).
-    Entrega PCI plug-in card (4 ports).
-
-
-Specific devices reported to be working (see above for USB Ethernet devices
-supported):
-
-Floppy drives/Hard disks/CDROMs/Zip drives/etc:
-   Iomega USB Zip 100Mb (primitive support still).
-   Matshita CF-VFDU03 floppy drive.
-   Microtech USB-SCSI-HD 50 USB to SCSI cable.
-   Panasonic floppy drive.
-   Y-E Data floppy drive (720/1.44/2.88Mb).
-
-Hubs:
-   Andromeda hub.
-   MacAlly self powered hub (4 ports).
-   NEC hub.
-
-Keyboards:
-   Apple iMac keyboard.
-   BTC BTC7935 keyboard with PS/2 mouse port.
-   Cherry G81-3504 keyboard.
-   Logitech M2452 keyboard.
-   MacAlly iKey keyboard.
-   Microsoft keyboard.
-
-Mice:
-   Agiler Mouse 29UO.
-   Apple iMac Mouse.
-   Belkin Mouse.
-   Chic mouse.
-   Cypress mouse.
-   Genius Niche mouse.
-   Kensington Mouse-in-a-Box.
-   Logitech wheel mouse (3 buttons).
-   Logitech PS/2 / USB mouse (3 buttons).
-   MacAlly mouse (3 buttons).
-   Microsoft IntelliMouse (3 buttons).
-   Trust Ami Mouse (3 buttons).
-
-Printer Adapters:
-   ATen parallel printer adapter.
-   Belkin F5U002 parallel printer adapter.
-   Entrega USB-to-parallel printer adapter.
-
-Modems:
-   3Com 5605 
-   Metricom Ricochet GS USB wireless modem
-
-Scanners (through SANE):
-   Perfection 636U
-   HP ScanJet 4100C, 5200C, 6300C
-
-Miscalleneous:
-   ActiveWire I/O Board.
-
-4.4.    ISDN
-----    ----
-
-Note: only European DSS1 [Q.921/Q.931] protocol supported for passive cards,
-      any national ISDN protocol supported by active ISDN card microcode.
-
-AcerISDN P10 ISA PnP (experimental)
-
-Asuscom ISDNlink 128K PnP
-ASUSCOM P-IN100-ST-D (and other Winbond W6692 based cards)
-
-AVM A1
-AVM Fritz!Card classic
-AVM Fritz!Card PnP
-AVM Fritz!Card PCI
-
-AVM B1 ISA (tested with V2.0)
-AVM B1 PCI (tested with V4.0)
-AVM T1
-
-Creatix ISDN-S0/8
-Creatix ISDN-S0/16
-Creatix ISDN-S0 PnP
-
-Dr.Neuhaus Niccy 1008
-Dr.Neuhaus Niccy 1016
-Dr.Neuhaus Niccy GO@ (ISA PnP)
-
-Eicon Diehl DIVA 2.0 and 2.02
-
-ELSA QuickStep 1000pro ISA
-ELSA MicroLink ISDN/PCI (same as ELSA QuickStep 1000pro PCI)
-ELSA PCC-16
-
-ITK ix1 Micro ( < V.3, non-PnP version )
-
-Sagem Cybermod (ISA PnP)
-
-Sedlbauer Win Speed
-
-Siemens I-Surf 2.0
-
-TELEINT ISDN SPEED No.1 (experimental)
-
-Teles S0/8
-Teles S0/16
-Teles S0/16.3
-Teles S0/16.3 PnP
-Teles 16.3c ISA PnP (experimental)
-
-
-4.5.    Misc
-----    ----
-
-AST 4 port serial card using shared IRQ.
-
-ARNET 8 port serial card using shared IRQ.
-ARNET (now Digiboard) Sync 570/i high-speed serial.
-
-Boca BB1004 4-Port serial card (Modems NOT supported)
-Boca IOAT66 6-Port serial card (Modems supported)
-Boca BB1008 8-Port serial card (Modems NOT supported)
-Boca BB2016 16-Port serial card (Modems supported)
-
-Comtrol Rocketport card.
-
-Cyclades Cyclom-y Serial Board.
-
-STB 4 port card using shared IRQ.
-
-SDL Communications Riscom/8 Serial Board.
-SDL Communications RISCom/N2 and N2pci high-speed sync serial boards.
-
-Specialix SI/XIO/SX multiport serial cards, with both the older
-SIHOST2.x and the new "enhanced" (transputer based, aka JET) host cards.
-ISA, EISA and PCI are supported.
-
-Stallion multiport serial boards: EasyIO, EasyConnection 8/32 & 8/64,
-ONboard 4/16 and Brumby.
-
-HP4020, HP6020, Philips CDD2000/CDD2660 and Plasmon CD-R drives.
-
-Bus mice
-
-PS/2 mice
-
-Standard PC Joystick
-
-X-10 power controllers
-
-GPIB and Transputer drivers.
-
-Genius and Mustek hand scanners.
-
-Lucent Technologies WaveLAN/IEEE 802.11 PCMCIA and ISA standard speed
-(2Mbps) and turbo speed (6Mbps) wireless network adapters and workalikes
-3COM 3crwe737A AirConnect Wireless LAN PC Card
-Addtron AWA100
-Cabletron RoamAbout 802.11 DS
-Compaq WL100
-Corega KK Wireless LAN PCC-11, PCCA-11
-Laneed Wireless card
-ELECOM Air@Hawk/LD-WL11/PCC
-Farallon Skyline 11Mbps Wireless
-ICOM SL-1100
-IO Data WN-B11/PCM
-Melco Airconnect WLI-PCM-L11
-NCR WaveLAN/IEEE 802.11
-NEC Wireless Card CMZ-RT-WP, PC-WL/11C, PK-WL001
-PLANEX GeoWave/GW-NS110
-TDK LAK-CD011WL
-Note: the ISA versions of these adapters are actually PCMCIA cards
-combined with an ISA to PCMCIA bridge card, so both kinds of devices
-work with the same driver.
-	
-Aironet 4500/4800 series 802.11 wireless adapters. The PCMCIA,      
-PCI and ISA adapters are all supported. 
-Cisco Systems Aironet 340 Series (includes 340, 341, and 342 models)
-11Mbps 802.11 wireless NIC
-
-Webgear Aviator 2.4GHz wireless adapters
-
-Toshiba Mobile HDD MEHDD20A (Type II)
-
-Panasonic Flash ATA BN-040ABP3
-
-Hewlett Packard M820e (CD-writer)
-
-FAX-Modem/PC-Card
-Melco IGM-PCM56K/IGM-PCM56KH
-Nokia Card Phone 2.0 (gsm900/dcs1800 HSCSD terminal)
-
-PHS Data Commuincation Card/PC-Card
-NTT DoCoMo P-in Comp@ct
-Panasonic KX-PH405
-SII MC-P200
-
-
-4.6.    Microchannel
-----    ------------
-
-Experimental support for Microchannel systems is new in FreeBSD 4.0
-
-Drivers with support for Microchannel peripherals are:
-
-aha:	Adaptec AHA-1640 SCSI controller
-bt:	Buslogic BT-640A and Storage Dimensions SDC3211 SCSI controllers
-ep:	3Com 3C529 network adapter
-
-
-4.7.    Multimedia
-----    ----------
-
-Soundcards supported by newpcm:
-
-Advance Asound 100, 110 and Logic ALS120
-C-Media CMI-8x38
-Crystal Semiconductor CS461x/462x/428x
-Crystal Semiconductor CS4281
-ENSONIQ AudioPCI ES1370/1371
-ESS ES1868, ES1869, ES1879 and ES1888
-ESS Maestro-1, Maestro-2, and Maestro-2E
-ESS Maestro-3/Allegro
-ForteMedia fm801
-Gravis UltraSound MAX/PnP
-MSS/WSS Compatible DSPs
-NeoMagic 256AV/ZX
-OPTi 931/82C931
-S3 Sonicvibes
-SoundBlaster, Soundblaster Pro, Soundblaster AWE-32, Soundblaster AWE-64
-Trident 4DWave DX/NX
-VIA Technologies VT82C686A
-Yamaha DS1 and DS1e
-
-NOTE: Due to licensing restrictions, the Maestro3/Allegro driver
-cannot be compiled into the kernel.  To use this driver, add the
-following line to /boot/loader.conf:
-
-	maestro3_load="YES"
-
-Matrox Meteor Video frame grabber
-Creative Labs Video Spigot frame grabber
-Cortex1 frame grabber
-Various Frame grabbers based on Brooktree Bt848 and Bt878 chip.
diff --git a/release/texts/LAYOUT.TXT b/release/texts/LAYOUT.TXT
deleted file mode 100644
index c97298e..0000000
--- a/release/texts/LAYOUT.TXT
+++ /dev/null
@@ -1,101 +0,0 @@
-===================
-Distribution format
-===================
-
-A typical FreeBSD distribution directory looks something like this:
-
-ABOUT.TXT       bin             compat3x        games           proflibs
-HARDWARE.TXT    compat1x        info		src             tools
-INSTALL.TXT     compat20        dict            manpages        packages
-README.TXT      compat21        crypto          doc
-RELNOTES.TXT    compat22        floppies        ports
-XF86336
-
-If you want to do a CDROM, FTP or NFS installation from this
-distribution directory, all you need to do is make the 1.44MB boot
-floppies from the floppies directory (see floppies/README.TXT for
-instructions on how to do this), boot them and follow the instructions.
-The rest of the data needed during the installation will be obtained
-automatically based on your selections.  If you've never installed
-FreeBSD before, you also want to read the INSTALL.TXT file for 
-instructions.
-
-If you're trying to do some other type of installation or are merely
-curious about how a distribution is organized, what follows is a more
-thorough description of each item in more detail:
-
-1. The *.TXT files obviously contain documentation (this file is
-   LAYOUT.TXT) and should be read before starting an installation.
-
-2. The XF86336 directory contains the XFree86 project's 3.3.6 release and
-   consists of a series of gzip'd tar files which contain each component
-   of the XFree86 distribution.
-
-3. The bin, dict, crypto, doc, games, info, manpages, proflibs, and src
-   directories contain the primary distribution components of FreeBSD
-   itself and are split into smaller files for easy packing onto floppies
-   (should that be necessary).
-
-4. The compat1x, compat20, compat21, compat22, and compat3x directories
-   contain distributions for compatibility with older releases and are
-   distributed as single gzip'd tar files - they can be installed during
-   release time or later by running their `install.sh' scripts.
-
-5. The floppies subdirectory also contains the floppy installation images
-   and the floppies/README.TXT file should be read for further
-   information on using them.
-
-6. The packages and ports directories contain the FreeBSD packages and
-   ports collections.  Packages may be installed from the packages
-   directory by running the command: ``sysinstall configPackages''
-   or by feeding individual filenames in packages/ to the pkg_add(1)
-   command.
-
-   The ports collection may be installed like any other distribution
-   and requires about 100MB unpacked.  More information on the ports
-   collection may be obtained from http://www.freebsd.org/ports or
-   locally from ``file:/usr/share/doc/handbook'' if you've installed
-   the doc distribution.
-
-7. Last of all, the tools directory contains various DOS tools for
-   discovering disk geometries, installing boot managers and the like.
-   It is purely optional and provided only for user convenience.
-
-A typical distribution (we'll use the info distribution as an example)
-looks like this internally:
-
-CHECKSUM.MD5    info.ab         info.ad         info.inf        install.sh
-info.aa         info.ac         info.ae         info.mtree
-
-The CHECKSUM.MD5 file contains MD5 signatures for each file, should
-data corruption be suspected, and is purely for reference. It is not
-used by the actual installation and does not need to be copied with
-the rest of the distribution files.  The info.a* files are split,
-gzip'd tar files, the contents of which can be viewed by doing:
-
-        cat info.a* | tar tvzf -
-
-During installation, they are automatically concatenated and extracted
-by the installation procedure.
-
-The info.inf file is also necessary since it is read by the installation
-program in order to figure out how many pieces to look for when fetching and
-concatenating the distribution.  When putting distributions onto floppies,
-the .inf file MUST occupy the first floppy of each distribution set!
-
-The info.mtree file is another non-essential file which is provided
-for user reference.  It contains the MD5 signatures of the *unpacked*
-distribution files and can be later used with the mtree(1) program
-to verify the installation permissions and checksums against any possible
-modifications to the file.  When used with the bin distribution, this can
-be an excellent way of detecting trojan horse attacks on your system.
-
-Finally, the install.sh file is for use by those who want to install the
-distribution after installation time.  To install the info distribution from
-CDROM after a system was installed, for example, you'd do:
-
-                cd /cdrom/info
-                sh install.sh
-
-And that's all there is to it!  Each distribution contains its own
-install.sh file for this.
diff --git a/release/texts/README.TXT b/release/texts/README.TXT
deleted file mode 100644
index 7f4fefc..0000000
--- a/release/texts/README.TXT
+++ /dev/null
@@ -1,105 +0,0 @@
-   -----------------------------------------
-       FreeBSD 5.0  ---  SNAPSHOT Version              ,        ,
-   -----------------------------------------          /(        )`
-                                                      \ \___   / |
-This is a binary snapshot of 5.0-current, the         /- _  `-/  '
-(HEAD) branch which is currently moving towards      (/\/ \ \   /\
-the release of 5.0.                                  / /   | `    \
-                                                     O O   ) /    |
-                                                     `-^--'`<     '
-                                                    (_.)  _  )   /
-                                                     `.___/`    /
-                                                       `-----' /
-Feedback or offers to help with anything  <----.     __ / __   \
-you see in this release are most welcome  <----|====O)))==) \) /====
-and should be sent to one of the approp-  <----'    `--' `.__,' \
-riate mailing lists - please see the                   |        |
-ABOUT.TXT file for more information.                    \       /       /\
-                                                   ______( (_  / \______/
-                                                 ,'  ,-----'   |
-                                                 `--{__________)
-
-TARGET AUDIENCE:
-----------------
-This release is aimed primarily at early-adopters and the various
-other folks who want to get involved with the ongoing development
-of FreeBSD and are willing to deal with a few bumps in the road.
-We do our best to ensure that each snapshot works as advertised,
-but tracking -current is a process which frequently has its off
-days.
-
-If you're both technically proficient and know exactly what you're
-getting into here (e.g. you've been following -current) then this
-snapshot is probably for you.  If you're more interested in doing
-business with FreeBSD than in playing with the cutting edge of
-technology, however, then 3.x or 4.x is almost certainly your best
-bet.
-
-
-Most information here is also available from the Documentation menu
-during installation.
-
-  ERRATA.TXT    Read this file!  It will tell you where to look for the
-                latest information on problems which have been found and
-                fixed since this release was created (and may bite you).
-
-  README.TXT    This file
-
-  ABOUT.TXT     All about FreeBSD, including contact information
-
-  RELNOTES.TXT  Release Notes - what's new & different in this release
-
-  LAYOUT.TXT    Information about the layout of the release directory.
-                If you are installing from floppies, it is especially
-                important that you read this section!
-
-  HARDWARE.TXT  Information about the configuration of the GENERIC kernel
-                and supported hardware.  New installers should read this
-                file.
-
-  INSTALL.TXT   Installation instructions - new installers should read this.
-
-  UPGRADE.TXT   Upgrading an existing FreeBSD installation
-
-  TROUBLE.TXT   General troubleshooting information
-
-
-o It is, again, very important to check the ERRATA.TXT file for any
-  late-breaking issues with this release.  If you don't read the ERRATA,
-  you will probably fall right into the same problems that have already
-  been reported (and fixed as noted in the ERRATA).
-
-
-If you're a developer/hobbiest and not interested in QA'd releases
-so much as simply keeping up to date on the latest FreeBSD technology,
-you can also install one of our "snapshot" releases.
-
-For the most up-to-date software along the RELENG_3 branch
-(also known as 3.5-stable), please install your snapshots from:
-
-        ftp://releng3.freebsd.org/pub/FreeBSD/
-
-For the most up-to-date software along the RELENG_4 branch
-(also known as 4.0-stable), now proceeding towards the release
-of FreeBSD 4.1, please install your snapshots from:
-
-        ftp://releng4.freebsd.org/pub/FreeBSD/
-
-For the latest 5.0-current (HEAD branch) snapshot releases,
-please install from:
-
-        ftp://current.freebsd.org/pub/FreeBSD
-
-If you plan to run either -Stable or -Current you MUST be
-subscribed to the appropriate mailing list, either
-freebsd-stable or freebsd-current.  For information on
-subscribing to either list (or both), send an e-mail to
-majordomo@freebsd.org with the following in the body, not
-the subject, of the letter as appropriate:
-
-subscribe freebsd-stable
-subscribe freebsd-current
-end
-
-We hope you enjoy using FreeBSD as much as we enjoyed
-creating it!
diff --git a/release/texts/TROUBLE.TXT b/release/texts/TROUBLE.TXT
deleted file mode 100644
index 312c6c3..0000000
--- a/release/texts/TROUBLE.TXT
+++ /dev/null
@@ -1,383 +0,0 @@
-===============
-Troubleshooting
-===============
-
- Table of Contents:
-
-   Repairing an Existing FreeBSD Installation
-
-   Common Installation Problems, Q&A
-
-   Common Hardware Problems, Q&A
-
-Repairing an Existing FreeBSD Installation
-------------------------------------------
-
-FreeBSD releases 2.2.1 and later feature a "Fixit" option in the top
-menu of the boot floppy.  To use it, you will also need either a
-fixit.flp image floppy, generated in the same fashion as the boot
-floppy, or the 2nd CDROM from Walnut Creek CDROM's FreeBSD
-distribution.
-
-To invoke fixit, simply boot the kern.flp floppy, choose the "Fixit"
-item and insert the fixit floppy or CDROM when asked.  You will then
-be placed into a shell with a wide variety of commands available (in
-the /stand and /mnt2/stand directories) for checking, repairing and
-examining file systems and their contents.  Some UNIX administration
-experience *is* required to use the fixit option!
-
-Common Installation Problems, Q&A
----------------------------------
-
-Q: I go to boot from the hard disk for the first time after installing
-   FreeBSD, the kernel loads and probes my hardware, but stops with
-   messages like:
-
-     changing root device to wd1s1a
-     panic: cannot mount root
-
-   What is wrong?  What can I do?
-
-Q: What is this 'bios_drive:interface(unit,partition)kernel_name' thing
-   that is displayed with the boot help?
-
-A: There is a longstanding problem in the case where the boot disk is
-   not the first disk in the system.  The BIOS uses a different numbering
-   scheme to FreeBSD, and working out which numbers correspond to which
-   is difficult to get right.
-
-   In the case where the boot disk is not the first disk in the system,
-   FreeBSD can need some help finding it.  There are two common situations
-   here, and in both of these cases, you need to tell FreeBSD where the 
-   root filesystem is.  You do this by specifying the BIOS disk number, 
-   the disk type and the FreeBSD disk number for that type.
-
-   The first situation is where you have two IDE disks, each configured as
-   the master on their respective IDE busses, and wish to boot FreeBSD from
-   the second disk.  The BIOS sees these as disk 0 and disk 1, while 
-   FreeBSD sees them as wd0 and wd2.
-
-   FreeBSD is on BIOS disk 1, of type 'wd' and the FreeBSD disk number
-   is 2, so you would say:
-
-     1:wd(2,a)kernel
-
-   Note that if you have a slave on the primary bus, the above is not
-   necessary (and is effectively wrong).
-
-   The second situation involves booting from a SCSI disk when you have
-   one or more IDE disks in the system.  In this case, the FreeBSD disk
-   number is lower than the BIOS disk number.  If you have two IDE disks
-   as well as the SCSI disk, the SCSI disk is BIOS disk 2, type 'da' and
-   FreeBSD disk number 0, so you would say:
-
-     2:da(0,a)kernel
-
-   To tell FreeBSD that you want to boot from BIOS disk 2, which is
-   the first SCSI disk in the system.  If you only had one IDE disk,
-   you would use '1:' instead.
-
-   Once you have determined the correct values to use, you can put the
-   command exactly as you would have typed it in the /boot.config file
-   using a standard text editor.
-   Unless instructed otherwise, FreeBSD will use the contents of this
-   file as the default response to the 'boot:' prompt.
-
-Q: I go to boot from the hard disk for the first time after installing
-   FreeBSD, but the Boot Manager prompt just prints `F?' at the boot menu
-   each time but the boot won't go any further.
-
-A: The hard disk geometry was set incorrectly in the Partition editor when
-   you installed FreeBSD.  Go back into the partition editor and specify
-   the actual geometry of your hard disk.  You must reinstall FreeBSD
-   again from the beginning with the correct geometry.
-
-   If you are failing entirely in figuring out the correct geometry for
-   your machine, here's a tip:  Install a small DOS partition at the
-   beginning of the disk and install FreeBSD after that.  The install
-   program will see the DOS partition and try to infer the correct
-   geometry from it, which usually works.
-
-   The following tip is no longer recommended, but is left here
-   for reference:
-
-     If you are setting up a truly dedicated FreeBSD server or work-
-     station where you don't care for (future) compatibility with DOS,
-     Linux or another operating system, you've also got the option to use
-     the entire disk (`A' in the partition editor), selecting the
-     non-standard option where FreeBSD occupies the entire disk from
-     the very first to the very last sector.  This will leave all geometry
-     considerations aside, but is somewhat limiting unless you're never
-     going to run anything other than FreeBSD on a disk.
-
-
-Known Hardware Problems, Q & A
-------------------------------
-
-Q: mcd0 keeps thinking that it has found a device and this stops my Intel
-   EtherExpress card from working.
-
-A: Use the UserConfig utility (see HARDWARE.TXT) and disable the probing of
-   the mcd0 and mcd1 devices.  Generally speaking, you should only leave
-   the devices that you will be using enabled in your kernel.
-
-
-Q: FreeBSD claims to support the 3Com PCMCIA card, but my card isn't
-   recognized when it's plugged into my laptop.
-
-A: There are a couple of possible problems.  First of all, FreeBSD does
-   not support multi-function cards, so if you have a combo
-   ethernet/modem card (such as the 3C562), it won't work.  The
-   default driver for the 3C589 card was written just like all of the
-   other drivers in FreeBSD, and depend on the card's own configuration
-   data stored in NVRAM to work.  You must correctly configure FreeBSD's
-   driver to match the IRQ, port, and IOMEM stored in NVRAM.
-       Unfortunately, the only program capable of reading them is the
-   3COM supplied DOS program.  This program must be run on a absolutely
-   clean system (no other drivers must be running), and the program will
-   whine about CARD-Services not being found, but it will continue.
-   This is necessary to read the NVRAM values.  You want to know the
-   IRQ, port, and IOMEM values (the latter is called the CIS tuple by
-   3COM).  The first two can be set in the program, the third is
-   un-settable, and can only be read.  Once you have these values, set
-   them in UserConfig and your card will be recognized.
-
-
-Q: FreeBSD finds my PCMCIA network card, but no packets appear to
-   be sent even though it claims to be working.
-
-A: Many PCMCIA cards have the ability to use either the 10-Base2 (BNC)
-   or 10-BaseT connectors for connecting to the network.  The driver is
-   unable to 'auto-select' the correct connector, so you must tell it
-   which connector to use. In order to switch between the two
-   connectors, the link flags must be set.  Depending on the model of
-   the card, '-link0 link1' or 'link0 -link1' will choose the correct
-   network connector.  You can set these in sysinstall by using the
-   'Extra options to ifconfig:' field in the network setup screen.
-
-
-Q: The system finds my ed network card, but I keep getting device 
-   timeout errors.
-
-A: Your card is probably on a different IRQ from what is specified in the
-   kernel configuration.  The ed driver does not use the `soft' configuration
-   by default (values entered using EZSETUP in DOS), but it will use the
-   software configuration if you specify `?' in the IRQ field of your kernel
-   config file.  
-
-   Either move the jumper on the card to a hard configuration setting
-   (altering the kernel settings if necessary), or specify the IRQ as
-   `-1' in UserConfig or `?' in your kernel config file.  This will
-   tell the kernel to use the soft configuration.
-
-   Another possibility is that your card is at IRQ 9, which is shared
-   by IRQ 2 and frequently a cause of problems (especially when you
-   have a VGA card using IRQ 2! :).  You should not use IRQ 2 or 9 if at
-   all possible.
-
-
-Q: I have a Matsushita/Panasonic drive but it isn't recognized by the
-   system.
-
-A: Make certain that the I/O port that the matcd driver is set to is
-   correct for the host interface card you have.  (Some SoundBlaster DOS
-   drivers report a hardware I/O port address for the CD-ROM interface
-   that is 0x10 lower than it really is.)
-
-   If you are unable to determine the settings for the card by examining 
-   the board or documentation, you can use UserConfig to change the 'port'
-   address (I/O port) to -1 and start the system.  This setting causes the
-   driver to look at a number of I/O ports that various manufacturers
-   use for their Matsushita/Panasonic/Creative CD-ROM interfaces.
-   Once the driver locates the address, you should run UserConfig again
-   and specify the correct address.  Leaving the 'port' parameter set to -1
-   increases the amount of time that it takes the system to boot, and
-   this could interfere with other devices.
-
-   The double-speed Matsushita CR-562 and CR-563 are the only drives
-   that are supported.
-   
-
-Q: I booted the install floppy on my IBM ThinkPad (tm) laptop, and the
-   keyboard is all messed up.
-
-A: Older IBM laptops use a non-standard keyboard controller, so you must
-   tell the keyboard driver (atkbd0) to go into a special mode which works
-   on the ThinkPads.  Change the atkbd0 'Flags' to 0x4 in UserConfig and
-   it should work fine.  (Look in the Input Menu for 'Keyboard'.)
-
-
-Q: When I try to boot the install floppy, I see the following message 
-   and nothing seems to be happening.  I cannot enter anything from
-   the keyboard either.
-
-     Keyboard: no
-
-A: Due to lack of space, full support for old XT/AT (84-key) keyboards 
-   is no longer available in the bootblocks.  Some notebook computers may
-   also have this type of keyboard.  If you are still using this kind of 
-   hardware, you will see the above message appears when you boot from 
-   the CD-ROM or an install floppy.
-
-   As soon as you see this message, hit the space bar, and you will see
-   the prompt:
-
-     >> FreeBSD/i386 BOOT
-     Default: x:xx(x,x)/boot/loader 
-     boot:
-
-   Then enter `-Dh', and things should proceed normally.
-
-
-Q: I have a Matsushita/Panasonic CR-522, a Matsushita/Panasonic CR-523 or
-   a TEAC CD55a drive, but it is not recognized even when the correct I/O
-   port is set.
-
-A: These CD-ROM drives are currently not supported by FreeBSD.  The command
-   sets for these drives are not compatible with the double-speed CR-562
-   and CR-563 drives.
-   
-   The single-speed CR-522 and CR-523 drives can be identified by their
-   use of a CD-caddy. 
-
-
-Q: I'm trying to install from a tape drive but all I get is something like:
-        sa0(aha0:1:0) NOT READY csi 40,0,0,0
-   on the screen.  Help!
-
-A: There's a limitation in the current sysinstall that the tape MUST
-   be in the drive while sysinstall is started or it won't be detected.
-   Try again with the tape in the drive the whole time.
-
-
-Q: I've installed FreeBSD onto my system, but it hangs when booting from 
-   the hard drive with the message: ``Changing root to /dev/da0a''.
-
-A: This problem may occur in a system with a 3com 3c509 Ethernet adaptor.
-   The ep0 device driver appears to be sensitive to probes for other
-   devices that also use address 0x300.  Boot your FreeBSD system by power
-   cycling the machine (turn off and on).  At the ``Boot:'' prompt specify
-   the ``-c''.  This will invoke UserConfig (see Section 1. above).  Use
-   the ``disable'' command to disable the device probes for all devices
-   at address 0x300 except the ep0 driver.   On exit, your machine should
-   successfully boot FreeBSD.
-
-
-Q: My system can not find my Intel EtherExpress 16 card.
-
-A: You must set your Intel EtherExpress 16 card to be memory mapped at
-   address 0xD0000, and set the amount of mapped memory to 32K using
-   the Intel supplied softset.exe program.
-
-
-Q: When installing on an EISA HP Netserver, my on-board AIC-7xxx
-   SCSI controller isn't detected.
-
-A: This is a known problem, and will hopefully be fixed in the future.
-   In order to get your system installed at all, boot with the -c
-   option into UserConfig, but _don't_ use the pretty visual mode but
-   the plain old CLI mode.  Type
-
-        eisa 12
-        quit
-
-   there at the prompt.  (Instead of `quit', you might also type
-   `visual', and continue the rest of the configuration session in
-   visual mode.)  While it's recommended to compile a custom kernel,
-   dset(8) now also understands to save this value.
-
-   Refer to the FAQ topic 3.16 for an explanation of the problem, and
-   for how to continue.  Remember that you can find the FAQ on your
-   local system in /usr/share/doc/FAQ, provided you have installed the
-   `doc' distribution.
-
-
-Q: I have a Panasonic AL-N1 or Rios Chandler Pentium machine and I find
-   that the system hangs before ever getting into the installation
-   now.
-
-A: Your machine doesn't like the new i586_copyout and i586_copyin code
-   for some reason.  To disable this, boot the installation boot floppy
-   and when it comes to the very first menu (the choice to drop into
-   kernel UserConfig mode or not) choose the command-line interface
-   ("expert mode") version and type the following at it:
-
-        flags npx0 1
-
-   Then proceed normally to boot.  This will be saved into your kernel,
-   so you only need to do it once.
-
-
-Q: I have this CMD640 IDE controller that is said to be broken.
-
-A: Yes, it is.  FreeBSD does not support this controller except through
-   the legacy 'wdc' driver.
-
-
-Q: On a Compaq Aero notebook, I get the message "No floppy devices found!
-   Please check ..." when trying to install from floppy.
-
-A: With Compaq being always a little different from other systems, they
-   do not announce their floppy drive in the CMOS RAM of an Aero notebook.
-   Therefore, the floppy disk driver assumes there is no drive configured.
-   Go to the UserConfig screen, and set the Flags value of the fdc0 device
-   to 0x1.  This pretends the existence of the first floppy drive (as a
-   1.44 MB drive) to the driver without asking the CMOS at all.
-
-
-Q: When I go to boot my Intel AL440LX ("Atlanta") -based system from the
-   hard disk the first time, it stops with a "Read Error" message.
-
-A: There appears to be a bug in the BIOS on at least some of these boards,
-   this bug results in the FreeBSD bootloader thinking that it is booting
-   from a floppy disk.
-   This is only a problem if you are not using the BootEasy boot manager.
-   Slice the disk in 'compatible' mode and install BootEasy during the
-   FreeBSD installation to avoid the bug, or upgrade the BIOS (see Intel's
-   website for details).
-
-Q: When installing on an Dell Poweredge XE, Dell proprietary RAID controller
-   DSA (Dell SCSI Array) isn't recognized.
-
-A: Configure DSA to use AHA-1540 emulation using EISA configuration utility.
-   After that FreeBSD detects DSA as Adaptec AHA-1540 SCSI controller, with
-   irq 11 and port 340. Under emulation mode system will use DSA RAID disks,
-   but you cannot use DSA specific features such as watching RAID health.
-
-
-Q: My Ethernet adapter is detected as an AMD PCnet-FAST (or similar) but
-   it doesn't work.  (Eg. onboard Ethernet on IBM Netfinity 5xxx or 7xxx)
-
-A: The 'lnc' driver is currently faulty, and will often not work correctly
-   with the PCnet-FAST and PCnet-FAST+.  You need to install a different
-   Ethernet adapter.
-
-
-Q: I have an IBM EtherJet PCI card, it is detected by the 'fxp' driver 
-   correctly, but the lights on the card don't come on and it doesn't
-   connect to the network.
-
-A: We don't understand why this happens.  Neither do IBM (we asked them).
-   The card is a standard Intel EtherExpress Pro/100 with an IBM label
-   on it, and these cards normally work just fine.  You may see these
-   symptoms only in some IBM Netfinity servers.  The only solution is to
-   install a different Ethernet adapter.
-
-
-Q: When I configure the network during installation on an IBM Netfinity
-   3500, the system freezes.
-
-A: There is a problem with the onboard Ethernet in the Netfinity 3500
-   which we have not been able to identify at this time.  It may be
-   related to the SMP features of the system being misconfigured.  You
-   will have to install another Ethernet adapter and avoid attempting
-   to configure the onboard adapter at any time.
-
-Q: When I install onto a drive managed by a Mylex PCI RAID controller,
-   the system fails to boot (eg. with a "read error" message).
-
-A: There is a bug in the Mylex driver which results in it ignoring
-   the '8GB' geometry mode setting in the BIOS.  Use the 2GB mode 
-   instead.
-
-[ Please send hardware tips for this Q&A section to jkh@freebsd.org ]
diff --git a/release/texts/UPGRADE.TXT b/release/texts/UPGRADE.TXT
deleted file mode 100644
index 5c8f445..0000000
--- a/release/texts/UPGRADE.TXT
+++ /dev/null
@@ -1,179 +0,0 @@
-+=====================  Upgrading  FreeBSD  ==========================+
-|                                                                     |
-| 0.0        Preface                                                  |
-|            0.1    DISCLAIMER                                        |
-|            0.2    IMPORTANT NOTES                                   |
-|                                                                     |
-| 1.0        Introduction                                             |
-|            1.1    Upgrade Overview                                  |
-|                                                                     |
-| 2.0        Procedure                                                |
-|            2.1    Backup                                            |
-|            2.2    Mount Filesystems                                 |
-|            2.3    Select Distributions                              |
-|            2.4    After Installation                                |
-|                                                                     |
-| 3.0        Alternative Upgrade Techniques                           |
-|                                                                     |
-+=====================================================================+
-
-0.1    DISCLAIMER
----    ----------
-
-While the FreeBSD upgrade procedure does its best to safeguard against
-accidental loss of data, it is still more than possible to WIPE OUT YOUR
-ENTIRE DISK with this installation!  Please do not accept the final
-confirmation request unless you have adequately backed up any important
-data files.
-
-0.2    IMPORTANT NOTES
----    ---------------
-
-These notes assume that you are using the version of sysinstall supplied
-with the version of FreeBSD to which you intend to upgrade.  Using a
-mismatched version of sysinstall is almost guaranteed to cause problems
-and has been known to leave systems in an unusable state.  The most
-commonly made mistake in this regard is the use of an old copy of
-/stand/sysinstall from an existing installation to upgrade to a newer
-version of FreeBSD.  This is NOT recommended.  You should instead boot
-from the installation media to do an upgrade.
-
-Furthermore, if you are upgrading from FreeBSD 2.2.5 or earlier, see
-section 2.4 for important details regarding changes to the /etc/fstab
-file required during the upgrade procedure.
-
-1.0    Introduction
----    ------------
-
-The upgrade procedure replaces distributions selected by the user
-with those corresponding to the new FreeBSD release.  It preserves
-standard system configuration data, as well as user data, installed
-packages and other software.
-
-Administrators contemplating an upgrade are encouraged to study this
-document in its entirety before commencing an upgrade.  Failure to do so 
-may result in a failed upgrade or loss of data.
-
-1.1    Upgrade Overview
----    ----------------
-Upgrading of a distribution is performed by extracting the new version of
-the component over the top of the previous version.  Files belonging to
-the old distribution are not deleted.
-
-System configuration is preserved by retaining and restoring the
-previous version of the following files:
-
-   Xaccel.ini, adduser.conf, aliases, aliases.db, amd.map, crontab,
-   csh.cshrc, csh.login, csh.logout, daily, disktab, dm.conf, exports,
-   fbtab, fstab, ftpusers, gettytab, gnats, group, hosts, hosts.equiv,
-   hosts.lpd, inetd.conf, kerberosIV, localtime, login.access,
-   mail.rc, make.conf, manpath.config, master.passwd, mib.txt, modems,
-   monthly, motd, namedb, networks, nsswitch.conf, passwd, phones,
-   ppp, printcap, profile, protocols, pwd.db, rc, rc.firewall,
-   rc.i386, rc.local, rc.network, rc.conf, remote, resolv.conf, rmt,
-   security, sendmail.cf, services, shells, skeykeys, spwd.db,
-   supfile, syslog.conf, termcap, ttys, uucp, weekly
-
-The versions of these files which correspond to the new version are
-moved to /etc/upgrade/.  The system administrator may peruse these new
-versions and merge components as desired.  Note that many of these files 
-are interdependent, and the best merge procedure is to copy all
-site-specific data from the current files into the new.
-
-During the upgrade procedure, the administrator is prompted for a
-location into which all files from /etc/ are saved.  In the event that
-local modifications have been made to other files, they may be
-subsequently retrieved from this location.
-
-2.0    Procedure
----    ---------
-
-This section details the upgrade procedure.  Particular attention is
-given to items which substantially differ from a normal installation.
-
-2.1    Backup
----    ------
-
-User data and system configuration should be backed up before
-upgrading.  While the upgrade procedure does its best to prevent
-accidental mistakes, it is possible to partially or completely destroy
-data and configuration information.
-
-2.2    Mount Filesystems
----    -----------------
-
-The disklabel editor is entered with the nominated disk's filesystem
-devices listed.  Prior to commencing the upgrade, the administrator
-should make a note of the device names and corresponding mountpoints.
-These mountpoints should be entered here.  DO NOT set the 'newfs flag'
-for any filesystems, as this will cause data loss.
-
-2.3    Select Distributions
----    --------------------
-
-When selecting distributions, there are no constraints on which must be
-selected.  As a general rule, the 'bin' distribution should be selected
-for an update, and the 'man' distribution if manpages are already
-installed.  Other distributions may be selected beyond those originally
-installed if the administrator wishes to add additional functionality.
-
-2.4    After Installation
----    ------------------
-
-Once the installation procedure has completed, the administrator is
-prompted to examine the new configuration files.  At this point, checks
-should be made to ensure that the system configuration is valid.  In
-particular, the /etc/rc.conf and /etc/fstab files should be checked.
-
-Read the following, but DO NOT update /etc/fstab as described below
-until the new system has booted correctly.  The upgrade procedure
-replaces the previous FreeBSD kernel with a GENERIC kernel, and a custom
-kernel may need to be generated to suit the local system configuration.
-
-IMPORTANT NOTE:
-==============
-FreeBSD 2.2.6 introduced a change in the naming of the device from 
-which the root filesystem is mounted.  This change affects all systems, 
-however user intervention is only required for systems undergoing an 
-upgrade installation from a version prior to FreeBSD 2.2.6.
-
-Previously, the root filesystem was always mounted from the
-compatibility slice, while other partitions on the same disk were
-mounted from their true slice.  This might, for example, have resulted 
-in an /etc/fstab file like:
-
-# Device      Mountpoint      FStype  Options         Dump    Pass#
-/dev/wd0s2b   none            swap    sw              0       0
-/dev/wd0a     /               ufs     rw              1       1
-/dev/wd0s2f   /local0         ufs     rw              1       1
-/dev/wd0s2e   /usr            ufs     rw              1       1
-
-For FreeBSD 2.2.6 and later, this format changes so that the device for 
-'/' is consistent with others.  Also, the driver for the ATA-drives has
-changed from wd(4) to ad(4), so the new file could look something like:
-
-# Device      Mountpoint      FStype  Options         Dump    Pass#
-/dev/ad0s2b   none            swap    sw              0       0
-/dev/ad0s2a   /               ufs     rw              1       1
-/dev/ad0s2f   /local0         ufs     rw              1       1
-/dev/ad0s2e   /usr            ufs     rw              1       1
-
-
-If /etc/fstab is not updated manually in this case, the system will
-issue a warning message whenever / is mounted (normally at startup)
-indicating the change that must be made.  In addition, trouble may be
-experienced if the root filesystem is not correctly unmounted, whereby
-the root filesystem will not be marked clean at the next reboot.
-
-This change should be made as soon as the upgraded system has been
-successfully rebooted.
-
-3.0    Alternative Upgrade Techniques
----    ------------------------------
-
-Those interested in an upgrade method that allows more flexibility and
-sophistication should take a look at the "The Cutting Edge" chapter in the
-Handbook (http://www.FreeBSD.org/docs/en/books/handbook/cutting-edge.html)
-which describes how to upgrade FreeBSD from the source code.  This method
-requires reliable network connectivity, extra disk space and spare time,
-but has advantages for networks and other more complex installations.
diff --git a/release/texts/alpha/HARDWARE.TXT b/release/texts/alpha/HARDWARE.TXT
deleted file mode 100644
index 5f29acb..0000000
--- a/release/texts/alpha/HARDWARE.TXT
+++ /dev/null
@@ -1,1892 +0,0 @@
-		FreeBSD/alpha Hardware Information
-		==================================
-
-This file is maintained by Wilko Bulte <wilko@freebsd.org>
-
-Additions, corrections and constructive criticism are invited. In 
-particular information on system quirks is more than welcome. 
-
-
-Overview
---------
-
-This document tries to provide a starting point for those who want to start
-running FreeBSD on an Alpha-based machine. It is aimed at providing
-background information on the various hardware designs. It is not a
-replacement for the systems manuals. 
-
-The information is structured as follows:
-
-- general hardware requirements to run FreeBSD on Alpha.
-- system specific information for each of the systems/boards supported
-  by FreeBSD/alpha.
-- information on expansion boards for FreeBSD/alpha, including things
-  that differ from what is in the generic supported hardware list.
-
-Note: you will see references to DEC, Digital Equipment Corporation and 
-Compaq used more or less interchangeably. Now that Compaq has acquired Digital 
-Equipment it would be more correct to refer to Compaq-only.
-
-
-In general, what do you need to run FreeBSD/alpha? 
---------------------------------------------------
-
-Obviously you will need an Alpha machine that FreeBSD/alpha knows about.
-Alpha machines are NOT like PCs. There are considerable differences
-between the various chip sets and mainboard designs. This means that a kernel
-needs to know the intimate details of a particular machine before it can run
-on it. Throwing some odd GENERIC kernel at unknown hardware is almost
-guaranteed to fail miserably.
-
-For a machine even to be considered for FreeBSD use please make sure it has
-the SRM console firmware installed. Or at least make sure that SRM console 
-firmware is available for this particular machine type. If FreeBSD does not
-currently support your machine type, there is a good chance that this will
-change at some point in time, assuming SRM is available.
-
-Machines with the ARC or AlphaBIOS console firmware were intended for 
-WindowsNT. Some of them have SRM firmware available in the system ROMs 
-which you only have to select (via an ARC or AlphaBIOS menu). In other cases 
-you will have to re-flash the ROMs with SRM code. Check on
-http://ftp.digital.com/pub/DEC/Alpha/firmware to see what is available
-for your particular system. In any case: no SRM -> no FreeBSD (or NetBSD, 
-OpenBSD, Tru64 Unix or OpenVMS for that matter). With the demise of
-WindowsNT/alpha a lot of former NT boxes are sold on the second hand
-market. They have little or no trade-in value when they are NT-only from the
-console perspective. So, be suspicious if the price appears too good.
-
-Known non-SRM machines are:
-	Digital XL series
-	Digital XLT series
-	Samsung PC164UX
-	Samsung 164B
-
-To complicate things a bit further: Digital used to have so called
-'white-box' Alpha machines destined as NT-only and 'blue-box' Alpha machines
-destined for OpenVMS and Digital Unix. These names are based on the color
-of the cabinets, 'FrostWhite' and 'TopGunBlue' respectively.
-Although you could put the SRM console on the whitebox, OpenVMS and Digital
-Unix will refuse to boot on them. FreeBSD in post-4.0R will run on both the
-white and the blue-box variants. Before someone asks: the white ones had a
-rather different (read: cheaper) price tag.
-
-As part of the SRM you will get the so called OSF/1 PAL code (OSF/1 being the
-initial name of Digital's Unix offering on Alpha). The PAL code can be thought
-of as a software abstraction layer between the hardware and the operating
-system. It uses normal CPU instruction plus a handful of privileged
-instructions specific for PAL use. PAL is not microcode by the way. 
-The ARC firmware contains a different PAL code, geared towards WinNT and in
-no way suitable for use by FreeBSD (or more generic: Unix or OpenVMS).
-Before someone asks: Linux/alpha brings its own PAL code, allowing it to
-boot on ARC & AlphaBIOS. There are various reasons why this is not a 
-very good idea in the eyes of the *BSD folks. I don't want to go into 
-details here.
-
-There is another pitfall ahead: you will need a disk adapter that the SRM
-console recognizes in order to be able to boot from your disk. What is 
-acceptable to SRM as a boot adapter is unfortunately system and SRM version
-dependent. For older PCI based machines this means you will need either 
-a NCR/Symbios 53C810 based adapter, or a Qlogic 1020/1040 based adapter. 
-Some machines come with a SCSI chip embedded on the mainboard. Newer machine 
-designs and SRM versions will be able to work with later SCSI chips/adapters. 
-Check out the machine specific info below. Please note that the rest 
-of this discussion only refers to Symbios chips, this is meant to include
-the older chips that still have NCR stamped on them. Symbios bought the NCR
-designs.
-
-The problem might bite those who have machines that started their lives as 
-WinNT boxes. The ARC or AlphaBIOS knows about *other* adapter types that it 
-can boot from than the SRM. For example you can boot from an Adaptec 2940UW 
-with ARC but (generally) not with SRM. Some newer machine types have introduced
-Adaptec boot support. Please consult the machine specific section for details.
-
-Some adapters that cannot be booted from work fine for data-only disks.
-The differences between SRM and ARC could also get you pre-packaged 
-IDE CDROMs and hard drives in some (former NT) systems. 
-SRM versions exist (depends on the machine type) that can boot 
-from IDE disks and CDROMs. Check the machine specific section for details.
-
-FreeBSD/alpha 4.0 and later can be booted from the distribution CDROM.
-Earlier versions needed booting from a 2-floppy set.
-
-If you don't have/want a local disk drive you can boot via the Ethernet.
-This assumes a Ethernet adapter/chip that is recognized by the SRM.
-Generally speaking this boils down to either a 21040 or 21142 or 21143 
-based Ethernet interface. Older machines / SRM versions may not recognize
-the 21142 / 21143 Fast Ethernet chips, you are limited to using 10Mbit
-Ethernet for net booting those machines. Non-DEC cards based on said chips will
-generally (but are not guaranteed to) work. Note that Intel took over the
-21x4x chips when it bought Digital Semiconductor. So you might see an Intel
-logo on them these days. Recent machine designs have SRM support for
-Intel 8255x Ethernet chips.
-
-Alpha machines can be run with SRM on a graphics console or on
-a serial console. ARC can be run on a serial consoles if need be. VT100
-emulation with 8 bit controls should at least allow you to switch from 
-ARC to SRM mode without having to install a graphics card first.
-
-If you want to run your Alpha without a monitor/graphics card 
-just don't connect a keyboard/mouse to the machine. Instead hook 
-up a serial terminal[emulator] to serial port #1.  The SRM will 
-talk 9600N81 to you. This can be really practical for debugging purposes.
-Beware: some/most (?) SRMs will also present you with a console prompt at
-serial port #2. The booting kernel, however, will display the boot messages
-on serial port #1 and will also put the console there. This can be extremely
-confusing.
-
-Most PCI based Alphas can use ordinary PC-type VGA cards. The SRM contains
-enough smarts to make that work. It does not, however, mean that each and
-every PCI VGA card out on the street will work in an Alpha machine. Things
-like S3 Trio64, Mach64, and Matrox Millennium generally work. Old ET4000
-based ISA cards have also worked for me. But ask around first before buying.
-Please note that TGA cards are not supported as FreeBSD console display cards.
-
-Most PCI devices from the PC-world will also work in FreeBSD/alpha PCI-based
-machines. Check the /sys/alpha/conf/GENERIC file for the latest word on
-this. Be careful to check the appropriate machine type's discussion
-in case you want to use PCI cards that have PCI bridge chips on them.
-In some cases you might encounter problems with PCI cards not handling
-PCI parity correctly. This can lead to panics. PCI parity checking can be
-disabled using the following SRM command: SET PCI_PARITY OFF. This is not
-a FreeBSD problem, all operating systems running on Alpha hardware will
-need this workaround.
-
-If your system (also) contains EISA expansion slots you will need to run
-the EISA Configuration Utility (ECU) after you have installed EISA cards
-or have upgraded your console firmware. 
-
-Parallel ports that can be found on most Alpha machines are supported.
-
-For Alpha CPUs you will find multiple generations. The original Alpha
-design is the 21064. It was produced in a chip process called MOS4,
-chips made in this process are nicknamed EV4. Newer CPUs are 21164, 21264
-etc. You will see designations like EV4S, EV45, EV5, EV56, EV6, EV67.
-The EVs with double digit numbers are slightly improved versions. For example
-EV45 has an improved FPU and 16 kByte on-chip separate I & D caches compared
-to the EV4 on which it is based. Rule of thumb: the higher the digit
-immediately following 'EV' the more desirable (read: faster / more modern).
-
-For memory you want at least 32 Mbytes. I have had FreeBSD/alpha run on a
-16 Mbyte system but you will not like that. Kernel build times halved when
-going to 32 Mbytes. Note that the SRM steals 2Mbyte from the total system 
-memory (and keeps it). For more serious use >= 64Mbyte is recommended. 
-
-While on the subject of memory: pay close attention to the type of memory
-your machine uses. There are very different memory configurations and
-requirements for the various machines.
-
-Final word: I expect the above to sound a bit daunting to the first-time
-Alpha user. Don't be daunted too much. And do feel free to ask questions.
-
-
-System specific information
----------------------------
-
-Below is an overview of the hardware that FreeBSD/alpha runs on.
-This list will definitely grow, a look in /sys/alpha/conf/GENERIC
-can be enlightening. Alpha machines are often best known by their project
-code name. When known these are listed below in ().
-
-*
-* AXPpci33 ("NoName")
-*
-The NoName is a baby-AT mainboard based on the 21066 LCA (Low Cost Alpha)
-processor. It was originally designed for OEM-use. The LCA chip includes
-almost all of the logic to drive a PCI bus and the memory subsystem. 
-All of this makes for a low-priced design. 
-
-Due to the limited memory interface the system is not particularly
-fast in case of cache misses. As long as you stay inside the on-chip cache
-the CPU is comparable to a 21064 (first generation Alpha). These boards 
-should be very cheap to obtain these days (even here in the Netherlands 
-they were sold new for US$ 25).
-
-Features:
-- 21066 Alpha CPU at 166 MHz or 21066A CPU at 233MHz
-  (21068 CPUs are also possible, but are even slower. Never seen/used one)
-- memory bus: 64 bits 
-- on-board Bcache / L2 cache: 0, 256k or 1 Mbyte (uses DIL chips)
-- PS/2 mouse & keyboard port OR 5pin DIN keyboard (2 mainboard models)
-- memory: PS/2 style 72 pin 36 bit Fast Page Mode SIMMs, 
-	  70ns or better,
-          installed in pairs of 2,
-	  4 SIMM sockets
-	  uses ECC 
-- 512kB Flash ROM for the console code.
-- 2x 16550A serial ports, 1x parallel port, floppy interface
-- 1x embedded IDE interface
-- expansion: 3 32 bit PCI slots (1 shared with ISA)
-	     5 ISA slots (1 shared with PCI)
-- embedded Fast SCSI using a Symbios 53C810 chip
-
-SRM:
-NoNames can either have SRM *or* ARC console firmware in their Flash ROM.
-The Flash ROM is not big enough to hold both ARC and SRM at the same time 
-and allow software selection of alternate console code. But you need 
-SRM-only anyway.
-
-Cache:
-Cache for the NoNames are 15 or 20 ns DIL chips. For a 256 kByte cache you
-want to check your junked 486 mainboard. Chips for a 1 Mbyte cache are a rarer
-breed unfortunately. Getting at least a 256kByte cache is recommended
-performance wise. Cache-less they are really slow.
-
-Power:
-The NoName mainboard has a PC/AT-standard power connector. It also has 
-a power connector for 3.3 Volts. No need to rush out to get
-a new power supply. The 3.3 Volts is only needed in case you run 3.3 Volts
-PCI expansion boards.
-
-IDE:
-The IDE interface is supported by FreeBSD and requires a line in the 
-kernel configuration file as follows:
-
-        device ata0 at isa? port IO_WD1 irq 14
-
-The SRM console unfortunately cannot boot from IDE disks.
-
-Memory:
-Make sure you use true 36 bit SIMMs, and only FPM (Fast Page Mode). EDO RAM
-or SIMMs with fake parity *will not work* (the board uses the 4 extra bits
-for ECC!). 33 bit FPM SIMMs will for the same reason not work either. 
-
-Keyboard/mouse:
-Given the choice, get the PS/2-variant mainboard. Apart from giving you a
-mouse port as bonus it is directly supported by Tru64 Unix in case you ever
-want/need to run it. The "DIN-plug"-variant should work OK for FreeBSD.
-
-The OEM manual is recommended reading.
-See ftp://ftp.digital.com/pub/DEC/axppci/design_guide.ps
-
-The kernel configuration file for a NoName kernel must contain:
-	options         DEC_AXPPCI_33           
-	cpu		EV4
-
-
-*
-* Universal Desktop Box (UDB or "Multia")
-*
-
-Note: Multia can be either Intel or Alpha CPU based. We assume Alpha based
-      ones here for obvious reasons.
-
-Multia is a small desktop box intended as a sort of personal workstation.
-They come in a considerable number of variations, check closely what you
-get.
-
-Features:
-- 21066 Alpha CPU at 166 MHz or 21066A CPU at 233MHz
-- memory bus: 64 bits 
-- on-board Bcache / L2 cache: COAST-like 256 kByte cache module
-			      233MHz models have 512kByte of cache
-                              166MHz models have soldered-on 256kB caches
-- PS/2 mouse & keyboard port
-- memory: PS/2 style 72 pin 36 bit Fast Page Mode SIMMs, 
-	  70ns or better,
-          installed in pairs of 2,
-	  4 SIMM sockets
-	  uses ECC 
-- 2x 16550A serial ports, 1x parallel port, floppy interface
-- Intel 82378ZB PCI to ISA bridge
-- 1x embedded 21040 based 10Mbit Ethernet, AUI or 10base2 connector
-- expansion: 1 32 bit PCI slot, 2 PCMCIA slots
-- on-board Crystal CS4231 or AD1848 sound chip
-- embedded Fast SCSI using a Symbios 53C810 chip on the PCI riser card
-
-SRM/ARC:
-Multia has enough Flash ROM to store both SRM and ARC code at the same time
-and allow software selection of one of them.
-
-Expansion:
-Multia has only one 32 bit PCI slot for expansion, and it is only 
-suitable for a small form factor PCI card too. In sacrificing the PCI slot
-space you can mount a 3.5" hard disk drive. Mounting stuff may have come
-with your Multia. Adding a 3.5" disk is not a recommended upgrade due to 
-the limited power rating of the power supply and the extremely marginal
-cooling of the system box. Don't!
-
-Multia also has 2 PCMCIA expansion slots. These are currently unsupported.
-
-CPU:
-The CPU might or might not be socketed, check before considering CPU upgrade 
-hacks. The low-end Multias have a soldered-in CPU.
-
-Graphics: 
-It comes with a TGA based graphics on-board. Which is not suitable for
-console use with FreeBSD. Which means you will have to run it using a 
-serial console. Note that the boot of the installation disk will appear
-to work fine using the TGA console, but then switches to using the 
-serial port. This is even mentioned during by installer (but never read
-by the human doing the install..). Your keyboard appears dead from that point
-on.
-
-Serial:
-Multia has 2 serial ports but routes both of them to the outside world
-on a single 25 pin sub-D connector. The Multia FAQ explains how to
-build your own Y-cable to allow both ports to be used.
-
-Floppy:
-Although the Multia SRM supports booting from floppy this is problematic. 
-Typical errors look like "*** Soft Error - Error #10 - FDC: Data overrun or
-underrun". This is not a FreeBSD problem, it is a SRM problem. The best 
-available workaround to install FreeBSD is to boot from a SCSI CDROM.
-
-Sound:
-Works fine using pcm driver and a line in the kernel configuration file as
-follows for the Crystal CS4231 chip:
-
-	device pcm0 at isa? port 0x530  irq 9 drq 3 flags 0x15
-
-I have not yet been successful in getting my Multia with the AD1848 to 
-play any sound.
-
-While verifying playback I was reminded of the lack of CPU power of the 166MHz
-CPU: MP3 only plays acceptable using 22kHz down-sampling.
-
-Hot:
-Multias are somewhat notorious for dying of heat strokes. The very compact
-box does not really allow cooling air access very well. Please use the 
-Multia on its vertical stand, don't put it horizontally ('pizza style').
-Replacing the fan with something which pushes around more air is
-recommended. Beware of PCI cards with high power consumption.
-If your system has died you might want to check on the Multia-Heat-Death
-pages at the NetBSD web-site http://www.netbsd.org
-
-IDE:
-The Intel 82378ZB PCI to ISA bridge enables the use of an IDE disk. This
-requires a line in the kernel configuration file as follows:
-
-	device ata0 at isa? port IO_WD1 irq 14
-
-The IDE connector pin spacing is thought for 2.5" laptop disks. A 3.5"
-IDE disk would not fit in the case anyway. At least not without sacrificing
-your only PCI slot. 
-
-The SRM console does not know how to boot from IDE disks unfortunately.
-
-SCSI:
-In case you want to change the internal hard drive: the internal flat cable
-running from the PCI riser board to the 2.5" (!!) hard drive has a finer pitch
-than the standard SCSI flat cables. Otherwise it would not fit on the 2.5"
-drives. There are also riser cards that have a standard-pitch SCSI cable
-attached to it, which will fit an ordinary SCSI disk.
-
-Again, I recommend against trying to cram a replacement hard disk inside. Use 
-the external SCSI connector and put your disk in an external enclosure. 
-Multias run hot enough as-is. In most cases you will have the external high 
-density 50pin SCSI connector but some Multia models came without disk and 
-may lack the connector. Something to check before buying one.
-
-The kernel configuration file for a Multia kernel must contain:
-        options         DEC_AXPPCI_33
-	cpu		EV4
-
-More info:
-Recommended reading on Multia can be found at
-	http://www.netbsd.org/Ports/alpha/multiafaq.html
-	http://www.brouhaha.com/~eric/computers/udb.html
-
-*
-* Personal Workstation ("Miata")
-*
-
-The Miata is a small tower machine intended to be put under a desk. There
-are multiple Miata variants. The original Miata is the MX5 model. Because 
-it suffers from a number of hardware design flaws a redesign was performed,
-yielding the MiataGL. Unfortunately the boxes are quite indistinguishable.
-An easy check is to see if the back of the machine sports two
-USB connectors. If yes, it is a MiataGL. 
-
-System designations look like "Personal Workstation 433a". Personal
-Workstation, being a bit of a mouthful, is often abbreviated to PWS.
-This means it has a 433 MHz CPU, and started life as a WinNT workstation 
-(the trailing 'a'). Systems designated from day 1 to run Tru64 
-Unix or OpenVMS will sport '433au'. WinNT-Miatas are likely
-to come pre-configured with an IDE CDROM drive. So, in general systems
-are named like PWS[433,500,600]a[u]. 
-
-There was also a Miata model with a special CPU cooling system by Kryotech. 
-That one has a different enclosure.
-
-Features:
-
-- 21164A EV56 Alpha CPU, at 433, 500 or 600MHz 
-- 21174 Core Logic ("Pyxis") chip set
-- on-board Bcache / L3 cache: 0, 2 or 4 Mbytes (uses a cache module)
-- memory bus: 128 bits wide, ECC protected
-- memory: Miata uses unbuffered SDRAMs, 
-	  installed in pairs of 2,
-	  6 DIMM sockets
-	  1.5 Gbytes max
-- on-board Fast Ethernet based on:
-  - MX5 uses a 21142 or 21143 Ethernet chip dependent on the version of the
-    PCI riser card 
-  - MiataGL has a 21143 chip
-  - the bulkhead can be 10/100 UTP, or 10 UTP/BNC
-- 2x on-board [E]IDE based on:
-  - MX5: CMD646
-  - MiataGL: Cypress 82C693
-- 1x Ultra-Wide SCSI Qlogic 1040 [MiataGL only]
-- expansion: 2 64-bit PCI slots
-	     3 32-bit PCI slots (behind a DEC PCI-PCI bridge chip)
-	     3 ISA slots (physically shared with the 32 bit PCI slots, via
-		          an Intel 82378IB PCI to ISA bridge chip)
-- 2x 16550A serial port
-- 1x parallel port 
-- PS/2 keyboard & mouse port
-- USB interface [MiataGL only]
-- embedded sound based on an ESS1888 chip
-
-CPU mainboard and PCI 'riser' board: 
-The Miata logic is divided into two printed circuit boards. 
-The lower board in the bottom of the machine has the PCI 
-and ISA slots and things like the sound chip etc. The top board
-has the CPU, the Pyxis chip, memory etc. Note that MX5 and the MiataGL use
-a different PCI riser board. This means that you cannot just upgrade to
-a MiataGL CPU board (with the newer Pyxis chip) but that you will also need
-a different riser board. Apparently an MX5 riser with a MiataGL CPU board
-will work but it is definitely not a supported or tested configuration.
-Everything else (cabinet, wiring etc etc) is identical for MX5 and MiataGL.
-
-DMA bug: 
-MX5 has problems with DMA via the 2 64-bit PCI slots when this DMA
-crosses a page boundary. The 32 bit slots don't have this problem because the
-PCI-PCI bridge chip does not allow the offending transfers. The SRM code 
-knows about the problem and refuses to start the system if there is a PCI
-card in one of the 64bit slots that it does not know about. Cards that are
-'known good' to the SRM are allowed to be used in the 64bit slots. 
-
-If you want to fool the SRM you can type "set pci_device_override" at
-the SRM prompt. Just don't complain if your data mysteriously gets mangled.
-
-The complete command is:
-
-	set pci_device_override <vendor_id><device_id>
-	e.g. set pci_device_override 88c15333
-
-A more radical approach is to use: 
-	
-	set pci_device_override -1
-
-This disables PCI ID checking altogether, so that you can stick in any
-random PCI card without its ID getting checked. For this to work you need
-a sufficiently new SRM in your Miata. Again: do this on your own
-risk.
-
-The kernel reports it when it sees a buggy Pyxis chip:
-Sep 16 18:39:43 miata /kernel: cia0: Pyxis, pass 1
-Sep 16 18:39:43 miata /kernel: cia0: extended capabilities: 1<BWEN>
-Sep 16 18:39:43 miata /kernel: cia0: WARNING: Pyxis pass 1 DMA bug; no
-bets...
-
-A MiataGL probes as:
-Jan  3 12:22:32 miata /kernel: cia0: Pyxis, pass 1
-Jan  3 12:22:32 miata /kernel: cia0: extended capabilities: 1<BWEN>
-Jan  3 12:22:32 miata /kernel: pcib0: <2117x PCI host bus adapter> on cia0
-
-MiataGL does not have the DMA problems of the MX5. PCI cards that make
-the MX5 SRM choke when installed in the 64bit slots are accepted without 
-problems by the MiataGL SRM.
-
-The latest mainboard revisions of MX5 contain a hardware workaround for the
-bug. The SRM does not know about the ECO and will complain about unknown cards
-as before. So does the FreeBSD kernel by the way.
-
-EIDE:
-The Miata SRM can boot from IDE CDROM drives. Hard disk boot is known to work 
-for both MiataGL and MX5 disks, so you can root FreeBSD from an IDE disk. Speeds
-on MX5 are around 14 Mbytes/sec assuming a suitable drive. The CMD646 chip will
-support up to WDMA2 mode as the silicon is too buggy for use with UDMA.
-
-PCI-PCI bridge:
-The MiataGL has a faster PCI-PCI bridge chip on the PCI riser card than 
-some of the MX5 riser card versions. Some of the MX5 risers have the *same*
-chip as the MiataGL. All in all there is a lot of variation.
-
-Not all VGA cards will work behind the PCI-PCI bridge. This manifests itself
-as no video at all. Workaround is to put the VGA card 'before' the bridge,
-in one of the 64 bit PCI slots.
-
-Sound: 
-Both MX5 and MiataGL have an on-board sound chip, an ESS1888. It emulates
-a SoundBlaster and can be enabled by putting 
-
-	device pcm0                                                           
-	device sbc0    
-
-in your kernel configuration file.
-
-Cache: 
-in case your Miata has the optional cache board installed make sure
-it is firmly seated. A slightly loose cache has been observed to cause
-weird crashes (not surprising obviously, but maybe not so obvious when
-troubleshooting). The cache module is identical between MX5 and MiataGL.
-
-Installing a 2Mb cache module achieves, apart from a 10-15% speed increase 
-(based on buildworld elapsed time), a *decrease* for PCI DMA read bandwidth 
-from 64bit PCI cards. A benchmark on a 64-bit Myrinet card resulted in 
-a decrease from 149 Mbytes/sec to 115 Mbytes/sec. Something to keep in 
-mind when doing really high speed things with 64 bit PCI adapters.
-
-Keyboard:
-If you experience SRM errors like "ERROR: scancode 0xa3 not supported
-on PCXAL" after halting FreeBSD you should update your SRM firmware 
-to V7.2-1 or later. This SRM version is first available on the Firmware
-Update CD V5.7, or on http://www.compaq.com The problem is fixed on both 
-Miata MX5 and Miata GL.
-
-USB:
-Supported by FreeBSD 4.1 and later.
-
-Power:
-Disconnect the power cord before dismantling the machine, the soft-power
-switch keeps part of the logic powered even when the machine is switched
-off.
-
-The kernel configuration file for a Miata kernel must contain:
-	options         DEC_ST550               
-	cpu		EV5
-
-*
-* DEC3000 family (the "Bird" machines)
-*
-
-The DEC3000 series were among the first Alpha machines ever produced. They
-are based on an I/O bus called the Turbo Channel (TC) bus. These
-machines are built like tanks (watch your back). 
-
-DEC3000 can be subdivided in DEC3000/500-class and DEC3000/300-class. 
-The DEC3000/500-class is the early high-end workstation/server Alpha family. 
-Servers use serial consoles, workstations have graphics tubes. 
-DEC3000/300-class is the lower-cost workstation class.
-
-DEC3000/500-class are quite fast (considering their age) thanks to the 
-good memory design. DEC3000/300 is crippled compared to DEC3000/500 because
-of its much narrower memory bus.
-
-They are called 'Birds' because their internal DEC code names were bird
-names:
-
-	DEC3000/400     Sandpiper 	133MHz CPU, desktop
-	DEC3000/500     Flamingo  	150MHz CPU, floor standing
-	DEC3000/500X    Hot Pink  	200MHz CPU, floor standing
-	DEC3000/600     Sandpiper+  	175MHz CPU, desktop
-	DEC3000/700,    Sandpiper45 	225MHz CPU, floor standing
-	DEC3000/800,	Flamingo Ultra  200MHz CPU, floor standing
-	DEC3000/900,	Flamingo45  	275MHz CPU, floor standing
-
-	DEC3000/300 	Pelican 	150MHz CPU, desktop, 2 TC slots
-        DEC3000/300X    Pelican+ 	175MHz CPU, desktop, 2 TC slots
-	DEC3000/300LX	Pelican+   	125MHz CPU, desktop, 2 TC slots
-	DEC3000/300L	            	100MHz CPU, desktop, no TC slots
-		
-
-Features:
-- 21064 CPU  (100 to 200 MHz)
-  21064A CPU (225 to 275 MHz)
-- memory bus: 256 bit, with ECC 	[DEC3000/500-class]
-	       64 bit, with ECC		[DEC3000/300-class]
-- memory: - proprietary 100pin SIMMs 
-            installed in sets of 8 	[DEC3000/500-class]
- 	  - PS/2 style 72pin 36 bit FPM SIMMs, 70ns or better
-	    used in pairs of 2		[DEC3000/300-class]
-- Bcache / L2 cache: varying sizes, 512 kB to 2 Mbyte
-- built-in 10Mbit Ethernet based on a Lance 7990 chip, AUI and UTP 
-- one or two SCSI buses based on a NCR53C94 or a NCR53CF94-2 chip 
-- 2 serial ports based on Zilog 8530 (one usable as a serial console)
-- embedded ISDN interface
-- on-board 8 bit sound 
-- 8 bit graphics on-board [some models] or via a TC card [some other models]
-
-SCSI:
-Currently DEC3000 machines can only be used diskless on FreeBSD/alpha. The
-reason for this is that the SCSI drivers needed for the TC SCSI adapters
-were not brought into CAM that the recent FreeBSD versions use. TC option
-cards for single (PMAZ-A) or dual fast SCSI (PMAZC-AA) are also available.
-And currently have no drivers on FreeBSD either.
-
-DEC3000/300 has 5Mbytes/sec SCSI on-board. This bus is used for both internal
-and external devices. DEC3000/500 has 2 SCSI buses. One is for internal 
-devices only, the other one is for external devices only.
-
-Floppy devices found in the DEC3000s are attached to the SCSI bus (via a
-bridge card). This makes it possible to boot from them using the same device
-names as ordinary SCSI hard-disks (>>> BOOT DKA300 for example).
-
-Expansion:
-The 3000/300 series has a half-speed TurboChannel compared to the other
-3000 machines. Some TC expansion cards have troubles with the half-speed
-bus. Caveat emptor.
-
-ISDN interface:
-ISDN does not work on FreeBSD. 
-
-Memory:
-DEC3000/300-class uses standard 36 bit, 72 pin Fast Page Mode SIMMs.
-EDO SIMMs, 32 or 33 bit SIMMs all will not work in Pelicans.
-For 32Mbyte SIMMs to work on the DEC3000/300-class the presence detect 
-bits/pins of the SIMM must correspond to what the machine expects. If they
-don't, the SIMM is 'seen' as a 8 Mbyte SIMM. 8 Mbyte and 32 Mbyte SIMMs can 
-be mixed, as long as the pairs themselves are identical.
-
-When you find yourself in need of fixing 32Mbyte SIMMs that lack correct
-presence bits the following info might be of use:
-
-There are four presence detection bits on PS/2 SIMMs.  Two of       
-the bits indicate the access time.  The other two indicate the memory size.
-
-At one end of the SIMM there are two rows of four solder pads.  One
-row is connected to Vss (GND) and the other is connected to pins
-67 (PRD1), 68 (PRD2), 69 (PRD3), 70 (PRD4).                         
-
-If you bridge a pair of pads with a small resistor or a drop of  
-solder you ground that particular bit.
-
-	PRD1    PRD2    mem. size
-	-----------------------------
-	GND     GND     4 or 64 Mbyte
-	Open    GND     2 or 32 Mbyte
-	GND     Open    1 or 16 Mbyte
-	Open    Open    8 Mbyte
-
-	PRD3    PRD4    access time
-	------------------------------
-	GND     GND     50 or 100 nsec
-	Open    GND     80 nsec
-	GND     Open    70 nsec
-	Open    Open    60 nsec
-
-DEC3000/500-class can use 2, 4, 8, 16 and 32 Mbyte 100pin SIMMs. 
-Note that the maximum memory size varies from system to system, 
-desktop machines have sacrificed box size for less memory SIMM sockets. 
-Given enough sockets and enough SIMMs you can get to 512 Mbytes maximum.
-This is one of the main differences between floor standing and desktop
-machines, the latter have far less SIMM sockets.
-
-Sound:
-The sound hardware is not supported on any of the Birds.
-
-Graphics:
-The is no X-Windows version available for the TC machines. 
-DEC3000/300 needs a serial console. DEC3000/500-class might
-work with a graphical console. I ran mine with a serial console so I cannot
-verify this. 
-
-Birds can be obtained from surplus sales etc. As they are not PCI
-based they are no longer actively maintained. TC expansion boards can 
-be difficult to obtain these days and support for them is not too good
-unless you write/debug the code yourself. Programming information for TC
-boards is hard to find. Birds are recommended only if a. you can get them
-cheap and b. if you prepared to work on the code to support them better.
-
-For the DEC3000/[4-9]00 series machines the kernel config file must 
-contain:
-	options         DEC_3000_500           
-	cpu		EV4
-
-For the DEC3000/300 ("Pelican") machines the kernel config file must
-contain:
-	options         DEC_3000_300            
-	cpu		EV4
-
-*
-*Evaluation Board 64plus ("EB64+"), Aspen Alpine
-*
-
-In its attempts to popularize the Alpha CPU DEC produced a number of so
-called Evaluation Boards. The EB64+ family boards have the following feature
-set:
-
-- 21064 or 21064A CPU, 150 to 275MHz 
-- memory bus: 128 bit
-- memory:  PS/2 style 72 pin 33 bit Fast Page Mode SIMMs, 
-	   70ns or better,
-           installed in sets of 4
-           8 SIMM sockets
-           uses parity
-- Bcache / L2 cache: 512 kByte, 1 Mbyte or 2 Mbytes
-- 21072 ("APECS") chip set 
-- Intel 82378ZB PCI to ISA bridge chip ('Saturn')
-- dual 16550A serial ports
-- Symbios 53C810 Fast-SCSI
-- embedded 10 Mbit Ethernet
-- 2 PCI slots
-- 3 ISA slots
-
-Aspen Alpine:
-Aspen Alpine is slightly different, but is close enough to the EB64+ to
-run an EB64+ SRM EPROM (mine did..). The Aspen Alpine does not have 
-an embedded Ethernet, has 3 instead of 2 PCI slots. It comes with 2 Mbytes
-of cache already soldered onto the mainboard. It has jumpers to select
-the use of 60, 70 or 80ns SIMM speeds.
-
-Memory:
-36 bits SIMMs work fine, 3 bits simply remain unused.
-
-SRM:
-The SRM console code is housed in an UV-erasable EPROM. No easy flash SRM
-upgrades for the EB64+ The latest SRM version available for EB64+ is quite
-ancient anyway.
-
-SCSI: 
-The EB64+ SRM can boot both 53C810 and Qlogic1040 SCSI adapters. Pitfall for
-the Qlogic is that the firmware that is down-loaded by the SRM onto the
-Qlogic chip is very old. There are no updates for the EB64+ SRM available. 
-So you are stuck with old Qlogic bits too. I have had quite some problems
-when I wanted to use Ultra-SCSI drives on the Alpine with Qlogic. The
-FreeBSD/alpha kernel can be compiled to include a much newer Qlogic firmware
-revision. This is not the default because it adds hundreds of kBytes worth
-of bloat to the kernel. In FreeBSD 4.1 and later the isp firmware is contained 
-in a kernel loadable module. All of this might mean that you need to use a
-non-Qlogic adapter to boot from. 
-
-For the EB64+ class machines the kernel config file must contain:
-	options         DEC_EB64PLUS            
-	cpu		EV4
-
-*
-* Evaluation Board 164 ("EB164, PC164, PC164LX, PC164SX") family
-*
-
-EB164 is a newer design evaluation board, based on the 21164A CPU. This
-design has been used to 'spin off' multiple variations, some of which are
-used by OEM manufacturers/assembly shops. Samsung did its own PC164LX
-which has only 32 bit PCI, whereas the Digital variant has 64 bit PCI.
-
-Features:
-- 21164A, multiple speed variants [EB164, PC164, PC164LX]
-  21164PC 			  [only on PC164SX]
-- 21174 (Alcor) chip set
-- Bcache / L3 cache:  EB164 uses special cache-SIMMs
-- memory bus: 128 bit / 256 bit
-- memory:  PS/2 style SIMMs in sets of 4 or 8, 
-	   36 bit, Fast Page Mode, uses ECC, [EB164 and PC164]
-	   SDRAM DIMMs in sets of 2, uses ECC [PC164SX and PC164LX]
-- dual 16550A serial ports
-- PS/2 style keyboard & mouse
-- floppy controller
-- parallel port
-- 32 bits PCI
-- 64 bits PCI [some models]
-- ISA slots via an Intel 82378ZB PCI to ISA bridge chip
-
-Memory:
-Using 8 SIMMs for a 256bit wide memory can yield interesting speedups over
-a 4 SIMM/128bit wide memory. Obviously all 8 SIMMs must be of the same type
-to make this work. The system must be explicitly setup to use the 
-8 SIMM memory arrangement. You must have 8 SIMMs, 4 SIMMs distributed 
-over 2 banks does not work.
-
-SCSI:
-The SRM can boot from Qlogic 10xx boards or the Symbios 53C810[A]. 
-
-Newer Symbios 810 revisions like the Symbios 810AE are not recognized by
-the SRM on PC164. PC164 SRM does not appear to recognize a Symbios 53C895 
-based host adapter (tested with a Tekram DC-390U2W). On the other hand 
-some no-name Symbios 53C985 board has been reported to work.
-
-Cards like the Tekram DC-390F (Symbios875 based) have been confirmed to 
-work fine on the PC164. Unfortunately this seems to be dependent on the 
-actual version of the chip/board. 
-
-Symbios 53C825[a] will also work as boot adapter. Diamond FirePort, although 
-based on Symbios chips, is not bootable by the PC164SX SRM. 
-PC164SX is reported to boot fine with Symbios825, Symbios875 and Symbios876 
-based cards. In addition, Adaptec 2940U and 2940UW are reported to work for
-booting (verified on SRM V5.7-1). Adaptec 2930U2 and 2940U2[W] do not work.
-
-LX and SX with SRM firmware version 5.8 or later can boot from Adaptec
-2940-series adapters.
-
-In summary: this family of machines is 'blessed' with a challenging 
-compatibility as far as SCSI adapters go.
-
-SRM quirks:
-PC164 the SRM sometimes seems to loose its variable settings. 
-"For PC164, current superstition says that, to avoid losing settings,
-you want to first downgrade to SRM 4.x and then upgrade to a 5.x"
-One sample error that was observed was: "ERROR: ISA table corrupt!".
-A sequence of a downgrade to SRM4.9, an 'isacfg -init' and an 'init'
-made the problem go away. Some PC164 owners report they have never seen 
-the problem. 
-
-On PC164SX the AlphaBIOS allows you a selection to select 'SRM' to
-be used as console on the next power up. This selection does not appear to
-have any effect. In other words, you will get to the AlphaBIOS regardless
-of what you select. The fix is to reflash the console ROM with the SRM 
-code for PC164SX. This will overwrite the AlphaBIOS and will get you the
-SRM console you desire. The SRM code can be found on the Compaq Web site.
-
-IDE:
-PC164 can boot from IDE disks assuming your SRM version is recent enough.
-
-Power:
-EB164 needs a power supply that supplies 3.3 Volts. PC164 does not implement
-the PS_ON signal that ATX power supplies need to switch on. A simple switch
-pulling this signal to ground fixes this problem.
-
-For the EB164 class machines the kernel config file must contain:
-        options         DEC_EB164
-        cpu             EV5
-
-
-*
-* AlphaStation 200 ("Mustang") and 400 ("Avanti") series
-*
-
-The Digital AlphaStation 200 and 400 series systems are early PCI based
-workstations for the lower end. The 200 and 250 series is a desktop box, the 
-400 series is a desk-side mini-tower.
-
-Features:
-- 21064 or 21064A CPU at speeds of 166 to 333 MHz
-- DECchip 21071-AA (core logic chip-set) consisting of:
-    Cache/memory controller (one 21071-CA chip)
-    PCI interface (one 21071-DA chip)
-    Data path (two 21071-BA chips)
-- Bcache / L2 cache: 512 Kbytes (200 and 400 series)
-		     2048KBytes (250 series)
-- memory bus: 64 bit
-- memory: 8 to 384 MBytes of RAM,
-	  70 ns or better Fast Page DRAM,
-          in three pairs (200 and 400 series)
-	  in two quads, so banks of four. (250 series)
-	  uses parity 
-- PS/2 keyboard and mouse port
-- two 16550 serial ports
-- parallel port
-- floppy disk interface
-- 32 bit PCI expansion slots (3 for 400 series, 2 for 200 & 250 series)
-- ISA expansion slots (4 for 400 series, 2 for 200 & 250 series) 
-  (some ISA/PCI slots are physically shared)
-- embedded 21040-based Ethernet (200 & 250 series)
-- embedded Symbios 53c810 Fast SCSI-2 chip
-- Intel 82378IB ("Saturn") PCI-ISA bridge chip
-- graphics is embedded TGA or PCI VGA (model dependent)
-- 16 bit sound (on 200 & 250 series)
-
-Memory:
-the system uses parity memory SIMMs, but it does not need 36 bit wide SIMMs.
-33 bit wide SIMMs are sufficient, 36 bit SIMMs are acceptable too. EDO or 32
-bit SIMMs will not work. 4, 8, 16, 32 and 64 Mbyte SIMMs are supported.
-
-Sound:
-The AS200 & AS250 sound hardware is reported to work OK assuming you have 
-the following line in your kernel config file:
-
-	device pcm0 at isa? port 0x530 irq 9 drq 0 flags 0x10011
-
-SCSI:
-AlphaStation 200 & 250 series has an automatic SCSI terminator. This means that 
-as soon as you plug a cable onto the external SCSI connector the internal
-terminator of the system is disabled. It also means that you should not
-leave unterminated cables plugged into the machine.
-
-AlphaStation 400 series have an SRM variable that controls termination. In
-case you have external SCSI devices connected you must set this SRM
-variable using: "set control_scsi_term external". If only internal SCSI devices
-are present use: "set control_scsi_term internal"
-
-For the AlphaStation-[24][05]00 machines the kernel config file must contain:
-        options         DEC_2100_A50
-	cpu		EV4
-
-
-*
-* AlphaStation 500 and 600 ("Alcor" & "Maverick" for EV5, "Bret" for EV56)
-*
-AS500 and 600 were the high-end EV5 / PCI based workstations. EV6 based
-machines have in the meantime taken their place as front runners. AS500 is
-a desktop in a dark blue case (TopGun blue), AS600 is a sturdy desk-side box.
-AS600 has a nice LCD panel to observe the early stages of SRM startup.
-
-Features:
-- 21164 EV5 CPU at 266, 300, 333, 366, 400, 433, 466, or 500 MHz (AS500)
-		at 266, 300 or 333 MHz (AS600)
-- 21171 or 21172 (Alcor) core logic chip-set
-- cache: 2 or 4 Mb L3 / Bcache (AS600 at 266 MHz)
-	 4 Mb L3 / Bcache (AS600 at 300 MHz)
-	 2 or 8 Mb L3 / Bcache (8 Mb on 500 MHz version only)
-         2 to 16 Mb L3 / Bcache (AS600; 3 cache-SIMM slots)
-- memory bus: 256 bits, uses ECC
-- memory: AS500: industry standard 8 byte wide DIMMs
-          	 8 DIMM slots
-	  	 installed in sets of 4,
-	  	 maximum memory is 1 Gb (512 Mb max on 333 MHz CPUs)
-		 uses ECC 
-  	  AS600: industry standard 36 bit Fast Page Mode SIMMs
-		 32 SIMM slots,
-	         installed in sets of 8,
-	         maximum memory is 1 Gb
-	         uses ECC
-- Qlogic 1020 based wide SCSI bus (1 bus/chip for AS500, 2 for AS600)
-- 21040 based 10 Mbit Ethernet adapter with both Thinwire and UTP connectors
-- expansion: AS500: 3 32-bit PCI slots
-	     	    1 64-bit PCI slot
-	     AS600: 2 32-bit PCI slot 
-                    3 64-bit PCI slots
-		    1 PCI/EISA physically shared slot
-		    3 EISA slots
-		    1 PCI and 1 EISA slot are occupied by default
-- 21050 PCI-to-PCI bridge chip
-- Intel 82375EB PCI-EISA bridge (AS600 only)
-- 2 16550A serial ports
-- 1 parallel port
-- 16 bit audio Windows Sound System,
-  in dedicated slot (AS500)
-  in EISA slot (AS600, this is an ISA card)
-- PS/2 keyboard and mouse port
-
-SCSI:
-Early machines had Fast SCSI interfaces, later ones are Ultra SCSI capable.
-AS500 shares its single SCSI bus with internal and external devices. For a
-Fast SCSI bus you are limited to 1.8 meters bus length external to the box.
-+++ This is what some DEC docs suggest. Did they ever go Ultra?
-
-AS600 has one Qlogic chip dedicated to the internal devices whereas the
-other one is dedicated to external SCSI devices.
-
-Memory:
-In AS500 DIMMs are installed in sets of 4, in 'physically interleaved'
-layout. So, a bank of 4 DIMMs is *not* 4 adjacent DIMMs!
-
-In AS600 the memory SIMMs are placed onto two memory daughter cards. SIMMs
-are installed in sets of 8. Both memory daughter cards must be populated
-identical. 
-
-PCI:
-AS600 has a peculiarity for its PCI slots. AS600 (or rather the PCI
-expansion card containing the SCSI adapters) does not allow I/O port 
-mapping, therefore all devices behind it must use memory mapping.  
-If you have problems getting the SCSI adapters to work, add the following 
-option to /boot/loader.rc: 
-
-        set isp_mem_map=0xff                                        
-        
-This may need to be typed at the boot loader prompt before booting the
-installation kernel.                                                 
-
-For the AlphaStation-[56]00 machines the kernel config file must contain:
-	options         DEC_KN20AA 
-	cpu		EV5
-
-*
-* AlphaServer 1000 ("Mikasa"), 1000A ("Noritake") and 800 
-*
-The AlphaServer 1000 and 800 range of machines is aimed as departmental servers.
-They come in quite some variations in packaging and mainboard/cpu. Generally
-speaking there are 21064 (EV4) CPU based machines and 21164 (EV5) based
-ones. The CPU is on a daughter card, and the type of CPU (EV4 or EV5) must
-match the mainboard in use. AlphaServer 800 is a much smaller mini tower
-case, it lacks the StorageWorks SCSI hot-plug chassis. The main difference
-between AS1000 and AS1000A is that AS1000A has 7 PCI slots whereas AS1000
-only has 3 PCI slots and has EISA slots instead. AS800 with an EV5/400 MHz
-CPU was later re-branded as a DIGITAL Server 3300[R], AS800 with an EV5/500 MHz
-CPU was later re-branded as a DIGITAL Server 3305[R].
-
-Features:
-- 21064 EV4[5] CPU at 200, 233 or 266 MHz
-  21164 EV5[6] CPU at 300, 333 or 400 MHz (or 500 MHz for AS800 only)
-- cache:
-- memory bus: 128 bit with ECC
-- memory:
-	AS1000[A]-systems:
-          Use 72pin 36 bit Fast Page Mode SIMMs, 70ns or better
-	  16 or 20 SIMM slots
-	  max memory is 1 Gb
-	  uses ECC
-	AS800:
-	  Uses ECC EDO DIMMs.
-- embedded VGA (on some mainboard models)
-- expansion: 
-	3 PCI, 2 EISA, 1 64-bit PCI/EISA combo (AS800)
-  	7 PCI, 2 EISA (AS1000A)
- 	2 PCI, 1 EISA/PCI, 7 EISA (AS1000)
-- embedded SCSI based on Symbios 810 [AS1000] or Qlogic 1020 [AS1000A]
-	
-Box:
-AS1000 based machines come in multiple boxes. Floor standing, rack-mount,
-with or without StorageWorks SCSI chassis etc. The electronics are the
-same.
-
-Memory:
-  AS1000-systems:
-  All EV4 based machines use standard PS/2 style 36 bit 72pin SIMMs in sets 
-  of 5. The fifth SIMM is used for ECC.
-  All EV5 based machines use standard PS/2 style 36 bit 72pin SIMMs in sets 
-  of 4. The ECC is done based on the 4 extra bits per SIMM (4 bits out of 36).
-  The EV5 mainboards have 16 SIMM slots, the EV4 mainboards have 20 slots.
-
-  AS800:
-  Uses DIMMs in sets of 4. DIMM installation must start in slots marked 
-  bank 0. A bank is four physically adjacent slots. The biggest size DIMMs
-  must be installed in bank 0 in case 2 banks of different DIMM sizes are
-  used. Max memory size is 2Gb. Note that these are EDO DIMMs, not SDRAM.
-
-Console:
-The AS1000/800 are somewhat stubborn when it comes to serial
-consoles. They need >>> SET CONSOLE SERIAL before they go for
-a serial console. Pulling the keyboard from the machine is not sufficient,
-like it is on most other Alpha models. Going back to a graphical console
-needs >>> SET CONSOLE GRAPHICS at the serial console.
-
-SCSI:
-For AS800 you want to check if your Ultra-Wide SCSI is indeed in Ultra mode.
-This can be done using the EEROMCFG.EXE utility that is on the Firmware 
-Upgrade CDROM. 
-  
-For the AlphaServer1000/1000A/800 machines the kernel config file must contain:
-	options         DEC_1000A
-	cpu		EV4		# depends on the CPU model installed
-	cpu		EV5		# depends on the CPU model installed
-
-*
-* DS10/VS10/XP900 ("Webbrick") / XP1000 ("Monet") / DS10L ("Slate")
-*
-Webbrick and Monet are high performance workstations/servers based on the
-EV6 CPU and the Tsunami chipset. Tsunami is also used in much higher-end 
-systems and as such has plenty of performance to offer. DS10, VS10 and XP900
-are different names for essentially the same system. The difference are the 
-software and options that are supported. DS10L is a DS10 based machine in a 1U 
-high rackmount enclosure. DS10L is intended for ISPs and for HPTC clusters
-(e.g. Beowulf).
-
-Monet has, by 1999 standards, *stunning* (the words of a satisfied
-user) memory and I/O system bandwidth.
-
-** Webbrick / Slate
-
-Features:
-- 21264 EV6 CPU at 466 MHz
-- L2 / Bcache: 2MB, ECC protected
-- memory bus: 128 bit via crossbar, 1.3GB/sec to memory
-- memory: industry standard 200 pin 83 MHz buffered ECC SDRAM DIMMs
-	  4 DIMM slots (2 for DS10L)
-	  installed in pairs of 2
-	  max memory is 2 Gb (1Gb for DS10L)
-- 21271 Core Logic chipset ("Tsunami")
-- 2 on-board 21143 Fast Ethernet controllers
-- AcerLabs M5237 (Aladdin-V) USB controller
-- AcerLabs M1533 PCI-ISA bridge   
-- AcerLabs Aladdin ATA-33 controller 
-- embedded dual EIDE 
-- expansion: 3 64-bit PCI slots
-             1 32-bit PCI slots
-	     DS10L has a single 64bit PCI slot
-- 2x 16550A serial ports
-- 1x parallel port
-- 2x USB
-- PS/2 keyboard & mouse port        
-
-Power:
-The system has a smart power controller. This means that parts of the system
-remain powered when it is switched off (like an ATX-style PC power supply).
-Before servicing the machine remove the power cord.
-
-Case:
-Webbrick is shipped in a desktop-style case similar to the older 21164
-"Maverick" workstations but which offers much better access to        
-components. If you intend to build a farm you can rackmount them in a 19"
-rack, they are 3U high. Slate is 1U high but has only one PCI slot.
-
-Memory:
-DS10 has 4 DIMM slots. DIMMs are installed as pairs. Please note that 
-DIMM pairs are not installed in adjacent DIMM sockets but rather physically
-interleaved. DIMM sizes of 32, 64, 128, 256 and 512 Mbytes are supported.
-
-When 2 pairs of identical-sized DIMMs are installed DS10 will use memory 
-interleaving for higher performance. DS10L, which has only 2 DIMM slots cannot 
-do interleaving.
-
-SCSI:
-Starting with SRM firmware version 5.9 you can boot from Adaptec 2940-series
-adapters in addition to the usual set of Qlogic and Symbios/NCR adapters. 
-
-EIDE:
-The base model comes with a FUJITSU 9.5GB ATA disk as its boot device.
-FreeBSD/alpha works just fine using EIDE disks on Webbrick. DS10 has 2 IDE 
-interfaces on the mainboard.
-
-Expansion:
-On the PCI bus 32 and 64 bit cards are supported, in 3.3V and 5V variants.
-
-USB:
-Is supported in FreeBSD 4.1 and later.
-
-The kernel config file must contain:
-	options         DEC_ST6600    
-	cpu		EV5
-
-Contrary to expectation there is no 'cpu EV6' defined for inclusion in the
-kernel config file. The 'cpu EV5' is mandatory to keep config(8) happy.
-
-** Monet 
-
-Features:
-- 21264 EV6 at 500 MHz
-  21264 EV67 at 500 or 667 MHz (XP1000G, codenamed Brisbane)
-  CPU is mounted on a daughter-card which is field-upgradable
-- L2 / Bcache: 4MB, ECC protected
-- memory bus: 256 bit 
-- memory: 128 or 256 Mbytes 100 MHz (PC100) 168 pin JEDEC standard,
-	  registered ECC SDRAM DIMMs
-- 21271 Core Logic chip-set ("Tsunami")
-- 1 on-board 21143 Ethernet controller
-- Cypress 82C693 USB controller       
-- Cypress 82C693 PCI-ISA bridge       
-- Cypress 82C693 controller 
-- expansion: 2 independent PCI buses, driven by high-speed I/O
-	     channels called 'hoses':
-        hose 0: (the upper 3 slots)
-             2 64-bit PCI slots    
-             1 32-bit PCI slot     
-        hose 1: (the bottom 2 slots)
-             2 32-bit PCI slots (behind a 21154 PCI-PCI bridge)
-	2 of the 64-bit PCI slots are for full-length cards
-	all of the 32-bit PCI slots are for short cards
-	1 of the 32-bit PCI slots is physically shared with an ISA slot
-   	all PCI slots run at 33MHz
-- 1x Ultra-Wide SCSI port based on a Qlogic 1040 chip
-- 2x 16550A serial port        
-- 1x parallel port        
-- PS/2 keyboard & mouse port        
-- embedded 16-bit ESS ES1888 sound chip
-- 2x USB
-- graphics options: ELSA Gloria Synergy or DEC/Compaq PowerStorm 3D
-	            accelerator cards
-
-Case:
-Monet is housed in a mini-tower like enclosure quite similar to the Miata
-box.
-
-SCSI:
-The on-board Qlogic UW-SCSI chip supports up to 4 internal devices. There is
-no external connector for the on-board SCSI.
-
-Memory:
-For 500 MHz CPUs 83 MHz DIMMs will do. Compaq specifies PC100 DIMMs for
-all CPU speeds. DIMMs are installed in sets of 4, starting with the 
-DIMM slots marked '0'. Memory capacity is max 4 Gb. 
-DIMMs are installed 'physically interleaved', note the markings of the
-slots. Memory bandwidth of Monet is twice that of Webbrick. The DIMMs live
-on the CPU daughter-card. Note that the system uses ECC RAM so you need DIMMs
-with 72 bits (not the PC-class 64 bit DIMMs)
-
-EIDE:
-Is usable / bootable for system disk so FreeBSD can be rooted on an EIDE
-disk. Although the Cypress chip has potential for 2 EIDE channels Monet uses
-only one of them.
-
-USB:
-If you experience problems trying to use the USB interface please check if
-the SRM variable "usb_enable" is set to "on". You can change this by
-performing: "set usb_enable on" at the SRM >>> prompt.
-
-Expansion caveats:
-- Don't try to use Symbios-chip based SCSI adapters in the PCI slots
-connected to hose 1. There is a not-yet-found FreeBSD bug that prevents this
-from working correctly. 
-- Not all VGA cards will work behind the PCI-PCI bridge (so in slots 4 & 5). 
-Only cards that implement VGA-legacy addressing correctly will work. Workaround 
-is to put the VGA card 'before' the bridge.
-
-Sound:
-The sound chip is not currently supported with FreeBSD. There is work in
-progress in this area.
-
-The kernel config file must contain:
-	options         DEC_ST6600    
-	cpu		EV5
-
-Contrary to expectation there is no 'cpu EV6' defined for inclusion in the
-kernel config file. The 'cpu EV5' is mandatory to keep config(8) happy.
-
-** DS20/DS20E ("Goldrush"):
-
-Features:
-- 21264 EV6 CPU at 500 or 670 MHz
-- dual CPU capable machine
-- L2 / Bcache: 4 Mbytes per CPU
-- memory bus: dual 256 bit wide with crossbar switch
-- memory: SDRAM DIMMs
-	  installed in sets of 4
-	  uses ECC 
-	  16 DIMM slots
-	  max. 4Gb
-- 21271 Core Logic chip-set ("Tsunami") 
-- embedded Adaptec ? Wide Ultra SCSI 
-- expansion: 2 independent PCI buses, driven by high-speed I/O
-             channels called 'hoses'
-	     6 64-bit PCI slots (3 per hose)
-	     1 ISA slot
-
-Console:
-DS20 needs >>> SET CONSOLE SERIAL before it goes for a serial console. 
-Pulling the keyboard from the machine is not sufficient. Going back to a 
-graphical console needs >>> SET CONSOLE GRAPHICS at the serial console. 
-Confusing is the fact that you will get SRM console output on the graphics
-console with the console set to serial, but when FreeBSD boots it honors
-the CONSOLE variable setting and all the boot messages as well as the
-login prompt will go to the serial port. 
-
-Case:
-DS20 is housed in a fat cube-like enclosure. The enclosure also
-contains a StorageWorks SCSI hot-swap shelf for a maximum of 7 3.5" SCSI
-devices. DS20E is a sleeker case, without the StorageWorks shelf.
-
-Embedded SCSI:
-The embedded Adaptec SCSI chip on DS20 is disabled and is therefore 
-not usable under FreeBSD.
-
-Starting with SRM firmware version 5.9 you can boot from Adaptec 2940-series
-adapters in addition to the usual set of Qlogic and Symbios/NCR adapters.
-This unfortunately does not include the embedded Adaptec SCSI chips.
-
-Memory:
-If you are using banks of DIMMs of different sizes the biggest DIMMs should
-be installed in the DIMM slots marked '0' on the mainboard. The DIMM slots
-should be filled 'in order' so after bank 0 install in bank 1 and so on.
-
-Expansion:
-Don't try to use Symbios-chip based SCSI adapters in the PCI slots
-connected to hose 1. There is a not-yet-found FreeBSD bug that prevents this
-from working correctly. DS20 ships by default with a Symbios on hose 1 so you
-have to move this card before you can install/boot FreeBSD on it.
-
-The kernel config file must contain:
-	options         DEC_ST6600    
-	cpu		EV5
-
-Contrary to expectation there is no 'cpu EV6' defined for inclusion in the
-kernel config file. The 'cpu EV5' is mandatory to keep config(8) happy.
-
-** AlphaPC 264DP / UP2000
-
-Features:
-- 21264 EV6 CPU at 670 MHz
-- dual CPU capable 
-- L2 / Bcache: 4 Mbytes per CPU
-- memory bus: 256 bit 
-- memory: SDRAM DIMMs
-	  installed in sets of 4
-	  uses ECC 
-	  16 DIMM slots
-	  max. 4Gb
-- 21272 Core Logic chip-set ("Tsunami")
-- embedded Adaptec AIC7890/91 Wide Ultra SCSI 
-- 2x embedded IDE based on Cypress 82C693 chips
-- embedded USB via Cypress 82C693
-- expansion: 2 independent PCI buses driven by high-speed I/O
-             channels called 'hoses'
-	     6 64-bit PCI slots (3 per hose)
-	     1 ISA slot
-
-Memory:
-A maximum of 2Gb memory is supported by FreeBSD.
-
-Embedded SCSI:
-The on-board Adaptec is not bootable but works with FreeBSD 4.0 and later
-as a datadisk-only SCSI bus.
-
-Embedded IDE:
-Busmaster DMA is supported on the first IDE interface only.
-
-The kernel config file must contain:
-	options         DEC_ST6600    
-	cpu		EV5
-
-Contrary to expectation there is no 'cpu EV6' defined for inclusion in the
-kernel config file. The 'cpu EV5' is mandatory to keep config(8) happy.
-
-*
-* AlphaServer 2000 ("DemiSable"), 2100 ("Sable"), 2100A ("Lynx")
-*
-
-The AlphaServer 2[01]00 machines are aimed as departmental servers.
-This is medium iron, not a hobbyist system. These are multi-CPU machines, 
-up to 2 CPUs (AS2000) or 4 CPUs (2100[A]) can be installed. 
-Both floor-standing and 19" rackmount boxes exist. Rackmount variations have
-different numbers of I/O expansion slots, different max number of CPUs and
-different maximum memory size. Some of the boxes come with an integral
-StorageWorks shelf to house hot-swap SCSI disks. There was an upgrade program
-available to convert your Sable machine into a Lynx by swapping the
-I/O backplane (the C-bus backplane remains). CPU upgrades were available 
-as well.
-
-Features:
-- 21064 EV4[5] CPU[s] at 200, 233, 275 MHz
-- 21164 EV5[6] CPU[s]s at 250, 300, 375, 400 MHz
-- cache: varies in size with the CPU model; 1, 4 or 8Mbyte per CPU
-- embedded floppy controller driving a 2.88 Mbytes drive
-- embedded 10Mbit 21040 Ethernet [AS2100 only]
-- 2 serial ports
-- 1 parallel port
-- PS/2 style keyboard & mouse port
-
-NOTE: Lynx support is currently flagged as experimental due to lack of
-      testing / test hardware.
-
-CPU:
-The CPUs spec-ed as 200 MHz are in reality running at 190 MHz. Maximum
-number of CPUs is 4. All CPUs must be of the same type/speed. 
-
-If any of the processors are ever marked as failed, they will
-remain marked as failed even after they have been replaced (or reseated) 
-until you issue the command 'clear_error all' on the SRM console and 
-power-cycle the machine.  This may be true for other modules (IO and memory) 
-as well, but it has not been verified.
-
-Memory:
-The machines use dedicated memory boards. These boards live on a 128 bit 
-C-bus shared with the CPU boards. DemiSable supports up to 1Gb, Sable up 
-to 2Gb. One of the memory bus slots can either hold a CPU or a memory card.
-A 4 CPU machine can have a maximum of 2 memory boards.
-
-Some memory board modules house SIMMs. These are called SIMM carriers.
-There are also memory modules that have soldered-on memory chips 
-instead of SIMMs. These are called 'flat memory modules'.
-
-SIMM boards are used in sets of eight 72-pin 36 bit FPM memory of 70ns 
-or faster. SIMM types supported are 1Mb x36 bit (4 Mbyte) and 4Mb x36 
-bit (16 Mbyte). Each memory board can house 4 banks of SIMMs. SIMM 
-sizes can not be mixed on a single memory board. The first memory 
-module must be filled with SIMMs before starting to fill the next 
-memory module. Note that the spacing between the slots is not that 
-big, so make sure your SIMMs fit physically (before buying them..)
-
-Console:
-Both Lynx and Sable are somewhat stubborn when it comes to serial
-consoles. They need >>> SET CONSOLE SERIAL before they go for
-a serial console. Pulling the keyboard from the machine is not sufficient,
-like it is on most other Alpha models. Going back to a graphical console
-needs >>> SET CONSOLE GRAPHICS at the serial console. On Lynx keep the
-VGA card in one of the primary PCI slots.
-
-The machines are equipped with a small OCP (Operator Control Panel) LCD
-screen. On this screen the self-test messages are displayed during system
-initialization. You can put your own little text there by using the SRM:
->>> SET OCP_TEXT "FreeBSD"
-
-The SRM >>> SHOW FRU command produces an overview of your configuration
-with module serial numbers, hardware revisions and error log counts.
-
-Embedded SCSI:
-Both Sable, DemiSable and Lynx have Symbios 810 based Fast SCSI on-board.
-Check if it is set to Fast SCSI speed by >>> SHOW PKA0_FAST. If set to
-1 it is negotiating for Fast speeds. >>> SET PKA0_FAST 1 enables Fast
-speeds.
-
-Internal disk storage:
-AS2100[A] come equipped with a StorageWorks 7 slot SCSI cage. A second cage
-can be added inside the cabinet. AS2000 has a single 7 slot SCSI cage,
-which cannot be expanded with an additional one. Note that the slot
-locations in these cages map differently to SCSI IDs compared to the 
-standard StorageWorks shelves. Slot IDs from top to bottom 
-are 0, 4, 1, 5, 2, 6, 3 when using a single bus configuration. The cage
-can also be set to provide two independent SCSI buses. This is used for
-embedded RAID controllers like the KZPSC (Mylex DAC960). Slot ID assignments
-for split bus are, from top to bottom: 0A, 0B, 1A, 1B, 2A, 2B, 3A, 3B. 
-Where A and B signify a SCSI bus. In a single bus configuration the 
-terminator module on the back of the SCSI cage is on the TOP. The jumper
-module is on the BOTTOM. For split bus operation these two modules are
-reversed. The terminator can be distinguished from the jumper by noting the 
-chips on the terminator. The jumper does not have any active components on
-it.
-
-Expansion:
-DemiSable has 7 EISA slots and 3 PCI slots. Sable has 8 EISA and 3 PCI
-slots. Lynx, being newer, has 8 PCI and 3 EISA slots. The Lynx PCI slots 
-are grouped in sets of 4. The 4 PCI slots closest to the CPU/memory
-slots are the primary slots, so logically before the PCI bridge chip.
-Note that contrary to expectation the primary PCI slots are the highest
-numbered ones (PCI4 - PCI7). 
-
-Make sure you run the EISA Configuration Utility (from floppy) when 
-adding/change expansion cards in EISA slots or after upgrading your 
-console firmware. This is done by inserting the ECU floppy and typing
-RUNECU at the SRM >>> prompt.
-
-	NOTE: EISA slots are currently unsupported, but the Compaq Qvision
-	      EISA VGA adapter is treated as an ISA device. It therefore
-	      works OK as a console.
-
-A special Extended I/O module for use on the C-bus was planned-for. 
-Whether they ever saw daylight is unknown. In any case FreeBSD has never
-been verified with an ExtIO module.
-
-Power:
-The machines can be equipped with redundant power supplies. Note that
-the enclosure is equipped with interlock switches that switch off power
-when the enclosure is opened. The system's cooling fans are speed
-controlled. When the machine has more than 2 CPUs and more than 1 memory
-board dual power supplies are mandatory.
-
-The kernel config file must contain:
-       options         DEC_2100_A500
-       cpu             EV4
-       cpu	       EV5
-
-*
-* AlphaServer 4100 ("Rawhide")
-*
-
-The AlphaServer 4100 machine is aimed as an enterprise server.
-Expect a 30" high pedestal cabinet or alternatively the same system box in a
-19" rack. This is medium iron, not a hobbyist system. 
-These are multi-CPU machines, up to 4 CPUs can be in a single
-machine.  Basic disk storage is housed in one or two StorageWorks shelves
-at the bottom of the pedestal. The Rawhides intended for the NT market are
-designated DIGITAL Server 7300 (5/400 CPU), DIGITAL Server 7305 (5/533 CPU).
-A trailing R on the part-number means a rackmount variant.
-
-Features:
-- 21164 EV5 CPUs at 266, 300 MHz
-  21164A EV56 CPUs at 400, 466, 533, 600 and 666 Mhz
-- cache: 4 Mbytes per CPU (EV5 300 MHz was also available cache-less)
-	 8 Mbytes (EV5 600Mhz only)
-- memory bus: 128 bit with ECC
-- embedded floppy controller
-- 2 serial ports
-- 1 parallel port
-- PS/2 style keyboard & mouse port
-
-Memory:
-Rawhide uses a maximum of 8 RAM modules. These modules are used in pairs
-and supply 72 bits to the bus (this includes ECC bits). Memory can be EDO
-RAM or synchronous DRAM. A fully populated Rawhide has 4 pairs of memory
-modules. Given the choice use SDRAM for best performance. The highest 
-capacity memory board must be in memory slot 0. A mix of memory board sizes
-is allowed. A mix of EDO and SDRAM is also reported as working (assuming you
-don't try to mix EDO and SDRAM in one module pair).
-
-Embedded SCSI:
-Rawhide has an embedded Symbios 810 Fast SCSI bus.
-
-Expansion:
-Rawhides are available with a 8 64-bit PCI / 3 EISA slot expansion backplanes
-(called 'Saddle' modules). There are 2 separate PCI buses, PCI0 and PCI1.
-PCI0 has 1 dedicated PCI slot and (shared) 3 PCI/EISA slots. PCI0 also has a
-PCI/EISA bridge that drives things like the serial and parallel ports,
-keyboard/mouse etc. PCI1 has 4 PCI slots and an Symbios 810 SCSI chip. VGA
-console cards must be installed in a slot connected to PCI0.
-
-The current implementation has problems in handling PCI bridges. There is
-currently a limited fix in place which allows for single level, single device
-PCI bridges. The fix allows for the Digital supplied Qlogic SCSI card which
-sits behind a 21054 PCI bridge chip.
-
-	NOTE: EISA slots are currently unsupported, but the Compaq Qvision
-	      EISA VGA adapter is treated as an ISA device. It therefore
-	      works OK as a console.
-
-Power:
-The system employs an I2C based power controller system. If you want to be
-sure all power is removed from the system pull the mains cables from the
-system.
-
-The kernel config file must contain:
-       options         DEC_KN300
-       cpu             EV5
-
-*
-* AlphaServer 1200 ("Tincup") and AlphaStation 1200 ("DaVinci")
-*
-
-The AlphaServer 1200 machine is the successor to the AlphaServer 1000A.
-It uses the same enclosure the 1000A uses, but the logic is based on the
-AlphaServer 4000 design. These are multi-CPU machines, up to 2 CPUs can 
-be in a single machine.  Basic disk storage is housed in a StorageWorks shelves
-The AS1200 intended for the NT market are designated DIGITAL Server 5300 
-(5/400 CPU) and DIGITAL Server 5305 (5/533 CPU).
-
-Features:
-- 21164A EV56 CPUs at 400 or 533 Mhz
-- cache: 4 Mbytes per CPU 
-- memory bus: 128 bit with ECC
-	      DIMM memory on two memory daughter boards
-- embedded floppy controller
-- 2 serial ports
-- 1 parallel port
-- PS/2 style keyboard & mouse port 
-
-Memory:
-AS1200 uses 2 memory daughter cards. On each of these cards are 8 DIMM slots. 
-DIMMs must be installed in pairs. The maximum memory size is 4 Gbytes. 
-Slots must be filled in order and slot 0 must contain the largest size 
-DIMM if different sized DIMMs are used. AS1200 employs fixed starting 
-addresses for DIMMs, each DIMM pair starts at a 512 Mbyte boundary.
-This means that if DIMMs smaller than 256 Mbyte are used the system's
-physical memory map will contain 'holes'. Supported DIMM sizes are 64 Mbytes 
-and 256 Mbytes. The DIMMs are 72 bit SDRAM based, as the system employs ECC.
-
-Embedded SCSI:
-AS1200 has an embedded Symbios 810 Fast SCSI bus.
-
-Expansion:
-AS1200 has 5 64-bit PCI slots, one 1 32-bit PCI slot and one EISA slot
-(which is physically shared with one of the 64-bit PCI slots).
-There are 2 separate PCI buses, PCI0 and PCI1. PCI0 has the 32-bit PCI 
-slot and the 2 top-most 64-bit PCI slots. PCI0 also has an Intel 82375EB
-PCI/EISA bridge that drives things like the serial and parallel ports, 
-keyboard/mouse etc. PCI1 has 4 64-bit PCI slots and an Symbios 810 SCSI chip. 
-VGA console cards must be installed in a slot connected to PCI0.
-
-Power:
-The system employs an I2C based power controller system. If you want to be
-sure all power is removed from the system pull the mains cables from the
-system. Tincup uses dual power supplies in load-sharing mode and not 
-as a redundancy pair.
-
-The kernel config file must contain:
-       options         DEC_KN300
-       cpu             EV5
-
-*
-* AlphaServer 8200 and 8400 ("TurboLaser")
-*
-The AlphaServer 8200 and 8400 machines are aimed as enterprise servers.
-Expect a tall 19" cabinet (8200) or fat (8400) 19" rack. This is big iron,
-not a hobbyist system. These are multi-CPU machines, up to 12 CPUs can be in
-a single machine. The TurboLaser System Bus (TLSB) allows 9 nodes on the
-AS8400 and 5 nodes on the AS8200. TLSB is 256 bit data, 40 bit address
-allowing 2.1 Gbytes/sec. Nodes on the TLSB can be CPUs, memory or I/O. A 
-maximum of 3 I/O ports are supported on a TLSB. Basic disk storage is housed
-in a StorageWorks shelf.
-
-Features: 
-- 21164 EV5 CPUs at up to 467 MHz
-  21264 EV67 CPUs at up to 625 MHz
-  one or two CPUs per CPU module
-- cache: 4Mbytes per CPU
-- memory bus: 256 bit with ECC
-- memory:
-	uses big memory modules that plug into the TLSB, which in turn
-	hold special SIMM modules.
-	memory modules come in varying sizes, up to 2 Gbytes a piece.
-	uses ECC (8 bites per 64 bits of data)
-	7 modules max for AS8400, 3 modules max for AS8200
-	maximum memory is 14 Gbytes
-- expansion:
-	3 system 'I/O ports' that allow up to 12 I/O channels
-	each I/O channel can connect to XMI, Futurebus+ or PCI boxes
-       
-Memory:
-FreeBSD supports (and has been tested with) up to 2 Gbytes of memory on 
-TurboLaser.
-
-Expansion:
-Only PCI expansion is supported on FreeBSD. XMI or Futurebus+ (which 
-are AS8400 only) are both unsupported.
-
-The I/O port modules are designated KFTIA or KFTHA. The I/O port modules
-supply so called 'hoses' that connect to up to 4 (KFTHA) PCI buses or 1
-PCI bus (KFTIA). KFTIA has embedded dual 10baseT Ethernet, single FDDI,
-3 SCSI Fast Wide Differential SCSI buses and a single Fast Wide Single Ended
-SCSI bus. The FWSE SCSI is intended for the systems CDROM.
-
-KFTHA can drive via each of its 4 hoses a DWLPA or DWLPB box. The DWLPx
-house a 12 slots 32 bit PCI backplane. Physically the 12 slots are 3 4-slot
-buses but to the software it appears as a single 12 slots PCI bus. A fully
-expanded AS8x00 can have 3 (I/O ports) times 4 (hoses) times 12 (PCI
-slots/DWLPx) = 144 PCI slots. The maximum bandwidth per KFTHA is 500
-Mbytes/second. DWLPA can also house 8 EISA cards, 2 slots are PCI-only, 2
-slots are EISA only. Of the 12 slots 2 are always occupied by an I/O and
-connector module.
-
-For best performance distribute high bandwidth (FibreChannel, Gigabit Ethernet)
-over multiple hoses and/or multiple KFTHA/KFTIA.
-
-Currently PCI expansion cards containing PCI bridges are not usable. Don't
-use them at this time.
-
-Embedded SCSI:
-The single ended SCSI bus on the KFTIA will turn up as the fourth (!) 
-SCSI bus. The 3 differential SCSI buses of the KFTIA precede it. 
-
-Console:
-AS8x00 are generally run with serial consoles. Some newer machines might
-have a graphical console of some sorts but FreeBSD has only been tested on
-a serial console.
-
-For serial console usage either change /etc/ttys to have:
-
-        console "/usr/libexec/getty std.9600"   unknown   on secure
-
-as the console entry, or add
-
-        zs0     "/usr/libexec/getty std.9600"   unknown   on secure
-
-and make the zs node:
-
-        mknod  /dev/zs0  c 135 0
-
-For the AlphaServer 8x00 machines the kernel config file must
-contain:
-	options         DEC_KN8AE	# Alpha 8200/8400 (Turbolaser)
-        cpu             EV5 
-
-*
-* Alpha Processor Inc. UP1000
-*
-
-The UP1000 is an ATX mainboard based on the 21264a CPU which itself lives in
-a Slot B module. It is normally housed in a ATX [mini]tower enclosure.
-
-Features:
-- 21264a Alpha CPU at 600 or 700 MHz in a Slot B module (includes cooling fans)
-- memory bus: 128 bits to the L2 cache, 64 bits from Slot B to the AMD-751
-- on-board Bcache / L2 cache: 2Mb (600Mhz) or 4Mb (700Mhz) cache
-- AMD AMD-751 ('Irongate') system controller chip
-- Acer Labs M1543C PCI-ISA bridge controller / super-IO chip
-- PS/2 mouse & keyboard port 
-- memory: 168-pin PC100 unbuffered SDRAM DIMMS
-	  3 DIMM slots
-	  DIMM sizes supported are 64, 128 or 256 Mb in size
-- 2x 16550A serial port
-- 1x ECP/EPP parallel port
-- floppy interface
-- 2x embedded Ultra DMA33 IDE interface
-- 2x USB port
-- expansion: 4 32 bit PCI slots 
-             2 ISA slots 
-	     1 AGP slot
-
-Slot B:
-Slot B is a box-like enclosure that houses a daughter-board for the CPU and
-cache. It has 2 small fans for cooling. Loud ones too..
-
-Memory:
-The machine needs ECC capable DIMMs, so 72 bit ones. This does not appear to
-be documented in the UP1000 docs. The system accesses the serial EEPROM on
-the DIMMs via the SM bus. Note that if only a single DIMM is used it must be
-installed in slot *2*. This is a bit counter-intuitive.
-
-Power
-The UP1000 needs a 400Watt ATX power supply according to the manufacturer. 
-This might be a bit overly conservative/pessimistic judging from the power
-consumption of the board & cpu. But as always you will have to take your
-expansion cards and peripherals into account. The M1543C chip contains power 
-management functionality & temperature monitoring (via I2C / SM bus).
-
-Console
-Chances are that your UP1000 comes by default with AlphaBios only. The SRM
-console firmware is available from the Alpha Processor Inc. website. It is
-currently available in a beta version which was successfully used during the 
-port of FreeBSD to the UP1000.
-
-EIDE:
-The embedded Ultra DMA EIDE ports are bootable by the SRM console.
-
-SCSI:
-UP1000 SRM can boot off an Adaptec 294x adapter. Under high I/O load conditions
-machine lockups have been observed using the Adaptec 294x. A Symbios 875 
-based card works just fine, using either the ncr or sym driver. The sym driver 
-is the newest and most actively maintained one. Most likely other cards 
-based on the Symbios chips that the sym driver supports will work as well.
-
-USB:
-Is disabled by the SRM console and has not (yet) been tested with FreeBSD.
-
-For the UP1000 the kernel config file must contain:
-	cpu		EV5
-	options         API_UP1000              # UP1000, UP1100 (Nautilus)
-
-*
-* Alpha Processor Inc. UP1100
-*
-
-The UP1100 is an ATX mainboard based on the 21264a CPU running at 600 MHz.
-It is normally housed in a ATX [mini]tower enclosure.
-
-Features:
-- 21264a Alpha EV6 CPU at 600 or 700 MHz
-- memory bus: 100MHz 64-bit (PC-100 SDRAM)
-  800 MB/s memory bandwidth
-- on-board Bcache / L2 cache: 2Mb 
-- AMD AMD-751 ('Irongate') system controller chip
-- Acer Labs M1535D PCI-ISA bridge controller / super-IO chip
-- PS/2 mouse & keyboard port
-- memory: 168-pin PC100 unbuffered SDRAM DIMMS
-          3 DIMM slots
-          DIMM sizes supported are 64, 128 or 256 Mb in size
-- 2x 16550A serial port
-- 1x ECP/EPP parallel port
-- floppy interface
-- 2x embedded Ultra DMA66 IDE interface
-- 2x USB port
-- expansion: 3 32 bit PCI slots
-             1 AGP2x slot
-
-Console:
-SRM console code comes standard with the UP1100. The SRM lives in 2Mbytes of
-flash ROM.
-
-Memory:
-The machine needs ECC capable DIMMs, so 72 bit ones. This does not appear to
-be documented in the UP1100 docs. The system accesses the serial EEPROM on
-the DIMMs via the SM bus. Note that if only a single DIMM is used it must be
-installed in slot *2*. This is a bit counter-intuitive.
-
-Power
-The UP1100 needs a 400Watt ATX power supply according to the manufacturer.
-This might be a bit overly conservative/pessimistic judging from the power
-consumption of the board & cpu. But as always you will have to take your
-expansion cards and peripherals into account. The M1535D chip contains power
-management functionality & temperature monitoring (via I2C / SM bus using
-a LM75 thermal sensor).
-
-Network:
-The UP1100 has an on-board 21143 10/100Mbit Ethernet interface.
-
-Sound:
-The UP1100 is equipped with a SoundBlaster compatible audio interface.
-Whether this works with FreeBSD is as of yet unknown.
-
-EIDE:
-The embedded Ultra DMA EIDE ports are bootable by the SRM console.
-
-USB:
-The UP1100 has 3 USB ports, 2 going external and one connected to the 
-AGP port.
-
-For the UP1100 the kernel config file must contain:
-	cpu		EV5
-	options         API_UP1000              # UP1000, UP1100 (Nautilus)
-
-*
-* Alpha Processor Inc. CS20
-*
-
-The CS20 is a 19", 1U high rackmount server based on the 21264[ab] CPU. It can
-have a maximum of 2 CPUs.
-
-Features:
-- 21264a Alpha CPU at 667 MHz or 21264b 833 MHz (max. 2 CPUs)
-- memory bus: 100MHz 256-bit wide
-- 21271 Core Logic chipset ("Tsunami")
-- Acer Labs M1533 PCI-ISA bridge controller / super-IO chip
-- PS/2 mouse & keyboard port
-- memory: 168-pin PC100 PLL buffered/registered SDRAM DIMMS
-          8 DIMM slots 
-	  uses ECC memory
-	  min 256 Mbytes / max 2 Gbytes of memory
-- 2x 16550A serial port
-- 1x ECP/EPP parallel port
-- ALI M1543C Ultra DMA66 IDE interface
-- embedded dual Intel 82559 10/100Mbit Ethernet
-- embedded Symbios 53C1000 Ultra160 SCSI controller
-- expansion: 2 64 bit PCI slots (2/3 length)
-
-Console:
-SRM console code comes standard with the CS20. The SRM lives in 2Mbytes of
-flash ROM. 
-
-Memory:
-The CS20 needs ECC capable DIMMs. Note that it uses *buffered* DIMMs.
-
-Monitoring:
-The CS20 has an I2C based internal monitoring system for things like
-temperature, fans, voltages etc. The I2C also supports 'wake on LAN'.
-
-Expansion:
-Each PCI slot is connected to it's own independent PCI bus on the Tsunami.
-
-EIDE:
-The embedded Ultra DMA EIDE ports are bootable by the SRM console.
-
-Disks:
-The CS20 has an embedded slim-line IDE CD drive. There is a front-accessible
-bay for a 1" high 3.5" SCSI hard-disk drive with SCA connector.
-
-Note that there is no floppy disk drive (or a connector to add one).
-
-The kernel config file must contain:
-        options         DEC_ST6600
-        cpu             EV5
-
-Contrary to expectation there is no 'cpu EV6' defined for inclusion in the
-kernel config file. The 'cpu EV5' is mandatory to keep config(8) happy. 
-
-Supported hardware overview
----------------------------
-
-Word of caution: the installed base for FreeBSD/alpha is not nearly as large
-as for FreeBSD/Intel. This means that the enormous variation of PCI/ISA
-expansion cards out there has much less chance of having been tested on
-alpha than on Intel. This is not to imply they are doomed to fail, just that
-the chance of running into something never tested before is much greater.
-GENERIC contains things that are known to work on Alpha only.
-
-- Expansion buses: PCI and ISA are fully supported. Turbo Channel is not
-in GENERIC and has limited support (see the relevant machine model info).
-The MCA bus is not supported. The EISA bus is not supported for use with
-EISA expansion cards as the EISA support code is lacking. ISA cards in EISA 
-slots are reported to work. The Compaq Qvision EISA VGA card is driven in
-ISA mode and works OK as a console.
-
-- Floppy drives: 1.44 Mbyte and 1.2 Mbyte floppy drives are supported.
-2.88Mbyte drives sometimes found in Alpha machines are supported up to
-1.44Mbyte.
-
-- ATA / ATAPI (IDE): are supported via the ata driver framework. As most
-people run their Alphas with SCSI disks it is not as well tested as SCSI. Be
-aware of boot-ability restrictions for IDE disks. See the machine specific
-information.
-
-- SCSI: full support via the CAM layer for Adaptec 2940x (AIC7xxx
-chip-based), Qlogic family and Symbios. Be aware of the machine-specific
-boot-ability issues for the various adapter types.
-
-- FibreChannel: the Qlogic QL2x00 FibreChannel host adapters are fully
-supported.
-
-- Ethernet: if you want to boot your Alpha over the Ethernet you will 
-obviously need an Ethernet card that the SRM console recognizes. This
-generally means you need a board with an 21x4x Ethernet chip as that is
-what Digital used. These chips are driven by the FreeBSD 'de' (older driver)
-or 'dc' (newer driver). Some new SRM versions are known to recognize the
-Intel 8255x Ethernet chips as driven by the FreeBSD 'fxp' driver. But beware:
-the 'fxp' driver is reported not to work correctly with FreeBSD/alpha (although
-it works excellently on FreeBSD/x86).
-
-- FDDI: DEC DEFPA PCI FDDI network adapters are supported on alpha.
-
-- graphics console/keyboard/mouse: in general the SRM console emulates 
-a VGA-compatibility mode on PCI VGA cards. This is, however, not guaranteed 
-to work by Compaq/DEC for each and every card type out there. When the SRM 
-thinks the VGA is acceptable FreeBSD will be able to use it. The console driver
-works just like on a FreeBSD/intel machine. The TGA video graphics which 
-is embedded on for example Multia does *not* work with FreeBSD. TGA based
-PCI cards are also *not* supported. Please note that VESA modes are not
-supported on Alpha, so that leaves you with 80x25 consoles
-
-- serial ports: the 'PC standard' serial ports found on most Alphas are 
-supported. For TurboChannel machines the serial ports are also supported.
-
-- ISDN (i4b): is not supported on FreeBSD/alpha
-
-Acknowledgments
-----------------
-
-In compiling this file I used multiple information sources, but
-http://www.netbsd.org proved to be an invaluable source of information.
-If it wasn't for NetBSD/alpha there probably would not be a FreeBSD/alpha
-in the first place. 
-
-People who kindly helped me create this document:
-
-- Nick Maniscalco <nmanisca@vt.edu>
-- Andrew Gallatin <gallatin@cs.duke.edu>
-- Christian Weisgerber <naddy@mips.rhein-neckar.de>
-- David O'Brien <obrien@NUXI.com>
-- Wim Lemmers, ex-Compaq
-- Matthew Jacob <mjacob@feral.com>
-- Eric Schnoebelen <eric@cirr.com>
-- Chuck Robey <chuckr@picnic.mat.net>
-- Mike Smith <msmith@FreeBSD.ORG>
-- Peter Jeremy <peter.jeremy@alcatel.com.au>
-- Dolf de Waal <l.j.de.waal@kader.hobby.nl>
-- Wouter Brackman, Compaq
-- Kazutaka YOKOTA <yokota@zodiac.mech.utsunomiya-u.ac.jp>
-- Peter van Dijk <petervd@vuurwerk.nl>
-- Lodewijk van den Berg, Compaq
diff --git a/release/texts/alpha/INSTALL.TXT b/release/texts/alpha/INSTALL.TXT
deleted file mode 100644
index bf1db32..0000000
--- a/release/texts/alpha/INSTALL.TXT
+++ /dev/null
@@ -1,448 +0,0 @@
-+=====================  Installing FreeBSD  ==========================+
-|                                                                     |
-| Table of Contents:                                                  |
-|                                                                     |
-| 0.0     Quick Start:                                                |
-|         0.1     Installing FreeBSD from CDROM or the Internet.      |
-|                                                                     |
-| 1.0     Detail on various installation types:                       |
-|         1.1     Installing from a network CDROM                     |
-|         1.2     Installing from Floppies                            |
-|         1.3     Installing from QIC/SCSI tape                       |
-|         1.4     Installing over a network using NFS or FTP          |
-|                 1.4.1   NFS Installation tips                       |
-|                 1.4.2   FTP Installation tips                       |
-|                                                                     |
-+=====================================================================+
-
-Author:         Jordan K. Hubbard
-Last updated:   Fri Mar 16 14:47:31 PST 2001
-
-0.0     Quick Start
----     -----------
-
-This manual documents the process of making a new installation of
-FreeBSD on your machine.  If you are upgrading from a previous
-release of FreeBSD, please see the file UPGRADE.TXT for important
-information on upgrading.  If you are not familiar with configuring
-hardware for FreeBSD, you should also read the HARDWARE.TXT file -
-it contains important information which may save you a lot of grief.
-
-If you're new to FreeBSD then you should also read EVERYTHING listed
-in the Documentation menu on the boot floppy.  It may seem like a lot
-to read, but the time you spend now reading the documents will be made
-up many times over because you were adequately prepared. Also, you will
-know the types of information available should you get stuck later.
-Once the system is installed, you can also revisit this menu and use a 
-WEB browser to read the installed FAQ (Frequently Asked Questions) and 
-Handbook HTML documentation sets for FreeBSD.  You can also use the 
-browser to visit other WEB sites on the net (like http://www.freebsd.org)
-if you have an Internet connection. See ABOUT.TXT for more information
-on the resources available to you.
-
-The best laid plans sometimes go awry, so if you run into trouble take a 
-look at TROUBLE.TXT which contains valuable troubleshooting information.
-
-DISCLAIMER: While FreeBSD does its best to safeguard against
-accidental loss of data, it's still more than possible to WIPE OUT
-YOUR ENTIRE DISK with this installation!  Please do not proceed to the
-final FreeBSD installation menu unless you've adequately backed up any
-important data first!  We really mean it!
-
-FreeBSD/alpha supports the alpha platforms described in HARDWARE.TXT
-
-You will need a dedicated disk for FreeBSD/alpha. It is not possible
-to share a disk with another operating system at this time. This disk
-will need to be attached to a SCSI controller which is supported by
-the SRM firmware or an IDE disk assuming the SRM in your machine
-supports booting from IDE disks.
-
-Your root filesystem MUST be the first partition (partition a) on the
-disk to be bootable.
-
-You will need the SRM console firmware for your platform. In some
-cases, it is possible to switch between AlphaBIOS (or ARC) firmware
-and SRM. In others it will be necessary to download new firmware from
-the vendor's Website.
-
-0.1     Installing FreeBSD from CDROM or the Internet
----     ---------------------------------------------
-
-The easiest type of installation is from CD.  If you have a supported
-CDROM drive and a FreeBSD installation CD from Walnut Creek CDROM, you 
-can boot FreeBSD directly from the CDROM. Insert the CDROM into the
-drive and type the following command to start the installation:
-
-	>>>boot dka0 (or whatever device your CDROM drive is)
-
-Alternatively you can boot the installation from floppy disk. You
-should start the installation by building a set of FreeBSD boot floppy
-from the files floppies/kern.flp and floppies/mfsroot.flp using the
-instructions found in floppies/README.TXT. From the SRM console prompt 
-(>>>), just insert the kern.flp floppy and type the following command
-to start the installation:
-
-	>>>boot dva0
-
-Insert the mfsroot.flp floppy when prompted and you will end up at the 
-first screen of the install program.
-
-If you don't have a CDROM and would like to simply install over the
-net using PPP, slip or a dedicated connection, simply fetch the
-<FreeBSD-release>/floppies/kern.flp and mfsroot.flp files from:
-
-        ftp://ftp.freebsd.org/pub/FreeBSD
-
-or one of its many mirrors (http://www.freebsd.org/handbook/mirrors.html)
-and follow step 3 above.  You should also read the floppies/README.TXT
-file as it contains important information for downloaders.
-
-Once you have a boot floppy made, please go to section 1.4 of this
-document for additional tips on installing via FTP or NFS.
-
-
-1.0     Detail on various installation types
----     ------------------------------------
-
-Once you've gotten yourself to the initial installation screen
-somehow, you should be able to follow the various menu prompts and go
-from there.  If you've never used the FreeBSD installation before, you
-are also encouraged to read some of the documentation in the the
-Documentation submenu as well as the general "Usage" instructions on
-the first menu.
-
-   REMEMBER:  If you get stuck at a screen, hit F1 for the online
-   documentation for that section.
-
-If you've never installed FreeBSD before, or even if you have, the
-"Standard" installation mode is the most recommended since it makes sure
-that you'll visit all the various important checklist items along the
-way.  If you're much more comfortable with the FreeBSD installation
-process and know _exactly_ what you want to do, use the Express or
-Custom installation options.  If you're upgrading an existing system,
-use the Upgrade option.
-
-The FreeBSD installer supports the direct use of floppy, DOS, tape,
-CDROM, FTP, NFS and UFS partitions as installation media, further tips
-on installing from each type of media listed below.
-
-Once the install procedure has finished, you will be able to start
-FreeBSD/alpha by typing something like this to the SRM prompt:
-
-	>>>boot dkc0
-
-This instructs the firmware to boot the specified disk. To find the
-SRM names of disks in your machine, use the show device command:
-
-	>>>show device
-	dka0.0.0.4.0               DKA0           TOSHIBA CD-ROM XM-57  3476
-	dkc0.0.0.1009.0            DKC0                       RZ1BB-BS  0658
-	dkc100.1.0.1009.0          DKC100             SEAGATE ST34501W  0015
-	dva0.0.0.0.1               DVA0
-	ewa0.0.0.3.0               EWA0              00-00-F8-75-6D-01
-	pkc0.7.0.1009.0            PKC0                  SCSI Bus ID 7  5.27
-	pqa0.0.0.4.0               PQA0                       PCI EIDE
-	pqb0.0.1.4.0               PQB0                       PCI EIDE
-
-
-This example is from a Digital Personal Workstation 433au and shows
-three disks attached to the machine. The first is a CDROM called dka0
-and the other two are disks and are called dkc0 and dkc100
-repectively.
-
-You can specify which kernel file to load and what boot options to use 
-with the -file and -flags options to boot, e.g.:
-
-	>>>boot -file kernel.old -flags s
-
-To make FreeBSD/alpha boot automatically, use these commands:
-
-	>>>set boot_osflags a
-	>>>set bootdef_dev dkc0
-	>>>set auto_action BOOT
-
-
-1.1     Installing from a network CDROM
----     -------------------------------
-
-If you simply wish to install from a local CDROM drive then see the
-Quick Start section.  If you don't have a CDROM drive on your system
-and wish to use a FreeBSD distribution CD in the CDROM drive of
-another system to which you have network connectivity, there are
-several ways of going about it:
-
-1. If you would be able to FTP install FreeBSD directly from the CDROM
-   drive in some FreeBSD machine, it's quite easy: You simply add the
-   following line to the password file (using the vipw command):
-
-        ftp:*:99:99::0:0:FTP:/cdrom:/sbin/nologin
-
-   Warning:  This may allow anyone on the local network (or Internet) to
-   make "anonymous FTP" connections to this machine, which may not be 
-   desirable.
-
-   On the machine on which you are running the install, go to the "Options"
-   menu and set "Release Name" to "any".  You may then choose a Media
-   type of FTP and type in: ``ftp://<machine with CDROM drive>'' after
-   picking "URL" in the ftp sites menu.
-
-2. If you would rather use NFS to export the CDROM directly to the
-   machine(s) you'll be installing from, you need to first add an
-   entry to the /etc/exports file (on the machine with the CDROM drive)
-   which looks something like this:
-
-        /cdrom          -ro             ziggy.foo.com
-
-   To allow the machine "ziggy.foo.com" to mount the CDROM directly
-   via NFS during installation.  The machine with the CDROM must also
-   be configured as an NFS server, of course, and if you're not sure how
-   to do that then an NFS installation is probably not the best choice
-   for you unless you're willing to read up on rc.conf(5) and configure
-   things appropriately.  Assuming that this part goes smoothly, you
-   should be able to enter:  <cdrom-host>:/cdrom as the path for an NFS
-   installation when the target machine is installed.
-
-
-1.2     Installing from Floppies
----     ------------------------
-
-If you must install from floppy disks, either due to unsupported
-hardware or just because you enjoy doing things the hard way, you must
-first prepare some floppies for the install.
-
-First, make a set of boot floppies as described in floppies/README.TXT.
-
-Second, read the file LAYOUT.TXT and pay special attention to the
-"Distribution format" section since it describes which files you're
-going to need to put onto floppy and which you can safely skip.
-
-Next you will need, at minimum, as many 1.44MB floppies as it takes to
-hold all files in the bin (binary distribution) directory.  If you're
-preparing these floppies under DOS, then THESE floppies *must* be
-formatted using the MS-DOS FORMAT command.  If you're using Windows,
-use the Windows File Manager format command.
-
-Don't trust Factory Preformatted floppies!  Format them again
-yourself, just to make sure.  Many problems reported by our users in
-the past have resulted from the use of improperly formatted media,
-which is why I'm taking such special care to mention it here!
-
-If you're creating the floppies from another FreeBSD machine, a format
-is still not a bad idea though you don't need to put a DOS filesystem
-on each floppy.  You can use the `disklabel' and `newfs' commands to
-put a UFS filesystem on a floppy, as the following sequence of
-commands illustrates:
-
-        fdformat -f 1440 fd0.1440
-        disklabel -w -r fd0.1440 floppy3
-        newfs -t 2 -u 18 -l 1 -i 65536 /dev/fd0
-
-After you've formatted the floppies for DOS or UFS, you'll need to
-copy the files onto them.  The distribution files are split into
-chunks conveniently sized so that 5 of them will fit on a conventional
-1.44MB floppy.  Go through all your floppies, packing as many files as
-will fit on each one, until you've got all the distributions you want
-packed up in this fashion.  Each distribution should go into its own
-subdirectory on the floppy, e.g.: a:\bin\bin.inf, a:\bin\bin.aa,
-a:\bin\bin.ab, ...
-
-IMPORTANT NOTE: The bin.inf file also needs to go on the first floppy
-of the bin set since it is read by the installation program in order
-to figure out how many additional pieces to look for when fetching and
-concatenating the distribution.  When putting distributions onto
-floppies, the <distname>.inf file MUST occupy the first floppy of each
-distribution set!
-
-Once you come to the Media screen of the install, select "Floppy" and
-you'll be prompted for the rest.
-
-
-1.3     Installing from QIC/SCSI Tape
----     -----------------------------
-
-When installing from tape, the installation program expects the files
-to be simply tar'ed onto it, so after fetching all of the files for
-the distributions you're interested in, simply tar them onto the tape
-with a command something like this:
-
-        cd /where/you/have/your/dists
-        tar cvf /dev/rwt0 (or /dev/rsa0) dist1 .. dist2
-
-When you go to do the installation, you should also make sure that you
-leave enough room in some temporary directory (which you'll be allowed
-to choose) to accommodate the FULL contents of the tape you've
-created.  Due to the non-random access nature of tapes, this method of
-installation requires quite a bit of temporary storage!  You should
-expect to require as much temporary storage as you have stuff written
-on tape.
-
-SPECIAL NOTE: When going to do the installation, the tape must be in
-the drive *before* booting from the boot floppy.  The installation
-"probe" may otherwise fail to find it.
-
-Now create a boot floppy as described in section 0.1 and proceed with
-the installation.
-
-
-1.4     Installing over a network using FTP or NFS
----     ------------------------------------------
-
-After making a boot floppy as described in the first section, you can
-load the rest of the installation over a network using one of 3 types
-of connections:
-
-        Serial port:    SLIP / PPP
-        Parallel port:  PLIP (using ``laplink'' style cable)
-        Ethernet:       A standard Ethernet controller (including
-                        certain PCCARD devices).
-
-Serial Port
------------
-
-SLIP support is rather primitive, and is limited primarily to
-hard-wired links, such as a serial cable running between two
-computers.  The link must be hard-wired because the SLIP installation
-doesn't currently offer a dialing capability.  If you need to dial out
-with a modem or otherwise dialog with the link before connecting to
-it, then I recommend that the PPP utility be used instead.
-
-If you're using PPP, make sure that you have your Internet Service
-Provider's IP address and DNS information handy as you'll need to know
-it fairly early in the installation process.  You may also need to
-know your own IP address, though PPP supports dynamic address
-negotiation and may be able to pick up this information directly from
-your ISP if they support it.
-
-You will also need to know how to use the various "AT commands" for
-dialing out with your particular brand of modem as the PPP dialer
-provides only a very simple terminal emulator.
-
-
-Parallel Port
--------------
-
-If a hard-wired connection to another FreeBSD or Linux machine is
-available, you might also consider installing over a "laplink"
-style parallel port cable.  The data rate over the parallel port
-is much higher than what is typically possible over a serial line
-(up to 50k/sec), thus resulting in a quicker installation.  It's not
-typically necessary to use "real" IP addresses when using a
-point-to-point parallel cable in this way and you can generally just
-use RFC 1918 style addresses for the ends of the link (e.g. 10.0.0.1,
-10.0.0.2, etc).
-
-IMPORTANT NOTE: If you use a Linux machine rather than a FreeBSD
-machine as your PLIP peer, you will also have to specify "link0" in
-the TCP/IP setup screen's ``extra options for ifconfig'' field.
-
-
-Ethernet
---------
-
-FreeBSD supports most common Ethernet cards, a table of supported
-cards (and their required settings) being provided as part of the
-FreeBSD Hardware Guide (see the Documentation menu on the boot floppy
-or the top level directory of the CDROM).  
-
-You will also need to know your IP address on the network, the
-"netmask" value for your address class and the name of your machine.
-Your system administrator can tell you which values are appropriate to
-your particular network setup.  If you will be referring to other
-hosts by name rather than IP address, you'll also need a name server
-and possibly the address of a gateway (if you're using PPP, it's your
-provider's IP address) to use in talking to it.
-
-If you do not know the answers to these questions then you should
-really probably talk to your system administrator _first_ before
-trying this type of installation!  Using a randomly chosen IP address
-or netmask on a live network will almost certainly get you shot at
-dawn.
-
-Once you have a network connection of some sort working, the
-installation can continue over NFS or FTP.
-
-
-1.4.1   NFS installation tips
------   ---------------------
-
-        NFS installation is fairly straight-forward: Simply copy the
-        FreeBSD distribution files you want onto a server somewhere
-        and then point the NFS media selection at it.
-
-        If this server supports only "privileged port" access (as is
-        generally the default for Sun and Linux workstations), you
-        will need to set this option in the Options menu before
-        installation can proceed.
-
-        If you have a poor quality Ethernet card which suffers from very
-        slow transfer rates, you may also wish to toggle the appropriate
-        Options flag.
-
-        In order for NFS installation to work, the server must also support
-        "subdir mounts", e.g. if your FreeBSD 2.2 distribution directory
-        lives on:  ziggy:/usr/archive/stuff/FreeBSD
-        Then ziggy will have to allow the direct mounting of
-        /usr/archive/stuff/FreeBSD, not just /usr or /usr/archive/stuff.
-
-        In FreeBSD's /etc/exports file this is controlled by the
-        ``-alldirs'' option.  Other NFS servers may have different
-        conventions.  If you are getting `Permission Denied' messages
-        from the server then it's likely that you don't have this
-        properly enabled!
-
-
-1.4.2   FTP Installation tips
------   ---------------------
-
-        FTP installation may be done from any mirror site containing a
-        reasonably up-to-date version of FreeBSD.  A full menu of
-        reasonable choices for almost any location in the world is
-        provided in the FTP site menu during installation.
-
-        If you are installing from some other FTP site not listed in
-        this menu, or you are having troubles getting your name server
-        configured properly, you can also specify your own URL by
-        selecting the ``URL'' choice in that menu.  A URL can
-        contain a hostname or an IP address, so the following would
-        work in the absence of a name server:
-
-                ftp://192.216.191.11/pub/FreeBSD
-
-        There are three FTP installation modes you can use:
-
-           o FTP:
-
-             This method uses the standard "Active" mode for file
-             transfers which allows the server to initiate a connection
-             to the client.  This will not work through most firewalls
-             but will often work best with older FTP servers that do
-             not support passive mode.  If your connection hangs with
-             passive mode, try this one!
-
-           o FTP Passive:
-
-             This sets the FTP "Passive" mode which prevents the
-             server from opening connections to the client.  This
-             option is best for users to pass through firewalls that
-             do not allow incoming connections on random port
-             addresses.
-
-           o FTP via an HTTP proxy:
-
-             This option instructs FreeBSD to use HTTP to connect to a
-             proxy for all FTP operations.  The proxy will translate
-             the requests and send them to the FTP server.  This
-             allows the user to pass through firewalls that do not
-             allow FTP at all, but offer an HTTP proxy.  You must
-             specify the hostname of the proxy in addition to the FTP
-             server.
-
-        In the rare case that you have an FTP proxy that does not go
-        through HTTP, you can specify the URL as something like :
-
-                ftp://foo.bar.com:1234/pub/FreeBSD
-
-        Where "1234" is the port number of the proxy ftp server.
-
-
----- End of Installation Guide ---
diff --git a/release/texts/alpha/RELNOTES.TXT b/release/texts/alpha/RELNOTES.TXT
deleted file mode 100644
index 0409864..0000000
--- a/release/texts/alpha/RELNOTES.TXT
+++ /dev/null
@@ -1,1713 +0,0 @@
-                                 RELEASE NOTES
-                            FreeBSD Release 5.0-SNAP
-                             (alpha Architecture)
-
-This is a 5.0-CURRENT release SNAPshot of FreeBSD, an active
-development branch which will produce its first release in late
-2001.  Those features which have also been back-ported to
-the 4.x-stable branch (the next release for which will be 4.3)
-are marked [MERGED].
-
-Any installation failures or crashes should be reported by using the
-send-pr command (those preferring a Web-based interface can also see
-http://www.FreeBSD.org/send-pr.html).
-
-For information about FreeBSD and the layout of the 5.0-RELEASE
-directory (especially if you're installing from floppies!), see
-ABOUT.TXT.  For installation instructions, see the INSTALL.TXT and
-HARDWARE.TXT files.
-
-For the latest of these 5.0-current snapshots, you should always see:
-
-        ftp://current.FreeBSD.org/pub/FreeBSD
-
-If you wish to get the latest post-4.x-RELEASE technology.
-
-Table of contents:
-------------------
-1. What's new since the 4.0/5.0 branch
-   1.1 KERNEL CHANGES
-   1.2 SECURITY FIXES
-   1.3 USERLAND CHANGES
-
-2. Supported Configurations
-   2.1 Disk Controllers
-   2.2 Ethernet cards
-   2.3 FDDI
-   2.4 ATM
-   2.5 Misc
-
-3. Obtaining FreeBSD
-   3.1 FTP/Mail
-   3.2 CDROM
-
-4. Upgrading from previous releases of FreeBSD
-
-5. Reporting problems, making suggestions, submitting code
-
-6. Acknowledgments
-
-
-1. What's new since the 4.0/5.0 branch
---------------------------------------
-All changes described here are unique to the 5.0 branch unless
-specifically marked as [MERGED] features.
-
-
-1.1. KERNEL CHANGES
--------------------
-
-A new event notification facility called kqueue was added to the
-FreeBSD kernel.  This is a new interface which is able to replace
-poll/select, offering improved performance, as well as the ability
-to report many different types of events.  Support for monitoring
-changes in sockets, pipes, fifos, and files are present, as well as
-for signals and processes. [MERGED]
-
-Support for named extended attributes was added to the FreeBSD kernel.
-This allows the kernel, and appropriately privileged userland
-processes, to tag files and directories with attribute data.  Extended
-attributes were added to support the TrustedBSD Project, in particular
-ACLs, capability data, and mandatory access control labels (see
-/usr/src/sys/ufs/ufs/README.extattr for details).
-
-POSIX.1b Shared Memory Objects are now supported.  The implementation
-uses regular files, but automatically enables the MAP_NOSYNC flag
-when they are mmap(2)ed. [MERGED]
-
-Added support for PCI Ethernet adapters based on the National Semiconductor
-DP83815 chipset, including the NetGear FA312-TX.
-
-Due to a licensing change, softupdates have been integrated into the
-main portion of the kernel source tree.  As a consequence, softupdates
-are now available with the GENERIC kernel. [MERGED]
-
-When running with softupdates, statfs(2) and df(1) will track the
-number of blocks and files that are committed to being freed.
-
-ipfilter has been updated to 3.4.16. [MERGED]
-
-The tap driver, a virtual Ethernet device driver for bridged
-configurations, has been added.  [MERGED]
-
-accept_filters, a kernel feature to reduce overheads when accepting
-and reading new connections on listening sockets, has been added.
-[MERGED]
-
-The ata(4) driver now has support for ATA100 controllers.  In
-addition, it now supports the ServerWorks ROSB4 ATA33 chipset, the CMD
-648 ATA66 and CMD 649 ATA100 chipsets, and the Cyrix 5530. [MERGED]
-
-To provide more flexible configuration, the various options for the
-ata(4) driver are now boot loader tunables, rather than kernel
-configure-time options. [MERGED]
-
-The ata(4) driver now has support for tagged queuing, which is
-enabled by the hw.ata.tags loader tunable. [MERGED]
-
-The ata(4) driver now has support for ATA "pseudo" RAID controllers as
-the Promise Fasttrak and HighPoint HPT370 controllers. [MERGED]
-
-AlphaServer 1200 ("Tincup") has been tested and works OK. Currently it does
-not want to boot from CD or floppy but a transplanted disk that was
-installed on another Alpha works well. [MERGED]
-
-The ti(4) driver now supports the Alteon AceNIC 1000baseT Gigabit
-Ethernet and Netgear GA620T 1000baseT Gigabit cards. [MERGED]
-
-SMP support has been largely reworked, incorporating code from BSD/OS
-5.0.  One of the main features of SMPng ("SMP Next Generation") is to
-allow more processes to run in kernel, without the need for spin locks
-that can dramatically reduce the efficiency of multiple processors.
-Interrupt handlers now have contexts associated with them that allow
-them to be blocked, which reduces the need to lock out interrupts.
-
-SMP support for the Alpha is now operational.
-
-The kernel and modules have been moved to the directory /boot/kernel,
-so they can be easily manipulated together.  The boot loader has been
-updated to make this change as seamless as possible.
-
-A filesystem snapshot capability has been added to FFS.  Details can
-be found in /usr/src/sys/ufs/ffs/README.snapshot.
-
-Softupdates for FFS have received some bug fixes and enhancements.
-
-A bug in FFS that could cause superblock corruption on very large
-filesystems has been corrected. [MERGED]
-
-The ng_mppc(4) and ng_bridge(4) node types have been added to the
-netgraph subsystem.  The ng_ether(4) node is now dynamically loadable.
-Miscellaneous bug fixes and enhancements have also been made. [MERGED]
-
-The pcn(4) driver, which supports the AMD PCnet/FAST, PCnet/FAST+,
-PCnet/FAST III, PCnet/PRO, PCnet/Home, and HomePNA adapters, has been added.
-Although these cards are already supported by the lnc(4) driver, the pcn
-driver runs these chips in 32-bit mode and uses the RX alignment feature to
-achieve zero-copy receive.  This driver is also machine-independent,
-so it will work on both the i386 and alpha platforms.  The lnc driver
-is still needed to support non-PCI cards. [MERGED]
-
-The ed(4) driver is now also supported on the Alpha.
-
-A bug in the ed(4) driver that could cause panics with very short
-packets and BPF or bridging active has been fixed.
-
-The pcm(4) driver now supports the ESS Solo 1, Maestro-1, Maestro-2,
-and Maestro-2e; Forte Media fm801, ESS Maestro-2e, and VIA
-Technologies VT82C686A sound card/chipsets, and has received some
-other updates.  Separate drivers for the SoundBlaster 8 and
-Soundblaster 16 now replace an older, unified driver.  A driver for
-the CMedia CMI8338/CMI8738 sound chips has been added.  A driver for
-the CS4281 sound chip has been added. [MERGED]
-
-A driver for the ESS Maestro-3/Allegro has been added, however due to
-licensing restrictions, it cannot be compiled into the kernel.
-[MERGED] To use this driver, add the following line to
-/boot/loader.conf:
-
-	snd_maestro3_load="YES"
-
-Replace the PQ_*CACHE options with a single PQ_CACHESIZE option to be
-set to the cache size in kilobytes.  The old options are still
-supported for backwards compatibility. [MERGED]
-
-The ahc(4) driver has been updated.  Among various improvements are
-improved compatibility with chips in "RAID Port" mode and systems with
-AAA and ARO cards installed, as well as performance improvements.
-Some bugs were also fixed, including a rare hang on Ultra2/U160
-controllers. [MERGED]
-
-ACPI support has been merged in from the FreeBSD-ACPI project.
-
-devfs(5), which allows entries in the /dev directory to be built
-automatically and supports more flexible attachment of devices, has
-been largely reworked.  devfs(5) is now enabled by default, and is
-disabled by the NODEVFS kernel option.
-
-Write combining for crashdumps has been implemented.  This feature
-is useful when write caching is disabled on both SCSI and IDE disks,
-where large memory dumps could take up to an hour to complete. [MERGED]
-
-The bktr(4) driver has been updated to 2.15.  New tuner types have
-been added, and improvements to the KLD module and to memory
-allocation have been made. [MERGED]
-
-The bktr(4) driver has been updated to 2.17.  This fixes bugs in devfs
-when unloading and reloading, and syncs with some NetBSD
-changes. [MERGED]
-
-The bktr(4) driver has been updated to 2.18.  This adds support for
-new Hauppauge Model 44xxx WinTV Cards (the ones with no audio mux).
-
-Extremely large swap areas (>67 GB) no longer panic the system.
-
-The Inode Filesystem (IFS) has been added; more information can be
-found in /usr/src/sys/ufs/ifs/README.
-
-The cd(4) driver now has support for write operations.  This allows
-writing to DVD-RAM, PD and similar drives that probe as CD devices.
-Note that change affects only random-access writeable devices, not
-sequential-only writeable devices such as CD-R drives, which are
-supported by cdrecord. [MERGED]
-
-The ISO-9660 filesystem now has a hook that supports a loadable
-character conversion routine.  The sysutils/cd9660_unicode port
-contains a set of common conversions. [MERGED]
-
-Support for threads under Linux emulation has been added.
-
-The an(4) driver for Cisco Aironet cards now supports Wired Equivalent
-Privacy (WEP) encryption, settable via ancontrol(8). [MERGED]
-
-A new netgraph node type ng_one2many(4) for multiplexing and
-demultiplexing packets over multiple links has been added.  [MERGED]
-
-The DEC3000-series support has been removed from the mfsroot floppy image
-so that it fits on a 1.44Mbyte floppy again. As DEC3000 is currently
-only usable diskless this should not cause any problems.
-
-For the same reason SLIP has been removed from the mfsroot image as well.
-
-Support for AlphaServer 2100A ('Lynx') has been added.
-
-netgraph(4) has received some updates.
-
-sbufs, null-terminated string data structures, and their associated
-support routines, have been added to the kernel.  Details are in
-sbuf(9).
-
-The vinum(4) volume manager has received some bug fixes and enhancements.
-
-ICMP ECHO and TSTAMP replies are now rate limited.  TCP RSTs generated
-due to packets sent to open and unopen ports are now limited by
-separate counters.  Each rate limiting queue now has its own
-description.
-
-ICMP UNREACH_FILTER_PROHIB messages can now RST TCP connections in the
-SYN_SENT state if the correct sequence numbers are sent back, as
-controlled by the net.inet.tcp.icmp_may_rst sysctl. [MERGED]
-
-TCP has received some bug fixes for its delayed ACK behavior. [MERGED]
-
-TCP now supports the NewReno modification to the TCP Fast Recovery
-algorithm.  This behavior can be controlled via the
-net.inet.tcp.newreno sysctl variable. [MERGED]
-
-TCP now uses a more aggressive timeout for initial SYN segments; this
-allows initial connection attempts to be dropped much faster. [MERGED]
-
-The TCP_COMPAT_42 kernel option has been removed.
-
-A new sysctl net.inet.ip.check_interface, which is on by default,
-causes IP to verify that an incoming packet arrives on an interface
-that has an address matching the packet's destination address. [MERGED]
-
-PECOFF (WIN32 Execution file format) support has been added.
-
-kernfs(5) is obsolete and has been retired.
-
-md(4), the memory disk device, has had the functionality of vn(4)
-incorporated into it.  md(4) devices can now be configured by
-mdconfig(8).  vn(4) has been removed.
-
-The ray(4) driver, which supports the Webgear Aviator wireless network
-cards, has been committed.  The operation of ray(4) interfaces can be
-modified by raycontrol(8).  [MERGED]
-
-FDDI networking using Digital Equipment DEFPA PCI FDDI adapters is now
-supported.
-
-A new API has been added for sound cards with hardware volume
-control.
-
-A new sysctl 'net.link.ether.inet.log_arp_wrong_iface' to controls the
-suppression of logging when ARP replies arrive on the wrong
-interface. [MERGED]
-
-A bug in the NFS client that caused bogus access times with
-O_EXCL|O_CREAT opens was fixed.  [MERGED]
-
-Client-side NFS locks have been implemented.
-
-The bug that made certain CDROM drives fail to attach when connected
-to a SCSI card driven by 'isp' has been fixed. [MERGED]
-
-Condition variables have now been implemented in the FreeBSD kernel.
-See condvar(9) for more details.
-
-The "make buildkernel" target now gets the name of the
-configuration(s) to build from the KERNCONF variable, not KERNEL.  It
-is no longer required, in some cases, for a "buildworld" to precede a
-"buildkernel".  (The buildworld is still required when upgrading across
-major releases, across binutil upgrades and when config changes
-version.)
-
-The API UP1100 mainboard has been verified to work OK.
-
-bridge(4) and dummynet(4) have received some enhancements and bug fixes.
-
-The API CS20 1U high server has been verified to work OK.
-
-ipfw(8) has a new feature ("me") that allows for packet matching on
-interfaces with dynamically-changing IP addresses. [MERGED]
-
-The isp(4) driver has been updated. [MERGED]
-
-The isp(4) driver now supports target mode for Qlogic SCSI cards,
-including Ultra2 and Ultra3 and dual bus cards.
-
-The ida disk driver now has crashdump support. [MERGED]
-
-The random(4) device has been rewritten to use the Yarrow algorithm.
-It harvests entropy from a variety of interrupt sources, including the
-console devices, Ethernet and point-to-point network interfaces, and
-mass-storage devices.  Entropy from the random(4) device is now
-periodically saved to files in /var/db/entropy.
-
-Kernel code has been added that allows older generation Alpha CPUs
-(EV4 and EV5) to emulate instructions of the newer Alpha CPU 
-generations. This enables the use of binary-only programs like Adobe
-Acrobat 4 on EV4 and EV5. 
-
-The fxp(4) driver now requires a "device miibus" entry in the kernel
-configuration file. [MERGED]
-
-A new NFS hash function (based on the Fowler/Noll/Vo hash algorithm)
-has been implemented to improve NFS performance by increasing the
-efficiency of the nfsnode hash tables. [MERGED]
-
-The syscons(4) driver now supports keyboard-controlled pasting, by
-default bound to Shift-Insert.
-
-Support for file system Access Control Lists (ACLs) has been
-introduced, allowing more fine-grained control of discretionary access
-control on files and directories.  This support was integrated from
-the TrustedBSD Project.  More details can be found in
-/usr/src/sys/ufs/ufs/README.acls.
-
-The CAM error recovery code has been updated.
-
-The directory layout preference algorithm for FFS has been changed to
-improve its speed on large filesystems.
-
-The wx(4) driver now supports the Intel PRO1000-F and PRO1000-T
-(10/100/1000) adapters. [MERGED]
-
-The labpc(4) driver has been removed due to bitrot.
-
-Added support for PCI Gigabit Ethernet adapters based on the National
-Semiconductor DP83820 and DP83821 gigabit ethernet controller chips,
-including the D-Link DGE-500T, SMC EZ Card 1000 (SMC9462TX),
-Asante FriendlyNet GigaNIC 1000TA and 1000TPC and Addtron AEG320T.
-
-The USER_LDT kernel option is now activated by default.
-
-A new digi(4) driver has been added to support PCI Xr-based and ISA
-Xem Digiboard cards.  A new digictl program is (mainly) used to
-re-initialise cards that have external port modules attached such as
-the PC/Xem.
-
-
-1.2. SECURITY FIXES
--------------------
-
-sysinstall(8) now allows the user to select one of three "security
-profiles" at install-time.  These profiles enable different levels of
-system security by enabling or disabling various system services in
-rc.conf(5) on new installs. [MERGED]
-
-A bug in which malformed ELF executable images can hang the system has
-been fixed (see security advisory FreeBSD-SA-00:41). [MERGED]
-
-A security hole in Linux emulation was fixed (see security advisory
-FreeBSD-SA-00:42).  [MERGED]
-
-rlogind(8), rshd(8), and fingerd(8) are now disabled by default in
-/etc/inetd.conf.  This only affects new installations.  [MERGED]
-
-String-handling library calls in many programs were fixed to reduce
-the possibility of buffer overflow-related exploits.  [MERGED]
-
-TCP now uses stronger randomness in choosing its initial sequence
-numbers (see security advisory FreeBSD-SA-00:52). [MERGED]
-
-Several buffer overflows in tcpdump(1) were corrected (see security
-advisory FreeBSD-SA-00:61).  [MERGED]
-
-A security hole in top(1) was corrected (see security advisory
-FreeBSD-SA-00:62).  [MERGED]
-
-A potential security hole caused by an off-by-one-error in
-gethostbyname(3) has been fixed (see security advisory
-FreeBSD-SA-00:63).  [MERGED]
-
-A potential buffer overflow in the ncurses(3X) library, which could
-cause arbitrary code to be run from within systat(1), has been corrected
-(see security advisory FreeBSD-SA-00:68).  [MERGED]
-
-A vulnerability in telnetd(8) that could cause it to consume large
-amounts of server resources has been fixed (see security advisory
-FreeBSD-SA-00:69).  [MERGED]
-
-The "nat deny_incoming" command in ppp(8) now works correctly (see
-security advisory FreeBSD-SA-00:70).  [MERGED]
-
-A vulnerability in csh(1)/tcsh(1) temporary files that could allow
-overwriting of arbitrary user-writable files has been closed (see
-security advisory FreeBSD-SA-00:76). [MERGED]
-
-The ssh(1) binary is no longer SUID root by default.
-
-Some fixes were applied to the Kerberos IV implementation related to
-environment variables, a possible buffer overrun, and overwriting
-ticket files. [MERGED]
-
-telnet(1) now does a better job of sanitizing its environment. [MERGED]
-
-Several vulnerabilities in procfs(4) were fixed (see security advisory
-FreeBSD-SA-00:77).  [MERGED]
-
-A bug in OpenSSH in which a server was unable to disable ssh-agent or
-X11 forwarding was fixed (see security advisory FreeBSD-SA-01:01).
-[MERGED]
-
-A bug in ipfw(8) and ipfw6(8) in which inbound TCP segments could
-incorrectly be treated as being part of an "established" connection
-has been fixed (see security advisory FreeBSD-SA-01:08).  [MERGED]
-
-A bug in crontab(8) that could allow users to read any file on the
-system in valid crontab(5) syntax has been fixed (see security
-advisory FreeBSD-SA-01:09).  [MERGED]
-
-A vulnerability in inetd(8) that could allow read-access to the
-initial 16 bytes of wheel-accessible files has been fixed (see
-security advisory FreeBSD-SA-01:11). [MERGED]
-
-A bug in periodic(8) that used insecure temporary files has been
-corrected (see security advisory FreeBSD-SA-01:12). [MERGED]
-
-A bug in sort(1) in which an attacker might be able to cause it to
-abort processing has been fixed (see security advisory
-FreeBSD-SA-01:13). [MERGED]
-
-To fix a remotely-exploitable buffer overflow, BIND has been updated
-to 8.2.3 (see security advisory FreeBSD-SA-01:18). [MERGED]
-
-OpenSSH now has code to prevent (instead of just mitigating through
-connection limits) an attack that can lead to guessing the server key
-(not host key) by regenerating the server key when an RSA failure is
-detected (see security advisory FreeBSD-SA-01:24). [MERGED]
-
-A number of programs have had output formatting strings corrected so
-as to reduce the risk of vulnerabilities. [MERGED]
-
-A number of programs that use temporary files now do so more
-securely. [MERGED]
-
-A bug in ICMP that could cause an attacker to disrupt TCP and UDP
-"sessions" has been corrected. [MERGED]
-
-A bug in timed(8), which caused it to crash if sent certain malformed
-packets, has been corrected (see security advisory
-FreeBSD-SA-01:28). [MERGED]
-
-A bug in rwhod(8), which caused it to crash if sent certain malformed
-packets, has been corrected (see security advisory
-FreeBSD-SA-01:29). [MERGED]
-
-A security hole in FreeBSD's FFS and EXT2FS implementations, which
-allowed a race condition that could cause users to have unauthorized
-access to data, has been fixed (see security advisory
-FreeBSD-SA-01:30). [MERGED]
-
-A remotely-exploitable vulnerability in ntpd(8) has been closed (see
-security advisory FreeBSD-SA-01:31). [MERGED]
-
-A security hole in IPFilter's fragment cache has been closed (see
-security advisory FreeBSD-SA-01:32). [MERGED]
-
-Buffer overflows in glob(3), which could cause arbitrary code to be
-run on an FTP server, have been closed.  In addition, to prevent some
-forms of DOS attacks, glob(3) now allows specification of a limit on
-the number of pathname matches it will return.  ftpd(8) now uses this
-feature (see security advisory FreeBSD-SA-01:33). [MERGED]
-
-Initial sequence numbers in TCP are more thoroughly randomized, using
-an algorithm obtained from OpenBSD (see security advisory
-FreeBSD-SA-01:39). [MERGED]
-
-
-1.3. USERLAND CHANGES
----------------------
-
-cdcontrol(1) now supports a "cdid" command, which calculates and
-displays the CD serial number, using the same algorithm used by the CDDB
-database. [MERGED]
-
-mtree(8) now includes support for a file listing pathnames to be excluded
-when creating and verifying prototypes.  This makes it easier to use
-mtree as a part of an intrusion-detection system.  [MERGED]
-
-OpenSSL has been upgraded to 0.9.6. [MERGED]
-
-OpenSSL now has support for machine-dependent ASM optimizations,
-activated by the new MACHINE_CPU Makefile variable. [MERGED]
-
-The OPIE one-time-password suite has been updated to 2.32. [MERGED]
-
-OpenSSH has been upgraded to 2.1.0, which provides support for the
-SSH2 protocol, including DSA keys.  Therefore, OpenSSH users in the US
-no longer need to rely on the restrictively-licensed RSAREF toolkit
-which is required to handle RSA keys.  OpenSSH 2.1 interoperates well
-with other SSH2 clients and servers, including the ssh2 port.  See
-http://www.openssh.com for more details. [MERGED]
-
-OpenSSH can now authenticate using OPIE passwords in SSH1 mode.
-Support is not yet available in SSH2 mode. [MERGED]
-
-OpenSSH has been upgraded to 2.2.0.  ssh-add(1) and ssh-agent(1) can now
-handle DSA keys.  An sftp server interoperable with ssh.com clients
-and others has been added.  scp(1) can now handle files >2GB.
-Interoperability with other ssh2 clients/servers has been improved.  A
-new feature to limit the number of outstanding unauthenticated ssh
-connections in sshd has been added. [MERGED]
-
-OpenSSH has been upgraded to 2.3.0.  This version adds support for the
-Rijndael encryption algorithm. [MERGED]
-
-PAM support for OpenSSH has been added.
-
-A long-standing bug in SSH, which sometimes resulted in a dropped
-session when an X11-forwarded client was closed, was fixed.
-
-Kerberos compatability has been added to OpenSSH. [MERGED]
-
-OpenSSH has been modified to be more resistant to traffic analysis by
-requiring that "non-echoed" characters are still echoed back in a null
-packet, as well as by padding passwords sent so as not to hint at
-password lengths. [MERGED]
-
-OpenSSH now has a "VersionAddendum" configuration setting for sshd(8)
-to allow changing the part of the OpenSSH version string after the
-main version number.
-
-OpenSSH has been updated to version 2.9, which adds two new programs,
-sftp(1) and ssh-keyscan(1).  Among the various enhancements: The
-default protocol is now v2, rekeying of existing SSH sessions is now
-supported, and an experimental SOCKS4 proxy has been added to the
-ssh(1) client.
-
-Support for USB devices was added to the GENERIC kernel and to the
-installation programs to support USB devices out of the box.  Note that
-SRM does not support USB devices at the moment, so you must still use
-an AT keyboard if you are not using a serial console. [MERGED]
-
-The csh(1) shell has been replaced by tcsh(1), although it can still
-be run as csh(1).  tcsh has been updated to version 6.10. [MERGED]
-
-The more(1) command has been replaced by less(1), although it can still
-be run as more(1). [MERGED]
-
-ls(1) can produce colorized listings with the -G flag (and appropriate
-terminal support). [MERGED]
-
-sendmail upgraded from version 8.9.3 to version 8.11.3.  Important changes
-include: new default file locations (see
-/usr/src/contrib/sendmail/cf/README); newaliases is limited to root and
-trusted users; STARTTLS encryption; and the MSA port (587) is turned on by
-default.  See /usr/src/contrib/sendmail/RELEASE_NOTES for more
-information. [MERGED]
-
-mail.local(8) is no longer installed as a set-user-id binary.  If you are
-using a /etc/mail/sendmail.cf from the default sendmail.cf included with
-FreeBSD any time after 3.1.0, you are fine.  If you are using a
-hand-configured sendmail.cf and mail.local for delivery, check to make sure
-the F=S flag is set on the Mlocal line.  Those with .mc files who need to
-add the flag can do so by adding the following line to their your .mc file
-and regenerating the sendmail.cf file:
-    MODIFY_MAILER_FLAGS(`LOCAL', `+S')dnl
-Note that FEATURE(`local_lmtp') already does this. [MERGED]
-
-The default /etc/mail/sendmail.cf disables the SMTP EXPN and VRFY
-commands. [MERGED]
-
-vacation(1) has been updated to use the version included with
-sendmail. [MERGED]
-
-The sendmail(8) configuration building tools are installed in
-/usr/share/sendmail/cf/. [MERGED]
-
-New make.conf options: SENDMAIL_MC and SENDMAIL_ADDITIONAL_MC.  See
-/etc/defaults/make.conf for more information.  [MERGED]
-
-The Makefile in /etc/mail now supports: the new SENDMAIL_MC make.conf
-option; the ability to build .cf files from .mc files; generalized map
-rebuilding; rebuilding the aliases file; and the ability to stop, start,
-and restart sendmail.  [MERGED]
-
-sysinstall(8) now properly preserves /etc/mail during a binary
-upgrade. [MERGED]
-
-awk has been upgraded from gawk-3.0.4 to gawk-3.0.6.  This fixes a number
-of non-critical bugs and includes a few performance tweaks. [MERGED]
-
-routed(8) has been updated to version 2.22.  [MERGED]
-
-The truncate(1) utility, which truncates or extends the length
-of files, has been added.  [MERGED]
-
-syslogd(8) can take a -n option to disable DNS queries for every
-request. [MERGED]
-
-kenv(1), a command to dump the kernel environment, has been added.
-[MERGED]
-
-The behavior of periodic(8) is now controlled by /etc/defaults/periodic.conf
-and /etc/periodic.conf. [MERGED]
-
-logger(1) can now send messages directly to a remote syslog. [MERGED]
-
-which(1) is now a C program, rather than a Perl script.
-
-killall(1) is now a C program, rather than a Perl script.  As a
-result, killall's -m option now uses the regular expression syntax of
-regex(3), rather than that of perl(1). [MERGED]
-
-killall(1) now allows non-root users to kill SUID root processes that
-they started.
-
-finger(1) now has the ability to support fingering aliases, via the
-finger.conf(5) file. [MERGED]
-
-finger(1) now has support for a .pubkey file.
-
-nsswitch support has been merged from NetBSD.  By creating an
-nsswitch.conf(5) file, FreeBSD can be configured so that various
-databases such as passwd(5) and group(5) can be looked up using flat
-files, NIS, or Hesiod.  The old hosts.conf(5) file is no longer used.
-
-sshd X11Forwarding is now turned on by default on server (any risk is
-to the client, where it is already disabled by default).
-
-RSA Security has waived all patent rights to the RSA algorithm (two
-weeks before the patent was due to expire).  As a result, the native
-OpenSSL implementation of the RSA algorithm is now activated by
-default, and the rsaref port and librsaUSA are no longer
-required for USA residents. [MERGED]
-
-sshd is now enabled by default on new installs. [MERGED]
-
-perl has been updated to version 5.6.0.
-
-Binutils have been upgraded to 2.10.1. [MERGED]
-
-libreadline has been upgraded to 4.2.
-
-The ifconfig(8) command can set the link-layer address of an interface.
-[MERGED]
-
-ifconfig(8) can now accept addresses in slash/CIDR notation. [MERGED]
-
-setproctitle(3) has been moved from libutil to libc. [MERGED]
-
-chio(1) now has the ability to specify elements by volume tag instead
-of by their physical location as well as the ability to return an
-element to its previous location. [MERGED]
-
-sed(1) now takes a -E option for extended regular expression
-support. [MERGED]
-
-ln(1) now takes an -i option to request user confirmation before
-overwriting an existing file. [MERGED]
-
-ln(1) now takes a -h option to avoid following a target that is a
-link, with a -n option for compatability with other implementations. [MERGED]
-
-Version numbers of installed packages have a new (backward-compatible)
-syntax, which supports the "PORTREVISION" and "PORTEPOCH" variables in
-ports collection makefiles.  These changes help keep track of changes
-in the ports collection entries such as security patches or
-FreeBSD-specific updates, which aren't reflected in the original,
-third-party software distributions.  pkg_version(1) can now compare
-these new-style version numbers.  [MERGED]
-
-CVS has been updated to 1.11. [MERGED]
-
-libpcap has been updated to 0.6.2.
-
-tcpdump has been updated to 3.6.2.
-
-User-land ppp(8) has received a number of updates and bug fixes. [MERGED]
-
-To improve performance and disk utilization, the "ports skeletons" in
-the FreeBSD Ports Collection have been restructured.  Installed ports
-and packages should not be affected. [MERGED]
-
-make(1) has gained the :C/// (regexp substitution), :L (lowercase),
-and :U (uppercase) variable modifiers.  These were added to reduce the
-differences between the FreeBSD and OpenBSD/NetBSD make programs. [MERGED]
-
-Bugs in make(1), among which include broken null suffix behavior, bad
-assumptions about current directory permissions, and potential buffer
-overflows, have been fixed. [MERGED]
-
-fsck wrappers have been imported; this feature provides infrastructure
-for fsck(8) to work on different types of filesystems (analogous to
-mount(8) and mount_*(8)).
-
-The behavior of fsck(8) when dealing with various passes (a la
-/etc/fstab) has been modified to accomodate multiple-disk filesystems.
-
-ncurses has been updated to ncurses-5.2-20010512.
-
-gperf has been updated to 2.7.2. [MERGED]
-
-style.perl.7, a style guide for Perl code in the FreeBSD base system,
-has been added.
-
-The ISC library from the BIND distribution is now built as
-libisc. [MERGED]
-
-The "in use" percentage metric displayed by netstat(1) now really
-reflects the percentage of network mbufs used. [MERGED]
-
-netstat(1) now has a -W flag that tells it not to truncate addresses,
-even if they're too long for the column they're printed in. [MERGED]
-
-netstat(1) now keeps track of input and output packets on a
-per-address basis for each interface. [MERGED]
-
-sockstat(1) now has -c and -l flags for listing connected and
-listening sockets, respectively. [MERGED]
-
-mergemaster(8) has gained some new features, has been cleaned up
-somewhat, and is now more cross-platform friendly.
-
-mergemaster(8) now sources an /etc/mergemaster.rc file and also
-prompts the user to run recommended commands (such as "newaliases") as
-needed. [MERGED]
-
-The compiler chain now uses the FSF-supplied C/C++ runtime
-initialization code.  This change brings about better compatibility
-with code generated from the various egcs and gcc ports, as well as
-the stock public FSF source. [MERGED]
-
-The threads library has gained some signal handling changes, bug
-fixes, and performance enhancements (including zero system call thread
-switching).  gdb(1) thread support has been updated to match these
-changes.  [MERGED]
-
-chflags(1) has moved from /usr/bin to /bin.
-
-Use of the CSMG_* macros no longer require inclusion of <sys/param.h>.
-
-IP Filter is now supported by the rc.conf(5) boot-time configuration
-and initialization. [MERGED]
-
-The lastlogin(1) utility, which prints the last login time of each
-user, has been imported from NetBSD. [MERGED]
-
-newfs(8) now implements write combining, which can make creation of
-new filesystems up to seven times faster. [MERGED]
-
-newfs(8) now takes a -U option to enable softupdates on a new filesystem.
-
-The default number of cylinders per group in newfs(8) is now 22, up from 16.
-
-A number of buffer overflows in config(8) have been fixed. [MERGED]
-
-pwd(1) can now double as realpath(1), a program to resolve pathnames
-to their underlying physical paths. [MERGED]
-
-file(1) has been contribify-ed, and updated to version 3.35.
-
-stty(1) now has support for an "erase2" control character, so that
-both "delete" and "backspace" can be used to erase characters. [MERGED]
-
-The ibcs2(8), linux(8), osf1(8), and svr4(8) scripts, whose sole
-purpose was to load emulation kernel modules, have been removed.  The
-kernel module system will automatically load them as needed to fulfill
-dependencies.
-
-top(1) will now use the full width of its tty.
-
-groff(1) and its related utilities have been updated to FSF version
-1.17.  This import brings in a new mdoc(7) macro package, which
-removes many of the limitations of its predecessor. [MERGED]
-
-A number of cleanups and enhancements have been applied to the PCI
-subsystem.  /usr/share/misc/pci_vendors now contains a vendor/device
-database, which can be used by pciconf(8).
-
-indent(1) has gained some new formatting options. [MERGED]
-
-sysinstall now uses some more intuitive defaults thanks to some new
-dialog support functions.  [MERGED]
-
-The default root partition in sysinstall is now 100MB on the i386 and
-120MB on the alpha.
-
-gcc has been updated to 2.95.3. [MERGED]
-
-Shortly after the receipt of a SIGINFO signal (normally control-T from
-the controlling tty), fsck_ffs will now output a line indicating the
-current phase number and progress information relevant to the current
-phase. [MERGED]
-
-fsck(8) and fsck_ffs(8) now support background filesystem checks to
-mounted FFS filesystems with the -B option (softupdates must be
-enabled on these filesystems).  The -F flag now determines whether a
-specified filesystem needs foreground checking.
-
-fsck(8) now has support for foreground (-F) and background (-B)
-checks.  Traditionally, fsck(8) is invoked before the filesystems are
-mounted and all checks are done to completion at that time.  If
-background checking is available, fsck(8) is invoked twice.  It is
-first invoked at the traditional time, before the filesystems are
-mounted, with the -F flag to do checking on all the filesystems that
-cannot do background checking.  It is then invoked a second time,
-after the system has completed going multiuser, with the -B flag to do
-checking on all the filesystems that can do background checking.
-Unlike the foreground checking, the background checking is started
-asynchonously so that other system activity can proceed even on the
-filesystems that are being checked.
-
-Catching up with most other network utilities in the base system,
-lpr(1), lpd(8), syslogd(8), and logger(1) are now all IPv6-capable.
-[MERGED]
-
-rm(1) -v now displays the entire pathname of a file being
-removed. [MERGED]
-
-lpr(1), lpq(1), and lpd(8) have received a few minor
-enhancements. [MERGED]
-
-pkg_update(1), a utility to update installed packages and update their
-dependencies, has been added. [MERGED]
-
-pkg_info(1) now supports globbing against names of installed packages.
-The -G option disables this behavior, and the -x option causes regular
-expression matching instead of shell globbing. [MERGED]
-
-If the first argument fo ancontrol(8) or wicontrol(8) doesn't start
-with a "-", it is assumed to be an interface.
-
-rdist(1) has been retired.
-
-Kerberos IV has been updated to 1.0.5. [MERGED]
-
-Heimdal has been updated to 0.3e. [MERGED]
-
-ppp(8) has gained the tcpmssfixup option, which adjusts outgoing TCP
-SYN packets so that the maximum receive segment size is no larger than
-allowed by the interface MTU.
-
-libcrypt and libdescrypt have been unified to provide a configurable
-password authentication hash library.  Both the md5 and des hash methods
-are provided unless the des hash is specifically compiled out.
-
-passwd(1) and pw(8) now select the passwd hash algorithm at run time.  See
-the "passwd_format" attribute in /etc/login.conf.
-
-In preparation for meeting SUSv2/POSIX <sys/select.h> requirements,
-'struct selinfo' and related functions have been moved to
-<sys/selinfo.h>.
-
-gcc now uses a unified libgcc rather than a separate one for threaded
-and non-threaded programs.  /usr/lib/libgcc_r.a can be removed. [MERGED]
-
-syslogd(8) now supports a "LOG_CONSOLE" facility (disabled by
-default), which can be used to log /dev/console output. [MERGED]
-
-rpcgen now uses /usr/bin/cpp (as on NetBSD), not /usr/libexec/cpp.
-
-Boot-time syscons configuration was moved to a machine-independent
-rc.syscons. [MERGED]
-
-burncd(8) now supports a -m option for multisession mode (the default
-behavior now is to close disks as single-session).  A -l option to
-take a list of image files from a filename was also added; '-' can be
-used as a filename for stdin. [MERGED]
-
-dmesg(8) now has a -a option to show the entire message buffer,
-including syslog records and /dev/console output. [MERGED]
-
-In /etc/ssh/sshd_config, the ConnectionsPerPeriod parameter has been
-deprecated in favor of MaxStartups. [MERGED]
-
-cdcontrol(1) now uses the CDROM environment variable to pick a default
-device. [MERGED]
-
-sysctl(8) now supports a -N option to print out variable names only.
-
-All packages and ports now contain an "origin" directive, which makes
-it easier for programs like pkg_version(1) to determine the directory
-from which a package was built. [MERGED]
-
-sysinstall(8) now lives in /usr/sbin, which simplifies the installation
-process.  The sysinstall(8) manpage is also installed in a more
-consistent fashion now.
-
-config(8) is now better about converting various warnings that should
-have been errors into actual fatal errors with an exit code.  This
-ensures that that 'make buildkernel' doesn't quietly ignore them and
-build a bogus kernel without a human to read the errors. [MERGED]
-
-pkg_create(1) and pkg_add(1) can now work with packages that have
-been compressed using bzip2(1).  pkg_add(1) will use the
-PACKAGEROOT environment variable to determine a mirror site for new
-packages. [MERGED]
-
-pkg_info(1) can now accept a -g flag for verifying an installed
-package against its recorded checksums (to see if it's been modified
-post-installation).  Naturally, this mechanism is only as secure as
-the contents of /var/db/pkg if it's to be used for auditing
-purposes. [MERGED]
-
-pkg_version(1) now has a version number comparison routine that
-corresponds to the Porters Handbook.  It also has a -t option for
-testing address comparisons. [MERGED]
-
-libc is now thread-safe by default; libc_r contains only thread functions.
-
-find(1) now takes the -empty flag, which returns true if a file or
-directory is empty. [MERGED]
-
-find(1) now takes the -iname and -ipath primaries for case-insensitive
-matches, and the -regexp and -iregexp primaries for regular-expression
-matches.  The -E flag now enables extended regular
-expressions. [MERGED]
-
-find(1) now has the -anewer, -cnewer, -mnewer, -okdir, and
--newer[acm][acmt] primaries for comparisons of file timestamps. [MERGED]
-
-tftpd(8) now takes the -c and -C options, which allow the server to
-chroot(2) based on the IP address of the connecting client.  tftp(1)
-and tftpd(8) can now transfer files larger than 65535 blocks. [MERGED]
-
-vidcontrol(1) now accepts a -g parameter to select custom text
-geometry in the VESA_800x600 raster text mode. [MERGED]
-
-ldconfig(8) now checks directory ownerships and permissions for
-greater security; these checks can be disabled with the -i
-flag. [MERGED]
-
-The rfork_thread(3) library call has been added as a helper function
-to rfork(2).  Using this function should avoid the need to implement
-complex stack swap code. [MERGED]
-
-Significant additions have been made to internationalization support;
-FreeBSD now has complete locale support for the LC_MONETARY,
-LC_NUMERIC, and LC_MESSAGES categories.  A number of applications have
-been updated to take advantage of this support.
-
-A compat4x distribution has been added for compatibility with FreeBSD
-4-STABLE.
-
-The compat3x distribution has been updated to include libraries
-present in FreeBSD 3.5.1-RELEASE. [MERGED]
-
-savecore(8) now supports a -k option to prevent clearing a crash dump
-after saving it.  It also attempts to avoid writing large stretches of
-zeros to crash dump files to save space and time. [MERGED]
-
-When requested to delete multiple packages, pkg_delete(1) will now
-attempt to remove them in dependency order rather than the order
-specified on the command line. [MERGED]
-
-pkg_delete(1) now can perform glob/regexp matching of package names.
-In addition, it supports the -a option for removing all packages and
-the -i option for rm(1)-style interactive confirmation. [MERGED]
-
-tar(1) now supports the TAR_RSH variable, principally to enable the
-use of ssh(1) as a transport. [MERGED]
-
-disklabel(8) now supports partition sizes expressed in kilobytes,
-megabytes, or gigabytes, in addition to sectors. [MERGED]
-
-The pseudo-random number generator implemented by rand(3) has been
-improved to provide less biased results.
-
-login(1) now exports environment variables set by PAM
-modules. [MERGED]
-
-PAM support has been added for account management and sessions.
-
-Linux PAM has been updated to 0.75.
-
-The following PAM modules have been added: pam_krb5, pam_nologin,
-pam_rootok, pam_wheel.
-
-wall(1) now supports a -g flag to write a message to all users of a
-given group.
-
-The new CPUTYPE make.conf variable controls the compilation of
-processor-specific optimizations in various pieces of code such as
-OpenSSL. [MERGED]
-
-The default value for the CVS_RSH variable (used by cvs(1)) is now
-ssh, rather than rsh. [MERGED]
-
-bc has been updated from 1.04 to 1.06. [MERGED]
-
-ipfstat(8) now supports the -t option to turn on a top(1)-like
-display. [MERGED]
-
-The dreaded 'going nowhere without my init' bug that manifested itself
-while installing on hardware that had labeled disks connected (e.g. 
-with Tru64 on it) has been fixed. [MERGED]
-
-pkg_sign(1) and pkg_check(1) have been added to digitally sign and 
-verify the signatures on binary package files. [MERGED]
-
-/usr/src/share/examples/BSD_daemon/ now contains a scalable Beastie
-graphic. [MERGED]
-
-dump(8) now supports inheritance of the "nodump" flag down a
-hierarchy. [MERGED]
-
-The ISC DHCP client has been updated to 2.0pl5. [MERGED]
-
-split(1) now has the ability to split a file longer than 2GB. [MERGED]
-
-tail(1) now has the ability to work on files longer than 2GB. [MERGED]
-
-units(1) has received some updates and bugfixes. [MERGED]
-
-As part of an ongoing process, many manual pages were improved, both
-in terms of their formatting markup and in their content. [MERGED]
-
-pkg_create(1) now records dependencies in dependency order rather than
-in the order specified on the command line.  This improves the
-functioning of "pkg_add -r". [MERGED]
-
-"lprm -" now works for remote printer queues. [MERGED]
-
-ftpd(8) now supports a -r flag for read-only mode and a -E flag to
-disable EPSV.  It also has some fixes to reduce information leakage
-and the ability to specify compile-time port ranges. [MERGED]
-
-ping(8) now supports a -m option to set the TTL of outgoing
-packets. [MERGED]
-
-A version of Transport Independent RPC (TI-RPC) has been imported.
-
-rpcbind(8) has replaced portmap(8).
-
-NFS now works over IPv6.
-
-lockd has been imported from NetBSD.
-
-rc(8) now has an framework for handling dependencies between
-rc.conf(5) variables. [MERGED]
-
-rc(8) now deletes all non-directory files in /var/run and
-/var/spool/lock at boot time.
-
-The setfacl(1) and getfacl(1) commands have been added to manage
-file system Access Control Lists.
-
-ee(1) editor has been updated to 1.4.2.
-
-The default TCP port range used by libfetch for passive FTP retrievals
-has changed; this affects the behavior of fetch(1), which has gained the
--U option to restore the old behavior. [MERGED]
-
-atacontrol(8) has been added to control various aspects of the ata(4)
-driver.
-
-libcrypt now has support for Blowfish password hashing.
-
-The functions from libposix1e have been integrated into libc.
-
-GNATS has been updated to 3.113. [MERGED]
-
-BSDPAN, a collection of modules that provides tighter integration of
-Perl into the FreeBSD Ports Collection, has been added.
-
-vidcontrol(1) now allows the user to omit the font size specification
-when loading a font, and has some better error-handling.
-
-ip6fw(8) now has the ability to use a preprocessor and use the -q (quiet)
-flag when reading from a file. [MERGED]
-
-devinfo, a simple tool to print the device tree and resource usage by
-devices, has been added.
-
-A new kernel option, "options REGRESSION", enables interfaces and
-functionality intended for use during correctness and regression
-testing.
-
-fmtcheck(3), a function for checking consistency of format string
-arguments, has been added.
-
-nl(1), a line numbering filter program, has been added.
-
-c89(1) has been converted from a shell script to a binary executable,
-fixing some minor bugs.
-
-pax(1) has received a number of enhancements, including cpio(1)
-functionality, tar compatability enhancements, and a number of bug
-fixes.
-
-Ukranian language support has been added to the FreeBSD console.
-
-The performance of the ELF dynamic linker has been improved. [MERGED]
-
-fdread(1), a program to read data from floppy disks, has been added.
-It is designed to provide a means of recovering at least some data
-from bad media, and to obviate for a complex invocation of dd(1).
-
-xargs(1) now supports a -J replstr option that allows the user to tell
-xargs to insert the data read from standard input at a specific point
-in the command line arguments rather than at the end.
-
-apmd(8) now supports monitoring of the battery state via the
-apm_battery configuration directive.
-
-telnet(1) now does autologin and encryption by default; a new -y
-option turns off encryption.
-
-The Forth Inspired Command Language used in the boot loader has been
-updated to 2.05.
-
-
-2. Supported Configurations
----------------------------
-
-For an extensive overview of supported Alpha machines/mainboards please refer
-to the HARDWARE.TXT file.
-
-2.1. Disk Controllers
----------------------
-IDE
-ATA
-
-Adaptec 1535 ISA SCSI controllers
-Adaptec 154x series ISA SCSI controllers
-Adaptec AIC7850, AIC7860, AIC7880, AIC789x, on-board SCSI controllers.
-
-AdvanSys SCSI controllers (all models).
-
-BusLogic MultiMaster controllers:
-
-[ Please note that BusLogic/Mylex "Flashpoint" adapters are NOT yet supported ]
-
-BusLogic MultiMaster "W" Series Host Adapters:
-    BT-948, BT-958, BT-958D
-BusLogic MultiMaster "C" Series Host Adapters:
-    BT-946C, BT-956C, BT-956CD, BT-445C, BT-747C, BT-757C, BT-757CD, BT-545C,
-    BT-540CF
-BusLogic MultiMaster "S" Series Host Adapters:
-    BT-445S, BT-747S, BT-747D, BT-757S, BT-757D, BT-545S, BT-542D, BT-742A,
-    BT-542B
-BusLogic MultiMaster "A" Series Host Adapters:
-    BT-742A, BT-542B
-
-AMI FastDisk controllers that are true BusLogic MultiMaster clones are also
-supported.
-
-DPT SmartCACHE Plus, SmartCACHE III, SmartRAID III, SmartCACHE IV and
-SmartRAID IV SCSI/RAID controllers are supported.  The DPT SmartRAID/CACHE V
-is not yet supported.
-
-AMI MegaRAID Express and Enterprise family RAID controllers:
-    MegaRAID Series 418
-    MegaRAID Enterprise 1200 (Series 428)
-    MegaRAID Enterprise 1300 (Series 434)
-    MegaRAID Enterprise 1400 (Series 438)
-    MegaRAID Enterprise 1500 (Series 467)
-    MegaRAID Enterprise 1600 (Series 471)
-    MegaRAID Elite 1500 (Series 467)
-    MegaRAID Elite 1600 (Series 493)
-    MegaRAID Express 100 (Series 466WS)
-    MegaRAID Express 200 (Series 466)
-    MegaRAID Express 300 (Series 490)
-    MegaRAID Express 500 (Series 475)
-    Dell PERC
-    Dell PERC 2/SC
-    Dell PERC 2/DC
-    Dell PERC 3/DCL
-    HP NetRAID-1si
-    HP NetRAID-3si
-    HP Embedded NetRAID
-Booting from these controllers is supported, but not possible due to
-SRM limitations.
-
-Mylex DAC960 and DAC1100 RAID controllers with 2.x, 3.x, 4.x and 5.x
-firmware:
-    DAC960P
-    DAC960PD
-    DAC960PDU
-    DAC960PL
-    DAC960PJ
-    DAC960PG
-    AcceleRAID 150
-    AcceleRAID 250
-    eXtremeRAID 1100
-This list includes controllers sold by Digital/Compaq in Alpha systems
-in the StorageWorks family, eg. KZPSC, KZPAC.  Booting from these
-controllers is supported when recognised by SRM (typically Digital/
-Compaq models only, and only in systems where they are supported).
-EISA adapters are not supported.
-
-SymBios (formerly NCR) 53C810, 53C810a, 53C815, 53C820, 53C825a,
-53C860, 53C875, 53C875j, 53C885, 53C895 and 53C896 PCI SCSI controllers:
-        ASUS SC-200
-        Data Technology DTC3130 (all variants)
-	Diamond FirePort (all)
-        NCR cards (all)
-        Symbios cards (all)
-        Tekram DC390W, 390U and 390F
-        Tyan S1365
-
-Qlogic Controllers and variants:
-    Qlogic 1020, 1040 SCSI and Ultra SCSI host adapters
-    Qlogic 1240 dual Ultra SCSI controllers
-    Qlogic 1080 Ultra2 LVD and 1280 Dual Ultra2 LVD controllers
-    Qlogic 12160 Ultra3 LVD controllers
-    Qlogic 2100 and Qlogic 2200 Fibre Channel SCSI controllers
-    Performance Technology SBS440 ISP1000 variants
-    Performance Technology SBS450 ISP1040 variants
-    Performance Technology SBS470 ISP2100 variants
-    Antares Microsystems P-0033 ISP2100 variants
-
-With all supported SCSI controllers, full support is provided for
-SCSI-I & SCSI-II peripherals, including hard disks, optical disks,
-tape drives (including DAT and 8mm Exabyte), medium changers, processor
-target devices and CDROM drives.  WORM devices that support CDROM commands
-are supported for read-only access by the CDROM driver.  WORM/CD-R/CD-RW
-writing support is provided by cdrecord, which is in the ports tree.
-
-The following CD-ROM type systems are supported at this time:
-(cd)    SCSI interface
-(acd)   ATAPI IDE interface
-
-2.2. Ethernet cards
--------------------
-
-Adaptec Duralink PCI Fast Ethernet adapters based on the Adaptec
-AIC-6915 Fast Ethernet controller chip, including the following:
-  ANA-62011 64-bit single port 10/100baseTX adapter
-  ANA-62022 64-bit dual port 10/100baseTX adapter
-  ANA-62044 64-bit quad port 10/100baseTX adapter
-  ANA-69011 32-bit single port 10/100baseTX adapter
-  ANA-62020 64-bit single port 100baseFX adapter
-
-Allied-Telesis AT1700 and RE2000 cards
-
-Alteon Networks PCI Gigabit Ethernet NICs based on the Tigon 1 and Tigon 2
-chipsets, including the following:
-  Alteon AceNIC (Tigon 1 and 2)
-  3Com 3c985-SX (Tigon 1 and 2)
-  Netgear GA620 (Tigon 2)
-  Silicon Graphics Gigabit Ethernet
-  DEC/Compaq EtherWORKS 1000
-  NEC Gigabit Ethernet
-  Farallon PN9000SX
-  Asante PCI 1000BASE-SX Gigabit Ethernet Adapter
-  Asante GigaNIX1000T Gigabit Ethernet Adapter
-
-AMD PCnet/PCI (79c970 & 53c974 or 79c974)
-AMD PCnet/FAST, PCnet/FAST+, PCnet/FAST III, PCnet/PRO,
-PCnet/Home, and HomePNA.
-
-SMC Elite 16 WD8013 Ethernet interface, and most other WD8003E,
-WD8003EBT, WD8003W, WD8013W, WD8003S, WD8003SBT and WD8013EBT
-based clones.  SMC Elite Ultra.  SMC Etherpower II.
-
-RealTek 8129/8139 Fast Ethernet NICs including the following:
-  Allied Telesyn AT2550
-  Allied Telesyn AT2500TX
-  Genius GF100TXR (RTL8139)
-  NDC Communications NE100TX-E
-  OvisLink LEF-8129TX
-  OvisLink LEF-8139TX
-  Netronix Inc. EA-1210 NetEther 10/100
-  KTX-9130TX 10/100 Fast Ethernet
-  Accton "Cheetah" EN1207D (MPX 5030/5038; RealTek 8139 clone)
-  SMC EZ Card 10/100 PCI 1211-TX
-
-Lite-On 82c168/82c169 PNIC Fast Ethernet NICs including the following:
-  LinkSys EtherFast LNE100TX
-  NetGear FA310-TX Rev. D1
-  Matrox FastNIC 10/100
-  Kingston KNE110TX
-
-Macronix 98713, 98713A, 98715, 98715A and 98725 Fast Ethernet NICs
-  Accton EN1217 (98715A)
-  Adico AE310TX (98715A)
-  Compex RL100-TX
-  CNet Pro120A (98713 or 98713A)
-  CNet Pro120B (98715)
-  NDC Communications SFA100A (98713A)
-  SVEC PN102TX (98713)
-
-Macronix/Lite-On PNIC II LC82C115 Fast Ethernet NICs including the following:
-  LinkSys EtherFast LNE100TX Version 2
-
-Winbond W89C840F Fast Ethernet NICs including the following:
-  Trendware TE100-PCIE
-
-VIA Technologies VT3043 "Rhine I" and VT86C100A "Rhine II" Fast Ethernet
-NICs including the following:
-  Hawking Technologies PN102TX
-  D-Link DFE-530TX
-  AOpen/Acer ALN-320
-
-Silicon Integrated Systems SiS 900 and SiS 7016 PCI Fast Ethernet NICs
-
-National Semiconductor DP83815 Fast Ethernet NICs including the following:
-  NetGear FA311-TX
-  NetGear FA312-TX
-
-National Semiconductor DP83820 and DP83821 Gigabit Ethernet NICs including
-the following:
-    D-Link DGE-500T
-    SMC EZ Card 1000 (SMC9462TX)
-    Asante FriendlyNet GigaNIC 1000TA and 1000TPC
-    Addtron AEG320T
-
-Sundance Technologies ST201 PCI Fast Ethernet NICs including
-the following:
-  D-Link DFE-550TX
-
-SysKonnect SK-984x PCI Gigabit Ethernet cards including the following:
-  SK-9841 1000baseLX single mode fiber, single port
-  SK-9842 1000baseLX single mode fiber, dual port
-  SK-9843 1000baseSX multimode fiber, single port
-  SK-9844 1000baseSX multimode fiber, dual port
-  SK-9821 1000baseT copper, single port
-  SK-9822 1000baseT copper, dual port
-
-Texas Instruments ThunderLAN PCI NICs, including the following:
-  Compaq Netelligent 10, 10/100, 10/100 Proliant, 10/100 Dual-Port
-  Compaq Netelligent 10/100 TX Embedded UTP, 10 T PCI UTP/Coax, 10/100 TX UTP
-  Compaq NetFlex 3P, 3P Integrated, 3P w/ BNC
-  Olicom OC-2135/2138, OC-2325, OC-2326 10/100 TX UTP
-  Racore 8165 10/100baseTX
-  Racore 8148 10baseT/100baseTX/100baseFX multi-personality
-
-ADMtek Inc. AL981-based PCI Fast Ethernet NICs
-ADMtek Inc. AN985-based PCI Fast Ethernet NICs
-ADMtek Inc. AN986-based USB Ethernet NICs including the following:
-  LinkSys USB100TX
-  Billionton USB100
-  Melco Inc. LUA-TX
-  D-Link DSB-650TX
-  SMC 2202USB
-
-CATC USB-EL1210A-based USB Ethernet NICs including the following:
-  CATC Netmate
-  CATC Netmate II
-  Belkin F5U111
-
-Kawasaki LSI KU5KUSB101B-based USB Ethernet NICs including
-the following:
-  LinkSys USB10T
-  Entrega NET-USB-E45
-  Peracom USB Ethernet Adapter
-  3Com 3c19250
-  ADS Technologies USB-10BT
-  ATen UC10T
-  Netgear EA101
-  D-Link DSB-650
-  SMC 2102USB
-  SMC 2104USB
-  Corega USB-T
-
-ASIX Electronics AX88140A PCI NICs, including the following:
-  Alfa Inc. GFC2204
-  CNet Pro110B
-
-DEC EtherWORKS III NICs (DE203, DE204, and DE205)
-DEC EtherWORKS II NICs (DE200, DE201, DE202, and DE422)
-DEC DC21040, DC21041, or DC21140 based NICs (SMC Etherpower 8432T, DE245, etc)
-
-DEC/Intel 21143 based Fast Ethernet NICs, including the following:
-  DEC DE500-BA
-  Compaq Presario 7900 series built-in Ethernet
-  D-Link DFE-570TX
-  Kingston KNE100TX
-  LinkSys EtherFast 10/100 Instant GigaDrive built-in Ethernet
-
-Davicom DM9100 and DM9102 PCI Fast Ethernet NICs, including the
-following:
-  Jaton Corporation XpressNet
-
-Fujitsu MB86960A/MB86965A
-
-HP PC Lan+ cards (model numbers: 27247B and 27252A).
-
-Intel EtherExpress 16
-Intel EtherExpress Pro/10
-Intel EtherExpress Pro/100B PCI Fast Ethernet
-
-Isolan AT 4141-0 (16 bit)
-Isolink 4110     (8 bit)
-
-Novell NE1000, NE2000, and NE2100 Ethernet interface.
-
-PCI network cards emulating the NE2000: RealTek 8029, NetVin 5000,
-Winbond W89C940, Surecom NE-34, VIA VT86C926.
-
-3Com 3C501 cards
-
-3Com 3C503 Etherlink II
-
-3Com 3c505 Etherlink/+
-
-3Com 3C507 Etherlink 16/TP
-
-3Com 3C509, 3C579, 3C590/592/595/900/905/905B/905C PCI
-(Fast) Etherlink III / (Fast) Etherlink XL
-
-3Com 3c980/3c980B Fast Etherlink XL server adapter
-
-3Com 3cSOHO100-TX OfficeConnect adapter
-
-Toshiba Ethernet cards
-
-Crystal Semiconductor CS89x0-based NICs, including:
-  IBM Etherjet ISA
-
-Note that NO token ring cards are supported at this time as we're
-still waiting for someone to donate a driver for one of them.  Any
-takers?
-
-
-2.3. FDDI
----------
-
-Digital Equipment DEFPA PCI adapters are supported.,
-
-
-2.4. ATM
---------
-
-   o ATM Host Interfaces
-        - FORE Systems, Inc. PCA-200E ATM PCI Adapters
-        - Efficient Networks, Inc. ENI-155p ATM PCI Adapters
-
-   o ATM Signaling Protocols
-        - The ATM Forum UNI 3.1 signaling protocol
-        - The ATM Forum UNI 3.0 signaling protocol
-        - The ATM Forum ILMI address registration
-        - FORE Systems' proprietary SPANS signaling protocol
-        - Permanent Virtual Channels (PVCs)
-
-   o IETF "Classical IP and ARP over ATM" model
-        - RFC 1483, "Multiprotocol Encapsulation over ATM Adaptation Layer 5"
-        - RFC 1577, "Classical IP and ARP over ATM"
-        - RFC 1626, "Default IP MTU for use over ATM AAL5"
-        - RFC 1755, "ATM Signaling Support for IP over ATM"
-        - RFC 2225, "Classical IP and ARP over ATM"
-        - RFC 2334, "Server Cache Synchronization Protocol (SCSP)"
-        - Internet Draft draft-ietf-ion-scsp-atmarp-00.txt,
-                "A Distributed ATMARP Service Using SCSP"
-
-   o ATM Sockets interface
-
-
-2.5. Misc
----------
-
-AST 4 port serial card using shared IRQ.
-
-ARNET 8 port serial card using shared IRQ.
-ARNET (now Digiboard) Sync 570/i high-speed serial.
-
-Boca BB1004 4-Port serial card (Modems NOT supported)
-Boca IOAT66 6-Port serial card (Modems supported)
-Boca BB1008 8-Port serial card (Modems NOT supported)
-Boca BB2016 16-Port serial card (Modems supported)
-
-Comtrol Rocketport card.
-
-Cyclades Cyclom-y Serial Board.
-
-STB 4 port card using shared IRQ.
-
-SDL Communications Riscom/8 Serial Board.
-SDL Communications RISCom/N2 and N2pci high-speed sync serial boards.
-
-Stallion multiport serial boards: EasyIO, EasyConnection 8/32 & 8/64,
-ONboard 4/16 and Brumby.
-
-Specialix SI/XIO/SX ISA, PCI serial expansion cards/modules.
-
-Advance Asound 100, 110 and Logic ALS120
-Crystal Semiconductor CS461x/462x/428x
-ENSONIQ AudioPCI ES1370/1371
-ESS ES1868, ES1869, ES1879 and ES1888
-ESS Maestro-1, Maestro-2, and Maestro-2E
-ForteMedia fm801
-Gravis UltraSound MAX/PnP
-MSS/WSS Compatible DSPs
-NeoMagic 256AV/ZX
-OPTi 931/82C931
-SoundBlaster, Soundblaster Pro, Soundblaster AWE-32, Soundblaster AWE-64
-Trident 4DWave DX/NX
-VIA Technologies VT82C686A
-Yamaha DS1 and DS1e
-(newpcm driver)
-
-Connectix QuickCam
-Matrox Meteor Video frame grabber
-Creative Labs Video Spigot frame grabber
-Cortex1 frame grabber
-Hauppauge Wincast/TV boards (PCI)
-STB TV PCI
-Intel Smart Video Recorder III
-Various Frame grabbers based on Brooktree Bt848 / Bt878 chip.
-
-HP4020, HP6020, Philips CDD2000/CDD2660 and Plasmon CD-R drives.
-
-PS/2 mice
-
-Standard PC Joystick
-
-X-10 power controllers
-
-GPIB and Transputer drivers.
-
-Genius and Mustek hand scanners.
-
-Xilinx XC6200 based reconfigurable hardware cards compatible with
-the HOT1 from Virtual Computers (www.vcc.com)
-
-Support for Dave Mills experimental Loran-C receiver.
-
-Lucent Technologies WaveLAN/IEEE 802.11 ISA standard speed
-(2Mbps) and turbo speed (6Mbps) wireless network adapters and workalikes
-(NCR WaveLAN/IEEE 802.11, Cabletron RoamAbout 802.11 DS). Note: the
-ISA versions of these adapters are actually PCMCIA cards combined with
-an ISA to PCMCIA bridge card, so both kinds of devices work with
-the same driver.
-
-Aironet 4500/4800 series 802.11 wireless adapters. The PCI and ISA
-models are supported for the Alpha architecture.
-
-3. Obtaining FreeBSD
---------------------
-
-You may obtain FreeBSD in a variety of ways:
-
-3.1. FTP/Mail
--------------
-
-You can ftp FreeBSD and any or all of its optional packages from
-`ftp.FreeBSD.org' - the official FreeBSD release site.
-
-For other locations that mirror the FreeBSD software see the file
-MIRROR.SITES.  Please ftp the distribution from the site closest (in
-networking terms) to you.  Additional mirror sites are always welcome!
-Contact freebsd-admin@FreeBSD.org for more details if you'd like to
-become an official mirror site.
-
-If you do not have access to the Internet and electronic mail is your
-only recourse, then you may still fetch the files by sending mail to
-`ftpmail@ftpmail.vix.com' - putting the keyword "help" in your message
-to get more information on how to fetch files using this mechanism.
-Please do note, however, that this will end up sending many *tens of
-megabytes* through the mail and should only be employed as an absolute
-LAST resort!
-
-
-3.2. CDROM
-----------
-
-FreeBSD 4.x-RELEASE and 3.x-RELEASE CDs may be ordered on CDROM from:
-
-        BSDi / Walnut Creek CDROM
-        4041 Pike Lane, Suite D
-        Concord CA  94520
-        USA
-        +1-800-786-9907, +1-925-674-0783, +1-925-674-0821 (FAX)
-
-Or via the Internet from orders@cdrom.com or http://www.cdrom.com.
-Their current catalog can be obtained via ftp from:
-
-        ftp://ftp.cdrom.com/cdrom/catalog
-
-Cost per -RELEASE CD is $39.95 or $24.95 with a FreeBSD subscription.
-FreeBSD SNAPshot CDs, when available, are $39.95 or $14.95 with a
-FreeBSD-SNAP subscription (-RELEASE and -SNAP subscriptions are entirely
-separate).  With a subscription, you will automatically receive updates as
-they are released.  Your credit card will be billed when each disk is
-shipped and you may cancel your subscription at any time without further
-obligation.
-
-Shipping (per order not per disc) is $5 in the US, Canada or Mexico
-and $9.00 overseas.  They accept Visa, Mastercard, Discover, American
-Express or checks in U.S. Dollars and ship COD within the United
-States.  California residents please add 8.25% sales tax.
-
-Should you be dissatisfied for any reason, the CD comes with an
-unconditional return policy.
-
-
-4. Upgrading from previous releases of FreeBSD
-----------------------------------------------
-
-If you're upgrading from a previous release of FreeBSD, most likely
-it's 3.0 and there may be some issues affecting you, depending
-of course on your chosen method of upgrading.  There are two popular
-ways of upgrading FreeBSD distributions:
-
-        o Using sources, via /usr/src
-        o Using sysinstall's (binary) upgrade option.
-
-Please read the UPGRADE.TXT file for more information, preferably
-before beginning an upgrade.
-
-
-5. Reporting problems, making suggestions, submitting code.
------------------------------------------------------------
-Your suggestions, bug reports and contributions of code are always
-valued - please do not hesitate to report any problems you may find
-(preferably with a fix attached, if you can!).
-
-The preferred method to submit bug reports from a machine with
-Internet mail connectivity is to use the send-pr command or use the CGI
-script at http://www.FreeBSD.org/send-pr.html.  Bug reports
-will be dutifully filed by our faithful bugfiler program and you can
-be sure that we'll do our best to respond to all reported bugs as soon
-as possible.  Bugs filed in this way are also visible on our WEB site
-in the support section and are therefore valuable both as bug reports
-and as "signposts" for other users concerning potential problems to
-watch out for.
-
-If, for some reason, you are unable to use the send-pr command to
-submit a bug report, you can try to send it to:
-
-                freebsd-bugs@FreeBSD.org
-
-Note that send-pr itself is a shell script that should be easy to move
-even onto a totally different system.  We much prefer if you could use
-this interface, since it make it easier to keep track of the problem
-reports.  However, before submitting, please try to make sure whether
-the problem might have already been fixed since.
-
-
-Otherwise, for any questions or tech support issues, please send mail to:
-
-                freebsd-questions@FreeBSD.org
-
-
-If you're tracking the -current development efforts, you should
-definitely join the -current mailing list, in order to keep abreast
-of recent developments and changes that may affect the way you
-use and maintain the system:
-
-		freebsd-current@FreeBSD.org
-
-
-Additionally, being a volunteer effort, we are always happy to have
-extra hands willing to help - there are already far more desired
-enhancements than we'll ever be able to manage by ourselves!  To
-contact us on technical matters, or with offers of help, please send
-mail to:
-
-                freebsd-hackers@FreeBSD.org
-
-
-Please note that these mailing lists can experience *significant*
-amounts of traffic and if you have slow or expensive mail access and
-are only interested in keeping up with significant FreeBSD events, you
-may find it preferable to subscribe instead to:
-
-                freebsd-announce@FreeBSD.org
-
-
-All of the mailing lists can be freely joined by anyone wishing
-to do so.  Send mail to MajorDomo@FreeBSD.org and include the keyword
-`help' on a line by itself somewhere in the body of the message.  This
-will give you more information on joining the various lists, accessing
-archives, etc.  There are a number of mailing lists targeted at
-special interest groups not mentioned here, so send mail to majordomo
-and ask about them!
-
-
-6. Acknowledgments
-------------------
-
-FreeBSD represents the cumulative work of many hundreds, if not
-thousands, of individuals from around the world who have worked very
-hard to bring you this release.  For a complete list of FreeBSD
-project staffers, please see:
-
-        http://www.FreeBSD.org/handbook/staff.html
-
-or, if you've loaded the doc distribution:
-
-        file:/usr/share/doc/handbook/staff.html
-
-Special thanks also go to the many thousands of FreeBSD users and testers
-all over the world, without whom this release simply would not have been
-possible.
-
-                        The FreeBSD Project
-
-$FreeBSD$
diff --git a/release/texts/i386/INSTALL.TXT b/release/texts/i386/INSTALL.TXT
deleted file mode 100644
index 2b4b487..0000000
--- a/release/texts/i386/INSTALL.TXT
+++ /dev/null
@@ -1,545 +0,0 @@
-+=====================  Installing FreeBSD  ==========================+
-|                                                                     |
-| Table of Contents:                                                  |
-|                                                                     |
-| 0.0     Quick Start:                                                |
-|         0.1     Installing FreeBSD from CDROM or the Internet.      |
-|                                                                     |
-| 1.0     Detail on various installation types:                       |
-|         1.1     Installing from a network CDROM                     |
-|         1.2     Installing from Floppies                            |
-|         1.3     Installing from a DOS partition                     |
-|         1.4     Installing from QIC/SCSI tape                       |
-|         1.5     Installing over a network using NFS or FTP          |
-|                 1.5.1   NFS Installation tips                       |
-|                 1.5.2   FTP Installation tips                       |
-|         1.6     Tips for Serial Console Users                       |
-|                                                                     |
-| 2.0     DOS User's Q&A section.                                     |
-|         2.1     How do I make space for FreeBSD?                    |
-|         2.2     Can I use compressed DOS filesystems from FreeBSD?  |
-|         2.3     Can I use DOS extended partitions?                  |
-|         2.4     Can I run DOS executables under FreeBSD?            |
-|                                                                     |
-+=====================================================================+
-
-Author:         Jordan K. Hubbard
-Last updated:   Fri Mar 16 14:47:31 PST 2001
-
-0.0     Quick Start
----     -----------
-
-This manual documents the process of making a new installation of
-FreeBSD on your machine.  If you are upgrading from a previous
-release of FreeBSD, please see the file UPGRADE.TXT for important
-information on upgrading.  If you are not familiar with configuring
-PC hardware for FreeBSD, you should also read the HARDWARE.TXT file -
-it contains important information which may save you a lot of grief.
-
-If you're new to FreeBSD then you should also read EVERYTHING listed
-in the Documentation menu of the installer.  It may seem like a lot
-to read, but the time you spend now reading the documents will be made
-up many times over because you were adequately prepared. Also, you will
-know the types of information available should you get stuck later.
-Once the system is installed, you can also revisit this menu and use a 
-WEB browser to read the installed FAQ (Frequently Asked Questions) and 
-Handbook HTML documentation sets for FreeBSD.  You can also use the 
-browser to visit other WEB sites on the net (like http://www.freebsd.org)
-if you have an Internet connection. See ABOUT.TXT for more information
-on the resources available to you.
-
-The best laid plans sometimes go awry, so if you run into trouble take a 
-look at TROUBLE.TXT which contains valuable troubleshooting information.
-You should also read ERRATA.TXT before installing and follow the pointers
-there carefully since this will stop you from falling over any problems
-which have reported in the interim for your particular release.
-
-DISCLAIMER: While FreeBSD does its best to safeguard against
-accidental loss of data, it's still more than possible to WIPE OUT
-YOUR ENTIRE DISK with this installation if you make a mistake!  Please
-do not proceed to the final FreeBSD installation menu unless you've
-adequately backed up any important data first!  We really mean it!
-
-FreeBSD requires a 386 or better processor to run (sorry, there is no
-support for '286 processors) and at least 5 megs of RAM to install
-and 4 megs of RAM to run. You will need at least 100MB of free hard
-drive space for the most minimal installation.  See below for ways of
-shrinking existing DOS partitions in order to install FreeBSD.
-
-
-0.1     Installing FreeBSD from CDROM or the Internet
----     ---------------------------------------------
-
-The easiest type of installation is from CD.  If you have a supported
-CDROM drive and a FreeBSD installation CD from Walnut Creek CDROM,
-there are 2 ways of starting the installation from it:
-
-        1. If your system supports bootable CDROM media (usually an option
-           which can be selectively enabled in the controller's setup menu
-           or in the PC BIOS for some systems) and you have it enabled,
-           FreeBSD supports the "El Torrito" bootable CD standard.  Simply
-           put the installation CD in your CDROM drive and boot the system
-           to begin installation.
-
-        2. Build a set of FreeBSD boot floppies from the floppies/
-           directory in every FreeBSD distribution.  Either simply use the
-           ``makeflp.bat'' script from DOS or read floppies/README.TXT
-           for more information on creating the bootable floppies under
-           different operating systems.  Then you simply boot from the
-           first floppy and you should soon be in the FreeBSD installation.
-
-If you don't have a CDROM and would like to simply install over the
-net using PPP, slip or a dedicated connection, simply fetch the
-<FreeBSD-release>/floppies/boot.flp file from:
-
-        ftp://ftp.freebsd.org/pub/FreeBSD
-
-or one of its many mirrors (http://www.freebsd.org/handbook/mirrors.html)
-and follow step 3 above.  You should also read the floppies/README.TXT
-file as it contains important information for downloaders.
-
-Once you have your boot floppies made, please go to section 1.5 of this
-document for additional tips on installing via FTP or NFS.
-
-
-1.0     Detail on various installation types
----     ------------------------------------
-
-Once you've gotten yourself to the initial installation screen somehow,
-you should be able to follow the various menu prompts and go from there.
-If you've never used the FreeBSD installation before, you are also
-encouraged to read some of the documentation in the the Documentation
-submenu as well as the general "Usage" instructions on the first menu.
-
-   NOTE:  If you get stuck at a screen, hit the F1 key for online
-   documentation relevant to that specific section.
-
-If you've never installed FreeBSD before, or even if you have, the
-"Standard" installation mode is the most recommended since it makes sure
-that you'll visit all the various important checklist items along the
-way.  If you're much more comfortable with the FreeBSD installation
-process and know _exactly_ what you want to do, use the Express or
-Custom installation options.  If you're upgrading an existing system,
-use the Upgrade option.
-
-The FreeBSD installer supports the direct use of floppy, DOS, tape,
-CDROM, FTP, NFS and UFS partitions as installation media, further tips
-on installing from each type of media listed below.
-
-
-1.1     Installing from a network CDROM
----     -------------------------------
-
-If you simply wish to install from a local CDROM drive then see the
-Quick Start section.  If you don't have a CDROM drive on your system
-and wish to use a FreeBSD distribution CD in the CDROM drive of
-another system to which you have network connectivity, there are also
-several ways of going about it:
-
-1. If you would be able to FTP install FreeBSD directly from the CDROM
-   drive in some FreeBSD machine, it's quite easy: You simply add the
-   following line to the password file (using the vipw command):
-
-        ftp:*:99:99::0:0:FTP:/cdrom:/sbin/nologin
-
-   Warning:  This may allow anyone on the local network (or Internet) to
-   make "anonymous FTP" connections to this machine, which may not be 
-   desirable.
-
-   On the machine on which you are running the install, go to the "Options"
-   menu and set "Release Name" to "any".  You may then choose a Media
-   type of FTP and type in: ``ftp://<machine with CDROM drive>'' after
-   picking "URL" in the ftp sites menu.
-
-2. If you would rather use NFS to export the CDROM directly to the
-   machine(s) you'll be installing from, you need to first add an
-   entry to the /etc/exports file (on the machine with the CDROM drive)
-   which looks something like this:
-
-        /cdrom          -ro             ziggy.foo.com
-
-   To allow the machine "ziggy.foo.com" to mount the CDROM directly
-   via NFS during installation.  The machine with the CDROM must also
-   be configured as an NFS server, of course, and if you're not sure how
-   to do that then an NFS installation is probably not the best choice
-   for you unless you're willing to read up on rc.conf(5) and configure
-   things appropriately.  Assuming that this part goes smoothly, you
-   should be able to enter:  cdrom-host:/cdrom as the path for an NFS
-   installation when the target machine is installed, e.g. wiggy:/cdrom
-
-
-1.2     Installing from Floppies
----     ------------------------
-
-If you must install from floppy disks, either due to unsupported
-hardware or just because you enjoy doing things the hard way, you must
-first prepare some floppies for the install.
-
-First, make your boot floppies as described in floppies/README.TXT
-
-Second, read the file LAYOUT.TXT and pay special attention to the
-"Distribution format" section since it describes which files you're
-going to need to put onto floppy and which you can safely skip.
-
-Next you will need, at minimum, as many 1.44MB floppies as it takes to
-hold all files in the bin (binary distribution) directory.  If you're
-preparing these floppies under DOS, then THESE floppies *must* be
-formatted using the MS-DOS FORMAT command.  If you're using Windows,
-use the Windows File Manager format command.
-
-Don't trust Factory Preformatted floppies!  Format them again
-yourself, just to make sure.  Many problems reported by our users in
-the past have resulted from the use of improperly formatted media,
-which is why I'm taking such special care to mention it here!
-
-If you're creating the floppies from another FreeBSD machine, a format
-is still not a bad idea though you don't need to put a DOS filesystem
-on each floppy.  You can use the `disklabel' and `newfs' commands to
-put a UFS filesystem on a floppy, as the following sequence of
-commands illustrates:
-
-        fdformat -f 1440 fd0.1440
-        disklabel -w -r fd0.1440 floppy3
-        newfs -t 2 -u 18 -l 1 -i 65536 /dev/fd0
-
-After you've formatted the floppies for DOS or UFS, you'll need to
-copy the files onto them.  The distribution files are split into
-chunks conveniently sized so that 5 of them will fit on a conventional
-1.44MB floppy.  Go through all your floppies, packing as many files as
-will fit on each one, until you've got all the distributions you want
-packed up in this fashion.  Each distribution should go into its own
-subdirectory on the floppy, e.g.: a:\bin\bin.inf, a:\bin\bin.aa,
-a:\bin\bin.ab, ...
-
-IMPORTANT NOTE: The bin.inf file also needs to go on the first floppy
-of the bin set since it is read by the installation program in order
-to figure out how many additional pieces to look for when fetching and
-concatenating the distribution.  When putting distributions onto
-floppies, the <distname>.inf file MUST occupy the first floppy of each
-distribution set!  This is also covered in ABOUT.TXT
-
-Once you come to the Media screen of the install, select "Floppy" and
-you'll be prompted for the rest.
-
-
-1.3     Installing from a DOS partition
----     -------------------------------
-
-To prepare for installation from an MS-DOS partition you should simply
-copy the files from the distribution into a directory called
-"FREEBSD" on the Primary DOS partition ("Drive C:").  For example, to do
-a minimal installation of FreeBSD from DOS using files copied from the
-CDROM, you might do something like this:
-
-        C:\> MD C:\FREEBSD
-        C:\> XCOPY /S E:\BIN C:\FREEBSD\BIN
-
-Assuming that `E:' was where your CD was mounted.
-
-For as many `DISTS' as you wish to install from DOS (and you have free
-space for), install each one in a directory under `C:\FREEBSD' - the
-BIN dist is only the minimal requirement.
-
-Once you've copied the directories, you can simply launch the installation
-from floppies as normal and select "DOS" as your media type when the time
-comes.
-
-
-1.4     Installing from QIC/SCSI Tape
----     -----------------------------
-
-When installing from tape, the installation program expects the files
-to be simply tar'ed onto it, so after fetching all of the files for
-the distributions you're interested in, simply tar them onto the tape
-with a command something like this:
-
-        cd /where/you/have/your/dists
-        tar cvf /dev/rwt0 (or /dev/rsa0) dist1 .. dist2
-
-When you go to do the installation, you should also make sure that you
-leave enough room in some temporary directory (which you'll be allowed
-to choose) to accommodate the FULL contents of the tape you've
-created.  Due to the non-random access nature of tapes, this method of
-installation requires quite a bit of temporary storage!  You should
-expect to require as much temporary storage as you have stuff written
-on tape.
-
-SPECIAL NOTE: When going to do the installation, the tape must be in
-the drive *before* booting from the boot floppies.  The installation
-"probe" may otherwise fail to find it.
-
-Now create a boot floppy as described in section 0.1 and proceed with
-the installation.
-
-
-1.5     Installing over a network using FTP or NFS
----     ------------------------------------------
-
-After making the boot floppies as described in the first section, you can
-load the rest of the installation over a network using one of 3 types
-of connections:
-
-        Serial port:    SLIP / PPP
-        Parallel port:  PLIP (using ``laplink'' style cable)
-        Ethernet:       A standard Ethernet controller (including
-                        certain PCCARD devices).
-
-Serial Port
------------
-
-SLIP support is rather primitive, and is limited primarily to
-hard-wired links, such as a serial cable running between two
-computers.  The link must be hard-wired because the SLIP installation
-doesn't currently offer a dialing capability.  If you need to dial out
-with a modem or otherwise dialog with the link before connecting to
-it, then I recommend that the PPP utility be used instead.
-
-If you're using PPP, make sure that you have your Internet Service
-Provider's IP address and DNS information handy as you'll need to know
-it fairly early in the installation process.  You may also need to
-know your own IP address, though PPP supports dynamic address
-negotiation and may be able to pick up this information directly from
-your ISP if they support it.
-
-You will also need to know how to use the various "AT commands" for
-dialing out with your particular brand of modem as the PPP dialer
-provides only a very simple terminal emulator.
-
-
-Parallel Port
--------------
-
-If a hard-wired connection to another FreeBSD or Linux machine is
-available, you might also consider installing over a "laplink" style
-parallel port cable.  The data rate over the parallel port is much
-higher than what is typically possible over a serial line (up to
-50k/sec), thus resulting in a quicker installation.  It's not
-typically necessary to use "real" IP addresses when using a
-point-to-point parallel cable in this way and you can generally just
-use RFC 1918 style addresses for the ends of the link (e.g. 10.0.0.1,
-10.0.0.2, etc).
-
-IMPORTANT NOTE: If you use a Linux machine rather than a FreeBSD
-machine as your PLIP peer, you will also have to specify "link0" in
-the TCP/IP setup screen's ``extra options for ifconfig'' field in
-order to be compatible with Linux's slightly different PLIP protocol.
-
-
-Ethernet
---------
-
-FreeBSD supports most common PC Ethernet cards, a table of supported
-cards (and their required settings) being provided as part of the
-FreeBSD Hardware Guide (see the Documentation menu on the boot floppy
-or the top level directory of the CDROM).  If you are using one of the
-supported PCMCIA Ethernet cards, also be sure that it's plugged in
-_before_ the laptop is powered on!  FreeBSD does not, unfortunately,
-currently support "hot insertion" of PCMCIA cards during installation.
-
-You will also need to know your IP address on the network, the
-"netmask" value for your address class and the name of your machine.
-Your system administrator can tell you which values are appropriate to
-your particular network setup.  If you will be referring to other
-hosts by name rather than IP address, you'll also need a name server
-and possibly the address of a gateway (if you're using PPP, it's your
-provider's IP address) to use in talking to it.  If you want to install
-by FTP via an HTTP proxy (see below), you will also need the proxy's
-address.
-
-If you do not know the answers to these questions then you should
-really probably talk to your system administrator _first_ before
-trying this type of installation!  Using a randomly chosen IP address
-or netmask on a live network will almost certainly get you shot at
-dawn.
-
-Once you have a network connection of some sort working, the
-installation can continue over NFS or FTP.
-
-
-1.5.1   NFS installation tips
------   ---------------------
-
-        NFS installation is fairly straight-forward: Simply copy the
-        FreeBSD distribution files you want onto a server somewhere
-        and then point the NFS media selection at it.
-
-        If this server supports only "privileged port" access (as is
-        generally the default for Sun and Linux workstations), you
-        will need to set this option in the Options menu before
-        installation can proceed.
-
-        If you have a poor quality Ethernet card which suffers from very
-        slow transfer rates, you may also wish to toggle the appropriate
-        Options flag.
-
-        In order for NFS installation to work, the server must also support
-        "subdir mounts", e.g. if your FreeBSD distribution directory lives
-        on:  wiggy:/usr/archive/stuff/FreeBSD
-        Then wiggy will have to allow the direct mounting of
-        /usr/archive/stuff/FreeBSD, not just /usr or /usr/archive/stuff.
-
-        In FreeBSD's /etc/exports file this is controlled by the
-        ``-alldirs'' option.  Other NFS servers may have different
-        conventions.  If you are getting `Permission Denied' messages
-        from the server then it's likely that you don't have this
-        properly enabled!
-
-
-1.5.2   FTP Installation tips
------   ---------------------
-
-        FTP installation may be done from any mirror site containing a
-        reasonably up-to-date version of FreeBSD.  A full menu of
-        reasonable choices for almost any location in the world is
-        provided in the FTP site menu during installation.
-
-        If you are installing from some other FTP site not listed in
-        this menu, or you are having troubles getting your name server
-        configured properly, you can also specify your own URL by
-        selecting the ``URL'' choice in that menu.  A URL can
-        contain a hostname or an IP address, so the following would
-        work in the absence of a name server:
-
-                ftp://192.216.191.11/pub/FreeBSD
-
-        There are three FTP installation modes you can use:
-
-           o FTP:
-
-             This method uses the standard "Active" mode for file
-             transfers which allows the server to initiate a connection
-             to the client.  This will not work through most firewalls
-             but will often work best with older FTP servers that do
-             not support passive mode.  If your connection hangs with
-             passive mode, try this one!
-
-           o FTP Passive:
-
-             This sets the FTP "Passive" mode which prevents the
-             server from opening connections to the client.  This
-             option is best for users to pass through firewalls that
-             do not allow incoming connections on random port
-             addresses.
-
-           o FTP via an HTTP proxy:
-
-             This option instructs FreeBSD to use HTTP to connect to a
-             proxy for all FTP operations.  The proxy will translate
-             the requests and send them to the FTP server.  This
-             allows the user to pass through firewalls that do not
-             allow FTP at all, but offer an HTTP proxy.  You must
-             specify the hostname of the proxy in addition to the FTP
-             server.
-
-        In the rare case that you have an FTP proxy that does not go
-        through HTTP, you can specify the URL as something like :
-
-                ftp://foo.bar.com:1234/pub/FreeBSD
-
-        Where "1234" is the port number of the proxy ftp server.
-
-
-1.6     Tips for Serial Console Users
----     -----------------------------
-
-If you'd like to install FreeBSD on a machine using just a serial
-port (e.g. you don't have or wish to use a VGA card), please follow
-these steps.
-
-        1. Connect some sort of ANSI (vt100) compatible terminal or terminal
-           emulation program to the COM1 port of the PC you are installing
-           FreeBSD onto.
-
-        2. Unplug the keyboard (yes, that's correct!) and then try to boot
-           from floppy or the installation CDROM, depending on the type of
-           installation media you have, with the keyboard unplugged.
-
-        3. If you don't get any output on your serial console, plug
-           the keyboard in again and wait for some beeps.  If you are
-           booting from the CDROM, proceed to Step 5 as soon as you hear
-           the beep.
-
-        4. For a floppy boot, the first beep means to remove the
-           kern.flp floppy and insert the mfsroot.flp floppy, after
-           which you should press enter and wait for another beep.
-
-        5. Hit the space bar, then enter
-
-               boot -h
-
-           and you should now definitely be seeing everything on the
-           serial port.  If that still doesn't work, check your serial
-           cabling as well as the settings on your terminal emulation
-           program or actual terminal device.  It should be set for
-           9600 baud, 8 bits, no parity.
-
-
-2.0     DOS user's Question and Answer section
----     --------------------------------------
-
-2.1     Help!  I have no space!  Do I need to delete everything first?
----     --------------------------------------------------------------
-
-If your machine is already running DOS and has little or no free space
-available for FreeBSD's installation, all is not lost!  You may find
-the "FIPS" utility, provided in the tools/ subdirectory on the FreeBSD
-CDROM or on the various FreeBSD ftp sites, to be quite useful.
-
-FIPS allows you to split an existing DOS partition into two pieces,
-preserving the original partition and allowing you to install onto the
-second free piece.  You first "defrag" your DOS partition, using the
-DOS 6.xx "DEFRAG" utility or the Norton Disk tools, then run FIPS.  It
-will prompt you for the rest of the information it needs.  Afterwards,
-you can reboot and install FreeBSD on the new partition.  Also note
-that FIPS will create the second partition as a "clone" of the first,
-so you'll actually see that you now have two DOS Primary partitions
-where you formerly had one.  Don't be alarmed!  You can simply delete
-the extra DOS Primary partition (making sure it's the right one by
-examining its size! :)
-
-NOTE: FIPS does NOT currently work with FAT32 or VFAT style partitions
-as used by newer versions of Windows 95.  To split up such a partition,
-you will need a commercial product such as Partition Magic 3.0.  Sorry,
-but this is just the breaks if you've got a Windows partition hogging
-your whole disk and you don't want to reinstall from scratch.
-
-2.2     Can I use compressed DOS filesystems from FreeBSD?
----     --------------------------------------------------
-
-No.  If you are using a utility such as Stacker(tm) or
-DoubleSpace(tm), FreeBSD will only be able to use whatever portion of
-the filesystem you leave uncompressed.  The rest of the filesystem
-will show up as one large file (the stacked/dblspaced file!).  DO NOT
-REMOVE THAT FILE as you will probably regret it greatly!
-
-It is probably better to create another uncompressed DOS extended
-partition and use this for communications between DOS and FreeBSD if
-such is your desire.
-
-
-2.3     Can I mount my DOS extended partitions?
----     ---------------------------------------
-
-Yes. DOS extended partitions are mapped in at the end of the other
-``slices'' in FreeBSD, e.g. your D: drive might be /dev/da0s5, your E:
-drive /dev/da0s6, and so on. This example assumes, of course, that
-your extended partition is on SCSI drive 0. For IDE drives, substitute
-``ad'' for ``da'' appropriately. You otherwise mount extended
-partitions exactly like you would mount any other DOS drive, e.g.:
-
-mount -t msdos /dev/da0s5 /dos_d
-
-
-2.4     Can I run DOS binaries under FreeBSD?
----     -------------------------------------
-
-Ongoing work with BSDI's doscmd utility will suffice in many cases,
-though it still has some rough edges.  If you're interested in working
-on this, please send mail to emulation@FreeBSD.org and indicate that
-you're interested in joining this ongoing effort!
-
-There is also a neat utility called "pcemu" in the ports collection
-which emulates an 8088 and enough BIOS services to run DOS text mode
-applications.  It requires the X Window System (XFree86) to operate.
-
----- End of Installation Guide ---
diff --git a/release/texts/i386/RELNOTES.TXT b/release/texts/i386/RELNOTES.TXT
deleted file mode 100644
index 2e3fbb9..0000000
--- a/release/texts/i386/RELNOTES.TXT
+++ /dev/null
@@ -1,2028 +0,0 @@
-                                 RELEASE NOTES
-                            FreeBSD Release 5.0-SNAP
-                              (i386 Architecture)
-
-This is a 5.0-CURRENT release SNAPshot of FreeBSD, an active
-development branch which will produce its first release in late
-2001.  Those features which have also been back-ported to
-the 4.x-stable branch (the next release for which will be 4.3)
-are marked [MERGED].
-
-Any installation failures or crashes should be reported by using the
-send-pr command (those preferring a Web-based interface can also see
-http://www.FreeBSD.org/send-pr.html).
-
-For information about FreeBSD and the layout of the 5.0-RELEASE
-directory (especially if you're installing from floppies!), see
-ABOUT.TXT.  For installation instructions, see the INSTALL.TXT and
-HARDWARE.TXT files.
-
-For the latest of these 5.0-current snapshots, you should always see:
-
-        ftp://current.FreeBSD.org/pub/FreeBSD
-
-If you wish to get the latest post-4.x-RELEASE technology.
-
-Table of contents:
-------------------
-1. What's new since the 4.0/5.0 branch
-   1.1 KERNEL CHANGES
-   1.2 SECURITY FIXES
-   1.3 USERLAND CHANGES
-
-2. Supported Configurations
-   2.1 Disk Controllers
-   2.2 Ethernet cards
-   2.3 FDDI
-   2.4 ATM
-   2.5 Misc
-
-3. Obtaining FreeBSD
-   3.1 FTP/Mail
-   3.2 CDROM
-
-4. Upgrading from previous releases of FreeBSD
-
-5. Reporting problems, making suggestions, submitting code
-
-6. Acknowledgments
-
-
-1. What's new since the 4.0/5.0 branch
---------------------------------------
-All changes described here are unique to the 5.0 branch unless
-specifically marked as [MERGED] features.
-
-
-1.1. KERNEL CHANGES
--------------------
-
-A new event notification facility called kqueue was added to the
-FreeBSD kernel.  This is a new interface which is able to replace
-poll/select, offering improved performance, as well as the ability
-to report many different types of events.  Support for monitoring
-changes in sockets, pipes, fifos, and files are present, as well as
-for signals and processes. [MERGED]
-
-Support for named extended attributes was added to the FreeBSD kernel.
-This allows the kernel, and appropriately privileged userland processes,
-to tag files and directories with attribute data.  Extended attributes
-were added to support the TrustedBSD Project, in particular ACLs,
-capability data, and mandatory access control labels (see
-/usr/src/sys/ufs/ufs/README.extattr for details).
-
-Support for Intel's Wired for Management 2.0 (PXE) was added to
-the FreeBSD boot loader.  Due to API differences, the older PXE
-versions are not supported.  This allow network booting using DHCP. [MERGED]
-
-POSIX.1b Shared Memory Objects are now supported.  The implementation
-uses regular files, but automatically enables the MAP_NOSYNC flag
-when they are mmap(2)ed. [MERGED]
-
-Added support for PCI Ethernet adapters based on the National Semiconductor
-DP83815 chipset, including the NetGear FA312-TX.
-
-Due to a licensing change, softupdates have been integrated into the
-main portion of the kernel source tree.  As a consequence, softupdates
-are now available with the GENERIC kernel. [MERGED]
-
-When running with softupdates, statfs(2) and df(1) will track the
-number of blocks and files that are committed to being freed.
-
-A driver for AGP hardware has been added. [MERGED]
-
-ipfilter has been updated to 3.4.16. [MERGED]
-
-Various fixes and improvements to the IPv6 code have been merged in
-from the KAME project, including significantly-improved IPSEC
-functionality. [MERGED]
-
-twe 3ware ATA RAID driver added. [MERGED]
-
-The tap driver, a virtual Ethernet device driver for bridged
-configurations, has been added.  [MERGED]
-
-accept_filters, a kernel feature to reduce overheads when accepting
-and reading new connections on listening sockets, has been added.
-[MERGED]
-
-The ata(4) driver now has support for ATA100 controllers.  In
-addition, it now supports the ServerWorks ROSB4 ATA33 chipset, the CMD
-648 ATA66 and CMD 649 ATA100 chipsets, and the Cyrix 5530. [MERGED]
-
-To provide more flexible configuration, the various options for the
-ata(4) driver are now boot loader tunables, rather than kernel
-configure-time options. [MERGED]
-
-The ata(4) driver now has support for tagged queuing, which is
-enabled by the hw.ata.tags loader tunable. [MERGED]
-
-The ata(4) driver now has support for ATA "pseudo" RAID controllers as
-the Promise Fasttrak and HighPoint HPT370 controllers. [MERGED]
-
-The ti(4) driver now supports the Alteon AceNIC 1000baseT Gigabit
-Ethernet and Netgear GA620T 1000baseT Gigabit cards. [MERGED]
-
-The mly(4) driver, for Mylex PCI to SCSI AccelRAID and eXtremeRAID
-controllers with firmware 6.x and later, has been added. [MERGED]
-
-The asr(4) driver, which provides support for the Adaptec SCSI RAID
-controller family, as well as the DPT SmartRAID V and VI families, has
-been added. [MERGED]
-
-SMP support has been largely reworked, incorporating code from BSD/OS
-5.0.  One of the main features of SMPng ("SMP Next Generation") is to
-allow more processes to run in kernel, without the need for spin locks
-that can dramatically reduce the efficiency of multiple processors.
-Interrupt handlers now have contexts associated with them that allow
-them to be blocked, which reduces the need to lock out interrupts.
-
-The xl(4) driver now supports the 3Com 3C556 and 3C556B MiniPCI
-adapters used on some laptops. [MERGED]
-
-The kernel and modules have been moved to the directory /boot/kernel,
-so they can be easily manipulated together.  The boot loader has been
-updated to make this change as seamless as possible.
-
-A filesystem snapshot capability has been added to FFS.  Details can
-be found in /usr/src/sys/ufs/ffs/README.snapshot.
-
-Softupdates for FFS have received some bug fixes and enhancements.
-
-A bug in FFS that could cause superblock corruption on very large
-filesystems has been corrected. [MERGED]
-
-Support for the Adaptec FSA family of PCI-SCSI RAID controllers has
-been added, in the form of the aac(4) driver. [MERGED]
-
-The ng_mppc(4) and ng_bridge(4) node types have been added to the
-netgraph subsystem.  The ng_ether(4) node is now dynamically loadable.
-Miscellaneous bug fixes and enhancements have also been made. [MERGED]
-
-The pcn(4) driver, which supports the AMD PCnet/FAST, PCnet/FAST+,
-PCnet/FAST III, PCnet/PRO, PCnet/Home, and HomePNA adapters, has been added.
-Although these cards are already supported by the lnc(4) driver, the pcn
-driver runs these chips in 32-bit mode and uses the RX alignment feature to
-achieve zero-copy receive.  This driver is also machine-independent,
-so it will work on both the i386 and alpha platforms.  The lnc driver
-is still needed to support non-PCI cards. [MERGED]
-
-A bug in the ed(4) driver that could cause panics with very short
-packets and BPF or bridging active has been fixed. [MERGED]
-
-The i386 boot loader now has support for a "nullconsole" console type,
-for use on systems with neither a video console nor a serial
-port. [MERGED]
-
-The pcm(4) driver now supports the ESS Solo 1, Maestro-1, Maestro-2,
-and Maestro-2e; Forte Media fm801, ESS Maestro-2e, and VIA
-Technologies VT82C686A sound card/chipsets, and has received some
-other updates.  Separate drivers for the SoundBlaster 8 and
-Soundblaster 16 now replace an older, unified driver.  A driver for
-the CMedia CMI8338/CMI8738 sound chips has been added.  A driver for
-the CS4281 sound chip has been added.  A driver for the S3 Sonicvibes
-chipset has been added.  [MERGED]
-
-A driver for the Advance Logic ALS4000 has been added.
-
-A driver for the ESS Maestro-3/Allegro has been added, however due to
-licensing restrictions, it cannot be compiled into the kernel.
-[MERGED] To use this driver, add the following line to
-/boot/loader.conf:
-
-	snd_maestro3_load="YES"
-
-Replace the PQ_*CACHE options with a single PQ_CACHESIZE option to be
-set to the cache size in kilobytes.  The old options are still
-supported for backwards compatibility. [MERGED]
-
-The NCPU, NAPIC, NBUS, and NIN kernel configuration options,
-for configuring SMP kernels, have been removed.  NCPU is now set to a
-maximum of 16, and the other, aforementioned options are now dynamic.
-[MERGED]
-
-The ahc(4) driver has been updated.  Among various improvements are
-improved compatibility with chips in "RAID Port" mode and systems with
-AAA and ARO cards installed, as well as performance improvements.
-Some bugs were also fixed, including a rare hang on Ultra2/U160
-controllers. [MERGED]
-
-ACPI support has been merged in from the FreeBSD-ACPI project.
-
-isdn4bsd has been updated to version 0.96.00
-
-The ihfc(4) driver for supporting Cologne Chip Designs HFC devices
-under isdn4bsd has been added.
-
-The itjc(4) driver for supporting NETjet-S / Teles PCI-TJ under
-isdn4bsd has been added.
-
-Experimental support for the Eicon.Diehl DIVA 2.0 and 2.02 ISA PnP
-ISDN cards has been added to the isic(4) isdn4bsd driver.
-
-Active CAPI-based ISDN cards manufacured by AVM are now supported 
-using the i4bcapi(4) and the iavc(4) driver. The supported cards
-are the AVM B1 PCI and AVM B1 ISA Basic Rate cards and the AVM T1
-Primary Rate cards.
-
-Support for Fujitsu MB86960A/MB86965A based Ethernet PC-Cards is back.
-[MERGED]
-
-devfs(5), which allows entries in the /dev directory to be built
-automatically and supports more flexible attachment of devices, has
-been largely reworked.  devfs(5) is now enabled by default, and is
-disabled by the NODEVFS kernel option.
-
-Preliminary Cardbus support under NEWCARD has been added.  This supports
-TI113X, TI12XX, TI125X, Ricoh 5C46/5C47, Topic 95/97/100 and
-Cirrus Logic PD683X bridges.  16-bit PC Card support under this is not yet
-functional.
-
-Write combining for crashdumps has been implemented.  This feature
-is useful when write caching is disabled on both SCSI and IDE disks,
-where large memory dumps could take up to an hour to complete. [MERGED]
-
-The bktr(4) driver has been updated to 2.15.  New tuner types have
-been added, and improvements to the KLD module and to memory
-allocation have been made. [MERGED]
-
-The bktr(4) driver has been updated to 2.17.  This fixes bugs in devfs
-when unloading and reloading, and syncs with some NetBSD
-changes. [MERGED]
-
-The bktr(4) driver has been updated to 2.18.  This adds support for
-new Hauppauge Model 44xxx WinTV Cards (the ones with no audio mux).
-
-Extremely large swap areas (>67 GB) no longer panic the system.
-
-The snc(4) driver for the National Semiconductor DP8393X (SONIC)
-Ethernet controller.  Currently, this driver is only used on the PC-98
-architecture. [MERGED]
-
-The ich(4) driver for the Intel 82801AA (ICH) SMBus controller and
-compatibles has been added. [MERGED]
-
-The Inode Filesystem (IFS) has been added; more information can be
-found in /usr/src/sys/ufs/ifs/README.
-
-The uscanner(4) driver for basic USB scanner support using SANE. See
-the SANE home page for supported scanners. HP ScanJet 4100C, 5200C
-and 6300C are known to be working.
-
-The umodem(4) driver for USB modems. Supported so far is only the
-3Com 5605 and Metricom Ricochet GS wireless USB modems.
-
-The ncv, nsp, and stg drivers have been ported from NetBSD/pc98.
-They supports NCR 53C50 / Workbit Ninja SCSI-3 / TMC 18C30, 18C50
-based PC-Card/ISA SCSI controllers. [MERGED]
-
-The cd(4) driver now has support for write operations.  This allows
-writing to DVD-RAM, PD and similar drives that probe as CD devices.
-Note that change affects only random-access writeable devices, not
-sequential-only writeable devices such as CD-R drives, which are
-supported by cdrecord. [MERGED]
-
-The ISO-9660 filesystem now has a hook that supports a loadable
-character conversion routine.  The sysutils/cd9660_unicode port
-contains a set of common conversions. [MERGED]
-
-The an(4) driver for Cisco Aironet cards now supports Wired Equivalent
-Privacy (WEP) encryption, settable via ancontrol(8). [MERGED]
-
-The pcm(4) audio driver is now compiled into the GENERIC kernel by
-default.
-
-The pccard driver and pccardc(8) now support multiple "beep types"
-upon card insertion and removal. [MERGED]
-
-The spic(4) driver, which provides access to the jog dial device on
-some Sony laptops, has been added.
-
-A new netgraph node type ng_one2many(4) for multiplexing and
-demultiplexing packets over multiple links has been added.  [MERGED]
-
-A number of cleanups and enhancements have been applied to the PCI
-subsystem.  /usr/share/misc/pci_vendors now contains a vendor/device
-database, which can be used by pciconf(8).
-
-netgraph(4) has received some updates.
-
-sbufs, null-terminated string data structures, and their associated
-support routines, have been added to the kernel.  Details are in
-sbuf(9).
-
-The el(4) driver can now be loaded as a module.
-
-The vinum(4) volume manager has received some bug fixes and enhancements.
-
-ICMP ECHO and TSTAMP replies are now rate limited.  TCP RSTs generated
-due to packets sent to open and unopen ports are now limited by
-separate counters.  Each rate limiting queue now has its own
-description.
-
-ICMP UNREACH_FILTER_PROHIB messages can now RST TCP connections in the
-SYN_SENT state if the correct sequence numbers are sent back, as
-controlled by the net.inet.tcp.icmp_may_rst sysctl. [MERGED]
-
-TCP has received some bug fixes for its delayed ACK behavior. [MERGED]
-
-TCP now supports the NewReno modification to the TCP Fast Recovery
-algorithm.  This behavior can be controlled via the
-net.inet.tcp.newreno sysctl variable. [MERGED]
-
-TCP now uses a more aggressive timeout for initial SYN segments; this
-allows initial connection attempts to be dropped much faster. [MERGED]
-
-The TCP_COMPAT_42 kernel option has been removed.
-
-A new sysctl net.inet.ip.check_interface, which is on by default,
-causes IP to verify that an incoming packet arrives on an interface
-that has an address matching the packet's destination address. [MERGED]
-
-PECOFF (WIN32 Execution file format) support has been added.
-
-kernfs(5) is obsolete and has been retired.
-
-md(4), the memory disk device, has had the functionality of vn(4)
-incorporated into it.  md(4) devices can now be configured by
-mdconfig(8).  vn(4) has been removed.
-
-The ray(4) driver, which supports the Webgear Aviator wireless network
-cards, has been committed.  The operation of ray(4) interfaces can be
-modified by raycontrol(8).  [MERGED]
-
-Linksys Fast Ethernet PCCARD cards supported by the ed(4) driver now
-require the addition of flag 0x80000 to their config line in
-pccard.conf(5).  This flag is not optional.  These Linksys cards will
-not be recognized without it. [MERGED]
-
-A new API has been added for sound cards with hardware volume
-control.
-
-The VESA S3 linear framebuffer driver has been added.
-
-A new sysctl 'net.link.ether.inet.log_arp_wrong_iface' to controls the
-suppression of logging when ARP replies arrive on the wrong
-interface. [MERGED]
-
-A bug in the NFS client that caused bogus access times with
-O_EXCL|O_CREAT opens was fixed.  [MERGED]
-
-Client-side NFS locks have been implemented.
-
-Support for the 80386 processor has been removed from the GENERIC
-kernel, as this code seriously pessimizes performance on other ia32
-processors.
-
-The I386_CPU kernel option to support the 80386 processor is now mutually
-exclusive with support for other ia32 processors; this should slightly
-improve performance on the 80386 due to the elimination of runtime
-processor type checks.
-
-Custom kernels that will run on the 80386 can still be built by changing
-the cpu options in the kernel configuration file to only include I386_CPU.
-
-Condition variables have now been implemented in the FreeBSD kernel.
-See condvar(9) for more details.
-
-The "make buildkernel" target now gets the name of the
-configuration(s) to build from the KERNCONF variable, not KERNEL.  It
-is no longer required, in some cases, for a "buildworld" to precede a
-"buildkernel".  (The buildworld is still required when upgrading across
-major releases, across binutil upgrades and when config changes
-version.)
-
-bridge(4) and dummynet(4) have received some enhancements and bug fixes.
-
-ipfw(8) has a new feature ("me") that allows for packet matching on
-interfaces with dynamically-changing IP addresses. [MERGED]
-
-The isp(4) driver has been updated. [MERGED]
-
-The isp(4) driver now supports target mode for Qlogic SCSI cards,
-including Ultra2 and Ultra3 and dual bus cards.
-
-The ida disk driver now has crashdump support. [MERGED]
-
-The random(4) device has been rewritten to use the Yarrow algorithm.
-It harvests entropy from a variety of interrupt sources, including the
-console devices, Ethernet and point-to-point network interfaces, and
-mass-storage devices.  Entropy from the random(4) device is now
-periodically saved to files in /var/db/entropy.
-
-The fxp(4) driver now requires a "device miibus" entry in the kernel
-configuration file. [MERGED]
-
-A new NFS hash function (based on the Fowler/Noll/Vo hash algorithm)
-has been implemented to improve NFS performance by increasing the
-efficiency of the nfsnode hash tables. [MERGED]
-
-The syscons(4) driver now supports keyboard-controlled pasting, by
-default bound to Shift-Insert.
-
-Support for file system Access Control Lists (ACLs) has been
-introduced, allowing more fine-grained control of discretionary access
-control on files and directories.  This support was integrated from
-the TrustedBSD Project.  More details can be found in
-/usr/src/sys/ufs/ufs/README.acls.
-
-The CAM error recovery code has been updated.
-
-The directory layout preference algorithm for FFS has been changed to
-improve its speed on large filesystems.
-
-The wx(4) driver now supports the Intel PRO1000-F and PRO1000-T
-(10/100/1000) adapters. [MERGED]
-
-The labpc(4) driver has been removed due to bitrot.
-
-A new kernel option, "options REGRESSION", enables interfaces and
-functionality intended for use during correctness and regression
-testing.
-
-smbfs (CIFS) support in kernel has been added.
-
-Added support for PCI Gigabit Ethernet adapters based on the National
-Semiconductor DP83820 and DP83821 gigabit ethernet controller chips,
-including the D-Link DGE-500T, SMC EZ Card 1000 (SMC9462TX),
-Asante FriendlyNet GigaNIC 1000TA and 1000TPC and Addtron AEG320T.
-
-The USER_LDT kernel option is now activated by default.
-
-A new ddb command "show pcpu" lists some of the per-CPU data.
-
-A new digi(4) driver has been added to support PCI Xr-based and ISA
-Xem Digiboard cards.  A new digictl program is (mainly) used to
-re-initialise cards that have external port modules attached such as
-the PC/Xem.
-
-
-1.2. SECURITY FIXES
--------------------
-
-sysinstall(8) now allows the user to select one of three "security
-profiles" at install-time.  These profiles enable different levels of
-system security by enabling or disabling various system services in
-rc.conf(5) on new installs. [MERGED]
-
-A bug in which malformed ELF executable images can hang the system has
-been fixed (see security advisory FreeBSD-SA-00:41). [MERGED]
-
-A security hole in Linux emulation was fixed (see security advisory
-FreeBSD-SA-00:42).  [MERGED]
-
-rlogind(8), rshd(8), and fingerd(8) are now disabled by default in
-/etc/inetd.conf.  This only affects new installations.  [MERGED]
-
-String-handling library calls in many programs were fixed to reduce the
-possibility of buffer overflow-related exploits.  [MERGED]
-
-TCP now uses stronger randomness in choosing its initial sequence
-numbers (see security advisory FreeBSD-SA-00:52). [MERGED]
-
-Several buffer overflows in tcpdump(1) were corrected (see security
-advisory FreeBSD-SA-00:61).  [MERGED]
-
-A security hole in top(1) was corrected (see security advisory
-FreeBSD-SA-00:62). [MERGED]
-
-A potential security hole caused by an off-by-one-error in
-gethostbyname(3) has been fixed (see security advisory
-FreeBSD-SA-00:63).  [MERGED]
-
-A potential buffer overflow in the ncurses(3X) library, which could
-cause arbitrary code to be run from within systat(1), has been corrected
-(see security advisory FreeBSD-SA-00:68).  [MERGED]
-
-A vulnerability in telnetd(8) that could cause it to consume large
-amounts of server resources has been fixed (see security advisory
-FreeBSD-SA-00:69).  [MERGED]
-
-The "nat deny_incoming" command in ppp(8) now works correctly (see
-security advisory FreeBSD-SA-00:70).  [MERGED]
-
-A vulnerability in csh(1)/tcsh(1) temporary files that could allow
-overwriting of arbitrary user-writable files has been closed (see
-security advisory FreeBSD-SA-00:76). [MERGED]
-
-The ssh(1) binary is no longer SUID root by default.
-
-Some fixes were applied to the Kerberos IV implementation related to
-environment variables, a possible buffer overrun, and overwriting
-ticket files. [MERGED]
-
-telnet(1) now does a better job of sanitizing its environment. [MERGED]
-
-Several vulnerabilities in procfs(4) were fixed (see security advisory
-FreeBSD-SA-00:77).  [MERGED]
-
-A bug in OpenSSH in which a server was unable to disable ssh-agent or
-X11 forwarding was fixed (see security advisory FreeBSD-SA-01:01).
-[MERGED]
-
-A bug in ipfw(8) and ipfw6(8) in which inbound TCP segments could
-incorrectly be treated as being part of an "established" connection
-has been fixed (see security advisory FreeBSD-SA-01:08).  [MERGED]
-
-A bug in crontab(8) that could allow users to read any file on the
-system in valid crontab(5) syntax has been fixed (see security
-advisory FreeBSD-SA-01:09).  [MERGED]
-
-A vulnerability in inetd(8) that could allow read-access to the
-initial 16 bytes of wheel-accessible files has been fixed (see
-security advisory FreeBSD-SA-01:11). [MERGED]
-
-A bug in periodic(8) that used insecure temporary files has been
-corrected (see security advisory FreeBSD-SA-01:12). [MERGED]
-
-A bug in sort(1) in which an attacker might be able to cause it to
-abort processing has been fixed (see security advisory
-FreeBSD-SA-01:13). [MERGED]
-
-To fix a remotely-exploitable buffer overflow, BIND has been updated
-to 8.2.3 (see security advisory FreeBSD-SA-01:18). [MERGED]
-
-OpenSSH now has code to prevent (instead of just mitigating through
-connection limits) an attack that can lead to guessing the server key
-(not host key) by regenerating the server key when an RSA failure is
-detected (see security advisory FreeBSD-SA-01:24). [MERGED]
-
-A number of programs have had output formatting strings corrected so
-as to reduce the risk of vulnerabilities. [MERGED]
-
-A number of programs that use temporary files now do so more
-securely. [MERGED]
-
-A bug in ICMP that could cause an attacker to disrupt TCP and UDP
-"sessions" has been corrected. [MERGED]
-
-A bug in timed(8), which caused it to crash if sent certain malformed
-packets, has been corrected (see security advisory
-FreeBSD-SA-01:28). [MERGED]
-
-A bug in rwhod(8), which caused it to crash if sent certain malformed
-packets, has been corrected (see security advisory
-FreeBSD-SA-01:29). [MERGED]
-
-A security hole in FreeBSD's FFS and EXT2FS implementations, which
-allowed a race condition that could cause users to have unauthorized
-access to data, has been fixed (see security advisory
-FreeBSD-SA-01:30). [MERGED]
-
-A remotely-exploitable vulnerability in ntpd(8) has been closed (see
-security advisory FreeBSD-SA-01:31). [MERGED]
-
-A security hole in IPFilter's fragment cache has been closed (see
-security advisory FreeBSD-SA-01:32). [MERGED]
-
-Buffer overflows in glob(3), which could cause arbitrary code to be
-run on an FTP server, have been closed.  In addition, to prevent some
-forms of DOS attacks, glob(3) now allows specification of a limit on
-the number of pathname matches it will return.  ftpd(8) now uses this
-feature (see security advisory FreeBSD-SA-01:33). [MERGED]
-
-Initial sequence numbers in TCP are more thoroughly randomized, using
-an algorithm obtained from OpenBSD (see security advisory
-FreeBSD-SA-01:39). [MERGED]
-
-
-1.3. USERLAND CHANGES
----------------------
-
-cdcontrol(1) now supports a "cdid" command, which calculates and
-displays the CD serial number, using the same algorithm used by the CDDB
-database. [MERGED]
-
-mtree(8) now includes support for a file listing pathnames to be excluded
-when creating and verifying prototypes.  This makes it easier to use
-mtree as a part of an intrusion-detection system.  [MERGED]
-
-OpenSSL has been upgraded to 0.9.6. [MERGED]
-
-OpenSSL now has support for machine-dependent ASM optimizations,
-activated by the new MACHINE_CPU Makefile variable. [MERGED]
-
-The OPIE one-time-password suite has been updated to 2.32. [MERGED]
-
-OpenSSH has been upgraded to 2.1.0, which provides support for the
-SSH2 protocol, including DSA keys.  Therefore, OpenSSH users in the US
-no longer need to rely on the restrictively-licensed RSAREF toolkit
-which is required to handle RSA keys.  OpenSSH 2.1 interoperates well
-with other SSH2 clients and servers, including the ssh2 port.  See
-http://www.openssh.com for more details. [MERGED]
-
-OpenSSH can now authenticate using OPIE passwords in SSH1 mode.
-Support is not yet available in SSH2 mode. [MERGED]
-
-OpenSSH has been upgraded to 2.2.0.  ssh-add(1) and ssh-agent(1) can now
-handle DSA keys.  An sftp server interoperable with ssh.com clients
-and others has been added.  scp(1) can now handle files >2GB.
-Interoperability with other ssh2 clients/servers has been improved.  A
-new feature to limit the number of outstanding unauthenticated ssh
-connections in sshd has been added. [MERGED]
-
-OpenSSH has been upgraded to 2.3.0.  This version adds support for the
-Rijndael encryption algorithm. [MERGED]
-
-PAM support for OpenSSH has been added.
-
-A long-standing bug in SSH, which sometimes resulted in a dropped
-session when an X11-forwarded client was closed, was fixed.
-
-Kerberos compatability has been added to OpenSSH. [MERGED]
-
-OpenSSH has been modified to be more resistant to traffic analysis by
-requiring that "non-echoed" characters are still echoed back in a null
-packet, as well as by padding passwords sent so as not to hint at
-password lengths. [MERGED]
-
-OpenSSH now has a "VersionAddendum" configuration setting for sshd(8)
-to allow changing the part of the OpenSSH version string after the
-main version number.
-
-OpenSSH has been updated to version 2.9, which adds two new programs,
-sftp(1) and ssh-keyscan(1).  Among the various enhancements: The
-default protocol is now v2, rekeying of existing SSH sessions is now
-supported, and an experimental SOCKS4 proxy has been added to the
-ssh(1) client.
-
-Support for USB devices was added to the GENERIC kernel and to the
-installation programs to support USB devices out of the box.  Note that
-an AT keyboard must still be used during the initial install, but it
-should work fine afterwards. [MERGED]
-
-The entire i386 bootstrap was revamped to support automatic detection and
-use of the Enhanced Disk Drive BIOS extensions to support booting beyond
-the 1023rd cylinder.  As part of this change, the FreeBSD boot manager
-(boot0) was increased from 1 sector in size (512 bytes), to 2 sectors in
-length (1024 bytes).  As a result, several userland changes were made to
-cope with MBR boot loaders of varying sizes. [MERGED]
-
-The csh(1) shell has been replaced by tcsh(1), although it can still
-be run as csh(1).  tcsh has been updated to version 6.10. [MERGED]
-
-The more(1) command has been replaced by less(1), although it can still
-be run as more(1). [MERGED]
-
-ls(1) can produce colorized listings with the -G flag (and appropriate
-terminal support). [MERGED]
-
-libalias(3) and natd(8) now support RFC 2391 (Load Sharing using IP
-Network Address Translation), as well as new translation options.
-[MERGED]
-
-FreeBSD can now be installed over an IPv6-only network. [MERGED]
-
-sendmail upgraded from version 8.9.3 to version 8.11.3.  Important changes
-include: new default file locations (see
-/usr/src/contrib/sendmail/cf/README); newaliases is limited to root and
-trusted users; STARTTLS encryption; and the MSA port (587) is turned on by
-default.  See /usr/src/contrib/sendmail/RELEASE_NOTES for more
-information. [MERGED]
-
-mail.local(8) is no longer installed as a set-user-id binary.  If you are
-using a /etc/mail/sendmail.cf from the default sendmail.cf included with
-FreeBSD any time after 3.1.0, you are fine.  If you are using a
-hand-configured sendmail.cf and mail.local for delivery, check to make sure
-the F=S flag is set on the Mlocal line.  Those with .mc files who need to
-add the flag can do so by adding the following line to their your .mc file
-and regenerating the sendmail.cf file:
-    MODIFY_MAILER_FLAGS(`LOCAL', `+S')dnl
-Note that FEATURE(`local_lmtp') already does this. [MERGED]
-
-The default /etc/mail/sendmail.cf disables the SMTP EXPN and VRFY
-commands. [MERGED]
-
-vacation(1) has been updated to use the version included with
-sendmail. [MERGED]
-
-The sendmail(8) configuration building tools are installed in
-/usr/share/sendmail/cf/. [MERGED]
-
-New make.conf options: SENDMAIL_MC and SENDMAIL_ADDITIONAL_MC.  See
-/etc/defaults/make.conf for more information.  [MERGED]
-
-The Makefile in /etc/mail now supports: the new SENDMAIL_MC make.conf
-option; the ability to build .cf files from .mc files; generalized map
-rebuilding; rebuilding the aliases file; and the ability to stop, start,
-and restart sendmail.  [MERGED]
-
-sysinstall(8) now properly preserves /etc/mail during a binary
-upgrade. [MERGED]
-
-awk has been upgraded from gawk-3.0.4 to gawk-3.0.6.  This fixes a number
-of non-critical bugs and includes a few performance tweaks. [MERGED]
-
-routed(8) has been updated to version 2.22. [MERGED]
-
-The truncate(1) utility, which truncates or extends the length
-of files, has been added.  [MERGED]
-
-syslogd(8) can take a -n option to disable DNS queries for every
-request. [MERGED]
-
-kenv(1), a command to dump the kernel environment, has been added.
-[MERGED]
-
-The behavior of periodic(8) is now controlled by /etc/defaults/periodic.conf
-and /etc/periodic.conf. [MERGED]
-
-boot98cfg(8), a PC-98 boot manager installation and configuration
-utility, has been added. [MERGED]
-
-logger(1) can now send messages directly to a remote syslog. [MERGED]
-
-GDB now supports hardware watchpoints (using the kernel's debug register
-support that has been introduced in FreeBSD 4.0). [MERGED]
-
-which(1) is now a C program, rather than a Perl script.
-
-killall(1) is now a C program, rather than a Perl script.  As a
-result, killall's -m option now uses the regular expression syntax of
-regex(3), rather than that of perl(1). [MERGED]
-
-killall(1) now allows non-root users to kill SUID root processes that
-they started.
-
-finger(1) now has the ability to support fingering aliases, via the
-finger.conf(5) file. [MERGED]
-
-finger(1) now has support for a .pubkey file.
-
-nsswitch support has been merged from NetBSD.  By creating an
-nsswitch.conf(5) file, FreeBSD can be configured so that various
-databases such as passwd(5) and group(5) can be looked up using flat
-files, NIS, or Hesiod.  The old hosts.conf(5) file is no longer used.
-
-sshd X11Forwarding is now turned on by default on server (any risk is
-to the client, where it is already disabled by default).
-
-RSA Security has waived all patent rights to the RSA algorithm (two
-weeks before the patent was due to expire).  As a result, the native
-OpenSSL implementation of the RSA algorithm is now activated by
-default, and the rsaref port and librsaUSA are no longer
-required for USA residents. [MERGED]
-
-sshd is now enabled by default on new installs. [MERGED]
-
-perl has been updated to version 5.6.0.
-
-Binutils have been upgraded to 2.10.1. [MERGED]
-
-libreadline has been upgraded to 4.2.
-
-The ifconfig(8) command can set the link-layer address of an interface.
-[MERGED]
-
-ifconfig(8) can now accept addresses in slash/CIDR notation. [MERGED]
-
-setproctitle(3) has been moved from libutil to libc. [MERGED]
-
-chio(1) now has the ability to specify elements by volume tag instead
-of by their physical location as well as the ability to return an
-element to its previous location. [MERGED]
-
-sed(1) now takes a -E option for extended regular expression
-support. [MERGED]
-
-ln(1) now takes an -i option to request user confirmation before
-overwriting an existing file. [MERGED]
-
-ln(1) now takes a -h option to avoid following a target that is a
-link, with a -n option for compatability with other implementations. [MERGED]
-
-Version numbers of installed packages have a new (backward-compatible)
-syntax, which supports the "PORTREVISION" and "PORTEPOCH" variables in
-ports collection makefiles.  These changes help keep track of changes
-in the ports collection entries such as security patches or
-FreeBSD-specific updates, which aren't reflected in the original,
-third-party software distributions.  pkg_version(1) can now compare
-these new-style version numbers.  [MERGED]
-
-CVS has been updated to 1.11. [MERGED]
-
-libpcap has been updated to 0.6.2.
-
-tcpdump has been updated to 3.6.2.
-
-User-land ppp(8) has received a number of updates and bug fixes. [MERGED]
-
-To improve performance and disk utilization, the "ports skeletons" in
-the FreeBSD Ports Collection have been restructured.  Installed ports
-and packages should not be affected. [MERGED]
-
-make(1) has gained the :C/// (regexp substitution), :L (lowercase),
-and :U (uppercase) variable modifiers.  These were added to reduce the
-differences between the FreeBSD and OpenBSD/NetBSD make programs. [MERGED]
-
-Bugs in make(1), among which include broken null suffix behavior, bad
-assumptions about current directory permissions, and potential buffer
-overflows, have been fixed. [MERGED]
-
-fsck wrappers have been imported; this feature provides infrastructure
-for fsck(8) to work on different types of filesystems (analogous to
-mount(8) and mount_*(8)).
-
-The behavior of fsck(8) when dealing with various passes (a la
-/etc/fstab) has been modified to accomodate multiple-disk filesystems.
-
-ncurses has been updated to ncurses-5.2-20010512.
-
-gperf has been updated to 2.7.2. [MERGED]
-
-style.perl.7, a style guide for Perl code in the FreeBSD base system,
-has been added.
-
-The ISC library from the BIND distribution is now built as
-libisc. [MERGED]
-
-The "in use" percentage metric displayed by netstat(1) now really
-reflects the percentage of network mbufs used. [MERGED]
-
-netstat(1) now has a -W flag that tells it not to truncate addresses,
-even if they're too long for the column they're printed in. [MERGED]
-
-netstat(1) now keeps track of input and output packets on a
-per-address basis for each interface. [MERGED]
-
-sockstat(1) now has -c and -l flags for listing connected and
-listening sockets, respectively. [MERGED]
-
-mergemaster(8) has gained some new features, has been cleaned up
-somewhat, and is now more cross-platform friendly.
-
-mergemaster(8) now sources an /etc/mergemaster.rc file and also
-prompts the user to run recommended commands (such as "newaliases") as
-needed. [MERGED]
-
-The compiler chain now uses the FSF-supplied C/C++ runtime
-initialization code.  This change brings about better compatibility
-with code generated from the various egcs and gcc ports, as well as
-the stock public FSF source. [MERGED]
-
-The threads library has gained some signal handling changes, bug
-fixes, and performance enhancements (including zero system call thread
-switching).  gdb(1) thread support has been updated to match these
-changes.  [MERGED]
-
-chflags(1) has moved from /usr/bin to /bin.
-
-Use of the CSMG_* macros no longer require inclusion of <sys/param.h>.
-
-IP Filter is now supported by the rc.conf(5) boot-time configuration
-and initialization. [MERGED]
-
-The lastlogin(1) utility, which prints the last login time of each
-user, has been imported from NetBSD. [MERGED]
-
-newfs(8) now implements write combining, which can make creation of
-new filesystems up to seven times faster. [MERGED]
-
-newfs(8) now takes a -U option to enable softupdates on a new filesystem.
-
-The default number of cylinders per group in newfs(8) is now 22, up from 16.
-
-A number of buffer overflows in config(8) have been fixed. [MERGED]
-
-pwd(1) can now double as realpath(1), a program to resolve pathnames
-to their underlying physical paths. [MERGED]
-
-file(1) has been contribify-ed, and updated to version 3.35.
-
-stty(1) now has support for an "erase2" control character, so that
-both "delete" and "backspace" can be used to erase characters. [MERGED]
-
-The ibcs2(8), linux(8), osf1(8), and svr4(8) scripts, whose sole
-purpose was to load emulation kernel modules, have been removed.  The
-kernel module system will automatically load them as needed to fulfill
-dependencies.
-
-top(1) will now use the full width of its tty.
-
-groff(1) and its related utilities have been updated to FSF version
-1.17.  This import brings in a new mdoc(7) macro package, which
-removes many of the limitations of its predecessor. [MERGED]
-
-growfs(8), a utility for growing FFS filesystems, has been added.
-ffsinfo(8), a utility for dump all the meta-information of an existing
-filesystem, has also been added.
-
-indent(1) has gained some new formatting options. [MERGED]
-
-sysinstall now uses some more intuitive defaults thanks to some new
-dialog support functions.  [MERGED]
-
-The default root partition in sysinstall is now 100MB on the i386 and
-120MB on the alpha.
-
-gcc has been updated to 2.95.3. [MERGED]
-
-Shortly after the receipt of a SIGINFO signal (normally control-T from
-the controlling tty), fsck_ffs will now output a line indicating the
-current phase number and progress information relevant to the current
-phase. [MERGED]
-
-fsck(8) and fsck_ffs(8) now support background filesystem checks to
-mounted FFS filesystems with the -B option (softupdates must be
-enabled on these filesystems).  The -F flag now determines whether a
-specified filesystem needs foreground checking.
-
-fsck(8) now has support for foreground (-F) and background (-B)
-checks.  Traditionally, fsck(8) is invoked before the filesystems are
-mounted and all checks are done to completion at that time.  If
-background checking is available, fsck(8) is invoked twice.  It is
-first invoked at the traditional time, before the filesystems are
-mounted, with the -F flag to do checking on all the filesystems that
-cannot do background checking.  It is then invoked a second time,
-after the system has completed going multiuser, with the -B flag to do
-checking on all the filesystems that can do background checking.
-Unlike the foreground checking, the background checking is started
-asynchonously so that other system activity can proceed even on the
-filesystems that are being checked.
-
-Catching up with most other network utilities in the base system,
-lpr(1), lpd(8), syslogd(8), and logger(1) are now all IPv6-capable.
-[MERGED]
-
-libdisk can now do install-time configuration of the i386 boot0 boot
-loader. [MERGED]
-
-rm(1) -v now displays the entire pathname of a file being
-removed. [MERGED]
-
-lpr(1), lpq(1), and lpd(8) have received a few minor
-enhancements. [MERGED]
-
-pkg_update(1), a utility to update installed packages and update their
-dependencies, has been added. [MERGED]
-
-pkg_info(1) now supports globbing against names of installed packages.
-The -G option disables this behavior, and the -x option causes regular
-expression matching instead of shell globbing. [MERGED]
-
-If the first argument fo ancontrol(8) or wicontrol(8) doesn't start
-with a "-", it is assumed to be an interface.
-
-rdist(1) has been retired.
-
-Kerberos IV has been updated to 1.0.5. [MERGED]
-
-Heimdal has been updated to 0.3e. [MERGED]
-
-ppp(8) has gained the tcpmssfixup option, which adjusts outgoing TCP
-SYN packets so that the maximum receive segment size is no larger than
-allowed by the interface MTU.
-
-libcrypt and libdescrypt have been unified to provide a configurable
-password authentication hash library.  Both the md5 and des hash methods
-are provided unless the des hash is specifically compiled out.
-
-passwd(1) and pw(8) now select the passwd hash algorithm at run time.  See
-the "passwd_format" attribute in /etc/login.conf.
-
-In preparation for meeting SUSv2/POSIX <sys/select.h> requirements,
-'struct selinfo' and related functions have been moved to
-<sys/selinfo.h>.
-
-gcc now uses a unified libgcc rather than a separate one for threaded
-and non-threaded programs.  /usr/lib/libgcc_r.a can be removed. [MERGED]
-
-syslogd(8) now supports a "LOG_CONSOLE" facility (disabled by
-default), which can be used to log /dev/console output. [MERGED]
-
-rpcgen now uses /usr/bin/cpp (as on NetBSD), not /usr/libexec/cpp.
-
-Boot-time syscons configuration was moved to a machine-independent
-rc.syscons. [MERGED]
-
-burncd(8) now supports a -m option for multisession mode (the default
-behavior now is to close disks as single-session).  A -l option to
-take a list of image files from a filename was also added; '-' can be
-used as a filename for stdin. [MERGED]
-
-dmesg(8) now has a -a option to show the entire message buffer,
-including syslog records and /dev/console output. [MERGED]
-
-In /etc/ssh/sshd_config, the ConnectionsPerPeriod parameter has been
-deprecated in favor of MaxStartups. [MERGED]
-
-cdcontrol(1) now uses the CDROM environment variable to pick a default
-device. [MERGED]
-
-sysctl(8) now supports a -N option to print out variable names only.
-
-All packages and ports now contain an "origin" directive, which makes
-it easier for programs like pkg_version(1) to determine the directory
-from which a package was built. [MERGED]
-
-sysinstall(8) now lives in /usr/sbin, which simplifies the installation
-process.  The sysinstall(8) manpage is also installed in a more
-consistent fashion now.
-
-config(8) is now better about converting various warnings that should
-have been errors into actual fatal errors with an exit code.  This
-ensures that that 'make buildkernel' doesn't quietly ignore them and
-build a bogus kernel without a human to read the errors. [MERGED]
-
-pkg_create(1) and pkg_add(1) can now work with packages that have
-been compressed using bzip2(1).  pkg_add(1) will use the
-PACKAGEROOT environment variable to determine a mirror site for new
-packages. [MERGED]
-
-pkg_info(1) can now accept a -g flag for verifying an installed
-package against its recorded checksums (to see if it's been modified
-post-installation).  Naturally, this mechanism is only as secure as
-the contents of /var/db/pkg if it's to be used for auditing
-purposes. [MERGED]
-
-pkg_version(1) now has a version number comparison routine that
-corresponds to the Porters Handbook.  It also has a -t option for
-testing address comparisons. [MERGED]
-
-libc is now thread-safe by default; libc_r contains only thread functions.
-
-find(1) now takes the -empty flag, which returns true if a file or
-directory is empty. [MERGED]
-
-find(1) now takes the -iname and -ipath primaries for case-insensitive
-matches, and the -regexp and -iregexp primaries for regular-expression
-matches.  The -E flag now enables extended regular
-expressions. [MERGED]
-
-find(1) now has the -anewer, -cnewer, -mnewer, -okdir, and
--newer[acm][acmt] primaries for comparisons of file timestamps. [MERGED]
-
-tftpd(8) now takes the -c and -C options, which allow the server to
-chroot(2) based on the IP address of the connecting client.  tftp(1)
-and tftpd(8) can now transfer files larger than 65535 blocks. [MERGED]
-
-vidcontrol(1) now accepts a -g parameter to select custom text
-geometry in the VESA_800x600 raster text mode. [MERGED]
-
-ldconfig(8) now checks directory ownerships and permissions for
-greater security; these checks can be disabled with the -i
-flag. [MERGED]
-
-The rfork_thread(3) library call has been added as a helper function
-to rfork(2).  Using this function should avoid the need to implement
-complex stack swap code. [MERGED]
-
-Significant additions have been made to internationalization support;
-FreeBSD now has complete locale support for the LC_MONETARY,
-LC_NUMERIC, and LC_MESSAGES categories.  A number of applications have
-been updated to take advantage of this support.
-
-A compat4x distribution has been added for compatibility with FreeBSD
-4-STABLE.
-
-The compat3x distribution has been updated to include libraries
-present in FreeBSD 3.5.1-RELEASE. [MERGED]
-
-savecore(8) now supports a -k option to prevent clearing a crash dump
-after saving it.  It also attempts to avoid writing large stretches of
-zeros to crash dump files to save space and time. [MERGED]
-
-When requested to delete multiple packages, pkg_delete(1) will now
-attempt to remove them in dependency order rather than the order
-specified on the command line. [MERGED]
-
-pkg_delete(1) now can perform glob/regexp matching of package names.
-In addition, it supports the -a option for removing all packages and
-the -i option for rm(1)-style interactive confirmation. [MERGED]
-
-tar(1) now supports the TAR_RSH variable, principally to enable the
-use of ssh(1) as a transport. [MERGED]
-
-disklabel(8) now supports partition sizes expressed in kilobytes,
-megabytes, or gigabytes, in addition to sectors. [MERGED]
-
-The pseudo-random number generator implemented by rand(3) has been
-improved to provide less biased results.
-
-login(1) now exports environment variables set by PAM
-modules. [MERGED]
-
-PAM support has been added for account management and sessions.
-
-Linux PAM has been updated to 0.75.
-
-The following PAM modules have been added: pam_krb5, pam_nologin,
-pam_rootok, pam_wheel.
-
-wall(1) now supports a -g flag to write a message to all users of a
-given group.
-
-The new CPUTYPE make.conf variable controls the compilation of
-processor-specific optimizations in various pieces of code such as
-OpenSSL. [MERGED]
-
-The default value for the CVS_RSH variable (used by cvs(1)) is now
-ssh, rather than rsh. [MERGED]
-
-bc has been updated from 1.04 to 1.06. [MERGED]
-
-ipfstat(8) now supports the -t option to turn on a top(1)-like
-display. [MERGED]
-
-pkg_sign(1) and pkg_check(1) have been added to digitally sign and 
-verify the signatures on binary package files. [MERGED]
-
-/usr/src/share/examples/BSD_daemon/ now contains a scalable Beastie
-graphic. [MERGED]
-
-dump(8) now supports inheritance of the "nodump" flag down a
-hierarchy. [MERGED]
-
-The ISC DHCP client has been updated to 2.0pl5. [MERGED]
-
-split(1) now has the ability to split a file longer than 2GB. [MERGED]
-
-tail(1) now has the ability to work on files longer than 2GB. [MERGED]
-
-units(1) has received some updates and bugfixes. [MERGED]
-
-As part of an ongoing process, many manual pages were improved, both
-in terms of their formatting markup and in their content. [MERGED]
-
-pkg_create(1) now records dependencies in dependency order rather than
-in the order specified on the command line.  This improves the
-functioning of "pkg_add -r". [MERGED]
-
-"lprm -" now works for remote printer queues. [MERGED]
-
-ftpd(8) now supports a -r flag for read-only mode and a -E flag to
-disable EPSV.  It also has some fixes to reduce information leakage
-and the ability to specify compile-time port ranges. [MERGED]
-
-ping(8) now supports a -m option to set the TTL of outgoing
-packets. [MERGED]
-
-A version of Transport Independent RPC (TI-RPC) has been imported.
-
-rpcbind(8) has replaced portmap(8).
-
-NFS now works over IPv6.
-
-lockd has been imported from NetBSD.
-
-rc(8) now has an framework for handling dependencies between
-rc.conf(5) variables. [MERGED]
-
-rc(8) now deletes all non-directory files in /var/run and
-/var/spool/lock at boot time.
-
-The setfacl(1) and getfacl(1) commands have been added to manage
-file system Access Control Lists.
-
-ee(1) editor has been updated to 1.4.2.
-
-The default TCP port range used by libfetch for passive FTP retrievals
-has changed; this affects the behavior of fetch(1), which has gained the
--U option to restore the old behavior. [MERGED]
-
-atacontrol(8) has been added to control various aspects of the ata(4)
-driver.
-
-libcrypt now has support for Blowfish password hashing.
-
-The functions from libposix1e have been integrated into libc.
-
-GNATS has been updated to 3.113. [MERGED]
-
-BSDPAN, a collection of modules that provides tighter integration of
-Perl into the FreeBSD Ports Collection, has been added.
-
-vidcontrol(1) now allows the user to omit the font size specification
-when loading a font, and has some better error-handling.
-
-ip6fw(8) now has the ability to use a preprocessor and use the -q (quiet)
-flag when reading from a file. [MERGED]
-
-devinfo, a simple tool to print the device tree and resource usage by
-devices, has been added.
-
-fmtcheck(3), a function for checking consistency of format string
-arguments, has been added.
-
-nl(1), a line numbering filter program, has been added.
-
-c89(1) has been converted from a shell script to a binary executable,
-fixing some minor bugs.
-
-pax(1) has received a number of enhancements, including cpio(1)
-functionality, tar compatability enhancements, and a number of bug
-fixes.
-
-Ukranian language support has been added to the FreeBSD console.
-
-The performance of the ELF dynamic linker has been improved. [MERGED]
-
-fdread(1), a program to read data from floppy disks, has been added.
-It is designed to provide a means of recovering at least some data
-from bad media, and to obviate for a complex invocation of dd(1).
-
-xargs(1) now supports a -J replstr option that allows the user to tell
-xargs to insert the data read from standard input at a specific point
-in the command line arguments rather than at the end.
-
-apmd(8) now supports monitoring of the battery state via the
-apm_battery configuration directive.
-
-telnet(1) now does autologin and encryption by default; a new -y
-option turns off encryption.
-
-The Forth Inspired Command Language used in the boot loader has been
-updated to 2.05.
-
-
-2. Supported Configurations
----------------------------
-
-FreeBSD currently runs on a wide variety of ISA, VLB, EISA, MCA and PCI
-bus based PC's, ranging from 386sx to Pentium class machines (though the
-386sx is not recommended).  Support for generic IDE or ESDI drive
-configurations, various SCSI controller, network and serial cards is
-also provided.
-
-What follows is a list of all peripherals currently known to work with
-FreeBSD.  Other configurations may also work, we have simply not as yet
-received confirmation of this.
-
-2.1. Disk Controllers
----------------------
-IDE
-ATA
-
-Adaptec 1535 ISA SCSI controllers
-Adaptec 154x series ISA SCSI controllers
-Adaptec 164x series MCA SCSI controllers
-Adaptec 174x series EISA SCSI controller in standard and enhanced mode.
-Adaptec 274X/284X/2920C/294x/2950/3940/3950 (Narrow/Wide/Twin) series
-EISA/VLB/PCI SCSI controllers.
-Adaptec AIC7850, AIC7860, AIC7880, AIC789x, on-board SCSI controllers.
-Adaptec 1510 series ISA SCSI controllers (not for bootable devices)
-Adaptec 152x series ISA SCSI controllers
-Adaptec AIC-6260 and AIC-6360 based boards, which includes the AHA-152x
-and SoundBlaster SCSI cards.
-
-Adaptec 2100S, 2400A, 3200S, and 3400S SCSI RAID controllers.
-
-Adaptec FSA family RAID controllers:
-    Adaptec AAC-2622
-    Adaptec AAC-364
-    Adaptec AAC-3642
-    Dell PERC 2/QC
-    Dell PERC 2/Si
-    Dell PERC 3/Di
-    Dell PERC 3/QC
-    Dell PERC 3/Si
-    HP NetRAID-4M
-
-AdvanSys SCSI controllers (all models).
-
-BusLogic MultiMaster controllers:
-
-[ Please note that BusLogic/Mylex "Flashpoint" adapters are NOT yet supported ]
-
-BusLogic MultiMaster "W" Series Host Adapters:
-    BT-948, BT-958, BT-958D
-BusLogic MultiMaster "C" Series Host Adapters:
-    BT-946C, BT-956C, BT-956CD, BT-445C, BT-747C, BT-757C, BT-757CD, BT-545C,
-    BT-540CF
-BusLogic MultiMaster "S" Series Host Adapters:
-    BT-445S, BT-747S, BT-747D, BT-757S, BT-757D, BT-545S, BT-542D, BT-742A,
-    BT-542B
-BusLogic MultiMaster "A" Series Host Adapters:
-    BT-742A, BT-542B
-
-AMI FastDisk controllers that are true BusLogic MultiMaster clones are also
-supported.
-
-The Buslogic/Bustek BT-640 and Storage Dimensions SDC3211B and SDC3211F
-Microchannel (MCA) bus adapters are also supported.
-
-DPT SmartCACHE Plus, SmartCACHE III, SmartRAID III, SmartCACHE IV and
-SmartRAID IV SCSI/RAID controllers.
-
-DPT SmartRAID V and VI SCSI RAID controllers:
-    PM1554, PM2554, PM2654, PM2865, PM2754, PM3755, PM3757
-
-AMI MegaRAID Express and Enterprise family RAID controllers:
-    MegaRAID Series 418
-    MegaRAID Enterprise 1200 (Series 428)
-    MegaRAID Enterprise 1300 (Series 434)
-    MegaRAID Enterprise 1400 (Series 438)
-    MegaRAID Enterprise 1500 (Series 467)
-    MegaRAID Enterprise 1600 (Series 471)
-    MegaRAID Elite 1500 (Series 467)
-    MegaRAID Elite 1600 (Series 493)
-    MegaRAID Express 100 (Series 466WS)
-    MegaRAID Express 200 (Series 466)
-    MegaRAID Express 300 (Series 490)
-    MegaRAID Express 500 (Series 475)
-    Dell PERC
-    Dell PERC 2/SC
-    Dell PERC 2/DC
-    Dell PERC 3/DCL
-    HP NetRAID-1si
-    HP NetRAID-3si
-    HP Embedded NetRAID
-Booting from these controllers is supported.
-
-Mylex DAC960 and DAC1100 RAID controllers with 2.x, 3.x, 4.x and 5.x
-firmware:
-    DAC960P
-    DAC960PD
-    DAC960PDU
-    DAC960PL
-    DAC960PJ
-    DAC960PG
-    AcceleRAID 150
-    AcceleRAID 250
-    eXtremeRAID 1100
-Booting from these controllers is supported. EISA adapters are not
-supported.
-
-Mylex PCI to SCSI RAID controllers with 6.x firmware:
-    AcceleRAID 160
-    AcceleRAID 170
-    AcceleRAID 352
-    eXtremeRAID 2000
-    eXtremeRAID 3000
-Compatible Mylex controllers not listed should work, but have not been
-verified.
-
-3ware Escalade ATA RAID controllers.  All members of the 5000,
-6000, and 7000 series are supported.
-
-SymBios (formerly NCR) 53C810, 53C810a, 53C815, 53C820, 53C825a,
-53C860, 53C875, 53C875j, 53C885, 53C895 and 53C896 PCI SCSI controllers:
-        ASUS SC-200
-        Data Technology DTC3130 (all variants)
-	Diamond FirePort (all)
-        NCR cards (all)
-        Symbios cards (all)
-        Tekram DC390W, 390U and 390F
-        Tyan S1365
-
-NCR 53C500 based PC-Card SCSI host adapters:
-    IO DATA PCSC-DV
-    KME KXLC002(TAXAN ICD-400PN, etc.), KXLC004
-    Macnica Miracle SCSI-II mPS110
-    Media Intelligent MSC-110, MSC-200
-    NEC PC-9801N-J03R
-    New Media Corporation BASICS SCSI
-    Qlogic Fast SCSI
-    RATOC REX-9530, REX-5572 (as SCSI only)
-
-TMC 18C30, 18C50 based ISA/PC-Card SCSI host adapters:
-    Future Domain SCSI2GO
-    IBM SCSI PCMCIA Card
-    ICM PSC-2401 SCSI
-    Melco IFC-SC
-    RATOC REX-5536, REX-5536AM, REX-5536M, REX-9836A
-
-Qlogic Controllers and variants:
-    Qlogic 1020, 1040 SCSI and Ultra SCSI host adapters
-    Qlogic 1240 dual Ultra SCSI controllers
-    Qlogic 1080 Ultra2 LVD and 1280 Dual Ultra2 LVD controllers
-    Qlogic 12160 Ultra3 LVD controllers
-    Qlogic 2100 and Qlogic 2200 Fibre Channel SCSI controllers
-    Performance Technology SBS440 ISP1000 variants
-    Performance Technology SBS450 ISP1040 variants
-    Performance Technology SBS470 ISP2100 variants
-    Antares Microsystems P-0033 ISP2100 variants
-
-DTC 3290 EISA SCSI controller in 1542 emulation mode.
-
-Workbit Ninja SCSI-3 based PC-Card SCSI host adapters:
-    Alpha-Data AD-PCS201
-    IO DATA CBSC16
-
-With all supported SCSI controllers, full support is provided for
-SCSI-I & SCSI-II peripherals, including hard disks, optical disks,
-tape drives (including DAT and 8mm Exabyte), medium changers, processor
-target devices and CDROM drives.  WORM devices that support CDROM commands
-are supported for read-only access by the CDROM driver.  WORM/CD-R/CD-RW
-writing support is provided by cdrecord, which is in the ports tree.
-
-The following CD-ROM type systems are supported at this time:
-(cd)    SCSI interface (also includes ProAudio Spectrum and
-        SoundBlaster SCSI)
-(matcd) Matsushita/Panasonic (Creative SoundBlaster) proprietary
-        interface (562/563 models)
-(scd)   Sony proprietary interface (all models)
-(acd)   ATAPI IDE interface
-
-The following drivers were supported under the old SCSI subsystem, but are
-NOT YET supported under the new CAM SCSI subsystem:
-
-  NCR5380/NCR53400 ("ProAudio Spectrum") SCSI controller.
-
-  UltraStor 14F, 24F and 34F SCSI controllers.
-
-  Seagate ST01/02 SCSI controllers.
-
-  Future Domain 8xx/950 series SCSI controllers.
-
-  WD7000 SCSI controller.
-
-  [ Note:  There is work-in-progress to port the UltraStor driver to
-    the new CAM SCSI framework, but no estimates on when or if it will
-    be completed. ]
-
-Unmaintained drivers, they might or might not work for your hardware:
-
-  (mcd)   Mitsumi proprietary CD-ROM interface (all models)
-
-
-2.2. Ethernet cards
--------------------
-
-Adaptec Duralink PCI Fast Ethernet adapters based on the Adaptec
-AIC-6915 Fast Ethernet controller chip, including the following:
-  ANA-62011 64-bit single port 10/100baseTX adapter
-  ANA-62022 64-bit dual port 10/100baseTX adapter
-  ANA-62044 64-bit quad port 10/100baseTX adapter
-  ANA-69011 32-bit single port 10/100baseTX adapter
-  ANA-62020 64-bit single port 100baseFX adapter
-
-Allied-Telesis AT1700 and RE2000 cards
-
-Alteon Networks PCI Gigabit Ethernet NICs based on the Tigon 1 and Tigon 2
-chipsets, including the following:
-  Alteon AceNIC (Tigon 1 and 2)
-  3Com 3c985-SX (Tigon 1 and 2)
-  Netgear GA620 (Tigon 2)
-  Silicon Graphics Gigabit Ethernet
-  DEC/Compaq EtherWORKS 1000
-  NEC Gigabit Ethernet
-  Farallon PN9000SX
-  Asante PCI 1000BASE-SX Gigabit Ethernet Adapter
-  Asante GigaNIX1000T Gigabit Ethernet Adapter
-
-AMD PCnet/PCI (79c970 & 53c974 or 79c974)
-AMD PCnet/FAST, PCnet/FAST+, PCnet/FAST III, PCnet/PRO,
-PCnet/Home, and HomePNA.
-
-SMC Elite 16 WD8013 Ethernet interface, and most other WD8003E,
-WD8003EBT, WD8003W, WD8013W, WD8003S, WD8003SBT and WD8013EBT
-based clones.  SMC Elite Ultra.  SMC Etherpower II.
-
-RealTek 8129/8139 Fast Ethernet NICs including the following:
-  Allied Telesyn AT2550
-  Allied Telesyn AT2500TX
-  Genius GF100TXR (RTL8139)
-  NDC Communications NE100TX-E
-  OvisLink LEF-8129TX
-  OvisLink LEF-8139TX
-  Netronix Inc. EA-1210 NetEther 10/100
-  KTX-9130TX 10/100 Fast Ethernet
-  Accton "Cheetah" EN1207D (MPX 5030/5038; RealTek 8139 clone)
-  SMC EZ Card 10/100 PCI 1211-TX
-
-Lite-On 82c168/82c169 PNIC Fast Ethernet NICs including the following:
-  LinkSys EtherFast LNE100TX
-  NetGear FA310-TX Rev. D1
-  Matrox FastNIC 10/100
-  Kingston KNE110TX
-
-Macronix 98713, 98713A, 98715, 98715A and 98725 Fast Ethernet NICs
-  Accton EN1217 (98715A)
-  Adico AE310TX (98715A)
-  Compex RL100-TX
-  CNet Pro120A (98713 or 98713A)
-  CNet Pro120B (98715)
-  NDC Communications SFA100A (98713A)
-  SVEC PN102TX (98713)
-
-Macronix/Lite-On PNIC II LC82C115 Fast Ethernet NICs including the following:
-  LinkSys EtherFast LNE100TX Version 2
-
-Winbond W89C840F Fast Ethernet NICs including the following:
-  Trendware TE100-PCIE
-
-VIA Technologies VT3043 "Rhine I" and VT86C100A "Rhine II" Fast Ethernet
-NICs including the following:
-  Hawking Technologies PN102TX
-  D-Link DFE-530TX
-  AOpen/Acer ALN-320
-
-Silicon Integrated Systems SiS 900 and SiS 7016 PCI Fast Ethernet NICs
-
-National Semiconductor DP83815 Fast Ethernet NICs including the following:
-  NetGear FA311-TX
-  NetGear FA312-TX
-
-National Semiconductor DP83820 and DP83821 Gigabit Ethernet NICs including
-the following:
-    D-Link DGE-500T
-    SMC EZ Card 1000 (SMC9462TX)
-    Asante FriendlyNet GigaNIC 1000TA and 1000TPC
-    Addtron AEG320T     
-
-Sundance Technologies ST201 PCI Fast Ethernet NICs including
-the following:
-  D-Link DFE-550TX
-
-SysKonnect SK-984x PCI Gigabit Ethernet cards including the following:
-  SK-9841 1000baseLX single mode fiber, single port
-  SK-9842 1000baseLX single mode fiber, dual port
-  SK-9843 1000baseSX multimode fiber, single port
-  SK-9844 1000baseSX multimode fiber, dual port
-  SK-9821 1000baseT copper, single port
-  SK-9822 1000baseT copper, dual port
-
-Texas Instruments ThunderLAN PCI NICs, including the following:
-  Compaq Netelligent 10, 10/100, 10/100 Proliant, 10/100 Dual-Port
-  Compaq Netelligent 10/100 TX Embedded UTP, 10 T PCI UTP/Coax, 10/100 TX UTP
-  Compaq NetFlex 3P, 3P Integrated, 3P w/ BNC
-  Olicom OC-2135/2138, OC-2325, OC-2326 10/100 TX UTP
-  Racore 8165 10/100baseTX
-  Racore 8148 10baseT/100baseTX/100baseFX multi-personality
-
-ADMtek Inc. AL981-based PCI Fast Ethernet NICs
-ADMtek Inc. AN985-based PCI Fast Ethernet NICs
-ADMtek Inc. AN986-based USB Ethernet NICs including the following:
-  LinkSys USB100TX
-  Billionton USB100
-  Melco Inc. LUA-TX
-  D-Link DSB-650TX
-  SMC 2202USB
-
-CATC USB-EL1210A-based USB Ethernet NICs including the following:
-  CATC Netmate
-  CATC Netmate II
-  Belkin F5U111
-
-Kawasaki LSI KU5KUSB101B-based USB Ethernet NICs including
-the following:
-  LinkSys USB10T
-  Entrega NET-USB-E45
-  Peracom USB Ethernet Adapter
-  3Com 3c19250
-  ADS Technologies USB-10BT
-  ATen UC10T
-  Netgear EA101
-  D-Link DSB-650
-  SMC 2102USB
-  SMC 2104USB
-  Corega USB-T
-
-ASIX Electronics AX88140A PCI NICs, including the following:
-  Alfa Inc. GFC2204
-  CNet Pro110B
-
-DEC DC21040, DC21041, or DC21140 based NICs (SMC Etherpower 8432T, DE245, etc)
-
-DEC/Intel 21143 based Fast Ethernet NICs, including the following:
-  DEC DE500-BA
-  Compaq Presario 7900 series built-in Ethernet
-  D-Link DFE-570TX
-  Kingston KNE100TX
-  LinkSys EtherFast 10/100 Instant GigaDrive built-in Ethernet
-
-Davicom DM9100 and DM9102 PCI Fast Ethernet NICs, including the
-following:
-  Jaton Corporation XpressNet
-
-Fujitsu MB86960A/MB86965A, including the following:
-  CONTEC C-NET(PC)C Ethernet
-  Eiger Labs EPX-10BT
-  Fujitsu FMV-J182, FMV-J182A, MBH10302, MBH10303 Ethernet PCMCIA
-  Fujitsu Towa LA501 Ethernet
-  HITACHI HT-4840-11
-  NextCom J Link NC5310
-  RATOC REX-5588, REX-9822, REX-4886, REX-R280
-  TDK LAK-CD021, LAK-CD021A, LAK-CD021BX
-
-HP PC Lan+ cards (model numbers: 27247B and 27252A).
-
-Intel EtherExpress 16
-Intel EtherExpress Pro/10
-Intel EtherExpress Pro/100B PCI Fast Ethernet
-Intel InBusiness 10/100 PCI Network Adapter
-Intel PRO/100+ Management Adapter
-
-Isolan AT 4141-0 (16 bit)
-Isolink 4110     (8 bit)
-
-Novell NE1000, NE2000, and NE2100 Ethernet interface.
-
-PCI network cards emulating the NE2000: RealTek 8029, NetVin 5000,
-Winbond W89C940, Surecom NE-34, VIA VT86C926.
-
-3Com 3C501 cards
-
-3Com 3C503 Etherlink II
-
-3Com 3c505 Etherlink/+
-
-3Com 3C507 Etherlink 16/TP
-
-3Com 3C509, 3C529 (MCA), 3C579,
-3C589/589B/589C/589D/589E/XE589ET/574TX/574B (PC-card/PCMCIA),
-3C590/592/595/900/905/905B/905C PCI,
-3C556/556B MiniPCI,
-3C575TX/575B/XFE575BT/575C/656/656B/656C Cardbus,
-and EISA (Fast) Etherlink III / (Fast) Etherlink XL
-
-3Com 3c980/3c980B Fast Etherlink XL server adapter
-
-3Com 3cSOHO100-TX OfficeConnect adapter
-
-Crystal Semiconductor CS89x0-based NICs, including:
-  IBM Etherjet ISA
-
-NE2000 compatible PC-Card (PCMCIA) Ethernet/FastEthernet cards,
-including the following:
-  AR-P500 Ethernet card
-  Accton EN2212/EN2216/UE2216(OEM)
-  Allied Telesis CentreCOM LA100-PCM_V2
-  AmbiCom 10BaseT card
-  BayNetworks NETGEAR FA410TXC Fast Ethernet
-  CNet BC40 adapter
-  COREGA Ether PCC-T/EtherII PCC-T/FEther PCC-TXF/PCC-TXD
-  Compex Net-A adapter
-  CyQ've ELA-010
-  D-Link DE-650/660
-  Danpex EN-6200P2
-  ELECOM Laneed LD-CDL/TX
-  IO DATA PCLATE,PCET/TX-R
-  IBM Creditcard Ethernet I/II
-  IC-CARD Ethernet/IC-CARD+ Ethernet
-  Linksys EC2T/PCMPC100,EtherFast 10/100 PC Card (PCMPC100 V2)
-  Melco LPC-T/LPC2-T/LPC2-CLT/LPC2-TX/LPC3-TX/LPC3-CLX
-  NDC Ethernet Instant-Link
-  National Semiconductor InfoMover NE4100
-  Network Everywhere Ethernet 10BaseT PC Card
-  Planex FNW-3600-T
-  Socket LP-E
-  Surecom EtherPerfect EP-427
-  TDK LAK-CD031,Grey Cell GCS2000 Ethernet Card
-  Telecom Device SuperSocket RE450T
-
-Megahertz X-Jack Ethernet PC-Card CC-10BT
-
-Xircom X3201 (Cardbus) based Ethernet cards,
-including the following:
-  IBM EtherJet Cardbus Adapter
-  Intel PRO/100 Mobile Cardbus (versions that uses the X3201 chipset)
-  Xircom Cardbus Realport
-  Xircom Cardbus Ethernet 10/100
-  Xircom Cardbus Ethernet II 10/100
-
-Xircom CreditCard adapters(16bit) and workalikes
-    Accton EN2226/Fast EtherCard (16-bit verison)
-    Compaq Netelligent 10/100 PC Card
-    Intel EtherExpress PRO/100 Mobile Adapter (16-bit verison)
-    Xircom 10/100 Network PC Card adapter.
-    Xircom Realport card + modem(Ethernet part)
-    Xircom CreditCard Ethernet 10/100
-    Xircom CreditCard 10Base-T "CreditCard Ethernet Adaptor IIps" (PS-CE2-10)
-    Xircom CreditCard Ethernet 10/100 + modem (Ethernet part)
-
-National Semiconductor DP8393X (SONIC) Ethernet cards
-    NEC PC-9801-83, -84, -103, and -104
-    NEC PC-9801N-25 and -J02R
-
-
-2.3. FDDI
----------
-
-DEC FDDI (DEFPA/DEFEA) NICs
-
-
-2.4. ATM
---------
-
-   o ATM Host Interfaces
-        - FORE Systems, Inc. PCA-200E ATM PCI Adapters
-        - Efficient Networks, Inc. ENI-155p ATM PCI Adapters
-
-   o ATM Signaling Protocols
-        - The ATM Forum UNI 3.1 signaling protocol
-        - The ATM Forum UNI 3.0 signaling protocol
-        - The ATM Forum ILMI address registration
-        - FORE Systems' proprietary SPANS signaling protocol
-        - Permanent Virtual Channels (PVCs)
-
-   o IETF "Classical IP and ARP over ATM" model
-        - RFC 1483, "Multiprotocol Encapsulation over ATM Adaptation Layer 5"
-        - RFC 1577, "Classical IP and ARP over ATM"
-        - RFC 1626, "Default IP MTU for use over ATM AAL5"
-        - RFC 1755, "ATM Signaling Support for IP over ATM"
-        - RFC 2225, "Classical IP and ARP over ATM"
-        - RFC 2334, "Server Cache Synchronization Protocol (SCSP)"
-        - Internet Draft draft-ietf-ion-scsp-atmarp-00.txt,
-                "A Distributed ATMARP Service Using SCSP"
-
-   o ATM Sockets interface
-
-
-2.5. Misc
----------
-
-AST 4 port serial card using shared IRQ.
-
-ARNET 8 port serial card using shared IRQ.
-ARNET (now Digiboard) Sync 570/i high-speed serial.
-
-Boca BB1004 4-Port serial card (Modems NOT supported)
-Boca IOAT66 6-Port serial card (Modems supported)
-Boca BB1008 8-Port serial card (Modems NOT supported)
-Boca BB2016 16-Port serial card (Modems supported)
-
-Comtrol Rocketport card.
-
-Cyclades Cyclom-y Serial Board.
-
-STB 4 port card using shared IRQ.
-
-SDL Communications Riscom/8 Serial Board.
-SDL Communications RISCom/N2 and N2pci high-speed sync serial boards.
-
-Stallion multiport serial boards: EasyIO, EasyConnection 8/32 & 8/64,
-ONboard 4/16 and Brumby.
-
-Specialix SI/XIO/SX ISA, EISA and PCI serial expansion cards/modules.
-
-Advance Asound 100, 110 and Logic ALS120, ALS4000
-C-Media CMI-8x38
-Crystal Semiconductor CS461x/462x/428x
-Crystal Semiconductor CS4281
-ENSONIQ AudioPCI ES1370/1371
-ESS ES1868, ES1869, ES1879 and ES1888
-ESS Maestro-1, Maestro-2, and Maestro-2E
-ESS Maestro-3/Allegro
-ForteMedia fm801
-Gravis UltraSound MAX/PnP
-MSS/WSS Compatible DSPs
-NeoMagic 256AV/ZX
-OPTi 931/82C931
-S3 Sonicvibes
-SoundBlaster, Soundblaster Pro, Soundblaster AWE-32, Soundblaster AWE-64
-Trident 4DWave DX/NX
-VIA Technologies VT82C686A
-Yamaha DS1 and DS1e
-(newpcm driver)
-
-Connectix QuickCam
-Matrox Meteor Video frame grabber
-Creative Labs Video Spigot frame grabber
-Cortex1 frame grabber
-Hauppauge Wincast/TV boards (PCI)
-STB TV PCI
-Intel Smart Video Recorder III
-Various Frame grabbers based on Brooktree Bt848 / Bt878 chip.
-
-HP4020, HP6020, Philips CDD2000/CDD2660 and Plasmon CD-R drives.
-
-PS/2 mice
-
-Standard PC Joystick
-
-X-10 power controllers
-
-GPIB and Transputer drivers.
-
-Genius and Mustek hand scanners.
-
-Xilinx XC6200 based reconfigurable hardware cards compatible with
-the HOT1 from Virtual Computers (www.vcc.com)
-
-Support for Dave Mills experimental Loran-C receiver.
-
-Lucent Technologies WaveLAN/IEEE 802.11 PCMCIA and ISA standard speed
-(2Mbps) and turbo speed (6Mbps) wireless network adapters and workalikes
-NCR WaveLAN/IEEE 802.11
-3COM 3crwe737A AirConnect Wireless LAN PC Card
-Addtron AWA100
-Cabletron RoamAbout 802.11 DS
-Compaq WL100
-Corega KK Wireless LAN PCC-11, PCCA-11
-Laneed Wireless card
-ELECOM Air@Hawk/LD-WL11/PCC
-Farallon Skyline 11Mbps Wireless
-ICOM SL-1100
-IO Data WN-B11/PCM
-Melco Airconnect WLI-PCM-L11
-NEC Wireless Card CMZ-RT-WP, PC-WL/11C, PK-WL001
-PLANEX GeoWave/GW-NS110
-TDK LAK-CD011WL
-Note: the ISA versions of these adapters are actually PCMCIA cards
-combined with an ISA to PCMCIA bridge card, so both kinds of devices
-work with the same driver.
-
-Aironet 4500/4800 series 802.11 wireless adapters. The PCMCIA,
-PCI and ISA adapters are all supported.
-Cisco Systems Aironet 340 Series (includes 340, 341, and 342 models)
-11Mbps 802.11 wireless NIC
-
-Webgear Aviator 2.4GHz wireless adapters.
-
-AcerISDN P10 ISA PnP (experimental)
-Asuscom ISDNlink 128K ISA
-AVM A1
-AVM Fritz!Card classic
-AVM Fritz!Card PnP
-AVM Fritz!Card PCI
-Creatix ISDN-S0
-Creatix ISDN-S0 P&P
-Dr. Neuhaus Niccy Go@ and compatibles
-Dynalink IS64PH
-ELSA PCC-16
-ELSA QuickStep 1000pro ISA
-ELSA MicroLink ISDN/PCI
-ELSA QuickStep 1000pro PCI
-ITK ix1 Micro ( < V.3, non-PnP version )
-Sedlbauer Win Speed
-Siemens I-Surf 2.0
-TELEINT ISDN SPEED No.1 (experimental)
-Teles S0/8
-Teles S0/16
-Teles S0/16.3
-Teles S0/16.3 PnP
-Teles 16.3c ISA PnP (experimental)
-USRobotics Sportster ISDN TA intern
-Winbond W6692 based PCI cards
-
-Toshiba Mobile HDD MEHDD20A (Type II)
-
-Panasonic Flash ATA BN-040ABP3
-
-Hewlett Packard M820e (CD-writer)
-
-FAX-Modem/PC-Card
-Melco IGM-PCM56K/IGM-PCM56KH
-Nokia Card Phone 2.0 (gsm900/dcs1800 HSCSD terminal)
-
-PHS Data Communication Card/PC-Card
-NTT DoCoMo P-in Comp@ct
-Panasonic KX-PH405
-SII MC-P200
-
-
-3. Obtaining FreeBSD
---------------------
-
-You may obtain FreeBSD in a variety of ways:
-
-
-3.1. FTP/Mail
--------------
-
-You can ftp FreeBSD and any or all of its optional packages from
-`ftp.FreeBSD.org' - the official FreeBSD release site.
-
-For other locations that mirror the FreeBSD software see the file
-MIRROR.SITES.  Please ftp the distribution from the site closest (in
-networking terms) to you.  Additional mirror sites are always welcome!
-Contact freebsd-admin@FreeBSD.org for more details if you'd like to
-become an official mirror site.
-
-If you do not have access to the Internet and electronic mail is your
-only recourse, then you may still fetch the files by sending mail to
-`ftpmail@ftpmail.vix.com' - putting the keyword "help" in your message
-to get more information on how to fetch files using this mechanism.
-Please do note, however, that this will end up sending many *tens of
-megabytes* through the mail and should only be employed as an absolute
-LAST resort!
-
-
-3.2. CDROM
-----------
-
-FreeBSD 4.x-RELEASE and 3.x-RELEASE CDs may be ordered on CDROM from:
-
-        BSDi / Walnut Creek CDROM
-        4041 Pike Lane, Suite D
-        Concord CA  94520
-        USA
-        +1-800-786-9907, +1-925-674-0783, +1-925-674-0821 (FAX)
-
-Or via the Internet from orders@cdrom.com or http://www.cdrom.com.
-Their current catalog can be obtained via ftp from:
-
-        ftp://ftp.cdrom.com/cdrom/catalog
-
-Cost per -RELEASE CD is $39.95 or $24.95 with a FreeBSD subscription.
-FreeBSD SNAPshot CDs, when available, are $39.95 or $14.95 with a
-FreeBSD-SNAP subscription (-RELEASE and -SNAP subscriptions are entirely
-separate).  With a subscription, you will automatically receive updates as
-they are released.  Your credit card will be billed when each disk is
-shipped and you may cancel your subscription at any time without further
-obligation.
-
-Shipping (per order not per disc) is $5 in the US, Canada or Mexico
-and $9.00 overseas.  They accept Visa, Mastercard, Discover, American
-Express or checks in U.S. Dollars and ship COD within the United
-States.  California residents please add 8.25% sales tax.
-
-Should you be dissatisfied for any reason, the CD comes with an
-unconditional return policy.
-
-
-4. Upgrading from previous releases of FreeBSD
-----------------------------------------------
-
-If you're upgrading from a previous release of FreeBSD, most likely
-it's 3.0 and there may be some issues affecting you, depending
-of course on your chosen method of upgrading.  There are two popular
-ways of upgrading FreeBSD distributions:
-
-        o Using sources, via /usr/src
-        o Using sysinstall's (binary) upgrade option.
-
-Please read the UPGRADE.TXT file for more information, preferably
-before beginning an upgrade.
-
-
-5. Reporting problems, making suggestions, submitting code.
------------------------------------------------------------
-Your suggestions, bug reports and contributions of code are always
-valued - please do not hesitate to report any problems you may find
-(preferably with a fix attached, if you can!).
-
-The preferred method to submit bug reports from a machine with
-Internet mail connectivity is to use the send-pr command or use the CGI
-script at http://www.FreeBSD.org/send-pr.html.  Bug reports
-will be dutifully filed by our faithful bugfiler program and you can
-be sure that we'll do our best to respond to all reported bugs as soon
-as possible.  Bugs filed in this way are also visible on our WEB site
-in the support section and are therefore valuable both as bug reports
-and as "signposts" for other users concerning potential problems to
-watch out for.
-
-If, for some reason, you are unable to use the send-pr command to
-submit a bug report, you can try to send it to:
-
-                freebsd-bugs@FreeBSD.org
-
-Note that send-pr itself is a shell script that should be easy to move
-even onto a totally different system.  We much prefer if you could use
-this interface, since it make it easier to keep track of the problem
-reports.  However, before submitting, please try to make sure whether
-the problem might have already been fixed since.
-
-
-Otherwise, for any questions or tech support issues, please send mail to:
-
-                freebsd-questions@FreeBSD.org
-
-
-If you're tracking the -current development efforts, you should
-definitely join the -current mailing list, in order to keep abreast
-of recent developments and changes that may affect the way you
-use and maintain the system:
-
-		freebsd-current@FreeBSD.org
-
-
-Additionally, being a volunteer effort, we are always happy to have
-extra hands willing to help - there are already far more desired
-enhancements than we'll ever be able to manage by ourselves!  To
-contact us on technical matters, or with offers of help, please send
-mail to:
-
-                freebsd-hackers@FreeBSD.org
-
-
-Please note that these mailing lists can experience *significant*
-amounts of traffic and if you have slow or expensive mail access and
-are only interested in keeping up with significant FreeBSD events, you
-may find it preferable to subscribe instead to:
-
-                freebsd-announce@FreeBSD.org
-
-
-All of the mailing lists can be freely joined by anyone wishing
-to do so.  Send mail to MajorDomo@FreeBSD.org and include the keyword
-`help' on a line by itself somewhere in the body of the message.  This
-will give you more information on joining the various lists, accessing
-archives, etc.  There are a number of mailing lists targeted at
-special interest groups not mentioned here, so send mail to majordomo
-and ask about them!
-
-
-6. Acknowledgments
-------------------
-
-FreeBSD represents the cumulative work of many hundreds, if not
-thousands, of individuals from around the world who have worked very
-hard to bring you this release.  For a complete list of FreeBSD
-project staffers, please see:
-
-        http://www.FreeBSD.org/handbook/staff.html
-
-or, if you've loaded the doc distribution:
-
-        file:/usr/share/doc/handbook/staff.html
-
-Special thanks also go to the many thousands of FreeBSD users and testers
-all over the world, without whom this release simply would not have been
-possible.
-
-                        The FreeBSD Project
-
-$FreeBSD$