FreeBSD/i386 6.4-RELEASE Installation Instructions
The FreeBSD Project
Copyright © 2000, 2001, 2002, 2003, 2004, 2005, 2006 The FreeBSD Documentation Project
This section documents the process of installing a new distribution of FreeBSD. These instructions pay particular emphasis to the process of obtaining the FreeBSD 6.4-RELEASE distribution and to beginning the installation procedure. The “Installing FreeBSD” chapter of the FreeBSD Handbook provides more in-depth information about the installation program itself, including a guided walkthrough with screenshots.
If you are upgrading from a previous release of FreeBSD, please see Section 3 for instructions on upgrading.
Probably the most important pre-installation step that can be taken is that of reading the various instruction documents provided with FreeBSD. A roadmap of documents pertaining to this release of FreeBSD can be found in README.TXT, which can usually be found in the same location as this file; most of these documents, such as the release notes and the hardware compatibility list, are also accessible in the Documentation menu of the installer.
This collection of documents may seem daunting, but the time spent reading them will likely be saved many times over. Being familiar with what resources are available can also be helpful in the event of problems during installation.
The best laid plans sometimes go awry, so if you run into trouble take a look at Section 4, which contains valuable troubleshooting information. You should also read an updated copy of ERRATA.TXT before installing, since this will alert you to any problems which have reported in the interim for your particular release.
Important: 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.
FreeBSD for the i386 requires a 486 or better processor and at least 24 MB of RAM. You will need at least 150MB of free hard drive space for the most minimal installation. See below for ways of shrinking existing DOS partitions in order to install FreeBSD.
If you are not familiar with configuring hardware for FreeBSD, you should be sure to read the HARDWARE.TXT file; it contains important information on what hardware is supported by FreeBSD.
Depending on how you choose to install FreeBSD, you may need to create a set of floppy disks (usually four) to begin the installation process. This section briefly describes how to create these disks, either from a CDROM installation or from the Internet. Note that in the common case of installing FreeBSD from CDROM, on a machine that supports bootable CDROMs, the steps outlined in this section will not be needed and can be skipped.
For most CDROM or network installations, all you need to copy onto actual floppies from the floppies/ directory are the boot.flp and kernX.flp images (for 1.44MB floppies).
Getting these images over the network is easy. Simply fetch the release/floppies/boot.flp, and all of the release/floppies/kernX.flp files from ftp://ftp.FreeBSD.org/ or one of the many mirrors listed at FTP Sites section of the Handbook, or on the http://mirrorlist.FreeBSD.org/ Web pages.
Get several blank, freshly formatted floppies and image copy boot.flp onto one and the kernX.flp files onto the others. 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(1) command in UNIX.
For example, to create the kernel floppy image from DOS, you'd do something like this:
C> fdimage boot.flp a:
Assuming that you'd copied fdimage.exe and boot.flp into a directory somewhere. You would do the same for the kernX.flp files, of course.
If you're creating the boot floppy from a UNIX machine, you may find that:
# dd if=floppies/boot.flp of=/dev/rfd0
# dd if=floppies/boot.flp of=/dev/fd0
# dd if=floppies/boot.flp of=/dev/floppy
work well, depending on your hardware and operating system environment (different versions of UNIX have different names for the floppy drive).
The easiest type of installation is from CDROM. If you have a supported CDROM drive and a FreeBSD installation CDROM, there are 2 ways of starting the installation from it:
If your system supports the “CDBOOT” standard for bootable CDROM media and you have booting from CD enabled, simply put the FreeBSD installation CD in your CDROM drive and boot the system to begin installation.
Build a set of FreeBSD boot floppies from the floppies/ directory in every FreeBSD distribution. Read Section 1.3 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 (or your computer does not support booting from CDROM) and would like to simply install over the net using PPP, SLIP or a dedicated connection, you should start the installation by building a set of FreeBSD boot floppies from the files floppies/boot.flp and floppies/kernX.flp using the instructions found in Section 1.3. Restart your computer using the boot.flp disk; when prompted, insert the other disks as required. Then, please go to Section 1.5.5 for additional tips on installing via FTP or NFS.
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 Documentation submenu as well as the general “Usage” instructions on the first menu.
Note: If you get stuck at a screen, press 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 are listed below.
If you simply wish to install from a local CDROM drive then see Section 1.4. 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:
If you would be able to FTP install FreeBSD directly from the CDROM drive in some FreeBSD machine, it's quite easy: You ensure an FTP server is running and then simply add the following line to the password file (using the vipw(8) command):
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 after picking “URL” in the ftp sites menu.
Warning: This may allow anyone on the local network (or Internet) to make “anonymous FTP” connections to this machine, which may not be desirable.
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). The example below allows the machine ziggy.foo.com to mount the CDROM directly via NFS during installation:
/cdrom -ro ziggy.foo.com
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.
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 Section 1.3.
Second, peruse Section 2 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.
Important: Frequently, floppy disks come “factory preformatted”. While convenient, many problems reported by users in the past have resulted from the use of improperly formatted media. Re-format them yourself, just to make sure.
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(8) and newfs(8) commands to put a UFS filesystem on a floppy, as the following sequence of commands illustrates:
# fdformat -f 1440 fd0 # disklabel -w fd0 floppy3 # newfs -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 sized so that a floppy disk will hold a single file. 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: 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.
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 (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:\BASE C:\FREEBSD\BASE
Assuming that E: was where your CD was mounted.
For as many distributions 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.
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 use tar(1) to get them onto the tape with a command something like this:
# cd /where/you/have/your/dists # tar cvf /dev/sa0 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.
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 1.3 and proceed with the installation.
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, parallel port, or Ethernet.
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 the PPP utility should 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.
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: If you use a Linux machine rather than a FreeBSD machine as your PLIP peer, you will also have to specify
link0in the TCP/IP setup screen's “extra options for ifconfig” field in order to be compatible with Linux's slightly different PLIP protocol.
FreeBSD supports most common Ethernet cards; a table of supported cards is provided as part of the FreeBSD Hardware Notes (see HARDWARE.TXT in 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 subnet 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 is almost guaranteed not to work, and will probably result in a lecture from said system administrator.
Once you have a network connection of some sort working, the installation can continue over NFS or FTP.
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 (this is generally the default for Sun and Linux workstations), you may 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
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
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 something like the following would work in the absence of a name server:
There are three FTP installation modes you can use:
FTP: This method uses the standard “Active” mode for transfers, in which the server initiates 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.
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.
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:
In the URL above, port is the port number of the proxy FTP server.
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:
Connect some sort of ANSI (vt100) compatible terminal or terminal emulation program to the COM1 port of the PC you are installing FreeBSD onto.
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.
If you don't get any output on your serial console, plug the keyboard in again. If you are booting from the CDROM, proceed to step 5 as soon as you hear the beep.
If booting from floppies, when access to the disk stops, insert the first of the kernX.flp disks and press Enter. When access to this disk finishes, insert the next kernX.flp disk and press Enter, and repeat until all kernX.flp disks have been inserted. When disk activity finishes, reinsert the boot.flp floppy disk and press Enter.
Once a beep is heard, hit the number 6, then enter
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.
- 1.6.1. Help! I have no space! Do I need to delete everything first?
- 1.6.2. Can I use compressed DOS filesystems from FreeBSD?
- 1.6.3. Can I mount my DOS extended partitions?
- 1.6.4. Can I run DOS binaries under FreeBSD?
- 1.6.5. Can I run Microsoft® Windows® applications under FreeBSD?
- 1.6.6. Can I run other Operating Systems under FreeBSD?
If your machine is already running DOS and has little or no free space available for FreeBSD's installation, there are several alternatives for resizing existing partitions so that you can install FreeBSD.
The FIPS utility, provided in the tools/ subdirectory on the FreeBSD CDROM or on the various FreeBSD ftp sites, can resize an existing FAT partition. It 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).
For systems with NTFS partitions, a different tool, such as ntfsresize or the commercially-available Partition Magic, is required. ntfsresize, as well as the GParted graphical interface for partition resizing, is available on a number of Live CD Linux distributions, such as SystemRescueCD.
Problems have been reported resizing Microsoft Vista partitions. Having a Vista installation CDROM handy when attempting such an operation is recommended. As with all such disk maintenance tasks, a current set of backups is also strongly advised.
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.
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
Ongoing work with BSDI's doscmd(1) utility will suffice in many cases, though it still has some rough edges. The emulators/doscmd port/package can be found in the FreeBSD Ports Collection. If you're interested in working on this, please send mail to the FreeBSD-emulation mailing list and indicate that you're interested in joining this ongoing effort!
The emulators/pcemu port/package in the FreeBSD 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.
There are several ports/packages in the FreeBSD Ports Collection which can enable the use of many Windows applications. The emulators/wine port/package provides a compatibility layer on top of FreeBSD which allow many Windows applications to be run within X Windows (XFree86).
Again, there are several ports/packages in the FreeBSD Ports Collection which simulate "virtual machines" and allow other operating systems to run on top of FreeBSD. The emulators/bochs port/package allows Microsoft Windows, Linux and even other copies of FreeBSD to be run within a window on the FreeBSD desktop. The emulators/vmware2 and emulators/vmware3 ports/packages allow the commercial VMware virtual machine software to be run on FreeBSD.
A typical FreeBSD distribution directory looks something like this (exact details may vary depending on version, architecture, and other factors):
ERRATA.HTM README.TXT compat1x dict kernel ERRATA.TXT RELNOTES.HTM compat20 doc manpages HARDWARE.HTM RELNOTES.TXT compat21 docbook.css packages HARDWARE.TXT base compat22 filename.txt ports INSTALL.HTM boot compat3x floppies proflibs INSTALL.TXT catpages compat4x games src README.HTM cdrom.inf crypto info tools
These same files are contained in the first CDROM of a multi-disk set, but they are laid out slightly differently on the disk. On most architectures, the installation CDROM also contains a “live filesystem” in addition to the distribution files. The live filesystem is useful when repairing or troubleshooting an existing FreeBSD installation (see Section 4 for how to use this).
The floppies directory will be of particular interest to users who are unable to boot from the CDROM media (but are able to read the CDROM by other means). It is easy to generate a set of 1.44MB boot floppies from the floppies directory (see Section 1.3 for instructions on how to do this) and use these to start an installation from CDROM, FTP, or NFS. 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 entirety of this document (the installation instructions) file.
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 some of these items in more detail:
The *.TXT and *.HTM files contain documentation (for example, this document is contained in both INSTALL.TXT and INSTALL.HTM) and should be read before starting an installation. The *.TXT files are plain text, while the *.HTM files are HTML files that can be read by almost any Web browser. Some distributions may contain documentation in other formats as well, such as PDF or PostScript.
docbook.css is a Cascading Style Sheet (CSS) file used by some Web browsers for formatting the HTML documentation.
The base, catpages, crypto, dict, 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, compat3x, and compat4x 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.
The floppies/ subdirectory contains the floppy installation images; further information on using them can be found in Section 1.3.
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
Packages can also be installed 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 190MB unpacked. More information on the ports collection may be obtained from http://www.FreeBSD.org/ports/ or locally from /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.
A typical distribution directory (for example, the info distribution) 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(8) program to verify the installation permissions and checksums against any possible modifications to the file. When used with the base 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
These instructions describe a procedure for doing a binary upgrade from an older version of FreeBSD.
Warning: 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.
Important: These notes assume that you are using the version of sysinstall(8) supplied with the version of FreeBSD to which you intend to upgrade. Using a mismatched version of sysinstall(8) 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 sysinstall(8) from an existing installation to upgrade to a newer version of FreeBSD. This is not recommended.
Warning: Binary upgrades to FreeBSD 6.4-RELEASE from FreeBSD 4-STABLE are not supported at this time. There are some files present in a FreeBSD 4-STABLE whose presence can be disruptive, but are not removed by a binary upgrade. One notable example is that an old /usr/include/g++ directory will cause C++ programs to compile incorrectly (or not at all).
These upgrade instructions are provided for the use of users upgrading from relatively recent FreeBSD 6.4-STABLE snapshots.
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 section in its entirety before commencing an upgrade. Failure to do so may result in a failed upgrade or loss of data.
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, XF86Config, adduser.conf, aliases, aliases.db, amd.map, crontab, csh.cshrc, csh.login, csh.logout, cvsupfile, dhclient.conf, disktab, dm.conf, dumpdates, exports, fbtab, fstab, ftpusers, gettytab, gnats, group, hosts, hosts.allow, hosts.equiv, hosts.lpd, inetd.conf, localtime, login.access, login.conf, mail, mail.rc, make.conf, manpath.config, master.passwd, motd, namedb, networks, newsyslog.conf, nsmb.conf, nsswitch.conf, pam.conf, passwd, periodic, ppp, printcap, profile, pwd.db, rc.conf, rc.conf.local, rc.firewall, rc.local, remote, resolv.conf, rmt, sendmail.cf, sendmail.cw, services, shells, skeykeys, spwd.db, ssh, syslog.conf, ttys, uucp
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.
This section details the upgrade procedure. Particular attention is given to items which substantially differ from a normal installation.
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.
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.
When selecting distributions, there are no constraints on which must be selected. As a general rule, the base 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.
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.
Those interested in an upgrade method that allows more flexibility and sophistication should take a look at The Cutting Edge in the FreeBSD Handbook. This procedure involves rebuilding all of FreeBSD from source code. It requires reliable network connectivity, extra disk space, and time, but has advantages for networks and other more complex installations. This is roughly the same procedure as is used for track the -STABLE or -CURRENT development branches.
/usr/src/UPDATING contains important information on updating a FreeBSD system from source code. It lists various issues resulting from changes in FreeBSD that may affect an upgrade.
FreeBSD features a “fixit” option in the top menu of the sysinstall(8) installation program. It provides a shell with common programs from the FreeBSD base system; this environment is useful for repairing or troubleshooting an existing FreeBSD installation. To use fixit mode, you will also need either the fixit.flp floppy, generated in the same fashion as the boot floppies, or the “live filesystem” CDROM. In multi-disk FreeBSD distributions, the live filesystem image is typically located on the installation disk. Note that some UNIX system administration experience is required to use the fixit option.
Generally, there are two ways of invoking fixit mode. Users who can boot from the FreeBSD installation CDROM, should do so and then choose the “fixit” item from the main sysinstall(8) menu. Then select the “CDROM/DVD” option from the fixit menu.
Users who cannot boot from CDROM, but can boot from floppy disk, require a few more steps. In addition to the boot.flp and kernX.flp disks required for installation, create the fixit.flp floppy disk, in the same way as the other floppy disks. Follow the instructions for booting the installation program from floppy disk until reaching the main sysinstall(8) menu. At that point, choose the “fixit” item from the main sysinstall(8) menu. Then select the “Floppy” option from the fixit menu, and insert the fixit.flp floppy disk when prompted to do so.
The CDROM and floppy fixit environments are similar, but not identical. Both offer a shell with a variety of commands available for checking, repairing and examining filesystems and their contents. The CDROM version of fixit provides all of the commands and programs available in the FreeBSD base system, through the live filesystem. By contrast, the floppy fixit environment can only offer a subset of commands due to space constraints.
In the floppy version of fixit, some standalone utilities can be found in /stand or /mnt2/stand. In the CDROM version of fixit, these same programs can be found in /stand or /mnt2/rescue (as well as the rest of the programs from the live filesystem, which can be found under /mnt).
- 4.2.1. My system hangs while probing hardware during boot, or it behaves strangely during install, or the floppy drive isn't probed.
- 4.2.3. My legacy ISA device used to be recognized in previous versions of FreeBSD, but now it's not. What happened?
- 4.2.4. 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:
- 4.2.5. 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.
- 4.2.6. The mcd(4) driver keeps thinking that it has found a device and this stops my Intel EtherExpress card from working.
- 4.2.7. The system finds my ed(4) network card, but I keep getting device timeout errors.
- 4.2.8. I booted the install floppy on my IBM ThinkPad (tm) laptop, and the keyboard is all messed up.
- 4.2.9. My system can not find my Intel EtherExpress 16 card.
- 4.2.10. When installing on an EISA HP Netserver, my on-board AIC-7xxx SCSI controller isn't detected.
- 4.2.11. 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.
- 4.2.12. I have this CMD640 IDE controller that is said to be broken.
- 4.2.13. On a Compaq Aero notebook, I get the message “No floppy devices found! Please check ...” when trying to install from floppy.
- 4.2.14. When installing on a Dell Poweredge XE, Dell proprietary RAID controller DSA (Dell SCSI Array) isn't recognized.
- 4.2.15. I have an IBM EtherJet PCI card, it is detected by the fxp(4) driver correctly, but the lights on the card don't come on and it doesn't connect to the network.
- 4.2.16. When I configure the network during installation on an IBM Netfinity 3500, the system freezes.
- 4.2.17. When I install onto a drive managed by a Mylex PCI RAID controller, the system fails to boot (eg. with a read error message).
FreeBSD 5.0 and above makes extensive use of the system ACPI service on the i386, amd64 and ia64 platforms to aid in system configuration if it's detected during boot. Unfortunately, some bugs still exist in both the ACPI driver and within system motherboards and BIOS. The use of ACPI can be disabled by setting the “hint.acpi.0.disabled” hint in the third stage boot loader:
This is reset each time the system is booted, so it is necessary to add hint.acpi.0.disabled="1" to the file /boot/loader.conf. More information about the boot loader can be found in the FreeBSD Handbook.
Some device drivers, like matcd, were removed over time due to lack of maintainership or other reasons. Others still exist but are disabled because of their intrusive hardware probe routines. The following ISA device drivers fall into this category and can re-enabled from the third stage boot loader: aha, ahv, aic, bt, ed, cs, sn, ie, fe, le, and lnc. To do this, stop the loader during it's 10 second countdown and enter the following at the prompt:
where foo is the name of the driver to re-enable. This can be set permanently by editing the file /boot/device.hints and removing the appropriate “disabled” entry.
changing root device to ad1s1a panic: cannot mount root
What is wrong? What can I do?
What is this bios_drive:interface(unit,partition)kernel_name thing that is displayed with the boot help?
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 ad0 and ad2.
FreeBSD is on BIOS disk 1, of type ad and the FreeBSD disk number is 2, so you would say:
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:
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.
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 workstation 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.
Set the hints “hint.mcd.0.disabled="1"” and “hint.mcd.1.disabled="1"” in the third stage boot loader to 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.
Your card is probably on a different IRQ from what is specified in the /boot/device.hints file. 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 -1 in the hints for the interface.
Either move the jumper on the card to a hard configuration setting (altering the kernel settings if necessary), or specify the IRQ as -1 by setting the hint “hint.ed.0.irq="-1"” 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.
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. Set the hint “hint.atkbd.0.flags="4"” and it should work fine.
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.
This is a known problem, and will hopefully be fixed in the future. In order to get your system installed at all, set the hint “hw.eisa_slots="12"” in the third stage loader.
Your machine doesn't like the new i586_copyout and i586_copyin code for some reason. To disable this, set the hint “hint.npx.0.flags="1"”
FreeBSD does not support this controller.
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. Set the hint “hint.fdc.0.flags="1"” This pretends the existence of the first floppy drive (as a 1.44 MB drive) to the driver without asking the CMOS at all.
Configure the DSA to use AHA-1540 emulation using EISA configuration utility. After that FreeBSD detects the DSA as an 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.
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.
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.
This file, and other release-related documents, can be downloaded from ftp://ftp.FreeBSD.org/.
For questions about this documentation, e-mail <doc@FreeBSD.org>.
Last modified on: May 15, 2021 by Allan Jude