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JimMockRestructured, reorganized, and parts
rewritten by RandyPrattThe sysinstall walkthrough, screenshots, and general
copy by Installing FreeBSDSynopsisinstallationFreeBSD is provided with a text-based, easy to use installation
program called Sysinstall. This is the
default installation program for FreeBSD, although vendors are free to
provide their own installation suite if they wish. This chapter
describes how to use Sysinstall to install
FreeBSD.After reading this chapter, you will know:How to create the FreeBSD installation disks.How FreeBSD refers to, and subdivides, your hard disks.How to start Sysinstall.The questions Sysinstall will ask
you, what they mean, and how to answer them.Before reading this chapter, you should:Read the supported hardware list that shipped with the version
of FreeBSD you are installing, and verify that your hardware is
supported.In general, these installation instructions are written
for i386 (PC compatible) architecture
computers. Where applicable, instructions specific to other
platforms (for example, Alpha) will be listed.Pre-installation TasksInventory Your ComputerBefore installing FreeBSD you should attempt to inventory the
components in your computer. The FreeBSD installation routines will
show you the components (hard disks, network cards, CDROM drives, and
so forth) with their model number and manufacturer. FreeBSD will also
attempt to determine the correct configuration for these devices,
which includes information about IRQ and IO port usage. Due to the
vagaries of PC hardware this process is not always completely
successful, and you may need to correct FreeBSD's determination of
your configuration.If you already have another operating system installed, such as
Windows or Linux, it is a good idea to use the facilities provided
by those operating systems to see how your hardware is already
configured. If you are really not sure what settings an expansion
card is using, you may find it printed on the card itself. Popular IRQ
numbers are 3, 5, and 7, and IO port addresses are normally written as
hexadecimal numbers, such as 0x330.We recommend you print or write down this information before
installing FreeBSD. It may help to use a table, like this:
Sample Device InventoryDevice NameIRQIO port(s)NotesFirst hard diskN/AN/A4GB, made by Seagate, first IDE masterCDROMN/AN/AFirst IDE slaveSecond hard diskN/AN/A2GB, made by IBM, second IDE masterFirst IDE controller140x1f0Network cardN/AN/AIntel 10/100ModemN/AN/A3Com 56K faxmodem, on COM1…
Backup Your DataIf the computer you will be installing FreeBSD on contains
valuable data then ensure you have it backed up, and that you have
tested the backups before installing FreeBSD. The FreeBSD
installation routine will prompt you several times before writing any
data to your disk, but once that process has started it cannot be
undone.Decide Where to Install FreeBSDIf you want FreeBSD to use all your disk, then there is nothing
more to concern yourself with at this point — you can skip to the
next section.However, if you need FreeBSD to co-exist with other operating
systems then you need to have a rough understanding of how data is
laid out on the disk, and how this affects you.Disk Layouts for the i386A PC disk can be divided in to discrete chunks. These chunks are
called partitions. By design, the PC only
supports four partitions per disk. These partitions are called
primary partitions. To work around this
limitation and allow more than four partitions, a new partition type
was created, the extended partition. A disk
may contain only one extended partition. Special partitions, called
logical partitions, can be created inside this
extended partition.Each partition has a partition ID, which is
a number used to identify the type of data on the partition. FreeBSD
partitions have the partition ID 165.In general, each operating system that you use will identify
partitions in a particular way. For example, DOS, and its
descendants, like Windows, assign each primary and logical partition a
drive letter, starting with
C:.FreeBSD must be installed into a primary partition. FreeBSD can
keep all its data, including any files that you create, on this one
partition. However, if you have multiple disks, then you can create a
FreeBSD partition on all, or some, of them. When you install FreeBSD,
you must have one partition available. This might be a blank
partition that you have prepared, or it might be an existing partition
that contains data that you no longer care about.If you are already using all the partitions on all your disks, then
you will have to free one of them for FreeBSD using the tools
provided by the other operating systems you use (e.g.,
fdisk on DOS or Windows).If you have a spare partition then you can use that. However, you
may need to shrink one or more of your existing partitions
first.A minimal installation of FreeBSD takes as little as 100MB of disk
space. However, that is a very minimal install,
leaving almost no space for your own files. A more realistic minimum
is 250MB without a graphical environment, and 350MB or more if you
want a graphical user interface. If you intend to install a lot of
third party software as well, then you will need more space.You can use a commercial tool such as Partition
Magic to resize your partitions to make space for
FreeBSD. The tools directory on the CDROM
contains two free software tools which can carry out this task,
FIPS and
PResizer. Documentation for both of these
is in the same directory.Incorrect use of these tools can delete the data on your disk.
Be sure that you have recent, working backups before using
them.Using an existing partition unchangedSuppose that you have a computer with a single 4GB disk that
already has a version of Windows installed, and you have split the
disk in to two drive letters, C: and
D:, each of which is 2GB in size. You have
1GB of data on C:, and 0.5GB of data on
D:.This means that your disk has two partitions on it, one per
drive letter. You can copy all your existing data from
D: to C:, which
will free up the second partition, ready for FreeBSD.Shrinking an existing partitionSuppose that you have a computer with a single 4GB disk, that
already has a version of Windows installed. When you installed
Windows you created one large partition, giving you a
C: drive that is 4GB in size. You are
currently using 1.5GB of space, and want FreeBSD to have 2GB of
space.In order to install FreeBSD you will need to either:Backup your Windows data, and then reinstall Windows,
asking for a 2GB partition at install time.Use one of the tools such as Partition
Magic, described above, to shrink your Windows
partition.Disk Layouts for the AlphaAlphaYou will need a dedicated disk for FreeBSD on the
Alpha. It is not possible to share a disk with another
operating system at this time. Depending on the specific
Alpha machine you have, this disk can either be a SCSI disk
or an IDE disk, as long as your machine is capable of
booting from it.Following the conventions of the Digital / Compaq
manuals all SRM input is shown in uppercase. SRM is case
insensitive.To find the names and types of disks in your machine, use
the SHOW DEVICE command from the SRM
console prompt:>>>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 EIDEThis example is from a Digital Personal Workstation
433au and shows three disks attached to the machine. The
first is a CDROM drive called DKA0 and
the other two are disks and are called
DKC0 and
DKC100 respectively.Disks with names of the form DKx
are SCSI disks. For example DKA100
refers to a SCSI with SCSI target ID 1 on the first SCSI bus (A),
whereas DKC300 refers to a SCSI disk
with SCSI ID 3 on the third SCSI bus (C). Devicename
PKx refers to the SCSI host bus adapter. As
seen in the SHOW DEVICE output SCSI
CDROM drives are treated as any other SCSI hard disk drive.IDE disks have names similar to DQx,
while PQx is the associated IDE
controller.Collect Your Network Configuration DetailsIf you intend to connect to a network as part of your FreeBSD
installation (for example, if you will be installing from an FTP
site, or an
NFS server), then you need to know your network configuration. You
will be prompted for this information during the installation so that
FreeBSD can connect to the network to complete the install.Connecting to an Ethernet Network, or Cable/DSL ModemIf you connect to an Ethernet network, or you have an Internet
connection via cable or DSL, then you will need the following
information:IP address.IP address of the default gateway.Hostname.DNS server IP addresses.If you do not know this information, then ask your system
administrator or service provider. They may say that this
information is assigned automatically, using
DHCP. If so, make a note of this.Connecting Using a ModemIf you dial up to an ISP using a regular modem then you can
still install FreeBSD over the Internet, it will just take a very
long time.You will need to know:The phone number to dial for your ISP.The COM: port your modem is connected to.The username and password for your ISP account.Check for FreeBSD ErrataAlthough the FreeBSD project strives to ensure that each release
of FreeBSD is as stable as possible, bugs do occasionally creep in to
the process. On very rare occasions those bugs affect the
installation process. As these problems are discovered and fixed they
are noted in the FreeBSD Errata, posted on the FreeBSD web site. You
should check the errata before installing to make sure that there are
no late-breaking problems which you should be aware of.Information about all the releases, including the errata for each
release, can be found on the
release
information section of the
FreeBSD web site.Prepare the Boot DiscsFreeBSD can be installed from a number of different media; CDROM,
DVD, FTP (both anonymous and non-anonymous), NFS, tape, or an existing
MS-DOS partition.If you have FreeBSD on CDROM or DVD, and your computer allows
you to boot from the CDROM or DVD (typically a BIOS option called
Boot Order or similar) then you can skip this
section. The FreeBSD CDROM and DVD images are bootable and can be
used to install FreeBSD without any other special
preparation.The FreeBSD installation process is started by booting your
computer into the FreeBSD installer—it is not a program you run
within another operating system. To do this, you must create some
floppy disks that can be booted from, and then boot from them.If you are not installing directly from
CDROM, DVD, or FTP then you are probably preparing your own
installation media (e.g., an MS-DOS partition), which must be prepared
before you install FreeBSD. This is a slightly more advanced,
infrequent activity, and is documented in . This includes the scenario where you
want to create your own FTP site on your own network so that other
computers can use your site as a FreeBSD FTP installation site.In general, to create boot floppy images, follow these
steps:Acquire the Boot Floppy ImagesThe boot discs are available on your installation media
in the floppies directory, and
can also be downloaded from the
floppies directory.The floppy images have a .flp extension.
The floppies/ directory contains a number of
different images, and the ones you will need to use depends on the
version of FreeBSD you are installing, and in some cases, the
hardware you are installing to. In most cases you will need two
files, kern.flp and
mfsroot.flp, but check
README.TXT in the same directory to be
sure.Your FTP program must use binary mode
to download these disk images. Some web browsers have been
known to use text (or
ASCII) mode, which will be apparent if you
cannot boot from the disks.Prepare the Floppy DisksYou must prepare one floppy disk per image file you had to
download. It is imperative that these disks are free from
defects. The easiest way to test this is to format the disks
for yourself. Do not trust pre-formatted floppies.If you try to install FreeBSD and the installation
program crashes, freezes, or otherwise misbehaves, one of
the first things to suspect is the floppies. Try writing
the floppy image files to some other disks and try
again.Write the Image Files to the Floppy Disks.The .flp files are
not regular files you copy to the disk.
Instead, they are images of the complete contents of the
disk. This means that you cannot use
commands like DOS' copy to write the
files. Instead, you must use specific tools to write the
images directly to the disk.DOSIf you are creating the floppies on a computer running
DOS/Windows, then we provide a tool to do
this called fdimage.If you are using the floppies from the CDROM, and your
CDROM is the E: drive, then you would
run this:E:\>tools\fdimage floppies\kern.flp A:Repeat this command for each .flp
file, replacing the floppy disk each time, being sure to label
the disks with the name of the file that you copied to them.
Adjust the command line as necessary, depending on where you have
placed the .flp files. If you do not have
the CDROM, then fdimage can be downloaded from
the tools directory on the FreeBSD FTP site.If you are writing the floppies on a Unix system (such as
another FreeBSD system) you can use the &man.dd.1; command to
write the image files directly to disk. On FreeBSD, you would
run:&prompt.root; dd if=kern.flp of=/dev/fd0On FreeBSD, /dev/fd0 refers to the
first floppy disk (the A: drive).
/dev/fd1 would be the
B: drive, and so on. Other Unix
variants might have different names for the floppy disk
devices, and you will need to check the documentation for the
system as necessary.You are now ready to start installing FreeBSD.Starting the InstallationBy default, the installation will not make any changes to your
disk(s) until you see the following message.Last Chance: Are you SURE your want continue the installation?
If you're running this on a disk with data you wish to save then WE
STRONGLY ENCOURAGE YOU TO MAKE PROPER BACKUPS before proceeding!
We can take no responsibility for lost disk contents!The install can be exited at any time prior to the final
warning without changing the contents of the hard drive. If you are
concerned that you have configured something incorrectly you can just
turn the computer off before this point, and no damage will be
done.BootingBooting for the i386Start with your computer turned off.Turn on the computer. As it starts it should display an
option to enter the system set up menu, or BIOS, commonly reached
by keys like F2, F10,
Del, or
AltS. Use whichever keystroke is indicated on screen. In
some cases your computer may display a graphic while it starts.
Typically, pressing Esc will dismiss the graphic
and allow you to see the necessary messages.Find the setting that controls which devices the system boots
from. This is commonly shown as a list of devices, such as
Floppy, CDROM,
First Hard Disk, and so on.If you needed to prepare boot floppies, then make sure that the
floppy disk is selected. If you are booting from the CDROM then
make sure that that is selected instead. In case of doubt, you
should consult the manual that came with your computer, and/or its
motherboard.Make the change, then save and exit. The computer should now
restart.If you needed to prepare boot floppies, as described in
then one of them will be the
first boot disc, probably the one containing
kern.flp. Put this disc in your floppy
drive.If you are booting from CDROM, then you will need to turn on
the computer, and insert the CDROM at the first
opportunity.If your computer starts up as normal, and loads your existing
operating system then either:The disks were not inserted early enough in the boot
process. Leave them in, and try restarting your
computer.The BIOS changes earlier did not work correctly. You
should redo that step until you get the right option.FreeBSD will start to boot. If you are booting from CDROM you
will see a display similar to this:Verifying DMI Pool Data ........
Boot from ATAPI CD-ROM :
1. FD 2.88MB System Type-(00)
Uncompressing ... done
BTX loader 1.00 BTX version is 1.01
Console: internal video/keyboard
BIOS drive A: is disk0
BIOS drive B: is disk1
BIOS drive C: is disk2
BIOS drive C: is disk3
BIOS 639kB/261120kB available memory
FreeBSD/i386 bootstrap loader, Revision 0.8
(murray@builder.freebsdmall.com, Thu Jan 17 19:28:57 PST 2002)
/kernel text=0x266691 data=0x407c+0x20d68 \
|
Hit [Enter] to boot immediately, or any other key for command prompt.
Booting [kernel] in 9 seconds... _If you are booting from floppy disc, you will see a display
similar to this:Verifying DMI Pool Data ........
BTX loader 1.00 BTX version is 1.01
Console: internal video/keyboard
BIOS drive A: is disk0
BIOS drive C: is disk1
BIOS 639kB/261120kB available memory
FreeBSD/i386 bootstrap loader, Revision 0.8
(murray@builder.freebsdmall.com, Thu Jan 17 19:28:57 PST 2002)
/kernel text=0x266691 data=0x407c+0x20d68 |
Please insert MFS root floppy and press enter:Follow these instructions by removing the
kern.flp disc, insert the
mfsroot.flp disc, and press
Enter.Irrespective of whether you booted from floppy or CDROM, the
boot process will then get to this point.Hit [Enter] to boot immediately, or any other key for command prompt.
Booting [kernel] in 9 seconds... _Either wait ten seconds, or press Enter. This
will then launch the kernel configuration menu.Booting for the AlphaAlphaStart with your computer turned off.Turn on the computer and wait for a boot monitor
prompt.If you needed to prepare boot floppies, as described in
then one of them will be the
first boot disc, probably the one containing
kern.flp. Put this disc in your floppy
drive and type the following command to boot the disk
(substituting the name of your floppy drive if
necessary):>>>BOOT DVA0 -FLAGS '' -FILE ''If you are booting from CDROM, insert the CDROM into
the drive and type the following command to start the
installation (substituting the name of the appropriate
CDROM drive if necessary):>>>BOOT DKA0 -FLAGS '' -FILE ''FreeBSD will start to boot. If you are booting from a
floppy disc, at some point you will see the message:Please insert MFS root floppy and press enter:Follow these instructions by removing the
kern.flp disc, insert the
mfsroot.flp disc, and press
Enter.Irrespective of whether you booted from floppy or CDROM, the
boot process will then get to this point.Hit [Enter] to boot immediately, or any other key for command prompt.
Booting [kernel] in 9 seconds... _Either wait ten seconds, or press Enter. This
will then launch the kernel configuration menu.Kernel ConfigurationThe kernel is the core of the operating
system. It is responsible for many things, including access to all
the devices you may have on your system, such as hard disks, network
cards, sound cards, and so on. Each piece of hardware supported by
the FreeBSD kernel has a driver associated with it. Each driver has a
two or three letter name, such as sa for the
SCSI sequential access driver, or sio for the
Serial I/O driver (which manages COM ports).When the kernel starts, each driver checks the system to see
whether or not the hardware it supports exists on your system. If it
does, then the driver configures the hardware and makes it available
to the rest of the kernel.This checking is commonly referred to as device
probing. Unfortunately, it is not always possible to do
this in a safe way. Some hardware drivers do not co-exist well
together, and probing for one piece of hardware can sometimes leave
another in an inconsistent state. This is a basic
limitation of the design of the PC.Many older devices are called ISA devices—as opposed
to PCI devices. The ISA specification requires each device to have
some information hard coded into it, typically the Interrupt Request
Line number (IRQ) and IO port address that the driver uses. This
information is commonly set by using physical
jumpers on the card, or by using a DOS based
utility.This was often a source of problems, because it was not possible
to have two devices that shared the same IRQ or port address.Newer devices follow the PCI specification, which does not require
this, as the devices are supposed to cooperate with the BIOS, and be
told which IRQ and IO port addresses to use.If you have any ISA devices in your computer then FreeBSD's
driver for that device will need to be configured with the IRQ and
port address that you have set the card to. This is why carrying out
an inventory of your hardware (see ) can be useful.Unfortunately, the default IRQs and memory ports used by some
drivers clash. This is because some ISA devices are shipped with IRQs
or memory ports that clash. The defaults in FreeBSD's drivers are
deliberately set to mirror the manufacturer's defaults, so that, out
of the box, as many devices as possible will work.This is almost never an issue when running FreeBSD day-to-day.
Your computer will not normally contain two pieces of hardware that
clash, because one of them would not work (irrespective of the
operating system you are using).It becomes an issue when you are installing FreeBSD for the first
time because the kernel used to carry out the install has to contain
as many drivers as possible, so that many different hardware
configurations can be supported. This means that some of
those drivers will have conflicting configurations. The devices are
probed in a strict order, and if you own a device that is probed late
in the process, but conflicted with an earlier probe, then your
hardware might not function or be probed correctly when you install
FreeBSD.Because of this, the first thing you have the opportunity to do
when installing FreeBSD is look at the list of drivers that are
configured in to the kernel, and either disable some of them, if you
do not own that device, or confirm (and alter) the driver's
configuration if you do own the device but the defaults are
wrong.This probably sounds much more complicated than it actually
is. shows the first kernel
configuration menu. We recommend that you choose the
Start kernel configuration in full-screen visual
mode option, as it presents the easiest interface for
the new user.Kernel Configuration MenuThe kernel configuration screen ()
is then divided into four sections.A collapsible list of all the drivers that are currently
marked as active, subdivided in to groups such as
Storage, and Network. Each
driver is shown as a description, its two three letter driver
name, and the IRQ and memory port used by that driver. In
addition, if an active driver conflicts with another active driver
then CONF is shown next to the driver name.
This section also shows the total number of conflicting drivers
that are currently active.Drivers that have been marked inactive. They remain in the
kernel, but they will not probe for their device when the kernel
starts. These are subdivided in to groups in the same way as the
active driver list.More detail about the currently selected driver, including its
IRQ and memory port address.Information about the keystrokes that are valid at this point
in time.The Kernel Device Configuration Visual InterfaceAt this point there will always be conflicts listed. Do not worry
about this, it is to be expected; all the drivers are enabled, and
as has already been explained, some of them will conflict with one
another.You now have to work through the list of drivers, resolving the
conflicts.Resolving Driver ConflictsPress X. This will completely expand the
list of drivers, so you can see all of them. You will need to use
the arrow keys to scroll back and forth through the active driver
list. shows the result of
pressing X. Expanded Driver ListDisable all the drivers for devices that you do not have. To
disable a driver, highlight it with the arrow keys and press
Del. The driver will be moved to the
Inactive Drivers list.If you inadvertently disable a device that you need then press
Tab to switch to the Inactive
Drivers list, select the driver that you disabled, and
press Enter to move it back to the active
list.Do not disable sc0. This controls
the screen, and you will need this unless you are installing
over a serial cable.Only disable atkbd0 if you are
using a USB keyboard. If you have a normal keyboard then you
must keep atkbd0.If there are no conflicts listed then you can skip this step.
Otherwise, the remaining conflicts need to be examined. If they
do not have the indication of an allowed conflict in the message
area, then either the IRQ/address for device probe will need to be
changed, or the IRQ/address on the hardware
will need to be changed.To change the driver's configuration for IRQ and IO port
address, select the device and press Enter. The
cursor will move to the third section of the screen, and you can
change the values. You should enter the values for IRQ and port
address that you discovered when you made your hardware inventory.
Press Q to finish editing the device's
configuration and return to the active driver list.If you are not sure what these figures should be then you can
try using -1. Some FreeBSD drivers can safely
probe the hardware to discover what the correct value should be,
and a value of -1 configures them to do
this.The procedure for changing the address on the hardware varies
from device to device. For some devices you may need to
physically remove the card from your computer and adjust jumper
settings or DIP switches. Other cards may have come with a DOS
floppy that contains the programs used to reconfigure the card.
In any case, you should refer to the documentation that came with
the device. This will obviously entail restarting your computer,
so you will need to boot back in to the FreeBSD installation
routine when you have reconfigured the card.When all the conflicts have been resolved the screen will look
similar to .Driver Configuration With No ConflictsAs you can see, the active driver list is now much smaller,
with only drivers for the hardware that actually exists being
listed.You can now save these changes, and move on to the next step
of the install. Press Q to quit the device
configuration interface. This message will appear.Save these parameters before exiting? ([Y]es/[N]o/[C]ancel)Answer Y to save the parameters and the
probing will start. After displaying the probe results in white
on black text Sysinstall will start
and display its main menu
().Sysinstall Main MenuReviewing the Device Probe ResultsThe last few hundred lines that have been displayed on screen are
stored and can be reviewed.To review the buffer, press Scroll Lock. This
turns on scrolling in the display. You can then use the arrow keys, or
PageUp and PageDown to view the
results. Press Scroll Lock again to stop
scrolling,Do this now, to review the text that scrolled off the screen when
the kernel was carrying out the device probes. You will see text
similar to , although the precise
text will differ depending on the devices that you have in your
computer.Typical Device Probe Resultsavail memory = 254611456 (248644K bytes)
Preloaded elf kernel "kernel" at 0xc069a000.
Preloaded mfs_root "/mfsroot" at 0xc069a084.
md1: Malloc disk
npx0: <math processor> on motherboard
npx0: INT 16 interface
pcib0: <Host to PCI bridge> on motherboard
pci0: <PCI bus> on pcib0
pcib1: <VIA 82C598MVP (Apollo MVP3) PCI-PCI (AGP bridge> at device 1.0 on pci0
pci1: <PCI bus> on pcib1
pci1: <Matrox MGA G200 AGP graphics accelerator> at 0.0 irq 11
isab0: <VIA 82C586 PCI-ISA bridge> at device 7.0 on pci0
isa0: <ISA bus> on isab0
atapci0: <VIA 82C586 ATA33 controller> port 0xe000-0xe00f at device 7.1 on pci0
ata0: at 0x1f0 irq 14 on atapci0
uhci0: <VIA 83C572 USB controller> port 0xe400-0xe41f irq 10 at device 7.2 on pci0
usb0: <VIA 83C572 USB controller> on uhci0
usb0: USB revision 1.0
uhub0: VIA UHCI root hub, class 9/0, rev 1.00/1.00, addr 1
uhub0: 2 ports with 2 removable, self powered
chip1: <VIA 82C586B ACPI interface> at device 7.3 on pci0
ed0: <NE2000 PCI Ethernet (RealTek 8029)> port 0xe800-0xe81f irq 9 at device 10.0 on pci0
ed0: address 52:54:05:de:73:1b, type NE2000 (16bit)
isa0: too many dependant configs (8)
isa0: unexpected small tag 14
orm0; <Option ROM> at iomem 0xc0000-0xc7fff on isa0
fdc0: <NEC 72065B or clone> at port 0x3f0-0x3f5,0x3f7 irq6 drq2 on isa0
fdc0: FIFO enabled, 8 bytes threshold
fd0: <1440-KB 3.5" drive> on fdc0 drive 0
atkbdc0: <keyboard controller (i8042)> at port 0x60-0x64 on isa0
atkbd0: <AT Keyboard> flags 0x1 irq 1 on atkbdc0
kbd0 at atkbd0
psm0: <PS/2 Mouse> irq 12 on atkbdc0
psm0: model Generic PS/2 mouse, device ID 0
vga0: <Generic ISA VGA> at port 0x3c0-0c3df iomem 0xa0000-0xbffff on isa0
sc0: <System console> at flags 0x100 on isa0
sc0: VGA <16 virtual consoles, flags-0x300>
sio0 at port 0x3f8-0x3ff irq 4 flags 0x10 on isa0
sio0: type 16550A
sio1: at port 0x2f8-0x2ff irq3 on isa0
sio1: type 16550A
ppc0: <Parallel port> at port 0x378-0x37f irq 7 on isa0
ppc0: SMC-like chipset (ECP/EPP/PS2/NIBBLE) in COMPATIBLE mode
ppc0: FIFO with 16/16/15 bytes threshold
ppbus0: IEEE1284 device found /NIBBLE
Probing for PnP devices on ppbus0:
ppi0: <Parallel I/O> on ppbus0
plip0: <PLIP network interface> on ppbus0
ad0: 8063MB <IBM-DHEA-38451> [16383/16/63] at ata0-master using UDMA33
acd0: CDROM <DELTA OTC-H101/ST3 F/W by OIPD> at ata0-slave using PIO4
Mounting root from ufs:/dev/md0c
/stand/sysinstall running as init on vty0Check the probe results carefully to make sure that FreeBSD found
all the devices you expected. If a device was not found, then it will
not be listed. If the device's driver required configuring
with the IRQ and port address then you should check that you entered
them correctly.If you need to make changes to the UserConfig device probing,
its easy to exit the sysinstall program
and start over again. Its also a good way to become more familiar
with the process.Select Sysinstall ExitUse the arrow keys to select
Exit Install from the Main
Install Screen menu. The following message will display: User Confirmation Requested
Are you sure you wish to exit? The system will reboot
(be sure to remove any floppies from the drives).
[ Yes ] NoThe install program will start again if the CDROM is left
in the drive and [Yes] is selected.If you are booting from floppies it will be necessary to remove
the mfs.root floppy and replace it with
kern.flp before rebooting.Introducing SysinstallSysinstall is the installation
application provided by the FreeBSD Project. It is console based and is
divided into a number of menus and screens that you can use to
configure and control the installation process.The Sysinstall menu system is controlled
by the arrow keys, Enter, Space. and
other keys. A detailed description of these keys, and what they do, is
contained in Sysinstall's usage
information.To review this information, ensure that the
Usage entry is highlighted and that the
[Select] button is selected, as shown in , then press Enter.The instructions for using the menu system will be displayed. After
reviewing them, press Enter to return to the Main
Menu.Selecting Usage From Sysinstall Main MenuSelecting The Documentation MenuFrom the Main Menu, select Doc with
the arrow keys and
press Enter.Selecting Documentation MenuThis will display the Documentation Menu.Sysinstall Documentation MenuIt is important to read the documents provided.To view a document, select it with the arrow keys and
press Enter. When finished reading a document,
pressing Enter will return to the Documentation
Menu.To return to the Main Installation Menu, select
Exit with the
arrow keys and press Enter.Selecting The Keymap MenuTo change the keyboard mapping, use the arrow keys to select
Keymap from the menu and press
EnterSysinstall Main MenuA different keyboard mapping may be chosen by selecting the
menu item using up/down arrow keys and pressing Space.
Pressing Space again will unselect the item. When
finished, choose the &gui.ok; using the
arrow keys and press
Enter.Only a partial list is shown in this screen representation.
Selecting &gui.cancel; will use the default
keymap and return to the Main Install Menu.Sysinstall Keymap MenuInstallation Options ScreenSelect Options and press
EnterSysinstall Main MenuSysinstall OptionsThe default values are usually fine for most users and do
not need to be changed.The description of the selected item will appear at the
bottom of the screen highlighted in blue. Notice that one of the
options is Use Defaults to reset all
values to startup defaults.Press F1 to read the help screen about the
various options.Pressing Q will return to the Main Install
menu.Begin A Standard InstallationThe Standard installation is the
option recommended for those new to Unix or FreeBSD. Use the arrow
keys to select Standard and
then press Enter to start the installation.Begin Standard InstallationAllocating Disk SpaceYour first task is to allocate disk space for FreeBSD, and label
that space so that Sysinstall can prepare
it. In order to do this you need to know how FreeBSD expects to find
information on the disk.BIOS Drive NumberingBefore you install and configure FreeBSD on your system, there is an
important subject that you should be aware of, especially if you have
multiple hard drives.DOSMicrosoft WindowsIn a PC running a BIOS-dependent operating system such as
MS-DOS or Microsoft Windows, the BIOS is able to abstract the
normal disk drive order, and
the operating system goes along with the change. This allows the user
to boot from a disk drive other than the so-called primary
master. This is especially convenient for some users who have
found that the simplest and cheapest way to keep a system backup is to
buy an identical second hard drive, and perform routine copies of the
first drive to the second drive using
Ghost or XCOPY
. Then, if the
first drive fails, or is attacked by a virus, or is scribbled upon by an
operating system defect, he can easily recover by instructing the BIOS
to logically swap the drives. It is like switching the cables on the
drives, but without having to open the case.SCSIBIOSMore expensive systems with SCSI controllers often include BIOS
extensions which allow the SCSI drives to be re-ordered in a similar
fashion for up to seven drives.A user who is accustomed to taking advantage of these features may
become surprised when the results with FreeBSD are not as expected.
FreeBSD does not use the BIOS, and does not know the logical BIOS
drive mapping. This can lead to very perplexing situations,
especially when drives are physically identical in geometry, and have
also been made as data clones of one another.When using FreeBSD, always restore the BIOS to natural drive
numbering before installing FreeBSD, and then leave it that way. If you
need to switch drives around, then do so, but do it the hard way, and
open the case and move the jumpers and cables.An Illustration from the Files of Bill and Fred's Exceptional
Adventures:Bill breaks-down an older Wintel box to make another FreeBSD box
for Fred. Bill installs a single SCSI drive as SCSI unit zero and
installs FreeBSD on it.Fred begins using the system, but after several days notices that
the older SCSI drive is reporting numerous soft errors and reports
this fact to Bill.After several more days, Bill decides it is time to address the
situation, so he grabs an identical SCSI drive from the disk drive
archive in the back room. An initial surface scan
indicates that
this drive is functioning well, so Bill installs this drive as SCSI
unit four and makes an image copy from drive zero to drive four. Now
that the new drive is installed and functioning nicely, Bill decides
that it is a good idea to start using it, so he uses features in the
SCSI BIOS to re-order the disk drives so that the system boots from
SCSI unit four. FreeBSD boots and runs just fine.Fred continues his work for several days, and soon Bill and Fred
decide that it is time for a new adventure -- time to upgrade to a
newer version of FreeBSD. Bill removes SCSI unit zero because it was
a bit flaky and replaces it with another identical disk drive from
the archive. Bill then installs the new version of FreeBSD onto the
new SCSI unit zero using Fred's magic Internet FTP floppies. The
installation goes well.Fred uses the new version of FreeBSD for a few days, and certifies
that it is good enough for use in the engineering department...it is
time to copy all of his work from the old version. So Fred mounts
SCSI unit four (the latest copy of the older FreeBSD version). Fred
is dismayed to find that none of his precious work is present on SCSI
unit four.Where did the data go?When Bill made an image copy of the original SCSI unit zero onto
SCSI unit four, unit four became the new clone,
When Bill
re-ordered the SCSI BIOS so that he could boot from SCSI unit four, he
was only fooling himself. FreeBSD was still running on SCSI unit zero.
Making this kind of BIOS change will cause some or all of the Boot and
Loader code to be fetched from the selected BIOS drive, but when the
FreeBSD kernel drivers take-over, the BIOS drive numbering will be
ignored, and FreeBSD will transition back to normal drive numbering.
In the illustration at hand, the system continued to operate on the
original SCSI unit zero, and all of Fred's data was there, not on SCSI
unit four. The fact that the system appeared to be running on SCSI
unit four was simply an artifact of human expectations.We are delighted to mention that no data bytes were killed or
harmed in any way by our discovery of this phenomenon. The older SCSI
unit zero was retrieved from the bone pile, and all of Fred's work was
returned to him, (and now Bill knows that he can count as high as
zero).Although SCSI drives were used in this illustration, the concepts
apply equally to IDE drives.Disk OrganizationThe smallest unit of organization that FreeBSD uses to find files
is the filename. Filenames are case-sensitive, which means that
readme.txt and README.TXT
are two separate files. FreeBSD does not use the extension
(.txt) of a file to determine whether the file is
program, or a document, or some other form of data.Files are stored in directories. A directory may contain no
files, or it may contain many hundreds of files. A directory can also
contain other directories, allowing you to build up a hierarchy of
directories within one another. This makes it much easier to organize
your data.Files and directories are referenced by giving the file or
directory name, followed by a forward slash, /,
followed by any other directory names that are necessary. If you have
directory foo, which contains directory
bar, which contains the file
readme.txt, then the full name, or
path to the file is
foo/bar/readme.txt.Directories and files are stored in a filesystem. Each filesystem
contains exactly one directory at the very top level, called the
root directory for that filesystem. This root
directory can then contain other directories.So far this is probably similar to any other operating system you
may have used. There are a few differences; for example, DOS uses
\ to separate file and directory names, while MacOS
uses :.FreeBSD does not use drive letters, or other drive names in the
path. You would not write c:/foo/bar/readme.txt
on FreeBSD.Instead, one filesystem is designated the root
filesystem. The root filesystem's root directory is
referred to as /. Every other filesystem is then
mounted under the root filesystem. No matter
how many disks you have on your FreeBSD system, every directory
appears to be part of the same disk.Suppose you have three filesystems, called A,
B, and C. Each filesystem has
one root directory, which contains two other directories, called
A1, A2 (and likewise
B1, B2 and
C1, C2).Call A the root filesystem. If you used the
ls command to view the contents of this directory
you would see two subdirectories, A1 and
A2. The directory tree looks like this. /
|
+--- A1
|
`--- A2A filesystem must be mounted on to a directory in another
filesystem. So now suppose that you mount filesystem
B on to the directory A1. The
root directory of B replaces A1,
and the directories in B appear accordingly. /
|
+--- A1
| |
| +--- B1
| |
| `--- B2
|
`--- A2Any files that are in the B1 or
B2 directories can be reached with the path
/A1/B1 or /A1/B2 as
necessary. Any files that were in /A1 have been
temporarily hidden. They will reappear if B is
unmounted from A.If B had been mounted on A2
then the diagram would look like this; /
|
+--- A1
|
`--- A2
|
+--- B1
|
`--- B2and the paths would be /A2/B1 and
/A2/B2 respectively.Filesystems can be mounted on top of one another. Continuing the
last example, the C filesystem could be mounted on
top of the B1 directory in the B
filesystem, leading to this arrangement. /
|
+--- A1
|
`--- A2
|
+--- B1
| |
| +--- C1
| |
| `--- C2
|
`--- B2Or C could be mounted directly on to the
A filesystem, under the A1
directory. /
|
+--- A1
| |
| +--- C1
| |
| `--- C2
|
`--- A2
|
+--- B1
|
`--- B2If you are familiar with DOS, this is similar, although not
identical, to the join command.This is not normally something you need to concern yourself with.
Typically you create filesystems when installing FreeBSD and decide
where to mount them, and then never change them unless you add a new
disk.It is entirely possible to have one large root filesystem, and not
need to create any others. There are some drawbacks to this approach,
and one advantage.Benefits of multiple filesystemsDifferent filesystems can have different mount
options. For example, with careful planning, the
root filesystem can be mounted read-only, making it impossible for
you to inadvertently delete or edit a critical file.FreeBSD automatically optimizes the layout of files on a
filesystem, depending on how the filesystem is being used. So a
filesystem that contains many small files that are written
frequently will have a different optimization to one that contains
fewer, larger files. By having one big filesystem this
optimization breaks down.FreeBSD's filesystems are very robust should you lose power.
However, a power loss at a critical point could still damage the
structure of the filesystem. By splitting your data over multiple
filesystems it is more likely that the system will still come up,
making it easier for you to restore from backup as
necessary.Benefit of a single filesystemFilesystems are a fixed size. If you create a filesystem when
you install FreeBSD and give it a specific size, you may later
discover that you need to make the partition bigger. This is not
easily accomplished without backing up, recreating the filesystems
with the size, and then restoring.FreeBSD 4.4 and up have a featured command, the
&man.growfs.8;, which will makes it possible to
increase the size of a filesystem on the fly, removing this
limitation.Filesystems are contained in partitions. This does not have the
same meaning as the earlier usage of the term partition in this
chapter, because of FreeBSD's Unix heritage. Each partition is
identified by a letter, a through to
h. Each partition can only contain one filesystem,
which means that filesystems are often described by either their
typical mount point on the root filesystem, or the letter of the
partition they are contained in.FreeBSD also uses disk space for swap
space. Swap space provides FreeBSD with
virtual memory. This allows your computer to
behave as though it has much more memory than it actually does. When
FreeBSD runs out of memory it moves some of the data that is not
currently being used to the swap space, and moves it back in (moving
something else out) when it needs it.Some partitions have certain conventions associated with
them.PartitionConventionaNormally contains the root filesystembNormally contains swap spacecNormally the same size as the enclosing slice. This
allows utilities that need to work on the entire slice (for
example, a bad block scanner) to work on the
c partition. You would not normally create
a filesystem on this partition.dPartition d used to have a special
meaning associated with it, although that is now gone. To
this day, some tools may operate oddly if told to work on
partition d, so
Sysinstall will not normally create
partition d.Each partition-that-contains-a-filesystem is stored in what
FreeBSD calls a slice. Slice is FreeBSD's term
for what were earlier called partitions, and again, this is because of
FreeBSD's Unix background. Slices are numbered, starting at 1,
through to 4.slicespartitionsdangerously dedicatedSlice numbers follow
the device name, prefixed with an s,
starting at 1. So da0s1
is the first slice on the first SCSI drive. There can only be
four physical slices on a disk, but you can have logical
slices inside physical slices of the appropriate type. These
extended slices are numbered starting at 5, so
ad0s5 is the first
extended slice on a disk. These devices are used by file
systems that expect to occupy a slice.Slices, dangerously dedicated physical
drives, and other drives contain
partitions, which are represented as
letters from a to h.
This letter is appended to the device name, so
da0a is the a partition on
the first da drive, which is dangerously dedicated.
ad1s3e is the fifth partition
in the third slice of the second IDE disk drive.Finally, each disk on the system is identified. A disk name
starts with a code that indicates the type of disk, and then a number,
indicating which disk it is. Unlike slices, disk numbering starts at
0. Common codes that you will see are listed in
.When referring to a partition FreeBSD requires that you also name
the slice and disk that contains the partition, and when referring to
a slice you should also refer to the disk name. Do this by listing
the disk name, s, the slice number, and then the
partition letter. Examples are shown in
. shows a conceptual
model of the disk layout that should help make things clearer.In order to install FreeBSD you must first configure the disk
slices, then create partitions within the slice you will use for
FreeBSD, and then create a filesystem (or swap space) in each
partition, and decide where that filesystem will be mounted.
Disk Device CodesCodeMeaningadATAPI (IDE) diskdaSCSI direct access diskacdATAPI (IDE) CDROMcdSCSI CDROMfdFloppy disk
Sample Disk, Slice, and Partition NamesNameMeaningad0s1aThe first partition (a) on the first
slice (s1) on the first IDE disk
(ad0).da1s2eThe fifth partition (e) on the
second slice (s2) on the second SCSI disk
(da1).Conceptual Model of a DiskThis diagram shows FreeBSD's view of the first IDE disk attached
to the system. Assume that the disk is 4GB in size, and contains
two 2GB slices (DOS partitions). The first slice contains a DOS
disk, C:, and the second slice contains a
FreeBSD installation. This example FreeBSD installation has three
partitions, and a swap partition.The three partitions will each hold a filesystem. Partition
a will be used for the root filesystem,
e for the /var directory
hierarchy, and f for the
/usr directory hierarchy..-----------------. --.
| | |
| DOS / Windows | |
: : > First slice, ad0s1
: : |
| | |
:=================: ==: --.
| | | Partition a, mounted as / |
| | > referred to as ad0s2a |
| | | |
:-----------------: ==: |
| | | Partition b, used as swap |
| | > referred to as ad0s2b |
| | | |
:-----------------: ==: | Partition c, no
| | | Partition e, used as /var > filesystem, all
| | > referred to as ad0s2e | of FreeBSD slice,
| | | | ad0s2c
:-----------------: ==: |
| | | |
: : | Partition f, used as /usr |
: : > referred to as ad0s2f |
: : | |
| | | |
| | --' |
`-----------------' --'Creating Slices using FDiskNo changes you make at this point will be written to the disk.
If you think you have made a mistake and want to start again you can
use the menus to exit Sysinstall and try
again. If you get confused and can not see how to exit you can
always turn your computer off.After choosing to begin a standard installation in
Sysinstall you will be shown this
message. Message
In the next menu, you will need to set up a DOS-style ("fdisk")
partitioning scheme for your hard disk. If you simply wish to devote
all disk space to FreeBSD (overwriting anything else that might be on
the disk(s) selected) then use the (A)ll command to select the default
partitioning scheme followed by a (Q)uit. If you wish to allocate only
free space to FreeBSD, move to a partition marked "unused" and use the
(C)reate command.
[ OK ]
[ Press enter to continue ]Press Enter as instructed. You will then be
shown a list of all the hard drives that the kernel found when it
carried out the device probes.
shows an example from a
system with two IDE disks. They have been called
ad0 and ad2.Select Drive for FDiskYou might be wondering why ad1 is not
listed here. Why has it been missed?Consider what would happen if you had two IDE hard disks, one
as the master on the first IDE controller, and one as the master on
the second IDE controller. If FreeBSD numbered these as it found
them, as ad0 and
ad1 then everything would work.But if you then added a third disk, as the slave device on the
first IDE controller, it would now be ad1,
and the previous ad1 would become
ad2. Because device names (such as
ad1s1a) are used to find filesystems, you
may suddenly discover that some of your filesystems no longer
appear correctly, and you would need to change your FreeBSD
configuration.To work around this, the kernel can be configured to name IDE
disks based on where they are, and not the order in which they were
found. With this scheme the master disk on the second IDE
controller will always be
ad2, even if there are no
ad0 or ad1
devices.This configuration is the default for the FreeBSD kernel, which
is why this display shows ad0 and
ad2. The machine on which this screenshot
was taken had IDE disks on both master channels of the IDE
controllers, and no disks on the slave channels.You should select the disk on which you want to install FreeBSD,
and then press &gui.ok;.
FDisk will start, with a display similar to
that shown in .The FDisk display is broken in to three
sections.The first section, covering the first two lines of the display,
shows details about the currently selected disk, including its FreeBSD
name, the disk geometry, and the total size of the disk.The second section shows the slices that are currently on the
disk, where they start and end, how large they are, the name FreeBSD
gives them, and their description and sub-type. This example shows two
small unused slices, which are artifacts of disk layout schemes on the
PC. It also shows one large FAT slice, which almost certainly appears
as C: in DOS / Windows, and an extended
slice, which may contain other drive letters for DOS / Windows.The third section shows the commands that are available in
FDisk.Typical Fdisk Partitions Before EditingWhat you do now will depend on how you want to slice up your
disk.If you want to use FreeBSD for the entire disk (which will delete
all the other data on this disk when you confirm that you want
Sysinstall to continue later in the
installation process) then you can press A, which
corresponds to the Use Entire Disk option.
The existing slices will be removed, and replaced with a small area
flagged as unused (again, an artifact of PC disk
layout), and then one large slice for FreeBSD. If you do this then
you should then select the newly created FreeBSD slice using the arrow
keys, and press S to mark the slice as being
bootable. The screen will then look very similar to
. Note the
A in the Flags column, which
indicates that this slice is active, and will be
booted from.If you will be deleting an existing slice to make space for
FreeBSD then you should select the slice using the arrow keys, and
then press D. You can then press C,
and be prompted for size of slice you want to create. Enter the
appropriate figure and press Enter.If you have already made space for FreeBSD (perhaps by using a
tool such as Partition Magic) then you can
press C to create a new slice. Again, you will be
prompted for the size of slice you would like to create.Fdisk Partition Using Entire DiskWhen finished, press Q. Your changes will be
saved in Sysinstall, but will not yet be
written to disk.Install a Boot ManagerYou now have the option to install a boot manager. In general,
you should choose to install the FreeBSD boot manager if:You have more than one drive, and have installed FreeBSD onto
a drive other than the first one.You have installed FreeBSD alongside another operating system
on the same disk, and you want to choose whether to start FreeBSD
or the other operating system when you start the computer.Make your choice and press Enter.Sysinstall Boot Manager MenuThe help screen, reached by pressing F1,
discusses the problems that can be encountered when trying to share
the hard disk between operating systems.Creating Slices on Another DriveIf there is more than one drive, it will return to the
Select Drives screen after the boot manager selection. If you wish to
install FreeBSD on to more than one disk, then you can select another
disk here and repeat the slice process using
FDisk,Exit Select DriveThe Tab key toggles between the last drive
selected, &gui.ok;, and
&gui.cancel;.Press the Tab once to toggle to the
&gui.ok;, then
press Enter
to continue with the installation.Creating Partitions using
DisklabelYou must now create some partitions inside each slice that you
have just created. Remember that each partition is lettered, from
a through to h, and that
partitions b, c, and
d have conventional meanings that you should adhere
to.Certain applications can benefit from particular partition
schemes, especially if you are laying out partitions across more than
one disk. However, for this, your first FreeBSD installation, you do
not need to give too much thought to how you partition the disk. It
is more important that you install FreeBSD and start learning how to
use it. You can always re-install FreeBSD to change your partition
scheme when you are more familiar with the operating system.This scheme features four partitions—one for swap space, and
three for filesystems.
Partition Layout for First DiskPartitionFilesystemSizeDescriptiona/100MBThis is the root file system. Every other filesystem
will be mounted somewhere under this one. 100MB is a
reasonable size for this filesystem. You will not be storing
too much data on it, as a regular FreeBSD install will put
about 40MB of data here. The remaining space is for temporary
data, and also leaves expansion space if future versions of
FreeBSD need more space in /bN/A2-3 x RAMThe system's swap space is kept on this partition.
Choosing the right amount of swap space can be a bit of an
art. A good rule of thumb is that your swap
space should be two or three times as much as the
available physical memory (RAM). So if you have
You should also have at least 64MB of swap, so if you have
less than 32MB of RAM in your computer then set the swap
amount to 64MB.
If you have more than one disk then you can put swap
space on each disk. FreeBSD will then use each disk for
swap, which effectively speeds up the act of swapping. In
this case, calculate the total amount of swap you need
(e.g., 128MB), and then divide this by the number of disks
you have (e.g., two disks) to give the amount of swap you
should put on each disk, in this example, 64MB of swap per
disk.e/var50MBThe /var directory contains variable
length files; log files, and other administrative files. Many
of these files are read-from or written-to extensively during
FreeBSD's day-to-day running. Putting these files on another
filesystem allows FreeBSD to optimise the access of these
files without affecting other files in other directories that
do not have the same access pattern.f/usrRest of diskAll your other files will typically be stored in
/usr, and its subdirectories.
If you will be installing FreeBSD on to more than one disk then
you must also create partitions in the other slices that you
configured. The easiest way to do this is to create two partitions on
each disk, one for the swap space, and one for a filesystem.
Partition Layout for Subsequent DisksPartitionFilesystemSizeDescriptionbN/ASee descriptionAs already discussed, you can split swap space across
each disk. Even though the a partition is
free, convention dictates that swap space stays on the
b partition.e/disknRest of diskThe rest of the disk is taken up with one big partition.
This could easily be put on the a
partition, instead of the e partition.
However, convention says that the a
partition on a slice is reserved for the filesystem that will
be the root (/) filesystem. You do not
have to follow this convention, but
Sysinstall does, so following it
yourself makes the installation slightly cleaner. You can
choose to mount this filesystem anywhere; this example
suggests that you mount them as directories
/diskn, where
n is a number that changes for each
disk. But you can use another scheme if you prefer.
Having chosen your partition layout you can now create it using
Sysinstall. You will see this
message. Message
Now, you need to create BSD partitions inside of the fdisk
partition(s) just created. If you have a reasonable amount of disk
space (200MB or more) and don't have any special requirements, simply
use the (A)uto command to allocate space automatically. If you have
more specific needs or just don't care for the layout chosen by
(A)uto, press F1 for more information on manual layout.
[ OK ] Press Enter to start the FreeBSD partition
editor, called Disklabel. shows the display when you first
start Disklabel. The display is divided in
to three sections.The first few lines show the name of the disk you are currently
working on, and the slice that contains the partitions you are
creating (at this point Disklabel calls
this the Partition name rather than slice name).
This display also shows the amount of free space within the slice;
that is, space that was set aside in the slice, but that has not yet
been assigned to a partition.The middle of the display shows the partitions that have been
created, the name of the filesystem that each partition contains,
their size, and some options pertaining to the creation of the
filesystem.The bottom third of the screen shows the keystrokes that are valid
in Disklabel.Sysinstall Disklabel EditorDisklabel can automatically create
partitions for you and assign them default sizes. Try this now, by
Pressing A. You will see a display similar to that
shown in . Depending on the size of
the disk you are using the defaults may or may not be appropriate.
This does not matter, as you do not have to accept the
defaults.Beginning with FreeBSD 4.5, the default partitioning assigns
the /tmp directory its own partition instead
of being part of the / partition. This
helps avoid filling the / partition with
temporary files.Sysinstall Disklabel Editor With Auto DefaultsTo delete the suggested partitions, and replace them with your
own, use the arrow keys to select the first partition, and press
D to delete it. Repeat this to delete all the
suggested partitions.To create the first partition (a, mounted as
/), make sure the disk information at the top of
the screen is selected, and press C. A dialog box
will appear prompting you for the size of the new partition (as shown
in ). You can enter the size as
the number of disk blocks you want to use, or, more usefully, as a
number followed by either M for megabytes,
G for gigabytes, or C for
cylinders.Free Space For Root PartitionThe default size shown will create a partition that takes up the
rest of the slice. If you are using the partition sizes described
earlier, then delete the existing figure using
Backspace, and then type in
64M, as shown in
. Then press
&gui.ok;.Edit Root Partition SizeHaving chosen the partition's size you will then asked whether
this partition will contain a filesystem or swap space. The dialog
box is shown in . This first
partition will contain a filesystem, so check that
FS is selected and then press
Enter.Choose The Root Partition TypeFinally, because you are creating a filesystem, you must tell
Disklabel where the filesystem is to be
mounted. The dialog box is shown in
. The root filesystem's mount
point is /, so type /, and
then press Enter.Choose The Root Mount PointThe display will then update to show you the newly created
partition. You should repeat this procedure for the other
partitions. When you create the swap partition you will not be
prompted for the filesystem mount point, as swap partitions are never
mounted. When you create the final partition,
/usr, you can leave the suggested size as is, to
use the rest of the slice.Your final FreeBSD DiskLabel Editor screen will appear similar to
, although your values chosen may
be different. Press Q to finish.Sysinstall Disklabel EditorChoosing What To InstallSelect The Distribution SetDeciding which distribution set to install will depend largely
on the intended use of the system and the amount of disk space
available. The predefined options range from installing the
smallest possible configuration to everything. Those who are
new to Unix and/or FreeBSD should almost certainly select one
of these canned options. Customizing a distribution set is
typically for the more experienced user.Press F1 for more information on the
distribution set options and what they contain. When finished
reviewing the help, pressing Enter will return
to the Select Distributions Menu.If a graphical user interface is desired then a distribution
set that is preceded by an X should be
chosen. The configuration of XFree86 and selection of a default
desktop is part of the post-installation steps.The default XFree86 version installed is the 3.x branch. You
should check to see whether your video card is supported at the
XFree86 web site.
If it is only supported under the 4.x branch, then you will need
to install and configure XFree86 4.x after installation. Select a
distribution without X and refer to for
more information.If compiling a custom kernel is anticipated, select an option
which includes the source code. For more information on why a
custom kernel should be built or how to build a custom kernel see
.Obviously, the most versatile system is one that includes
everything. If there is adequate disk space, select
All as shown in
by using the arrow keys and
press Enter. If there is a concern about disk
space consider using an option that is more suitable for the
situation. Other distributions can be added after installation.Choose DistributionsInstalling The Ports CollectionAfter selecting the desired distribution, an opportunity to
install the FreeBSD Ports Collection is presented. The ports
collection is an easy and convenient way to install software.
The ports collection does not contain the source code necessary
to compile the software. It is a collection of files which
automates the downloading, compiling and installation.
discusses how to use the ports
collection.The installation program does not check to see if you have
adequate space. Select this option only if you have
adequate hard disk space. User Confirmation Requested
Would you like to install the FreeBSD ports collection?
This will give you ready access to over &os.numports; ported software packages,
at a cost of around 100MB of disk space when "clean" and possibly much
more than that if a lot of the distribution tarballs are loaded
(unless you have the extra CDs from a FreeBSD CD/DVD distribution
available and can mount it on /cdrom, in which case this is far less
of a problem).
The ports collection is a very valuable resource and well worth having
on your /usr partition, so it is advisable to say Yes to this option.
For more information on the ports collection & the latest ports,
visit:
http://www.FreeBSD.org/ports
[ Yes ] NoSelect [ Yes ] with the arrow keys to
install the ports collection or [ No ] to
skip this option. Press Enter to continue.
The Choose Distributions menu will redisplay.Confirm DistributionsIf satisfied with the options, select
Exit with the arrow keys, ensure that
&gui.ok; is highlighted, and press
Enter to continue.Choosing Your Installation MediaIf Installing from a CDROM, use the arrow keys to highlight
Install from a FreeBSD CD/DVD. Ensure
that &gui.ok; is highlighted, then press
Enter to proceed with the installation.For other methods of installation, select the appropriate
option and follow the instructions.Press F1 to display the Online Help for
installation media. Press Enter to return
to the media selection menu.Choose Installation MediaFTP Installation ModesinstallationnetworkFTPThere are three FTP installation modes you can choose from:
active FTP, passive FTP, or via a HTTP proxy.FTP Active, Install from an FTP
serverThis option will make all FTP transfers
use Active
mode. This will not work through firewalls, but will
often work with older FTP servers that do not support
passive mode. If your connection hangs with passive
mode (the default), try active!FTP Passive, Install from an FTP server through a
firewallFTPPassive modeThis option instructs FreeBSD to use
Passive mode for all FTP operations.
This allows the user to pass through firewalls
that do not allow incoming connections on random port
addresses.FTP via a HTTP proxy, Install from an FTP server
through a http proxyFTPvia a HTTP proxyThis option instructs FreeBSD to use the HTTP
protocol (like a web browser) 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 a HTTP
proxy.
In this case, you have to specify the proxy in
addition to the FTP server.For a proxy FTP server, you should usually give the name of the
server you really want as a part of the username, after an
@ sign. The proxy server then fakes
the real server. For example, assuming you want to install from
ftp.FreeBSD.org, using the proxy FTP
server foo.example.com, listening on port
1024.In this case, you go to the options menu, set the FTP username
to ftp@ftp.FreeBSD.org, and the password to your
email address. As your installation media, you specify FTP (or
passive FTP, if the proxy supports it), and the URL
ftp://foo.example.com:1234/pub/FreeBSD.Since /pub/FreeBSD from
ftp.FreeBSD.org is proxied under
foo.example.com, you are able to install
from that machine (which will fetch the files
from ftp.FreeBSD.org as your
installation requests them.Committing to the InstallationThe installation can now proceed if desired. This is also
the last chance for aborting the installation to prevent changes
to the hard drive. User Confirmation Requested
Last Chance! Are you SURE you want to continue the installation?
If you're running this on a disk with data you wish to save then WE
STRONGLY ENCOURAGE YOU TO MAKE PROPER BACKUPS before proceeding!
We can take no responsibility for lost disk contents!
[ Yes ] NoSelect [ Yes ] and press
Enter to proceed.The installation time will vary according to the distribution
chosen, installation media used, and the speed of the computer.
There will be a series of
messages displayed indicating the status.The installation is complete when the following message is
displayed: Message
Congratulations! You now have FreeBSD installed on your system.
We will now move on to the final configuration questions.
For any option you do not wish to configure, simply select No.
If you wish to re-enter this utility after the system is up, you may
do so by typing: /stand/sysinstall .
[ OK ]
[ Press enter to continue ]Press Enter to proceed with post-installation
configurations.Selecting [ No ] and pressing
Enter will abort
the installation so no changes will be made to your system. The
following message will appear: Message
Installation complete with some errors. You may wish to scroll
through the debugging messages on VTY1 with the scroll-lock feature.
You can also choose "No" at the next prompt and go back into the
installation menus to try and retry whichever operations have failed.
[ OK ]This message is generated because nothing was installed.
Pressing Enter will return to the
Main Installation Menu to exit the installation.Post-installationConfiguration of various options follows the successful
installation. An option can be configured by re-entering the
configuration options before booting the new FreeBSD
system or after installation using
/stand/sysinstall and selecting
Configure.Network Device ConfigurationIf you previously configured PPP for an FTP install, this screen
will not display and can be configured later as described
above.For detailed information on Local Area Networks and
configuring FreeBSD as a gateway/router refer to the tutorial
- PPP- Pedantic PPP Primer.
+ PPP - Pedantic PPP Primer.
User Confirmation Requested
Would you like to configure Ethernet or SLIP/PPP network devices?
[ Yes ] NoTo configure a network device, select
[ Yes ] and press Enter.
Otherwise, select [ No ] to continue.Selecting An Ethernet DeviceSelect the interface to be configured with the arrow keys and press
Enter. User Confirmation Requested
Do you want to try IPv6 configuration of the interface?
Yes [ No ]In this private local area network the current Internet
type protocol (IPv4) was sufficient and [ No ]
was selected with the arrow keys and Enter
pressed.If you want to try the new Internet protocol (IPv6), choose
[ Yes ] and press Enter.
It will take several seconds to scan for RA servers. User Confirmation Requested
Do you want to try DHCP configuration of the interface?
Yes [ No ]If DHCP (Dynamic Host Configuration Protocol) is not required
select [ No ] with the arrow keys and press
Enter.Selecting [ Yes ] will execute
dhclient, and if successful, will fill
in the network configuration information automatically. Refer to
for more information.The following Network Configuration screen shows the
configuration of the Ethernet device for a system that will act
as the gateway for a Local Area Network.Set Network Configuration For ed0Use Tab to select the information fields and
fill in appropriate information:HostThe fully-qualified hostname, e.g. k6-2.example.com in
this case.DomainThe name of the domain that your machine is
in, e.g. example.com for this case.IPv4 GatewayIP address of host forwarding packets to non-local
destinations. Fill this in only if the machine is a node
on the network. Leave this field blank
if the machine is the gateway to the Internet for the
network.Name serverIP address of your local DNS server. There is no local
DNS server on this private local area network so the IP
address of the provider's DNS server (208.163.10.2) was
used.IPv4 addressThe IP address to be used for this interface was
(192.168.0.1).NetmaskThe address block being used for this local area
network is a Class C block (192.168.0.0 -
192.168.255.255). The default netmask is for a Class C
network (255.255.255.0).Extra options to ifconfigAny interface-specific options to ifconfig
you would like to add. There were none in this case.Use Tab to select &gui.ok;
when finished and press Enter. User Confirmation Requested
Would you like to Bring Up the ed0 interface right now?
[ Yes ] NoChoosing [ Yes ] and pressing
Enter will bring
the machine up on the network and be ready for use after leaving
leaving the installation.Configure Gateway User Confirmation Requested
Do you want this machine to function as a network gateway?
[ Yes ] NoIf the machine will be acting as the gateway for a local area
network and forwarding packets between other machines then select
[ Yes ] and press Enter.
If the machine is a node on a network then
select [ No ] and press
Enter to continue.Configure Internet Services User Confirmation Requested
Do you want to configure inetd and the network services that it provides?
Yes [ No ]If [ No ] is selected, various services
such telnetd will not be enabled. This
means that remote users will not be able to
telnet into this machine. Local users
will be still be able to access remote machines with
telnet.These services can be enabled after installation by editing
/etc/inetd.conf with your favorite text editor.
See for more information.Select [ Yes ] if you wish to
configure these services during install. An additional
confirmation will display. User Confirmation Requested
The Internet Super Server (inetd) allows a number of simple Internet
services to be enabled, including finger, ftp and telnetd. Enabling
these services may increase risk of security problems by increasing
the exposure of your system.
With this in mind, do you wish to enable inetd?
[ Yes ] NoSelect [ Yes ] to continue. User Confirmation Requested
inetd(8) relies on its configuration file, /etc/inetd.conf, to determine
which of its Internet services will be available. The default FreeBSD
inetd.conf(5) leaves all services disabled by default, so they must be
specifically enabled in the configuration file before they will
function, even once inetd(8) is enabled. Note that services for
IPv6 must be seperately enabled from IPv4 services.
Select [Yes] now to invoke an editor on /etc/inetd.conf, or [No] to
use the current settings.
[ Yes ] NoSelecting [ Yes ] will allow adding
services by deleting the # at the beginning
of a line.Editing inetd.confAfter adding the desired services, pressing Esc
will display a menu which will allow exiting and saving
the changes.Anonymous FTP User Confirmation Requested
Do you want to have anonymous FTP access to this machine?
Yes [ No ]Deny Anonymous FTPSelecting the default [ No ] and pressing
Enter will still allow users who have accounts
with passwords to use FTP to access the machine.Allow Anonymous FTPAnyone can access your machine if you elect to allow
anonymous FTP connections. The security implications should be
considered before enabling this option. For more information
about security see .To allow anonymous FTP, use the arrow keys to select
[ Yes ] and press Enter.
The following screens (or similar) will display:Default Anonymous FTP ConfigurationPressing F1 will display the help:This screen allows you to configure the anonymous FTP user.
The following configuration values are editable:
UID: The user ID you wish to assign to the anonymous FTP user.
All files uploaded will be owned by this ID.
Group: Which group you wish the anonymous FTP user to be in.
Comment: String describing this user in /etc/passwd
FTP Root Directory:
Where files available for anonymous FTP will be kept.
Upload subdirectory:
Where files uploaded by anonymous FTP users will go.The ftp root directory will be put in /var
by default. If you do not have enough room there for the
anticipated FTP needs, the /usr directory
could be used by setting the FTP Root Directory to
/usr/ftp.When you are satisfied with the values, press
Enter to continue. User Confirmation Requested
Create a welcome message file for anonymous FTP users?
[ Yes ] NoIf you select [ Yes ] and press
Enter, an editor will automatically start
allowing you to edit the message.Edit The FTP Welcome MessageThis is a text editor called ee. Use the
instructions to change the message or change the message later
using a text editor of your choice. Note the file name/location
at the bottom.Press Esc and a pop-up menu will default
to a) leave editor. Press
Enter to exit and continue.Configure Network File ServicesNetwork File Services (NFS) allows sharing of files across a
network. A machine can be configured as a server, a client, or
both. Refer to for a more information.NFS Server User Confirmation Requested
Do you want to configure this machine as an NFS server?
Yes [ No ]If there is no need for a Network File System server or
client, select [ No ] and press
Enter.If [ Yes ] is chosen, a message will
pop-up indicating that the exports file must be created. Message
Operating as an NFS server means that you must first configure an
/etc/exports file to indicate which hosts are allowed certain kinds of
access to your local file systems.
Press [Enter] now to invoke an editor on /etc/exports
[ OK ]Press Enter to continue. A text editor will
start allowing the exports file to be created and edited.Editing the Exports FileUse the instructions to add the actual exported filesystems
now or later using a text editor of your choice. Note the
filename/location at the bottom of the editor screen.Press Esc and a pop-up menu will default to
a) leave editor. Press
Enter to exit and continue.NFS Client User Confirmation Requested
Do you want to configure this machine as an NFS client?
Yes [ No ]With the arrow keys, select [ Yes ]
or [ No ] as appropriate and
press Enter.Security ProfileA security profile is a set of
configuration options that attempts to achieve the desired
ratio of security to convenience by enabling and disabling
certain programs and other settings. The more severe the
security profile, the fewer programs will be enabled by
default. This is one of the basic principles of security: do
not run anything except what you must.Please note that the security profile is just a default
setting. All programs can be enabled and disabled after you
have installed FreeBSD by editing or adding the appropriate
line(s) to /etc/rc.conf. For more
information, please see the &man.rc.conf.5; manual
page.The following table describes what each of the security
profiles does. The columns are the choices you have for a
security profile, and the rows are the program or feature that
the profile enables or disables.
Possible security profilesExtremeModerate&man.sendmail.8;NOYES&man.sshd.8;NOYES&man.portmap.8;NOMAYBE
The portmapper is enabled if the machine has
been configured as an NFS client or server earlier
in the installation.NFS serverNOYES&man.securelevel.8;YES (2)
If you choose a security profile that sets the
securelevel (Extreme or High), you must be aware
of the implications. Please read the &man.init.8;
manual page and pay particular attention to the
meanings of the security levels, or you may have
significant trouble later!NO
User Confirmation Requested
Do you want to select a default security profile for this host (select
No for "medium" security)?
[ Yes ] NoSelecting [ No ] and pressing
Enter will set the security profile to medium.Selecting [ Yes ] and pressing
Enter will allow selecting a different security
profile.Security Profile OptionsPress F1 to display the help. Press
Enter to return to selection menu.Use the arrow keys to choose Medium
unless your are sure that another level is required for your needs.
With &gui.ok; highlighted, press
Enter.An appropriate confirmation message will display depending on
which security setting was chosen. Message
Moderate security settings have been selected.
Sendmail and SSHd have been enabled, securelevels are
disabled, and NFS server setting have been left intact.
PLEASE NOTE that this still does not save you from having
to properly secure your system in other ways or exercise
due diligence in your administration, this simply picks
a standard set of out-of-box defaults to start with.
To change any of these settings later, edit /etc/rc.conf
[OK] Message
Extreme security settings have been selected.
Sendmail, SSHd, and NFS services have been disabled, and
securelevels have been enabled.
PLEASE NOTE that this still does not save you from having
to properly secure your system in other ways or exercise
due diligence in your administration, this simply picks
a more secure set of out-of-box defaults to start with.
To change any of these settings later, edit /etc/rc.conf
[OK]Press Enter to continue with the
post-installation configuration.The security profile is not a silver bullet! Even if
you use the extreme setting, you need to keep up with
security issues by reading an appropriate mailing
list, using good passwords and passphrases, and
generally adhering to good security practices. It simply
sets up the desired security to convenience ratio out of the
box.System Console SettingsThere are several options available to customize the system
console. User Confirmation Requested
Would you like to customize your system console settings?
[ Yes ] NoTo view and configure the options, select
[ Yes ] and press Enter.System Console Configuration OptionsA commonly used option is the screensaver. Use the arrow keys
to select Saver and then press
Enter.Screensaver OptionsSelect the desired screen saver using the arrow keys
and then press Enter. The System Console
Configuration menu will redisplay.The default time interval is 300 seconds. To change the time
interval, select Saver again. At the
Screensaver Options menu, select Timeout
using the arrow keys and press Enter. A pop-up
menu will appear:Screensaver TimeoutThe value can be changed, then select &gui.ok;
and press Enter to return to the System Console
Configuration menu.System Console Configuration ExitSelecting Exit and pressing
Enter will continue with the post-installation
configurations.Setting The Time ZoneSetting the timezone for your machine will allow it to
automatically correct for any regional time changes and perform
other timezone related functions properly.The example shown is for a machine located in the Eastern
time zone of the United States. Your selections will vary according
to your geographical location. User Confirmation Requested
Would you like to set this machine's time zone now?
[ Yes ] NoSelect [ Yes ] and press
Enter to set the time zone. User Confirmation Requested
Is this machine's CMOS clock set to UTC? If it is set to local time
or you don't know, please choose NO here!
Yes [ No ]Select [ Yes ]
or [ No ] according to how the machine's
clock is configured and press Enter.Select Your RegionThe appropriate region is selected using the arrow keys
and then press Enter.Select Your CountrySelect the appropriate country using the arrow keys
and press Enter.Select Your TimezoneThe appropriate time zone is selected using the arrow
keys and pressing Enter. Confirmation
Does the abbreviation 'EDT' look reasonable?
[ Yes ] NoConfirm the abbreviation for the time zone is correct.
If it looks okay, press Enter to continue with
the post-installation configuration.Linux Compatibility User Confirmation Requested
Would you like to enable Linux binary compatibility?
[ Yes ] NoSelecting [ Yes ] and pressing
Enter will allow
running Linux software on FreeBSD. The install will proceed to add
the appropriate packages for Linux compatibility.If installing by FTP, the machine will need to be connected to
the Internet. Sometimes a remote ftp site will not have all the
distributions like the Linux binary compatibility. This can
be installed later if necessary.Mouse SettingsThis option will allow you to cut and paste text in the
console and user programs with a 3-button mouse. If using a 2-button
mouse, refer to manual page, &man.moused.8;, after installation for
details on emulating the 3-button style. This example depicts a
non-USB mouse. User Confirmation Requested
Does this system have a non-USB mouse attached to it?
[ Yes ] NoSelect [ Yes ] for a non-USB mouse or
[ No ] for a USB mouse and press
Enter.Select Mouse Protocol TypeUse the arrow keys to select Type and
press EnterSet Mouse ProtocolThe mouse used in this example is a PS/2 type, so the default
Auto was
appropriate. To change protocol, use the arrow keys to select
another option. Ensure that &gui.ok; is
highlighted and press Enter to exit this menu.Configure Mouse PortUse the arrow keys to select Port and
press Enter.Setting The Mouse PortThis system had a PS/2 mouse, so the default
PS/2 was
appropriate. To change the port, use the arrow keys and then
press Enter.Enable The Mouse DaemonLast, the mouse daemon is enabled and tested.Test The Mouse DaemonThe cursor moved around the screen so the mouse daemon is
running:Select [ Yes ] to return to the previous
menu then select Exit
with the arrow keys and press Enter to return to
continue with the post-installation configuration.Configure X-ServerIn order to use a graphical user interface such as
KDE, GNOME,
or others, the X server will need to be configured.To see whether your video card is supported, check the
XFree86 web site.
If your video card is only supported under XFree86 4.x, refer to
for installation and configuration. User Confirmation Requested
Would you like to configure your X server at this time?
[ Yes ] NoIt is necessary to know your monitor specifications and
video card information. Equipment damage can occur if settings
are incorrect. If you do not have this information, select
[ No ] and perform the configuration
after installation when you have the information using
/stand/sysinstall, selecting
Configure and then
XFree86.
If you have graphics card and monitor information, select
[ Yes ] and press Enter
to proceed with configuring the X server.Select Configuration Method MenuThere are several ways to configure the X
server. XF86Setup is fully graphical and
probably the easiest. Use the arrow keys to select the
XF86Setup and press
Enter. Message
You have configured and been running the mouse daemon.
Choose "/dev/sysmouse" as the mouse port and "SysMouse" or
"MouseSystems" as the mouse protocol in the X configuration utility.
[ OK ]
[ Press enter to continue ]This indicates that the mouse daemon previously configured has been
detected. Press Enter to continue. Press [Enter] to switch to graphics mode.
This may take a while...
[ OK ]Press Enter to switch to the graphics mode and
continue. It will not try to switch to the
graphics mode until Enter is pressed. The screen
will go black and then shortly a screen with a large X in the
center will appear. Be patient and wait.After a few more moments, the XF86Setup
introduction will display. Read all instructions
carefully. Press Enter to
continue.XF86Setup OverviewThere are several areas of configuration to be completed.
The configuration choices you make will depend on the hardware
in the system so only a general overview can be given here.Along the top of the configuration tool there are buttons
indicating the areas to be configured. You should be able to use
the mouse if it was previously configured and select each item by
clicking on it. Review each area and make appropriate selections
for your system.MouseThe mouse is the first item to be configured. If you
previously configured your mouse, the mouse daemon will already
be running and should indicate SysMouse
automatically for the mouse protocol. If you are use a two
button mouse, you should also select
Emulate3Buttons. There are other
settings that can be tweaked if necessary.After completing your selections, click on the
Apply and check the mouse actions are
working properly. If further adjustment is needed, make them
and recheck the operation by clicking on
Apply again. When finished, move
on to the next item.KeyboardSelect the appropriate keyboard model. The default
keyboard is Generic 101-key PC.Select the language layout for your keyboard. The default
layout is U.S. English. If you are
not using a U.S. keyboard, you may need to additionally
select a variant.There are other options under Group Shift/Lock behavior and
Control Key Position that can be selected if desired. Generally
the default settings are fine.After completing the keyboard configuration, click on
Apply and move on to the next
item.CardClick on Read README file for
additional help in configuring your video card.Select the appropriate video card from the list using the
scrollbar. Clicking on your card will show as
Card selected: above the list box.Next, the Detailed Setup was
selected just to check details. Typically, if your video
card was in the list, no changes will be needed here.When finished, move on to the next item.MonitorThere are two ways to proceed. One method requires that you
enter the horizontal and vertical sweep capabilities of your
monitor in the text boxes.Choosing one of the monitor options listed that the monitor
is the other method. After selecting a listed option, the
horizontal and vertical sweep rates that will be used will
display. Compare those to your monitor specifications. The
monitor must be capable of using those ranges.Do not exceed the ratings of your monitor. Damage could
occur. If you have doubts select ABORT
and get the information. The remainder of the installation process
will be unaffected and configuring the X-Server can be done
later using /stand/sysinstall.When finished, move on to the next item.ModeSelect the video mode(s) that you want to use. You can select
more than one option. Typically, useful ranges are 640x480,
800x600, and 1024x768 but those are a function of video card
capability, monitor size, and eye comfort.Next, select the default color depth you want to use. Your
choices are 8bpp, 16bpp, 24bpp, and 32bpp. Select the highest
color depth that your video card will support.When finished, move on to the next item.OtherThe default settings are reasonable values, so you
probably will not need to change anything here.The default setting which allows the server to be killed
with the hotkey sequence CtrlAltBackspace should be left on. This
can be executed if something is wrong with the server settings and
prevent hardware damage.The default setting that allows video mode switching will
permit changing of the mode while running X with the hotkey
sequence
Alt+ or
Alt-.
Testing the ServerVerify all the settings once again and select
Done and the following message will
display:If you've finished configuring everything press the
Okay button to start the X server using the configuration
you've selected. If you still wish to configure some things,
press one of the buttons at the top and then press "Done" again,
when you've finished.After selecting Okay, some messages
will briefly appear advising to wait and attempting to start
the X-server. This process takes a few moments, so be
patient.The screen will go blank for a short period of time and
then a screen will appear with the message
Congratulations, you've got a running server!If nothing appears or the display is distorted,
kill the X-server using
CtrlAltBackspace
and adjust the settings or revisit them after installation.Running xvidtuneThe display can be adjusted for height, width, or centering
by using xvidtune.There are warnings that improper settings can
damage your equipment. Heed them. If in doubt, do not do
it. Instead, use the monitor controls to adjust the display for
x-windows. There may be some display differences when switching
back to text mode, but it is better than damaging equipment.
xvidtune can be ran later using
/stand/sysinstall.Read the &man.xvidtune.1; man page before making
any adjustments.Saving ConfigurationWhen you are satisfied, the configuration can now be saved.
Select Save the configuration and Exit
The configuration file will be saved to
/etc/XF86Config.Once the configuration is done, the installation program will
need to create a link to the server: Do you want to create an 'X' link to the SVGA server?
(the link will be created in the directory:
/usr/X11R6/bin) Okay?
[ Yes ] NoSelect [ Yes ] and press
Enter to create the link. Link created successfully.
[ OK ]Press Enter to continue configuration.Select Default X DesktopThere are a variety of window managers available. They range
from very basic environments to full desktop environments with a
large suite of software. Some require only minimal disk space and
low memory while others with more features require much more. The
best way to determine which is most suitable for you is to try a few
different ones. Those are available from the ports collection or as
packages and can be added after installation.You can select one of the popular desktops to be installed
and configured as the default desktop. This will allow you
to start it right after installation.Select Default DesktopUse the arrow keys to select a desktop and press
Enter. Installation of the selected desktop will
proceed.Install PackagesThe packages are pre-compiled binaries and are a convenient
way to install software.Installation of one package is shown for purposes of
illustration. Additional packages can also be added at this
time if desired. After installation
/stand/sysinstall can be used to add additional
packages. User Confirmation Requested
The FreeBSD package collection is a collection of hundreds of
ready-to-run applications, from text editors to games to WEB servers
and more. Would you like to browse the collection now?
[ Yes ] NoSelecting [ Yes ] and pressing
Enter will be
followed by the Package Selection screens:Select Package CategoryAll packages available will be displayed if
All is selected or you can select a
particular category. Highlight your selection with the arrow
keys and press Enter.A menu will display showing all the packages available for
the selection made.Select PackagesThe bash shell is shown selected.
Select as many as desired by highlighting the package and pressing
the Space.
A short description of each package will appear in the lower left
corner of the screen.Pressing the Tab key will toggle between the last
selected package, &gui.ok;, and
&gui.cancel;.When you have finished marking the packages for installation,
press Tab once to toggle to the
&gui.ok; and press
Enter to return to the Package Selection menu.The left and right arrow keys will also toggle between
&gui.ok; and &gui.cancel;.
This method can also be used to select &gui.ok;
and press Enter to return to the Package
Selection menu.Install PackagesUse the arrow keys to select [ Install ]
and press Enter. You will then need to confirm
that you want to install the packages.Confirm Package InstallationSelecting &gui.ok; and pressing
Enter will start
the package installation. Installing messages will appear until
completed. Make note if there are any error messages.The final configuration continues after packages are
installed.Add User/GroupsYou should add at least one user during the installation so
that you can use the system without being logged in as root. The
root partition is generally small and running applications as
root can quickly fill it. A bigger danger is noted below: User Confirmation Requested
Would you like to add any initial user accounts to the system? Adding
at least one account for yourself at this stage is suggested since
working as the "root" user is dangerous (it is easy to do things which
adversely affect the entire system).
[ Yes ] NoSelect [ Yes ] and press
Enter to continue with adding a user.Select Add UserSelect Add User with the arrow keys
and press Enter.Add User InformationThe following descriptions will appear in the lower part of
the screen as the items are selected with Tab
to assist with entering the required information.Login IDThe login name of the new user (mandatory)UIDThe numerical ID for this user (leave blank for
automatic choice)GroupThe login group name for this user (leave blank for
automatic choice)PasswordThe password for this user (enter this field with
care!)Full nameThe user's full name (comment)Member groupsThe groups this user belongs to (i.e. gets access
rights for)Home directoryThe user's home directory (leave blank for
default)Login shellThe user's login shell (leave blank for
default). (/bin/sh)The login shell was changed from
/bin/sh to
/usr/local/bin/bash to use the
bash shell
that was previously installed as a package. Do not try to
use a shell that does not exist or you will not be able to
login.The user was also added to the group wheel to be able to
become a superuser with root privileges.When you are satisfied, press &gui.ok; and
the User and Group Management menu will redisplay.Exit User and Group ManagementGroups could also be added at this time if specific needs
are known. Otherwise, this may be accessed through using
/stand/sysinstall after installation is
completed.When you are finished adding users, select
Exit with the arrow keys and press
Enter to continue the installation.Set root Password Message
Now you must set the system manager's password.
This is the password you'll use to log in as "root".
[ OK ]
[ Press enter to continue ]Press Enter to set the root password.The password will need to be typed in twice
correctly. Needless to say, make sure you have a way of finding
the password if you forget.Changing local password for root.
New password :
Retype new password :The installation will continue after the password is
successfully entered.Exiting InstallIf you need to configure additional network devices or to
do any other configurations, you can do it at this point or
after installation with /stand/sysinstall. User Confirmation Requested
Visit the general configuration menu for a chance to set any last
options?
Yes [ No ]Selecting [ No ] with the arrow keys
and pressing Enter returns to the Main
Installation MenuExit InstallSelect [X Exit Install] with the arrow
keys and press Enter. You will be asked to
confirm exiting the installation: User Confirmation Requested
Are you sure you wish to exit? The system will reboot (be sure to
remove any floppies from the drives).
[ Yes ] NoSelect [ Yes ] and remove floppy if
booting from floppy. The CDROM drive is locked until the machine
starts to reboot. The CDROM drive is then unlocked and can
be removed from drive (quickly).The system will reboot so watch for any error messages that
may appear.FreeBSD BootupFreeBSD Bootup on the i386If everything went well, you will see messages scroll
off the screen and you will arrive at a login prompt. You can view
the content of the messages by pressing Scroll-Lock
and using PgUp and PgDn.
Pressing Scroll-Lock again will return
to the prompt.The entire message may not display (buffer limitation) but
it can be viewed from the command line after logging in by typing
dmesg at the prompt.Login using the username/password you set during installation
(rpratt, in this example). Avoid logging in as root except when
necessary.Typical boot messages:Copyright (c) 1992-2002 The FreeBSD Project.
Copyright (c) 1979, 1980, 1983, 1986, 1988, 1989, 1991, 1992, 1993, 1994
The Regents of the University of California. All rights reserved.
FreeBSD 4.5-RC2 #0: Thu Jan 17 21:24:52 GMT 2002
murray@builder.freebsdmall.com:/usr/src/sys/compile/GENERIC
Timecounter "i8254" frequency 1193182 Hz
CPU: AMD-K6(tm) 3D processor (300.68-MHz 586-class CPU)
Origin = "AuthenticAMD" Id = 0x580 Stepping = 0
Features=0x8001bf<FPU,VME,DE,PSE,TSC,MSR,MCE,CX8,MMX>
AMD Features=0x80000800<SYSCALL,3DNow!>
real memory = 268435456 (262144K bytes)
config> di sn0
config> di lnc0
config> di le0
config> di ie0
config> di fe0
config> di cs0
config> di bt0
config> di aic0
config> di aha0
config> di adv0
config> q
avail memory = 256311296 (250304K bytes)
Preloaded elf kernel "kernel" at 0xc0491000.
Preloaded userconfig_script "/boot/kernel.conf" at 0xc049109c.
md0: Malloc disk
Using $PIR table, 4 entries at 0xc00fde60
npx0: <math processor> on motherboard
npx0: INT 16 interface
pcib0: <Host to PCI bridge> on motherboard
pci0: <PCI bus> on pcib0
pcib1: <VIA 82C598MVP (Apollo MVP3) PCI-PCI (AGP) bridge> at device 1.0 on pci0
pci1: <PCI bus> on pcib1
pci1: <Matrox MGA G200 AGP graphics accelerator> at 0.0 irq 11
isab0: <VIA 82C586 PCI-ISA bridge> at device 7.0 on pci0
isa0: <ISA bus> on isab0
atapci0: <VIA 82C586 ATA33 controller> port 0xe000-0xe00f at device 7.1 on pci0
ata0: at 0x1f0 irq 14 on atapci0
ata1: at 0x170 irq 15 on atapci0
uhci0: <VIA 83C572 USB controller> port 0xe400-0xe41f irq 10 at device 7.2 on pci0
usb0: <VIA 83C572 USB controller> on uhci0
usb0: USB revision 1.0
uhub0: VIA UHCI root hub, class 9/0, rev 1.00/1.00, addr 1
uhub0: 2 ports with 2 removable, self powered
chip1: <VIA 82C586B ACPI interface> at device 7.3 on pci0
ed0: <NE2000 PCI Ethernet (RealTek 8029)> port 0xe800-0xe81f irq 9 at
device 10.0 on pci0
ed0: address 52:54:05:de:73:1b, type NE2000 (16 bit)
isa0: too many dependant configs (8)
isa0: unexpected small tag 14
fdc0: <NEC 72065B or clone> at port 0x3f0-0x3f5,0x3f7 irq 6 drq 2 on isa0
fdc0: FIFO enabled, 8 bytes threshold
fd0: <1440-KB 3.5" drive> on fdc0 drive 0
atkbdc0: <keyboard controller (i8042)> at port 0x60-0x64 on isa0
atkbd0: <AT Keyboard> flags 0x1 irq 1 on atkbdc0
kbd0 at atkbd0
psm0: <PS/2 Mouse> irq 12 on atkbdc0
psm0: model Generic PS/2 mouse, device ID 0
vga0: <Generic ISA VGA> at port 0x3c0-0x3df iomem 0xa0000-0xbffff on isa0
sc0: <System console> at flags 0x1 on isa0
sc0: VGA <16 virtual consoles, flags=0x300>
sio0 at port 0x3f8-0x3ff irq 4 flags 0x10 on isa0
sio0: type 16550A
sio1 at port 0x2f8-0x2ff irq 3 on isa0
sio1: type 16550A
ppc0: <Parallel port> at port 0x378-0x37f irq 7 on isa0
ppc0: SMC-like chipset (ECP/EPP/PS2/NIBBLE) in COMPATIBLE mode
ppc0: FIFO with 16/16/15 bytes threshold
ppbus0: IEEE1284 device found /NIBBLE
Probing for PnP devices on ppbus0:
plip0: <PLIP network interface> on ppbus0
lpt0: <Printer> on ppbus0
lpt0: Interrupt-driven port
ppi0: <Parallel I/O> on ppbus0
ad0: 8063MB <IBM-DHEA-38451> [16383/16/63] at ata0-master using UDMA33
ad2: 8063MB <IBM-DHEA-38451> [16383/16/63] at ata1-master using UDMA33
acd0: CDROM <DELTA OTC-H101/ST3 F/W by OIPD> at ata0-slave using PIO4
Mounting root from ufs:/dev/ad0s1a
swapon: adding /dev/ad0s1b as swap device
Automatic boot in progress...
/dev/ad0s1a: FILESYSTEM CLEAN; SKIPPING CHECKS
/dev/ad0s1a: clean, 48752 free (552 frags, 6025 blocks, 0.9% fragmentation)
/dev/ad0s1f: FILESYSTEM CLEAN; SKIPPING CHECKS
/dev/ad0s1f: clean, 128997 free (21 frags, 16122 blocks, 0.0% fragmentation)
/dev/ad0s1g: FILESYSTEM CLEAN; SKIPPING CHECKS
/dev/ad0s1g: clean, 3036299 free (43175 frags, 374073 blocks, 1.3% fragmentation)
/dev/ad0s1e: filesystem CLEAN; SKIPPING CHECKS
/dev/ad0s1e: clean, 128193 free (17 frags, 16022 blocks, 0.0% fragmentation)
Doing initial network setup: hostname.
ed0: flags=8843<UP,BROADCAST,RUNNING,SIMPLEX,MULTICAST> mtu 1500
inet 192.168.0.1 netmask 0xffffff00 broadcast 192.168.0.255
inet6 fe80::5054::5ff::fede:731b%ed0 prefixlen 64 tentative scopeid 0x1
ether 52:54:05:de:73:1b
lo0: flags=8049<UP,LOOPBACK,RUNNING,MULTICAST> mtu 16384
inet6 fe80::1%lo0 prefixlen 64 scopeid 0x8
inet6 ::1 prefixlen 128
inet 127.0.0.1 netmask 0xff000000
Additional routing options: IP gateway=YES TCP keepalive=YES
routing daemons:.
additional daemons: syslogd.
Doing additional network setup:.
Starting final network daemons: creating ssh RSA host key
Generating public/private rsa1 key pair.
Your identification has been saved in /etc/ssh/ssh_host_key.
Your public key has been saved in /etc/ssh/ssh_host_key.pub.
The key fingerprint is:
cd:76:89:16:69:0e:d0:6e:f8:66:d0:07:26:3c:7e:2d root@k6-2.example.com
creating ssh DSA host key
Generating public/private dsa key pair.
Your identification has been saved in /etc/ssh/ssh_host_dsa_key.
Your public key has been saved in /etc/ssh/ssh_host_dsa_key.pub.
The key fingerprint is:
f9:a1:a9:47:c4:ad:f9:8d:52:b8:b8:ff:8c:ad:2d:e6 root@k6-2.example.com.
setting ELF ldconfig path: /usr/lib /usr/lib/compat /usr/X11R6/lib
/usr/local/lib
a.out ldconfig path: /usr/lib/aout /usr/lib/compat/aout /usr/X11R6/lib/aout
starting standard daemons: inetd cron sshd usbd sendmail.
Initial rc.i386 initialization:.
rc.i386 configuring syscons: blank_time screensaver moused.
Additional ABI support: linux.
Local package initilization:.
Additional TCP options:.
FreeBSD/i386 (k6-2.example.com) (ttyv0)
login: rpratt
Password:Generating the RSA and DSA keys may take some time on slower
machines. This happens only on the initial boot-up of a new
installation. Subsequent boots will be faster.If the X server has been configured and a Default Desktop
chosen, it can be started by typing startx at
the command line.Bootup of FreeBSD on the AlphaAlphaOnce the install procedure has finished, you will be
able to start FreeBSD by typing something like this to the
SRM prompt:>>>BOOT DKC0This instructs the firmware to boot the specified
disk. To make FreeBSD boot automatically in the future, use
these commands:>>>SET BOOT_OSFLAGS A>>>SET BOOT_FILE ''>>>SET BOOTDEF_DEV DKC0>>>SET AUTO_ACTION BOOTThe boot messages will be similar (but not identical) to
those produced by FreeBSD booting on the i386.FreeBSD ShutdownIt is important to properly shutdown the operating
system. Do not just turn off power. First, become a superuser by
typing su at the command line and entering the
root password. This will work only if the user is a member of the
group wheel. Otherwise, login as root and use
shutdown -h now.The operating system has halted.
Please press any key to reboot.It is safe to turn off the power after the shutdown command
has been issued and the message Please press any key to reboot
appears. If any key is pressed instead of turning off the power
switch, the system will reboot.You could also use the CTRL+ALT+DEL key
combination to reboot the system, however this is not recommended
during normal operation.Supported HardwarehardwareFreeBSD currently runs on a wide variety of ISA, VLB, EISA, and
PCI bus-based PCs with Intel, AMD, Cyrix, or NexGen
x86 processors, as well as a number of
machines based on the Compaq Alpha processor.
Support for generic IDE or
ESDI drive configurations, various SCSI controllers, PCMCIA
cards, USB devices, and network and
serial cards is also provided. FreeBSD also supports IBM's
microchannel (MCA) bus.A list of supported hardware is provided with each FreeBSD
release in the FreeBSD Hardware Notes. This document can
usually be found in a file named
HARDWARE.TXT, in the top-level directory of
a CDROM or FTP distribution or in sysinstall's documentation
menu. It lists, for a given architecture, what hardware devices
are known to be supported by each release of FreeBSD.TroubleshootinginstallationtroubleshootingThe following section covers basic installation troubleshooting,
such as common problems people have reported. There are also a few
questions and answers for people wishing to dual-boot FreeBSD with
MS-DOS.What to Do If Something Goes Wrong...Due to various limitations of the PC architecture, it is
impossible for probing to be 100% reliable, however, there are a
few things you can do if it fails.Check the Hardware Notes document for your version of
FreeBSD to make sure your hardware is
supported.If your hardware is supported and you still experience
lock-ups or other problems, reset your computer, and when the
visual kernel configuration option is given, choose it. This will
allow you to go through your hardware and supply information to the
system about it. The kernel on the boot disks is configured
assuming that most hardware devices are in their factory default
configuration in terms of IRQs, IO addresses, and DMA channels. If
your hardware has been reconfigured, you will most likely need to
use the configuration editor to tell FreeBSD where to find
things.It is also possible that a probe for a device not present will
cause a later probe for another device that is present to fail. In
that case, the probes for the conflicting driver(s) should be
disabled.Some installation problems can be avoided or alleviated by
by updating the firmware on various hardware components, most notably
the motherboard. The motherboard firmware may also be referred to
as BIOS and most of the motherboard or computer
manufactures have a website where the upgrades and upgrade information
may be located.Most manufacturers strongly advise against upgrading the motherboard
BIOS unless there is a good reason for doing so, which
could possibly be a critical update of sorts. The upgrade process
can go wrong, causing permanent damage to the
BIOS chip.Do not disable any drivers you will need during the
installation, such as your screen (sc0).
If the installation wedges or fails mysteriously after leaving
the configuration editor, you have probably removed or changed
something you should not have. Reboot and try again.In configuration mode, you can:List the device drivers installed in the kernel.Change device drivers for hardware that is not present in
your system.Change IRQs, DRQs, and IO port addresses used by a device
driver.After adjusting the kernel to match your hardware
configuration, type Q to boot with the new
settings. Once the installation has completed, any changes you
made in the configuration mode will be permanent so you do not have
to reconfigure every time you boot. It is still highly likely that
you will eventually want to build a custom kernel.MS-DOS User's Questions and AnswersDOSMany users wish to install FreeBSD on PCs inhabited by MS-DOS.
Here are some commonly asked questions about installing FreeBSD on
such systems.Help, I have no space! Do I need to delete everything
first?If your machine is already running MS-DOS and has little
or no free space available for the FreeBSD installation, all
hope is not lost! You may find the FIPS
utility, provided
in the tools directory on the FreeBSD
CDROM or various FreeBSD FTP sites to be quite
useful.FIPSFIPS allows you to split an
existing MS-DOS partition
into two pieces, preserving the original partition and
allowing you to install onto the second free piece. You
first defragment your MS-DOS partition using the Windows
DEFRAG utility (go into Explorer,
right-click on the
hard drive, and choose to defrag your
hard drive), or Norton Disk Tools. You then must run
FIPS. It
will prompt you for the rest of the information it needs.
Afterwards, you can reboot and install FreeBSD on the new
free slice. See the Distributions menu
for an estimate of how much free space you will need for the
kind of installation you want.Partition MagicThere is also a very useful
product from PowerQuest
called Partition Magic. This
application has far more functionality than
FIPS, and is
highly recommended if you plan to often add/remove
operating systems (like me). However, it does cost
money, and if you plan to install FreeBSD once and then
leave it there, FIPS will probably
be fine for you.Can I use compressed MS-DOS filesystems from
FreeBSD?No. If you are using a utility such as
Stacker or
DoubleSpace, 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/double spaced file!).
Do not remove that file or you will probably regret
it greatly!It is probably better to create another uncompressed
primary MS-DOS partition and use this for communications
between MS-DOS and FreeBSD.Can I mount my extended MS-DOS partition?partitionsslicesYes. 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 if installing
4.0-RELEASE or later, and substitute
wd for da if you
are installing a version of FreeBSD prior to 4.0. You otherwise
mount extended partitions exactly like you would any other
DOS drive, for example:&prompt.root; mount -t msdos /dev/ad0s5 /dos_dAlpha User's Questions and AnswersAlphaThis section answers some commonly asked questions about
installing FreeBSD on Alpha systems.Can I boot from the ARC or Alpha BIOS Console?ARCAlpha BIOSSRMNo. &os;, like Compaq Tru64 and VMS, will only boot
from the SRM console.Help, I have no space! Do I need to delete
everything first?Unfortunately, yes.Can I mount my Compaq Tru64 or VMS filesystems?No, not at this time.ValentinoVaschettoContributed by Advanced Installation GuideThis section describes how to install FreeBSD in exceptional
cases.Installing FreeBSD on a System without a Monitor or
Keyboardinstallationheadless (serial console)serial consoleThis type of installation is called a headless install,
because the machine that you are trying to install FreeBSD on
either does not have a monitor attached to it, or does not even
have a VGA output. How is this possible you ask? Using a
serial console. A serial console is basically using another
machine to act as the main display and keyboard for a
system. To do this, just follow these steps:Fetch the Right Boot Floppy ImagesFirst you will need to get the right disk images so
that you can boot into the install program. The secret
with using a serial console is that you tell the boot
loader to send I/O through a serial port instead of
displaying console output to the VGA device and trying to
read input from a local keyboard. Enough of that now,
let's get back to getting these disk images.You will need to get kern.flp and
mfsroot.flp from the
floppies directory.Write the Image Files to the Floppy Disks.The image files, such as
kern.flp, are
not regular files that you copy to
the disk. Instead, they are images of the complete
contents of the disk.This means that you can not use
commands like DOS' copy to write the
files. Instead, you must use specific tools to write the
images directly to the disk.fdimageIf you are creating the floppies on a computer running
DOS then we provide a tool to do this called
fdimage.If you are using the floppies from the CDROM, and
your CDROM is the E: drive then
you would run this:E:\>tools\fdimage floppies\kern.flp A:Repeat this command for each .flp
file, replacing the floppy disk each time. Adjust the
command line as necessary, depending on where you have
placed the .flp files. If you do not
have the CDROM then fdimage can be
downloaded from the tools
directory on the FreeBSD FTP site.If you are writing the floppies on a Unix system (such
as another FreeBSD system) you can use the &man.dd.1;
command to write the image files directly to disk. On
FreeBSD you would run:&prompt.root; dd if=kern.flp of=/dev/fd0On FreeBSD /dev/fd0 refers to
the first floppy disk (the A:
drive). /dev/fd1 would be the
B: drive, and so on. Other Unix
variants might have different names for the floppy disk
devices, and you will need to check the documentation for
the system as necessary.Enabling the Boot Floppies to Boot into a Serial
ConsoleDo not try to mount the floppy if it is write-protectedmountIf you were to boot into the floppies that you just
made, FreeBSD would boot into its normal install mode. We
want FreeBSD to boot into a serial console for our
install. To do this, you have to mount the
kern.flp floppy onto your FreeBSD
system using the &man.mount.8; command.&prompt.root; mount /dev/fd0 /mntNow that you have the floppy mounted, you must
change into the floppy directory&prompt.root; cd /mntHere is where you must set the floppy to boot into a
serial console. You have to make a file called
boot.config containing
/boot/loader -h. All this does is pass a flag to the bootloader to
boot into a serial console.&prompt.root; echo "/boot/loader -h" > boot.configNow that you have your floppy configured correctly,
you must unmount the floppy using the &man.umount.8;
command&prompt.root; cd /
&prompt.root; umount /mntNow you can remove the floppy from the floppy
driveConnecting Your Null Modem Cablenull-modem cableYou now need to connect a null modem cable between
the two machines. Just connect the cable to the serial
ports of the 2 machines. A normal serial cable
will not work here, you need a null modem
cable because it has some of the wires inside crossed
over.Booting Up for the InstallIt is now time to go ahead and start the install. Put
the kern.flp floppy in the floppy
drive of the machine you are doing the headless install
on, and power on the machine.Connecting to Your Headless MachinecuNow you have to connect to that machine with
&man.cu.1;:&prompt.root; cu -l /dev/cuaa0That's it! You should be able to control the headless
machine through your cu session now. It will ask
you to put
in the mfsroot.flp, and then it will come
up with a selection of what kind of terminal to use. Just
select the FreeBSD color console and proceed with your
install!Preparing Your Own Installation MediaTo prevent repetition, FreeBSD disk in this context
means a FreeBSD CDROM or DVD that you have purchased, or produced
yourself.There may be some situations in which you need to create your own
FreeBSD installation media and/or source. This might be physical media,
such as a tape, or a source that Sysinstall
can use to retrieve the files, such as a local FTP site, or an MS-DOS
partition. For example:You have many machines connected to your local network, and one
FreeBSD disk. You want to create a local FTP site using the
contents of the FreeBSD disk, and then have your machines use this
local FTP site instead of needing to connect to the Internet.You have a FreeBSD disk, FreeBSD does not recognize your CD/DVD
drive, but DOS/Windows does. You want to copy the FreeBSD
installations files to a DOS partition on the same computer, and
then install FreeBSD using those files.The computer you want to install on does not have a CD/DVD
drive, or a network card, but you can connect a
Laplink-style serial or parallel cable to a computer
that does.You want to create a tape that can be used to install
FreeBSD.Creating a Local FTP Site with a FreeBSD DiskinstallationnetworkFTPFreeBSD disks are laid out in the same way as the FTP site. This
makes it very easy for you to create a local FTP site that can be used
by other machines on your network when installing FreeBSD.On the FreeBSD computer that will host the FTP site, ensure
that the CDROM is in the drive, and mounted on
/cdrom.&prompt.root; mount /cdromCreate an account for anonymous FTP in
/etc/passwd. Do this by editing
/etc/passwd using &man.vipw.8; and adding
this line.ftp:*:99:99::0:0:FTP:/cdrom:/nonexistentEnsure that the FTP service is enabled in
/etc/inetd.conf.Anyone with network connectivity to your machine can now
chose a media type of FTP and type in
ftp://your machine
after picking Other in the FTP sites menu during
the install.This approach is OK for a machine that is on your local network,
and that is protected by your firewall. Offering up FTP services to
other machines over the Internet (and not your local network)
exposes your computer to the attention of crackers and other
undesirables. We strongly recommend that you follow good security
practices if you do this.Creating Installation FloppiesinstallationfloppiesIf you must install from floppy disk (which we suggest you
do not do), either due to unsupported
hardware or simply because you insist on doing things the hard
way, you must first prepare some floppies for the installation.At a minimum, you will need as many 1.44MB or 1.2MB floppies
as it takes to hold all the files in the
bin (binary distribution) directory. If
you are preparing the floppies from DOS, then they
MUST be formatted using the MS-DOS
FORMAT command. If you are using Windows,
use Explorer to format the disks (right-click on the
A: drive, and select "Format".Do not trust factory pre-formatted
floppies. Format them again yourself, just to be sure. Many
problems reported by our users in the past have resulted from
the use of improperly formatted media, which is why we are
making a point of it now.If you are creating the floppies on another FreeBSD machine,
a format is still not a bad idea, though you do not need to put
a DOS filesystem on each floppy. You can use the
disklabel and newfs
commands to put a UFS filesystem on them instead, as the
following sequence of commands (for a 3.5" 1.44MB floppy)
illustrates:&prompt.root; fdformat -f 1440 fd0.1440
&prompt.root; disklabel -w -r fd0.1440 floppy3
&prompt.root; newfs -t 2 -u 18 -l 1 -i 65536 /dev/fd0Use fd0.1200 and
floppy5 for 5.25" 1.2MB disks.Then you can mount and write to them like any other
filesystem.After you have formatted the floppies, you will need to copy
the files to 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 have all of the
distributions you want packed up in this fashion. Each
distribution should go into a subdirectory on the floppy, e.g.:
a:\bin\bin.aa,
a:\bin\bin.ab, and so on.Once you come to the Media screen during the install
process, select Floppy and you will be prompted
for the rest.Installing from an MS-DOS Partitioninstallationfrom MS-DOSTo prepare for an installation from an MS-DOS partition,
copy the files from the distribution into a directory on that
partition. For example, c:\freebsd. The directory
structure of the CDROM or FTP site must be partially reproduced
within this directory, so we suggest using the DOS
xcopy command if you are copying it from a
CD. For example, to prepare for a minimal installation of
FreeBSD:C:\>md c:\freebsdC:\>xcopy e:\bin c:\freebsd\bin\ /sC:\>xcopy e:\manpages c:\freebsd\manpages\ /sAssuming that C: is where you have
free space and E: is where your CDROM
is mounted.If you do not have a CDROM drive, you can download the
distribution from
ftp.FreeBSD.org. Each distribution is in its own directory;
for example, the bin distribution can be
found in the &rel.current;/bin/ directory.For as many distributions you wish to install from an MS-DOS
partition (and you have the free space for), install each one
under c:\freebsd — the
BIN distribution is the only one required for
a minimum installation.Creating an Installation Tapeinstallationfrom QIC/SCSI TapeInstalling from tape is probably the easiest method, short
of an online FTP install or CDROM install. The installation
program expects the files to be simply tarred onto the tape.
After getting all of the distribution files you are interested
in, simply tar them onto the tape:&prompt.root; cd /freebsd/distdir
&prompt.root; tar cvf /dev/rwt0 dist1 ... dist2When you go to do the installation, you should also make
sure that you leave enough room in some temporary directory
(which you will be allowed to choose) to accommodate the
full contents of the tape you have 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.When starting the installation, the tape must be in the
drive before booting from the boot
floppy. The installation probe may otherwise fail to find
it.Before Installing over a Networkinstallationnetworkserial (SLIP or PPP)installationnetworkparallel (PLIP)installationnetworkEthernetThere are three types of network installations you can do.
Serial port (SLIP or PPP), Parallel port (PLIP (laplink cable)),
or Ethernet (a standard Ethernet controller (includes some
PCMCIA)).The SLIP support is rather primitive, and limited primarily
to hard-wired links, such as a serial cable running between a
laptop computer and another computer. The link should be
hard-wired as the SLIP installation does not currently offer a
dialing capability; that facility is provided with the PPP
utility, which should be used in preference to SLIP whenever
possible.If you are using a modem, then PPP is almost certainly
your only choice. Make sure that you have your service
provider's information handy as you will need to know it fairly
early in the installation process.If you use PAP or CHAP to connect your ISP (in other
words, if you can connect to the ISP in Windows without
using a script), then all you will need to do is type in
dial at the
ppp prompt. Otherwise,
you will need to know
how to dial your ISP using the AT commands
specific to your modem, as the PPP dialer provides only a very
simple terminal emulator. Please refer
to the user-ppp handbook and FAQ entries for further
information. If you have problems, logging can be directed to
the screen using the command set log local
....If a hard-wired connection to another FreeBSD (2.0-R or
later) machine is available, you might also consider installing
over a laplink parallel port cable. The data rate
over the parallel port is much higher than what is typically
possible over a serial line (up to 50kbytes/sec), thus resulting
in a quicker installation.Finally, for the fastest possible network installation, an
Ethernet adapter is always a good choice! FreeBSD supports most
common PC Ethernet cards; a table of supported cards (and their
required settings) is provided in the Hardware Notes
for each release of FreeBSD. If you are
using one of the supported PCMCIA Ethernet cards, also be sure
that it is 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. If you are installing over a PPP connection and do not
have a static IP, fear not, the IP address can be dynamically
assigned by your ISP. Your system administrator can tell you
which values to use for your particular network setup. If you
will be referring to other hosts by name rather than IP address,
you will also need a name server and possibly the address of a
gateway (if you are using PPP, it is your provider's IP address)
to use in talking to it. If you want to install by FTP via a
HTTP proxy (see below), you will also need the proxy's address.
If you do not know the answers to all or most of these questions,
then you should really probably talk to your system administrator
or ISP before trying this type of
installation.Before Installing via NFSinstallationnetworkNFSThe 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
(as is generally the default for Sun 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
support subdir mounts, e.g., if your FreeBSD 3.4 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 . Other NFS
servers may have different conventions. If you are getting
permission denied messages from the server, then
it is likely that you do not have this enabled
properly.
diff --git a/en_US.ISO8859-1/books/handbook/security/chapter.sgml b/en_US.ISO8859-1/books/handbook/security/chapter.sgml
index f4175f546e..0faf9c6027 100644
--- a/en_US.ISO8859-1/books/handbook/security/chapter.sgml
+++ b/en_US.ISO8859-1/books/handbook/security/chapter.sgml
@@ -1,3491 +1,3491 @@
!--
The FreeBSD Documentation Project
$FreeBSD$
-->
MatthewDillonMuch of this chapter has been taken from the
security(7) manual page by SecuritysecuritySynopsisThis chapter will provide a basic introduction to system security
concepts, some general good rules of thumb, and some advanced topics
under FreeBSD. A lot of the topics covered here can be applied
to system and Internet security in general as well. The Internet
is no longer a friendly place in which everyone
wants to be your kind neighbor. Securing your system is imperative
to protect your data, intellectual property, time, and much more
from the hands of hackers and the like.FreeBSD provides an array of utilities and mechanisms to
ensure the integrity and security of your system and
network.After reading this chapter, you will know:Basic system security concepts, in respect to FreeBSD.About the various crypt mechanisms available in FreeBSD,
such as DES and MD5.How to setup S/Key, an alternative, one-time password
authentication system.How to setup Kerberos, another alternative
authentication system.How to create firewalls using IPFW.How to configure IPSec.How to configure and use OpenSSH, FreeBSD's SSH
implementation.Before reading this chapter, you should:Understand basic FreeBSD and Internet concepts.IntroductionSecurity is a function that begins and ends with the system
administrator. While all BSD Unix multi-user systems have some
inherent security, the job of building and maintaining additional
security mechanisms to keep those users honest is
probably one of the single largest undertakings of the sysadmin.
Machines are only as secure as you make them, and security concerns
are ever competing with the human necessity for convenience. Unix
systems, in general, are capable of running a huge number of
simultaneous processes and many of these processes operate as
servers – meaning that external entities can connect and talk
to them. As yesterday's mini-computers and mainframes become
today's desktops, and as computers become networked and
internetworked, security becomes an even bigger issue.Security is best implemented through a layered
onion approach. In a nutshell, what you want to do is
to create as many layers of security as are convenient and then
carefully monitor the system for intrusions. You do not want to
overbuild your security or you will interfere with the detection
side, and detection is one of the single most important aspects of
any security mechanism. For example, it makes little sense to set
the schg flags (see &man.chflags.1;) on every
system binary because
while this may temporarily protect the binaries, it prevents an
attacker who has broken in from making an easily detectable change
that may result in your security mechanisms not detecting the attacker
at all.System security also pertains to dealing with various forms of
attack, including attacks that attempt to crash, or otherwise make a
system unusable, but do not attempt to compromise the
root account (break root).
Security concerns
can be split up into several categories:Denial of service attacks.User account compromises.Root compromise through accessible servers.Root compromise via user accounts.Backdoor creation.DoS attacksDenial of Service (DoS)securityDoS attacksDenial of Service (DoS)Denial of Service (DoS)A denial of service attack is an action that deprives the
machine of needed resources. Typically, DoS attacks are
brute-force mechanisms that attempt to crash or otherwise make a
machine unusable by overwhelming its servers or network stack. Some
DoS attacks try to take advantage of bugs in the networking
stack to crash a machine with a single packet. The latter can only
be fixed by applying a bug fix to the kernel. Attacks on servers
can often be fixed by properly specifying options to limit the load
the servers incur on the system under adverse conditions.
Brute-force network attacks are harder to deal with. A
spoofed-packet attack, for example, is nearly impossible to stop,
short of cutting your system off from the Internet. It may not be
able to take your machine down, but it can saturate your
Internet connection.securityaccount compromisesA user account compromise is even more common than a DoS
attack. Many sysadmins still run standard
telnetd, rlogind,
rshd,
and ftpd servers on their machines.
These servers, by default, do
not operate over encrypted connections. The result is that if you
have any moderate-sized user base, one or more of your users logging
into your system from a remote location (which is the most common
and convenient way to login to a system) will have his or her
password sniffed. The attentive system admin will analyze his
remote access logs looking for suspicious source addresses even for
successful logins.One must always assume that once an attacker has access to a
user account, the attacker can break root.
However, the reality is that in a well secured and maintained system,
access to a user account does not necessarily give the attacker
access to root. The distinction is important
because without access to root the attacker
cannot generally hide his tracks and may, at best, be able to do
nothing more than mess with the user's files, or crash the machine.
User account compromises are very common because users tend not to
take the precautions that sysadmins take.securitybackdoorsSystem administrators must keep in mind that there are
potentially many ways to break root on a machine.
The attacker may know the root password,
the attacker may find a bug in a root-run server and be able
to break root over a network
connection to that server, or the attacker may know of a bug in
a suid-root program that allows the attacker to break
root once he has broken into a user's account.
If an attacker has found a way to break root
on a machine, the attacker may not have a need
to install a backdoor. Many of the root holes
found and closed to date involve a considerable amount of work
by the attacker to cleanup after himself, so most attackers install
backdoors. A backdoor provides the attacker with a way to easily
regain root access to the system, but it
also gives the smart system administrator a convenient way
to detect the intrusion.
Making it impossible for an attacker to install a backdoor may
actually be detrimental to your security, because it will not
close off the hole the attacker found to break in the first
place.Security remedies should always be implemented with a
multi-layered onion peel approach and can be
categorized as follows:Securing root and staff accounts.Securing root – root-run servers
and suid/sgid binaries.Securing user accounts.Securing the password file.Securing the kernel core, raw devices, and
filesystems.Quick detection of inappropriate changes made to the
system.Paranoia.The next section of this chapter will cover the above bullet
items in greater depth.securitysecuringSecuring FreeBSDCommand vs. ProtocolThroughout this document, we will use
bold text to refer to a command or
application. This is used for instances such as ssh, since it is
a protocol as well as command.The sections that follow will cover the methods of securing your
FreeBSD system that were mentioned in the last section of this chapter.Securing the root Account and
Staff AccountssuFirst off, do not bother securing staff accounts if you have
not secured the root account.
Most systems have a password assigned to the root
account. The first thing you do is assume
that the password is always compromised.
This does not mean that you should remove the password. The
password is almost always necessary for console access to the
machine. What it does mean is that you should not make it
possible to use the password outside of the console or possibly
even with the &man.su.1; command. For example, make sure that
your pty's are specified as being insecure in the
/etc/ttys file so that direct
root logins
via telnet or rlogin are
disallowed. If using other login services such as
sshd, make sure that direct
root logins are disabled there as well.
You can do this by editing
your /etc/ssh/sshd_config file, and making
sure that PermitRootLogin is set to
NO. Consider every access method –
services such as FTP often fall through the cracks.
Direct root logins should only be allowed
via the system console.wheelOf course, as a sysadmin you have to be able to get to
root, so we open up a few holes.
But we make sure these holes require additional password
verification to operate. One way to make root
accessible is to add appropriate staff accounts to the
wheel group (in
/etc/group). The staff members placed in the
wheel group are allowed to
su to root.
You should never give staff
members native wheel access by putting them in the
wheel group in their password entry. Staff
accounts should be placed in a staff group, and
then added to the wheel group via the
/etc/group file. Only those staff members
who actually need to have root access
should be placed in the
wheel group. It is also possible, when using
an authentication method such as Kerberos, to use Kerberos'
.k5login file in the root
account to allow a &man.ksu.1; to root
without having to place anyone at all in the
wheel group. This may be the better solution
since the wheel mechanism still allows an
intruder to break root if the intruder
has gotten hold of your
password file and can break into a staff account. While having
the wheel mechanism is better than having
nothing at all, it is not necessarily the safest option.An indirect way to secure staff accounts, and ultimately
root access is to use an alternative
login access method and
do what is known as starring out the encrypted
password for the staff accounts. Using the &man.vipw.8;
- command, one can replace each instance of a encrypted password
+ command, one can replace each instance of an encrypted password
with a single * character.
This command will update the /etc/master.passwd
file and user/password database to disable password-authenticated
logins.A staff account entry such as:foobar:R9DT/Fa1/LV9U:1000:1000::0:0:Foo Bar:/home/foobar:/usr/local/bin/tcshShould be changed to this:foobar:*:1000:1000::0:0:Foo Bar:/home/foobar:/usr/local/bin/tcshThis change will prevent normal logins from occurring,
since the encrypted password will never match
*. With this done,
staff members must use
another mechanism to authenticate themselves such as
&man.kerberos.1; or &man.ssh.1; using a public/private key
pair. When using something like Kerberos, one generally must
secure the machines which run the Kerberos servers and your
desktop workstation. When using a public/private key pair
with ssh, one must generally secure
the machine used to login from (typically
one's workstation). An additional layer of protection can be
added to the key pair by password protecting the key pair when
creating it with &man.ssh-keygen.1;. Being able to
star out the passwords for staff accounts also
guarantees that staff members can only login through secure
access methods that you have setup. This forces all staff
members to use secure, encrypted connections for all of their
sessions, which closes an important hole used by many
intruders: sniffing the network from an unrelated,
less secure machine.The more indirect security mechanisms also assume that you are
logging in from a more restrictive server to a less restrictive
server. For example, if your main box is running all sorts of
servers, your workstation should not be running any. In order for
your workstation to be reasonably secure you should run as few
servers as possible, up to and including no servers at all, and
you should run a password-protected screen blanker. Of course,
given physical access to a workstation an attacker can break any
sort of security you put on it. This is definitely a problem that
you should consider, but you should also consider the fact that the
vast majority of break-ins occur remotely, over a network, from
people who do not have physical access to your workstation or
servers.KerberosUsing something like Kerberos also gives you the ability to
disable or change the password for a staff account in one place,
and have it immediately effect all the machines on which the staff
member may have an account. If a staff member's account gets
compromised, the ability to instantly change his password on all
machines should not be underrated. With discrete passwords,
changing a password on N machines can be a mess. You can also
impose re-passwording restrictions with Kerberos: not only can a
Kerberos ticket be made to timeout after a while, but the Kerberos
system can require that the user choose a new password after a
certain period of time (say, once a month).Securing Root-run Servers and SUID/SGID BinariesntalkcomsatfingersandboxessshdtelnetdrshdrlogindThe prudent sysadmin only runs the servers he needs to, no
more, no less. Be aware that third party servers are often the
most bug-prone. For example, running an old version of
imapd or
popper is like giving a universal
root ticket out to the entire world.
Never run a server that you have not checked out carefully.
Many servers do not need to be run as root.
For example, the ntalk,
comsat, and
finger daemons can be run in special
user sandboxes. A sandbox is not perfect,
unless you go through a large amount of trouble, but the onion
approach to security still stands: If someone is able to break
in through a server running in a sandbox, they still have to
break out of the sandbox. The more layers the attacker must
break through, the lower the likelihood of his success. Root
holes have historically been found in virtually every server
ever run as root, including basic system servers.
If you are running a machine through which people only login via
sshd and never login via
telnetd or
rshd or
rlogind, then turn off those
services!FreeBSD now defaults to running
ntalkd,
comsat, and
finger in a sandbox. Another program
which may be a candidate for running in a sandbox is &man.named.8;.
/etc/defaults/rc.conf includes the arguments
necessary to run named in a sandbox in a
commented-out form. Depending on whether you are installing a new
system or upgrading an existing system, the special user accounts
used by these sandboxes may not be installed. The prudent
sysadmin would research and implement sandboxes for servers
whenever possible.sendmailThere are a number of other servers that typically do not run
in sandboxes: sendmail,
popper,
imapd, ftpd,
and others. There are alternatives to some of these, but
installing them may require more work than you are willing to
perform (the convenience factor strikes again). You may have to
run these servers as root and rely on other
mechanisms to detect break-ins that might occur through them.The other big potential root holes in a
system are the
suid-root and sgid binaries installed on the system. Most of
these binaries, such as rlogin, reside
in /bin, /sbin,
/usr/bin, or /usr/sbin.
While nothing is 100% safe, the system-default suid and sgid
binaries can be considered reasonably safe. Still,
root holes are occasionally found in these
binaries. A root hole was found in
Xlib in 1998 that made
xterm (which is typically suid)
vulnerable. It is better to be safe than sorry and the prudent
sysadmin will restrict suid binaries, that only staff should run,
to a special group that only staff can access, and get rid of
(chmod 000) any suid binaries that nobody uses.
A server with no display generally does not need an
xterm binary. Sgid binaries can be
almost as dangerous. If an intruder can break an sgid-kmem binary,
the intruder might be able to read /dev/kmem
and thus read the encrypted password file, potentially compromising
any passworded account. Alternatively an intruder who breaks
group kmem can monitor keystrokes sent through
pty's, including pty's used by users who login through secure
methods. An intruder that breaks the tty
group can write to
almost any user's tty. If a user is running a terminal program or
emulator with a keyboard-simulation feature, the intruder can
potentially generate a data stream that causes the user's terminal
to echo a command, which is then run as that user.Securing User AccountsUser accounts are usually the most difficult to secure. While
you can impose Draconian access restrictions on your staff and
star out their passwords, you may not be able to
do so with any general user accounts you might have. If you do
have sufficient control, then you may win out and be able to secure
the user accounts properly. If not, you simply have to be more
vigilant in your monitoring of those accounts. Use of
ssh and Kerberos for user accounts is
more problematic, due to the extra administration and technical
support required, but still a very good solution compared to a
crypted password file.Securing the Password FileThe only sure fire way is to * out as many
passwords as you can and use ssh or
Kerberos for access to those accounts. Even though the encrypted
password file (/etc/spwd.db) can only be read
by root, it may be possible for an intruder
to obtain read access to that file even if the attacker cannot
obtain root-write access.Your security scripts should always check for and report
changes to the password file (see the Checking file integrity section
below).Securing the Kernel Core, Raw Devices, and
FilesystemsIf an attacker breaks root he can do
just about anything, but
there are certain conveniences. For example, most modern kernels
have a packet sniffing device driver built in. Under FreeBSD it
is called the bpf device. An intruder
will commonly attempt to run a packet sniffer on a compromised
machine. You do not need to give the intruder the capability and
most systems do not have the need for the
bpf device compiled in.sysctlBut even if you turn off the bpf
device, you still have
/dev/mem and
/dev/kmem
to worry about. For that matter, the intruder can still write to
raw disk devices. Also, there is another kernel feature called
the module loader, &man.kldload.8;. An enterprising intruder can
use a KLD module to install his own bpf
device, or other sniffing
device, on a running kernel. To avoid these problems you have to
run the kernel at a higher secure level, at least securelevel 1.
The securelevel can be set with a sysctl on
the kern.securelevel variable. Once you have
set the securelevel to 1, write access to raw devices will be
denied and special chflags flags,
such as schg,
will be enforced. You must also ensure that the
schg flag is set on critical startup binaries,
directories, and script files – everything that gets run up
to the point where the securelevel is set. This might be overdoing
it, and upgrading the system is much more difficult when you
operate at a higher secure level. You may compromise and run the
system at a higher secure level but not set the
schg flag for every system file and directory
under the sun. Another possibility is to simply mount
/ and /usr read-only.
It should be noted that being too Draconian in what you attempt to
protect may prevent the all-important detection of an
intrusion.Checking File Integrity: Binaries, Configuration Files,
Etc.When it comes right down to it, you can only protect your core
system configuration and control files so much before the
convenience factor rears its ugly head. For example, using
chflags to set the schg bit
on most of the files in / and
/usr is probably counterproductive, because
while it may protect the files, it also closes a detection window.
The last layer of your security onion is perhaps the most
important – detection. The rest of your security is pretty
much useless (or, worse, presents you with a false sense of
safety) if you cannot detect potential incursions. Half the job
of the onion is to slow down the attacker, rather than stop him, in
order to give the detection side of the equation a chance to catch
him in the act.The best way to detect an incursion is to look for modified,
missing, or unexpected files. The best way to look for modified
files is from another (often centralized) limited-access system.
Writing your security scripts on the extra-secure limited-access
system makes them mostly invisible to potential attackers, and this
is important. In order to take maximum advantage you generally
have to give the limited-access box significant access to the
other machines in the business, usually either by doing a
read-only NFS export of the other machines to the limited-access
box, or by setting up ssh key-pairs to
allow the limited-access box to ssh to
the other machines. Except for its network traffic, NFS is the
least visible method – allowing you to monitor the
filesystems on each client box virtually undetected. If your
limited-access server is connected to the client boxes through a
switch, the NFS method is often the better choice. If your
limited-access server is connected to the client boxes through a
hub, or through several layers of routing, the NFS method may be
too insecure (network-wise) and using
ssh may be the better choice even with
the audit-trail tracks that ssh
lays.Once you give a limited-access box, at least read access to the
client systems it is supposed to monitor, you must write scripts
to do the actual monitoring. Given an NFS mount, you can write
scripts out of simple system utilities such as &man.find.1; and
&man.md5.1;. It is best to physically md5 the client-box files
at least once a day, and to test control files such as those
found in /etc and
/usr/local/etc even more often. When
mismatches are found, relative to the base md5 information the
limited-access machine knows is valid, it should scream at a
sysadmin to go check it out. A good security script will also
check for inappropriate suid binaries and for new or deleted files
on system partitions such as / and
/usr.When using ssh rather than NFS,
writing the security script is much more difficult. You
essentially have to scp the scripts to the client
box in order to
run them, making them visible, and for safety you also need to
scp the binaries (such as find) that those
scripts use. The ssh client on the
client box may already be compromised. All in all, using
ssh may be necessary when running over
insecure links, but it is also a lot harder to deal with.A good security script will also check for changes to user and
staff members access configuration files:
.rhosts, .shosts,
.ssh/authorized_keys and so forth…
files that might fall outside the purview of the
MD5 check.If you have a huge amount of user disk space, it may take too
long to run through every file on those partitions. In this case,
setting mount flags to disallow suid binaries and devices on those
partitions is a good idea. The nodev and
nosuid options (see &man.mount.8;) are what you
want to look into. You should probably scan them anyway, at least
once a week, since the object of this layer is to detect a break-in
whether or not the break-in is effective.Process accounting (see &man.accton.8;) is a relatively
low-overhead feature of the operating system which might help
as a post-break-in evaluation mechanism. It is especially
useful in tracking down how an intruder has actually broken into
a system, assuming the file is still intact after the break-in
occurs.Finally, security scripts should process the log files, and the
logs themselves should be generated in as secure a manner as
possible – remote syslog can be very useful. An intruder
tries to cover his tracks, and log files are critical to the
sysadmin trying to track down the time and method of the initial
break-in. One way to keep a permanent record of the log files is
to run the system console to a serial port and collect the
information on a continuing basis through a secure machine
monitoring the consoles.ParanoiaA little paranoia never hurts. As a rule, a sysadmin can add
any number of security features, as long as they do not effect
convenience, and can add security features that
do effect convenience with some added thought.
Even more importantly, a security administrator should mix it up a
bit – if you use recommendations such as those given by this
document verbatim, you give away your methodologies to the
prospective attacker who also has access to this document.Denial of Service AttacksDenial of Service (DoS)This section covers Denial of Service attacks. A DoS attack
is typically a packet attack. While there is not much you can do
about modern spoofed packet attacks that saturate your network,
you can generally limit the damage by ensuring that the attacks
cannot take down your servers.Limiting server forks.Limiting springboard attacks (ICMP response attacks, ping
broadcast, etc.).Kernel Route Cache.A common DoS attack is against a forking server that attempts
to cause the server to eat processes, file descriptors, and memory,
until the machine dies. inetd
(see &man.inetd.8;) has several
options to limit this sort of attack. It should be noted that
while it is possible to prevent a machine from going down, it is
not generally possible to prevent a service from being disrupted
by the attack. Read the inetd manual
page carefully and pay
specific attention to the , ,
and options. Note that spoofed-IP attacks
will circumvent the option to
inetd, so
typically a combination of options must be used. Some standalone
servers have self-fork-limitation parameters.Sendmail has its
option, which tends to work
much better than trying to use sendmail's load limiting options
due to the load lag. You should specify a
MaxDaemonChildren parameter, when you start
sendmail, high enough to handle your
expected load, but not so high that the computer cannot handle that
number of sendmails without falling on
its face. It is also prudent to run sendmail in queued mode
() and to run the daemon
(sendmail -bd) separate from the queue-runs
(sendmail -q15m). If you still want real-time
delivery you can run the queue at a much lower interval, such as
, but be sure to specify a reasonable
MaxDaemonChildren option for
that sendmail to prevent cascade failures.Syslogd can be attacked directly
and it is strongly recommended that you use the
option whenever possible, and the option
otherwise.You should also be fairly careful with connect-back services
such as tcpwrapper's reverse-identd,
which can be attacked directly. You generally do not want to use
the reverse-ident feature of
tcpwrappers for this reason.It is a very good idea to protect internal services from
external access by firewalling them off at your border routers.
The idea here is to prevent saturation attacks from outside your
LAN, not so much to protect internal services from network-based
root compromise.
Always configure an exclusive firewall, i.e.,
firewall everything except ports A, B,
C, D, and M-Z. This way you can firewall off all of your
low ports except for certain specific services such as
named (if you are primary for a zone),
ntalkd,
sendmail, and other Internet-accessible
services. If you try to configure the firewall the other way
– as an inclusive or permissive firewall, there is a good
chance that you will forget to close a couple of
services, or that you will add a new internal service and forget
to update the firewall. You can still open up the high-numbered
port range on the firewall, to allow permissive-like operation,
without compromising your low ports. Also take note that FreeBSD
allows you to control the range of port numbers used for dynamic
binding, via the various net.inet.ip.portrangesysctl's (sysctl -a | fgrep
portrange), which can also ease the complexity of your
firewall's configuration. For example, you might use a normal
first/last range of 4000 to 5000, and a hiport range of 49152 to
65535, then block off everything under 4000 in your firewall
(except for certain specific Internet-accessible ports, of
course).ICMP_BANDLIMAnother common DoS attack is called a springboard attack
– to attack a server in a manner that causes the server to
generate responses which overloads the server, the local
network, or some other machine. The most common attack of this
nature is the ICMP ping broadcast attack.
The attacker spoofs ping packets sent to your LAN's broadcast
address with the source IP address set to the actual machine they
wish to attack. If your border routers are not configured to
stomp on ping's to broadcast addresses, your LAN winds up
generating sufficient responses to the spoofed source address to
saturate the victim, especially when the attacker uses the same
trick on several dozen broadcast addresses over several dozen
different networks at once. Broadcast attacks of over a hundred
and twenty megabits have been measured. A second common
springboard attack is against the ICMP error reporting system.
By constructing packets that generate ICMP error responses, an
attacker can saturate a server's incoming network and cause the
server to saturate its outgoing network with ICMP responses. This
type of attack can also crash the server by running it out of
mbuf's, especially if the server cannot drain the ICMP responses
it generates fast enough. The FreeBSD kernel has a new kernel
compile option called
which limits the effectiveness
of these sorts of attacks. The last major class of springboard
attacks is related to certain internal
inetd services such as the
udp echo service. An attacker simply spoofs a UDP packet with the
source address being server A's echo port, and the destination
address being server B's echo port, where server A and B are both
on your LAN. The two servers then bounce this one packet back and
forth between each other. The attacker can overload both servers
and their LANs simply by injecting a few packets in this manner.
Similar problems exist with the internal
chargen port. A
competent sysadmin will turn off all of these inetd-internal test
services.Spoofed packet attacks may also be used to overload the kernel
route cache. Refer to the net.inet.ip.rtexpire,
rtminexpire, and rtmaxcachesysctl parameters. A spoofed packet attack
that uses a random source IP will cause the kernel to generate a
temporary cached route in the route table, viewable with
netstat -rna | fgrep W3. These routes
typically timeout in 1600 seconds or so. If the kernel detects
that the cached route table has gotten too big it will dynamically
reduce the rtexpire but will never decrease it
to less than rtminexpire. There are two
problems:The kernel does not react quickly enough when a lightly
loaded server is suddenly attacked.The rtminexpire is not low enough for
the kernel to survive a sustained attack.If your servers are connected to the Internet via a T3 or
better, it may be prudent to manually override both
rtexpire and rtminexpire
via &man.sysctl.8;. Never set either parameter to zero (unless
you want to crash the machine). Setting both
parameters to 2 seconds should be sufficient to protect the route
table from attack.Access Issues with Kerberos and SSHsshKerberosThere are a few issues with both Kerberos and
ssh that need to be addressed if
you intend to use them. Kerberos V is an excellent
authentication protocol, but there are bugs in the kerberized
telnet and
rlogin applications that make them
unsuitable for dealing with binary streams. Also, by default
Kerberos does not encrypt a session unless you use the
option. ssh
encrypts everything by default.ssh works quite well in every
respect except that it forwards encryption keys by default. What
this means is that if you have a secure workstation holding keys
that give you access to the rest of the system, and you
ssh to an insecure machine, your keys
becomes exposed. The actual keys themselves are not exposed, but
ssh installs a forwarding port for the
duration of your login, and if an attacker has broken
root on the
insecure machine he can utilize that port to use your keys to gain
access to any other machine that your keys unlock.We recommend that you use ssh in
combination with Kerberos whenever possible for staff logins.
ssh can be compiled with Kerberos
support. This reduces your reliance on potentially exposable
ssh keys while at the same time
protecting passwords via Kerberos. ssh
keys should only be used for automated tasks from secure machines
(something that Kerberos is unsuited to do). We also recommend that
you either turn off key-forwarding in the
ssh configuration, or that you make use
of the from=IP/DOMAIN option that
ssh allows in its
authorized_keys file to make the key only
usable to entities logging in from specific machines.BillSwingleParts rewritten and updated by DES, MD5, and CryptsecuritycryptcryptDESMD5Every user on a Unix system has a password associated with
their account. It seems obvious that these passwords need to be
known only to the user and the actual operating system. In
order to keep these passwords secret, they are encrypted with
what is known as a one-way hash, that is, they can
only be easily encrypted but not decrypted. In other words, what
we told you a moment ago was obvious is not even true: the
operating system itself does not really know
the password. It only knows the encrypted
form of the password. The only way to get the
plain-text password is by a brute force search of the
space of possible passwords.Unfortunately the only secure way to encrypt passwords when
Unix came into being was based on DES, the Data Encryption
Standard. This was not such a problem for users resident in
the US, but since the source code for DES could not be exported
outside the US, FreeBSD had to find a way to both comply with
US law and retain compatibility with all the other Unix
variants that still used DES.The solution was to divide up the encryption libraries
so that US users could install the DES libraries and use
DES but international users still had an encryption method
that could be exported abroad. This is how FreeBSD came to
use MD5 as its default encryption method. MD5 is believed to
be more secure than DES, so installing DES is offered primarily
for compatibility reasons.Recognizing Your Crypt MechanismBefore FreeBSD 4.4 libcrypt.a was a
symbolic link pointing to the library which was used for
encryption. FreeBSD 4.4 changed libcrypt.a to
provide a configurable password authentication hash library.
Currently the library supports DES, MD5 and Blowfish hash
functions. By default FreeBSD uses MD5 to encrypt
passwords.It is pretty easy to identify which encryption method
FreeBSD is set up to use. Examining the encrypted passwords in
the /etc/master.passwd file is one way.
Passwords encrypted with the MD5 hash are longer than those
encrypted with the DES hash and also begin with the characters
$1$. Passwords starting with
$2$ are encrypted with the
Blowfish hash function. DES password strings do not
have any particular identifying characteristics, but they are
shorter than MD5 passwords, and are coded in a 64-character
alphabet which does not include the $
character, so a relatively short string which does not begin with
a dollar sign is very likely a DES password.The password format used for new passwords is controlled
by the passwd_format login capability in
/etc/login.conf, which takes values of
des or md5 or
blf. See the &man.login.conf.5; manual page
for more information about login capabilities.S/KeyS/KeysecurityS/KeyS/Key is a one-time password scheme based on a one-way hash
function. FreeBSD uses the MD4 hash for compatibility but other
systems have used MD5 and DES-MAC. S/Key has been part of the
FreeBSD base system since version 1.1.5 and is also used on a
growing number of other operating systems. S/Key is a registered
trademark of Bell Communications Research, Inc.From version 5.0 of FreeBSD, S/Key has been replaced with
the functionally equivalent OPIE (Onetime Passwords In
Everything). OPIE uses the MD5 hash by default.There are three different sorts of passwords which we will talk
about in the discussion below. The first is your usual Unix-style or
Kerberos password; we will call this a Unix password.
The second sort is the one-time password which is generated by the
S/Key key program or the OPIE
opiekey program and accepted by the
keyinit or opiepasswd programs
and the login prompt; we will
call this a one-time password. The final sort of
password is the secret password which you give to the
key/opiekey programs (and
sometimes the
keyinit/opiepasswd programs)
which it uses to generate
one-time passwords; we will call it a secret password
or just unqualified password.The secret password does not have anything to do with your Unix
password; they can be the same but this is not recommended. S/Key
and OPIE secret passwords are not limited to 8 characters like Unix
passwords, they can be as long as you like. Passwords of six or
seven word long phrases are fairly common. For the most part, the
S/Key or OPIE system operates completely independently of the Unix
password system.Besides the password, there are two other pieces of data that
are important to S/Key and OPIE. One is what is known as the
seed or key, consisting of two letters
and five digits. The other is what is called the iteration
count, a number between 1 and 100. S/Key creates the
one-time password by concatenating the seed and the secret password,
then applying the MD4/MD5 hash as many times as specified by the
iteration count and turning the result into six short English words.
These six English words are your one-time password. The
authentication system (primarily PAM) keeps
track of the last one-time password used, and the user is
authenticated if the hash of the user-provided password is equal to
the previous password. Because a one-way hash is used it is
impossible to generate future one-time passwords if a successfully
used password is captured; the iteration count is decremented after
each successful login to keep the user and the login program in
sync. When the iteration count gets down to 1, S/Key and OPIE must be
reinitialized.There are three programs involved in each system
which we will discuss below. The key and
opiekey programs accept an iteration
count, a seed, and a secret password, and generate a one-time
password or or a consecutive list of one-time passwords. The
keyinit and opiepasswd
programs are used to initialize S/Key and OPIE respectively,
and to change passwords, iteration counts, or seeds; they
take either a secret passphrase, or an iteration count,
seed, and one-time password. The keyinfo
and opieinfo programs examine the
relevant credentials files (/etc/skeykeys or
/etc/opiekeys) and print out the invoking user's
current iteration count and seed.There are four different sorts of operations we will cover. The
first is using keyinit or
opiepasswd over a secure connection to set up
one-time-passwords for the first time, or to change your password
or seed. The second operation is using keyinit
or opiepasswd over an insecure connection, in
conjunction with key or opiekey
over a secure connection, to do the same. The third is using
key/opiekey to log in over
an insecure connection. The fourth is using key
or opiekey to generate a number of keys which
can be written down or printed out to carry with you when going to
some location without secure connections to anywhere.Secure Connection InitializationTo initialize S/Key for the first time, change your password,
or change your seed while logged in over a secure connection
(e.g., on the console of a machine or via ssh), use the
keyinit command without any parameters while
logged in as yourself:&prompt.user; keyinit
Adding unfurl:
Reminder - Only use this method if you are directly connected.
If you are using telnet or rlogin exit with no password and use keyinit -s.
Enter secret password:
Again secret password:
ID unfurl s/key is 99 to17757
DEFY CLUB PRO NASH LACE SOFTFor OPIE, opiepasswd is used instead:&prompt.user; opiepasswd -c
[grimreaper] ~ $ opiepasswd -f -c
Adding unfurl:
Only use this method from the console; NEVER from remote. If you are using
telnet, xterm, or a dial-in, type ^C now or exit with no password.
Then run opiepasswd without the -c parameter.
Using MD5 to compute responses.
Enter new secret pass phrase:
Again new secret pass phrase:
ID unfurl OTP key is 499 to4268
MOS MALL GOAT ARM AVID COED
At the Enter new secret pass phrase: or
Enter secret password: prompts, you
should enter a password or phrase. Remember, this is not the
password that you will use to login with, this is used to generate
your one-time login keys. The ID line gives the
parameters of your particular instance; your login name, the
iteration count, and seed. When logging in the system
will remember these parameters and present them back to you so you
do not have to remember them. The last line gives the particular
one-time password which corresponds to those parameters and your
secret password; if you were to re-login immediately, this
one-time password is the one you would use.Insecure Connection InitializationTo initialize or change your secret password over an
insecure connection, you will need to already have a secure
connection to some place where you can run key
or opiekey; this might be in the form of a
desk accessory on a Macintosh, or a shell prompt on a machine you
trust. You will also need to make up an iteration count (100 is
probably a good value), and you may make up your own seed or use a
randomly-generated one. Over on the insecure connection (to the
machine you are initializing), use the keyinit
-s command:&prompt.user; keyinit -s
Updating unfurl:
Old key: to17758
Reminder you need the 6 English words from the key command.
Enter sequence count from 1 to 9999: 100
Enter new key [default to17759]:
s/key 100 to 17759
s/key access password:
s/key access password:CURE MIKE BANE HIM RACY GOREFor OPIE, you need to use opiepasswd:&prompt.user; opiepasswd
Updating unfurl:
You need the response from an OTP generator.
Old secret pass phrase:
otp-md5 498 to4268 ext
Response: GAME GAG WELT OUT DOWN CHAT
New secret pass phrase:
otp-md5 499 to4269
Response: LINE PAP MILK NELL BUOY TROY
ID mark OTP key is 499 gr4269
LINE PAP MILK NELL BUOY TROY
To accept the default seed (which the
keyinit program confusingly calls a
key), press Return.
Then before entering an
access password, move over to your secure connection or S/Key desk
accessory, and give it the same parameters:&prompt.user; key 100 to17759
Reminder - Do not use this program while logged in via telnet or rlogin.
Enter secret password: <secret password>
CURE MIKE BANE HIM RACY GOREOr for OPIE:&prompt.user; opiekey 498 to4268
Using the MD5 algorithm to compute response.
Reminder: Don't use opiekey from telnet or dial-in sessions.
Enter secret pass phrase:
GAME GAG WELT OUT DOWN CHAT
Now switch back over to the insecure connection, and copy the
one-time password generated over to the relevant program.Generating a Single one-time PasswordOnce you have initialized S/Key or OPIE, when you login you will be
presented with a prompt like this:&prompt.user; telnet example.com
Trying 10.0.0.1...
Connected to example.com
Escape character is '^]'.
FreeBSD/i386 (example.com) (ttypa)
login: <username>
s/key 97 fw13894
Password: Or for OPIE:&prompt.user; telnet example.com
Trying 10.0.0.1...
Connected to example.com
Escape character is '^]'.
FreeBSD/i386 (example.com) (ttypa)
login: <username>
otp-md5 498 gr4269 ext
Password: As a side note, the S/Key and OPIE prompts have a useful feature
(not shown here): if you press Return
at the password prompt, the
prompter will turn echo on, so you can see what you are
typing. This can be extremely useful if you are attempting to
type in a password by hand, such as from a printout.MS-DOSWindowsMacOSAt this point you need to generate your one-time password to
answer this login prompt. This must be done on a trusted system
that you can run key or
opiekey on. (There are versions of these for DOS,
Windows and MacOS as well.) They need both the iteration count and
the seed as command line options. You can cut-and-paste these
right from the login prompt on the machine that you are logging
in to.On the trusted system:&prompt.user; key 97 fw13894
Reminder - Do not use this program while logged in via telnet or rlogin.
Enter secret password:
WELD LIP ACTS ENDS ME HAAGFor OPIE:&prompt.user; opiekey 498 to4268
Using the MD5 algorithm to compute response.
Reminder: Don't use opiekey from telnet or dial-in sessions.
Enter secret pass phrase:
GAME GAG WELT OUT DOWN CHATNow that you have your one-time password you can continue
logging in:login: <username>
s/key 97 fw13894
Password: <return to enable echo>
s/key 97 fw13894
Password [echo on]: WELD LIP ACTS ENDS ME HAAG
Last login: Tue Mar 21 11:56:41 from 10.0.0.2 ... Generating Multiple one-time PasswordsSometimes you have to go places where you do not have
access to a trusted machine or secure connection. In this case,
it is possible to use the key command to
generate a number of one-time passwords before hand to be printed
out and taken with you. For example:&prompt.user; key -n 5 30 zz99999
Reminder - Do not use this program while logged in via telnet or rlogin.
Enter secret password: <secret password>
26: SODA RUDE LEA LIND BUDD SILT
27: JILT SPY DUTY GLOW COWL ROT
28: THEM OW COLA RUNT BONG SCOT
29: COT MASH BARR BRIM NAN FLAG
30: CAN KNEE CAST NAME FOLK BILKThe requests five keys in sequence, the
specifies what the last iteration number
should be. Note that these are printed out in
reverse order of eventual use. If you are
really paranoid, you might want to write the results down by hand;
otherwise you can cut-and-paste into lpr. Note
that each line shows both the iteration count and the one-time
password; you may still find it handy to scratch off passwords as
you use them.Restricting Use of Unix PasswordsRestrictions can be placed on the use of Unix passwords based
on the host name, user name, terminal port, or IP address of a
login session. These restrictions can be found in the
configuration file /etc/skey.access. The
&man.skey.access.5; manual page has more information on the complete
format of the file and also details some security cautions to be
aware of before depending on this file for security.If there is no /etc/skey.access file
(this is the FreeBSD default), then all users will be allowed to
use Unix passwords. If the file exists, however, then all users
will be required to use S/Key unless explicitly permitted to do
otherwise by configuration statements in the
skey.access file. In all cases, Unix
passwords are permitted on the console.Here is a sample configuration file which illustrates the
three most common sorts of configuration statements:permit internet 192.168.0.0 255.255.0.0
permit user fnord
permit port ttyd0The first line (permit internet) allows
users whose IP source address (which is vulnerable to spoofing)
matches the specified value and mask, to use Unix passwords. This
should not be considered a security mechanism, but rather, a means
to remind authorized users that they are using an insecure network
and need to use S/Key for authentication.The second line (permit user) allows the
specified username, in this case fnord, to use
Unix passwords at any time. Generally speaking, this should only
be used for people who are either unable to use the
key program, like those with dumb terminals, or
those who are uneducable.The third line (permit port) allows all
users logging in on the specified terminal line to use Unix
passwords; this would be used for dial-ups.MarkMurrayContributed by MarkDapozBased on a contribution by KerberosKerberosKerberos is a network add-on system/protocol that allows users to
authenticate themselves through the services of a secure server.
Services such as remote login, remote copy, secure inter-system file
copying and other high-risk tasks are made considerably safer and more
controllable.The following instructions can be used as a guide on how to set up
Kerberos as distributed for FreeBSD. However, you should refer to the
relevant manual pages for a complete description.Installing KerberosMITKerberosinstallingKerberos is an optional component of FreeBSD. The easiest
way to install this software is by selecting the 'krb4' or
'krb5' distribution in sysinstall
during the initial installation of FreeBSD. This will install
the 'eBones' (KerberosIV) or 'Heimdal' (Kerberos5)
implementation of Kerberos. These implementations are
included because they are developed outside the USA/Canada and
were thus available to system owners outside those countries
during the era of restrictive export controls on cryptographic
code from the USA.Alternatively, the MIT implementation of Kerberos is
available from the ports collection as
security/krb5.Creating the Initial DatabaseThis is done on the Kerberos server only. First make sure that
you do not have any old Kerberos databases around. You should change
to the directory /etc/kerberosIV and check that
only the following files are present:&prompt.root; cd /etc/kerberosIV
&prompt.root; ls
README krb.conf krb.realmsIf any additional files (such as principal.*
or master_key) exist, then use the
kdb_destroy command to destroy the old Kerberos
database, or if Kerberos is not running, simply delete the extra
files.You should now edit the krb.conf and
krb.realms files to define your Kerberos realm.
In this case the realm will be EXAMPLE.COM and the
server is grunt.example.com. We edit
or create the krb.conf file:&prompt.root; cat krb.conf
EXAMPLE.COM
EXAMPLE.COM grunt.example.com admin server
CS.BERKELEY.EDU okeeffe.berkeley.edu
ATHENA.MIT.EDU kerberos.mit.edu
ATHENA.MIT.EDU kerberos-1.mit.edu
ATHENA.MIT.EDU kerberos-2.mit.edu
ATHENA.MIT.EDU kerberos-3.mit.edu
LCS.MIT.EDU kerberos.lcs.mit.edu
TELECOM.MIT.EDU bitsy.mit.edu
ARC.NASA.GOV trident.arc.nasa.govIn this case, the other realms do not need to be there. They are
here as an example of how a machine may be made aware of multiple
realms. You may wish to not include them for simplicity.The first line names the realm in which this system works. The
other lines contain realm/host entries. The first item on a line is a
realm, and the second is a host in that realm that is acting as a
key distribution center. The words admin
server following a host's name means that host also
provides an administrative database server. For further explanation
of these terms, please consult the Kerberos manual pages.Now we have to add grunt.example.com
to the EXAMPLE.COM realm and also add an entry to
put all hosts in the .example.com
domain in the EXAMPLE.COM realm. The
krb.realms file would be updated as
follows:&prompt.root; cat krb.realms
grunt.example.com EXAMPLE.COM
.example.com EXAMPLE.COM
.berkeley.edu CS.BERKELEY.EDU
.MIT.EDU ATHENA.MIT.EDU
.mit.edu ATHENA.MIT.EDUAgain, the other realms do not need to be there. They are here as
an example of how a machine may be made aware of multiple realms. You
may wish to remove them to simplify things.The first line puts the specific system into
the named realm. The rest of the lines show how to default systems of
a particular subdomain to a named realm.Now we are ready to create the database. This only needs to run
on the Kerberos server (or Key Distribution Center). Issue the
kdb_init command to do this:&prompt.root; kdb_initRealm name [default ATHENA.MIT.EDU ]:EXAMPLE.COM
You will be prompted for the database Master Password.
It is important that you NOT FORGET this password.
Enter Kerberos master key:Now we have to save the key so that servers on the local machine
can pick it up. Use the kstash command to do
this.&prompt.root; kstashEnter Kerberos master key:
Current Kerberos master key version is 1.
Master key entered. BEWARE!This saves the encrypted master password in
/etc/kerberosIV/master_key.Making It All RunTwo principals need to be added to the database for
each system that will be secured with Kerberos.
Their names are kpasswd and rcmd
These two principals are made for each system, with the instance being
the name of the individual system.These daemons, kpasswd and
rcmd allow other systems to change Kerberos
passwords and run commands like rcp,
rlogin and rsh.Now let us add these entries:&prompt.root; kdb_edit
Opening database...
Enter Kerberos master key:
Current Kerberos master key version is 1.
Master key entered. BEWARE!
Previous or default values are in [brackets] ,
enter return to leave the same, or new value.
Principal name:passwdInstance:grunt
<Not found>, Create [y] ?y
Principal: passwd, Instance: grunt, kdc_key_ver: 1
New Password: <---- enter RANDOM here
Verifying password
New Password: <---- enter RANDOM here
Random password [y] ?y
Principal's new key version = 1
Expiration date (enter yyyy-mm-dd) [ 2000-01-01 ] ?Max ticket lifetime (*5 minutes) [ 255 ] ?Attributes [ 0 ] ?
Edit O.K.
Principal name:rcmdInstance:grunt
<Not found>, Create [y] ?
Principal: rcmd, Instance: grunt, kdc_key_ver: 1
New Password: <---- enter RANDOM here
Verifying password
New Password: <---- enter RANDOM here
Random password [y] ?
Principal's new key version = 1
Expiration date (enter yyyy-mm-dd) [ 2000-01-01 ] ?Max ticket lifetime (*5 minutes) [ 255 ] ?Attributes [ 0 ] ?
Edit O.K.
Principal name: <---- null entry here will cause an exitCreating the Server FileWe now have to extract all the instances which define the
services on each machine. For this we use the
ext_srvtab command. This will create a file
which must be copied or moved by secure
means to each Kerberos client's
/etc/kerberosIV directory. This file must
be present on each server and client, and is crucial to the
operation of Kerberos.&prompt.root; ext_srvtab gruntEnter Kerberos master key:
Current Kerberos master key version is 1.
Master key entered. BEWARE!
Generating 'grunt-new-srvtab'....Now, this command only generates a temporary file which must be
renamed to srvtab so that all the servers can pick
it up. Use the mv command to move it into place on
the original system:&prompt.root; mv grunt-new-srvtab srvtabIf the file is for a client system, and the network is not deemed
safe, then copy the
client-new-srvtab to
removable media and transport it by secure physical means. Be sure to
rename it to srvtab in the client's
/etc/kerberosIV directory, and make sure it is
mode 600:&prompt.root; mv grumble-new-srvtab srvtab
&prompt.root; chmod 600 srvtabPopulating the DatabaseWe now have to add some user entries into the database. First
let us create an entry for the user jane. Use the
kdb_edit command to do this:&prompt.root; kdb_edit
Opening database...
Enter Kerberos master key:
Current Kerberos master key version is 1.
Master key entered. BEWARE!
Previous or default values are in [brackets] ,
enter return to leave the same, or new value.
Principal name:janeInstance:
<Not found>, Create [y] ?y
Principal: jane, Instance: , kdc_key_ver: 1
New Password: <---- enter a secure password here
Verifying password
New Password: <---- re-enter the password here
Principal's new key version = 1
Expiration date (enter yyyy-mm-dd) [ 2000-01-01 ] ?Max ticket lifetime (*5 minutes) [ 255 ] ?Attributes [ 0 ] ?
Edit O.K.
Principal name: <---- null entry here will cause an exitTesting It All OutFirst we have to start the Kerberos daemons. NOTE that if you
have correctly edited your /etc/rc.conf then this
will happen automatically when you reboot. This is only necessary on
the Kerberos server. Kerberos clients will automagically get what
they need from the /etc/kerberosIV
directory.&prompt.root; kerberos &
Kerberos server starting
Sleep forever on error
Log file is /var/log/kerberos.log
Current Kerberos master key version is 1.
Master key entered. BEWARE!
Current Kerberos master key version is 1
Local realm: EXAMPLE.COM
&prompt.root; kadmind -n &
KADM Server KADM0.0A initializing
Please do not use 'kill -9' to kill this job, use a
regular kill instead
Current Kerberos master key version is 1.
Master key entered. BEWARE!Now we can try using the kinit command to get a
ticket for the id jane that we created
above:&prompt.user; kinit jane
MIT Project Athena (grunt.example.com)
Kerberos Initialization for "jane"
Password:Try listing the tokens using klist to see if we
really have them:&prompt.user; klist
Ticket file: /tmp/tkt245
Principal: jane@EXAMPLE.COM
Issued Expires Principal
Apr 30 11:23:22 Apr 30 19:23:22 krbtgt.EXAMPLE.COM@EXAMPLE.COMNow try changing the password using passwd to
check if the kpasswd daemon can get
authorization to the Kerberos database:&prompt.user; passwd
realm EXAMPLE.COM
Old password for jane:New Password for jane:
Verifying password
New Password for jane:
Password changed.Adding su PrivilegesKerberos allows us to give each user
who needs root privileges their own
separatesu password.
We could now add an id which is authorized to
su to root. This is
controlled by having an instance of root
associated with a principal. Using kdb_edit
we can create the entry jane.root in the
Kerberos database:&prompt.root; kdb_edit
Opening database...
Enter Kerberos master key:
Current Kerberos master key version is 1.
Master key entered. BEWARE!
Previous or default values are in [brackets] ,
enter return to leave the same, or new value.
Principal name:janeInstance:root
<Not found>, Create [y] ? y
Principal: jane, Instance: root, kdc_key_ver: 1
New Password: <---- enter a SECURE password here
Verifying password
New Password: <---- re-enter the password here
Principal's new key version = 1
Expiration date (enter yyyy-mm-dd) [ 2000-01-01 ] ?Max ticket lifetime (*5 minutes) [ 255 ] ?12 <--- Keep this short!
Attributes [ 0 ] ?
Edit O.K.
Principal name: <---- null entry here will cause an exitNow try getting tokens for it to make sure it works:&prompt.root; kinit jane.root
MIT Project Athena (grunt.example.com)
Kerberos Initialization for "jane.root"
Password:Now we need to add the user to root's
.klogin file:&prompt.root; cat /root/.klogin
jane.root@EXAMPLE.COMNow try doing the su:&prompt.user; suPassword:and take a look at what tokens we have:&prompt.root; klist
Ticket file: /tmp/tkt_root_245
Principal: jane.root@EXAMPLE.COM
Issued Expires Principal
May 2 20:43:12 May 3 04:43:12 krbtgt.EXAMPLE.COM@EXAMPLE.COMUsing Other CommandsIn an earlier example, we created a principal called
jane with an instance root.
This was based on a user with the same name as the principal, and this
is a Kerberos default; that a
<principal>.<instance> of the form
<username>.root will allow
that <username> to su to
root if the necessary entries are in the
.klogin file in root's
home directory:&prompt.root; cat /root/.klogin
jane.root@EXAMPLE.COMLikewise, if a user has in their own home directory lines of the
form:&prompt.user; cat ~/.klogin
jane@EXAMPLE.COM
jack@EXAMPLE.COMThis allows anyone in the EXAMPLE.COM realm
who has authenticated themselves to jane or
jack (via kinit, see above)
access to rlogin to jane's
account or files on this system (grunt) via
rlogin, rsh or
rcp.For example, jane now logs into another system using
Kerberos:&prompt.user; kinit
MIT Project Athena (grunt.example.com)
Password:
&prompt.user; rlogin grunt
Last login: Mon May 1 21:14:47 from grumble
Copyright (c) 1980, 1983, 1986, 1988, 1990, 1991, 1993, 1994
The Regents of the University of California. All rights reserved.
FreeBSD BUILT-19950429 (GR386) #0: Sat Apr 29 17:50:09 SAT 1995Or Jack logs into Jane's account on the same machine
(jane having
set up the .klogin file as above, and the person
in charge of Kerberos having set up principal
jack with a null instance:&prompt.user; kinit
&prompt.user; rlogin grunt -l jane
MIT Project Athena (grunt.example.com)
Password:
Last login: Mon May 1 21:16:55 from grumble
Copyright (c) 1980, 1983, 1986, 1988, 1990, 1991, 1993, 1994
The Regents of the University of California. All rights reserved.
FreeBSD BUILT-19950429 (GR386) #0: Sat Apr 29 17:50:09 SAT 1995GaryPalmerContributed by AlexNashFirewallsfirewallsecurityfirewallsFirewalls are an area of increasing interest for people who are
connected to the Internet, and are even finding applications on private
networks to provide enhanced security. This section will hopefully
explain what firewalls are, how to use them, and how to use the
facilities provided in the FreeBSD kernel to implement them.People often think that having a firewall between your
internal network and the Big Bad Internet will solve all
your security problems. It may help, but a poorly setup firewall
system is more of a security risk than not having one at all. A
firewall can add another layer of security to your systems, but it
cannot stop a really determined cracker from penetrating your internal
network. If you let internal security lapse because you believe your
firewall to be impenetrable, you have just made the crackers job that
much easier.What Is a Firewall?There are currently two distinct types of firewalls in common use
on the Internet today. The first type is more properly called a
packet filtering router, where the kernel on a
multi-homed machine chooses whether to forward or block packets based
on a set of rules. The second type, known as a proxy
server, relies on daemons to provide authentication and to
forward packets, possibly on a multi-homed machine which has kernel
packet forwarding disabled.Sometimes sites combine the two types of firewalls, so that only a
certain machine (known as a bastion host) is
allowed to send packets through a packet filtering router onto an
internal network. Proxy services are run on the bastion host, which
are generally more secure than normal authentication
mechanisms.FreeBSD comes with a kernel packet filter (known as
IPFW), which is what the rest of this
section will concentrate on. Proxy servers can be built on FreeBSD
from third party software, but there is such a variety of proxy
servers available that it would be impossible to cover them in this
section.Packet Filtering RoutersA router is a machine which forwards packets between two or more
networks. A packet filtering router has an extra piece of code in
its kernel which compares each packet to a list of rules before
deciding if it should be forwarded or not. Most modern IP routing
software has packet filtering code within it that defaults to
forwarding all packets. To enable the filters, you need to define a
set of rules for the filtering code so it can decide if the
packet should be allowed to pass or not.To decide whether a packet should be passed on, the code looks
through its set of rules for a rule which matches the contents of
this packets headers. Once a match is found, the rule action is
obeyed. The rule action could be to drop the packet, to forward the
packet, or even to send an ICMP message back to the originator.
Only the first match counts, as the rules are searched in order.
Hence, the list of rules can be referred to as a rule
chain.The packet matching criteria varies depending on the software
used, but typically you can specify rules which depend on the source
IP address of the packet, the destination IP address, the source
port number, the destination port number (for protocols which
support ports), or even the packet type (UDP, TCP, ICMP,
etc).Proxy ServersProxy servers are machines which have had the normal system
daemons (telnetd,
ftpd, etc) replaced with special servers.
These
servers are called proxy servers as they
normally only allow onward connections to be made. This enables you
to run (for example) a proxy telnet server on your firewall host,
and people can telnet in to your firewall from the outside, go
through some authentication mechanism, and then gain access to the
internal network (alternatively, proxy servers can be used for
signals coming from the internal network and heading out).Proxy servers are normally more secure than normal servers, and
often have a wider variety of authentication mechanisms available,
including one-shot password systems so that even if
someone manages to discover what password you used, they will not be
able to use it to gain access to your systems as the password
instantly expires. As they do not actually give users access to the
host machine, it becomes a lot more difficult for someone to install
backdoors around your security system.Proxy servers often have ways of restricting access further, so
that only certain hosts can gain access to the servers, and often
they can be set up so that you can limit which users can talk to
which destination machine. Again, what facilities are available
depends largely on what proxy software you choose.What Does IPFW Allow Me to Do?ipfwIPFW, the software supplied with
FreeBSD, is a packet filtering and accounting system which resides in
the kernel, and has a user-land control utility,
&man.ipfw.8;. Together, they allow you to define and query the
rules currently used by the kernel in its routing decisions.There are two related parts to IPFW.
The firewall section allows you to perform packet filtering. There is
also an IP accounting section which allows you to track usage of your
router, based on similar rules to the firewall section. This allows
you to see (for example) how much traffic your router is getting from
a certain machine, or how much WWW (World Wide Web) traffic it is
forwarding.As a result of the way that IPFW is
designed, you can use IPFW on non-router
machines to perform packet filtering on incoming and outgoing
connections. This is a special case of the more general use of
IPFW, and the same commands and techniques
should be used in this situation.Enabling IPFW on FreeBSDipfwenablingAs the main part of the IPFW system
lives in the kernel, you will need to add one or more options to your
kernel configuration file, depending on what facilities you want, and
recompile your kernel. See "Reconfiguring your Kernel" ()
for more details on how to recompile your
kernel.There are currently three kernel configuration options relevant to
IPFW:options IPFIREWALLCompiles into the kernel the code for packet
filtering.options IPFIREWALL_VERBOSEEnables code to allow logging of packets through
&man.syslogd.8;. Without this option, even if you specify
that packets should be logged in the filter rules, nothing will
happen.options IPFIREWALL_VERBOSE_LIMIT=10Limits the number of packets logged through
&man.syslogd.8; on a per entry basis. You may wish to use
this option in hostile environments in which you want to log
firewall activity, but do not want to be open to a denial of
service attack via syslog flooding.When a chain entry reaches the packet limit specified,
logging is turned off for that particular entry. To resume
logging, you will need to reset the associated counter using the
&man.ipfw.8; utility:&prompt.root; ipfw zero 4500Where 4500 is the chain entry you wish to continue
logging.Previous versions of FreeBSD contained an
IPFIREWALL_ACCT option. This is now obsolete as
the firewall code automatically includes accounting
facilities.Configuring IPFWipfwconfiguringThe configuration of the IPFW software
is done through the &man.ipfw.8; utility. The syntax for this
command looks quite complicated, but it is relatively simple once you
understand its structure.There are currently four different command categories used by the
utility: addition/deletion, listing, flushing, and clearing.
Addition/deletion is used to build the rules that control how packets
are accepted, rejected, and logged. Listing is used to examine the
contents of your rule set (otherwise known as the chain) and packet
counters (accounting). Flushing is used to remove all entries from
the chain. Clearing is used to zero out one or more accounting
entries.Altering the IPFW RulesThe syntax for this form of the command is:
ipfw-NcommandindexactionlogprotocoladdressesoptionsThere is one valid flag when using this form of the
command:-NResolve addresses and service names in output.The command given can be shortened to the
shortest unique form. The valid commands
are:addAdd an entry to the firewall/accounting rule listdeleteDelete an entry from the firewall/accounting rule
listPrevious versions of IPFW used
separate firewall and accounting entries. The present version
provides packet accounting with each firewall entry.If an index value is supplied, it is used to
place the entry at a specific point in the chain. Otherwise, the
entry is placed at the end of the chain at an index 100 greater than
the last chain entry (this does not include the default policy, rule
65535, deny).The log option causes matching rules to be
output to the system console if the kernel was compiled with
IPFIREWALL_VERBOSE.Valid actions are:rejectDrop the packet, and send an ICMP host or port unreachable
(as appropriate) packet to the source.allowPass the packet on as normal. (aliases:
pass and
accept)denyDrop the packet. The source is not notified via an
ICMP message (thus it appears that the packet never
arrived at the destination).countUpdate packet counters but do not allow/deny the packet
based on this rule. The search continues with the next chain
entry.Each action will be recognized by the
shortest unambiguous prefix.The protocols which can be specified
are:allMatches any IP packeticmpMatches ICMP packetstcpMatches TCP packetsudpMatches UDP packetsThe address specification is:fromaddress/maskporttoaddress/maskportvia interfaceYou can only specify port in
conjunction with protocols which support ports
(UDP and TCP).The is optional and may specify the IP
address or domain name of a local IP interface, or an interface name
(e.g. ed0) to match only packets coming
through this interface. Interface unit numbers can be specified
with an optional wildcard. For example, ppp*
would match all kernel PPP interfaces.The syntax used to specify an
address/mask is:
address
or
address/mask-bits
or
address:mask-patternA valid hostname may be specified in place of the IP address.
is a decimal
number representing how many bits in the address mask should be set.
e.g. specifying 192.216.222.1/24 will create a
mask which will allow any address in a class C subnet (in this case,
192.216.222) to be matched.
is an IP
address which will be logically AND'ed with the address given. The
keyword any may be used to specify any IP
address.The port numbers to be blocked are specified as:
port,port,port…
to specify either a single port or a list of ports, or
port-port
to specify a range of ports. You may also combine a single range
with a list, but the range must always be specified first.The options available are:fragMatches if the packet is not the first fragment of the
datagram.inMatches if the packet is on the way in.outMatches if the packet is on the way out.ipoptions specMatches if the IP header contains the comma separated list
of options specified in spec. The
supported list of IP options are: ssrr
(strict source route), lsrr (loose source
route), rr (record packet route), and
ts (time stamp). The absence of a
particular option may be denoted with a leading
!.establishedMatches if the packet is part of an already established
TCP connection (i.e. it has the RST or ACK bits set). You can
optimize the performance of the firewall by placing
established rules early in the
chain.setupMatches if the packet is an attempt to establish a TCP
connection (the SYN bit is set but the ACK bit is
not).tcpflags flagsMatches if the TCP header contains the comma separated
list of flags. The supported flags
are fin, syn,
rst, psh,
ack, and urg. The
absence of a particular flag may be indicated by a leading
!.icmptypes typesMatches if the ICMP type is present in the list
types. The list may be specified
as any combination of ranges and/or individual types separated
by commas. Commonly used ICMP types are: 0
echo reply (ping reply), 3 destination
unreachable, 5 redirect,
8 echo request (ping request), and
11 time exceeded (used to indicate TTL
expiration as with &man.traceroute.8;).Listing the IPFW RulesThe syntax for this form of the command is:
ipfw-a-t-NlThere are three valid flags when using this form of the
command:-aWhile listing, show counter values. This option is the
only way to see accounting counters.-tDisplay the last match times for each chain entry. The
time listing is incompatible with the input syntax used by the
&man.ipfw.8; utility.-NAttempt to resolve given addresses and service
names.Flushing the IPFW RulesThe syntax for flushing the chain is:
ipfwflushThis causes all entries in the firewall chain to be removed
except the fixed default policy enforced by the kernel (index
65535). Use caution when flushing rules, the default deny policy
will leave your system cut off from the network until allow entries
are added to the chain.Clearing the IPFW Packet CountersThe syntax for clearing one or more packet counters is:
ipfwzeroindexWhen used without an index argument,
all packet counters are cleared. If an
index is supplied, the clearing operation
only affects a specific chain entry.Example Commands for ipfwThis command will deny all packets from the host evil.crackers.org to the telnet port of the
host nice.people.org:&prompt.root; ipfw add deny tcp from evil.crackers.org to nice.people.org 23The next example denies and logs any TCP traffic from the entire
crackers.org network (a class C) to
the nice.people.org machine (any
port).&prompt.root; ipfw add deny log tcp from evil.crackers.org/24 to nice.people.orgIf you do not want people sending X sessions to your internal
network (a subnet of a class C), the following command will do the
necessary filtering:&prompt.root; ipfw add deny tcp from any to my.org/28 6000 setupTo see the accounting records:
&prompt.root; ipfw -a list
or in the short form
&prompt.root; ipfw -a lYou can also see the last time a chain entry was matched
with:&prompt.root; ipfw -at lBuilding a Packet Filtering FirewallThe following suggestions are just that: suggestions. The
requirements of each firewall are different and we cannot tell you
how to build a firewall to meet your particular requirements.When initially setting up your firewall, unless you have a test
bench setup where you can configure your firewall host in a controlled
environment, it is strongly recommend you use the logging version of the
commands and enable logging in the kernel. This will allow you to
quickly identify problem areas and cure them without too much
disruption. Even after the initial setup phase is complete, I
recommend using the logging for `deny' as it allows tracing of
possible attacks and also modification of the firewall rules if your
requirements alter.If you use the logging versions of the accept
command, it can generate large amounts of log
data as one log line will be generated for every packet that passes
through the firewall, so large FTP/http transfers, etc, will really
slow the system down. It also increases the latencies on those
packets as it requires more work to be done by the kernel before the
packet can be passed on. syslogd will
also start using up a lot
more processor time as it logs all the extra data to disk, and it
could quite easily fill the partition /var/log
is located on.You should enable your firewall from
/etc/rc.conf.local or
/etc/rc.conf. The associated manual page explains
which knobs to fiddle and lists some preset firewall configurations.
If you do not use a preset configuration, ipfw list
will output the current ruleset into a file that you can
pass to rc.conf. If you do not use
/etc/rc.conf.local or
/etc/rc.conf to enable your firewall,
it is important to make sure your firewall is enabled before
any IP interfaces are configured.The next problem is what your firewall should actually
do! This is largely dependent on what access to
your network you want to allow from the outside, and how much access
to the outside world you want to allow from the inside. Some general
rules are:Block all incoming access to ports below 1024 for TCP. This is
where most of the security sensitive services are, like finger,
SMTP (mail) and telnet.Block all incoming UDP traffic. There
are very few useful services that travel over UDP, and what useful
traffic there is, is normally a security threat (e.g. Suns RPC and
NFS protocols). This has its disadvantages also, since UDP is a
connectionless protocol, denying incoming UDP traffic also blocks
the replies to outgoing UDP traffic. This can cause a problem for
people (on the inside) using external archie (prospero) servers.
If you want to allow access to archie, you will have to allow
packets coming from ports 191 and 1525 to any internal UDP port
through the firewall. ntp is another
service you may consider allowing through, which comes from port
123.Block traffic to port 6000 from the outside. Port 6000 is the
port used for access to X11 servers, and can be a security threat
(especially if people are in the habit of doing xhost
+ on their workstations). X11 can actually use a
range of ports starting at 6000, the upper limit being how many X
displays you can run on the machine. The upper limit as defined
by RFC 1700 (Assigned Numbers) is 6063.Check what ports any internal servers use (e.g. SQL servers,
etc). It is probably a good idea to block those as well, as they
normally fall outside the 1-1024 range specified above.Another checklist for firewall configuration is available from
CERT at http://www.cert.org/tech_tips/packet_filtering.htmlAs stated above, these are only guidelines.
You will have to decide what filter rules you want to use on your
firewall yourself. We cannot accept ANY responsibility if someone
breaks into your network, even if you follow the advice given
above.IPFW Overhead and OptimizationMany people want to know how much overhead IPFW adds to a
system. The answer to this depends mostly on your rule set and
processor speed. For most applications dealing with Ethernet
and small rule sets, the answer is
negligible. For those of you that need actual
measurements to satisfy your curiosity, read on.The following measurements were made using 2.2.5-STABLE on
a 486-66. (While IPFW has changed slightly in later releases
of FreeBSD, it still performs with similar speed.) IPFW was
modified to measure the time spent within the
ip_fw_chk routine, displaying the results
to the console every 1000 packets.Two rule sets, each with 1000 rules were tested. The
first set was designed to demonstrate a worst case scenario by
repeating the rule:&prompt.root; ipfw add deny tcp from any to any 55555This demonstrates worst case by causing most of IPFW's
packet check routine to be executed before finally deciding
that the packet does not match the rule (by virtue of the port
number). Following the 999th iteration of this rule was an
allow ip from any to any.The second set of rules were designed to abort the rule
check quickly:&prompt.root; ipfw add deny ip from 1.2.3.4 to 1.2.3.4The non-matching source IP address for the above rule
causes these rules to be skipped very quickly. As before, the
1000th rule was an allow ip from any to
any.The per-packet processing overhead in the former case was
approximately 2.703ms/packet, or roughly 2.7 microseconds per
rule. Thus the theoretical packet processing limit with these
rules is around 370 packets per second. Assuming 10Mbps
Ethernet and a ~1500 byte packet size, we would only be able
to achieve a 55.5% bandwidth utilization.For the latter case each packet was processed in
approximately 1.172ms, or roughly 1.2 microseconds per rule.
The theoretical packet processing limit here would be about
853 packets per second, which could consume 10Mbps Ethernet
bandwidth.The excessive number of rules tested and the nature of
those rules do not provide a real-world scenario -- they were
used only to generate the timing information presented here.
Here are a few things to keep in mind when building an
efficient rule set:Place an established rule early on
to handle the majority of TCP traffic. Do not put any
allow tcp statements before this
rule.Place heavily triggered rules earlier in the rule set
than those rarely used (without changing the
permissiveness of the firewall, of course).
You can see which rules are used most often by examining
the packet counting statistics with ipfw -a
l.OpenSSLsecurityOpenSSLOpenSSLAs of FreeBSD 4.0, the OpenSSL toolkit is a part of the base
system. OpenSSL
provides a general-purpose cryptography library, as well as the
Secure Sockets Layer v2/v3 (SSLv2/SSLv3) and Transport Layer
Security v1 (TLSv1) network security protocols.However, one of the algorithms (specifically IDEA)
included in OpenSSL is protected by patents in the USA and
elsewhere, and is not available for unrestricted use.
IDEA is included in the OpenSSL sources in FreeBSD, but it is not
built by default. If you wish to use it, and you comply with the
license terms, enable the MAKE_IDEA switch in
/etc/make.conf and
rebuild your sources using make world.Today, the RSA algorithm is free for use in USA and other
countries. In the past it was protected by a patent.OpenSSLinstallSource Code InstallationsOpenSSL is part of the src-crypto and
src-secure cvsup collections. See the Obtaining FreeBSD section for more
information about obtaining and updating FreeBSD source
code.YoshinobuInoueContributed by IPsecIPsecsecurityIPsecTerminating CharactersThroughout examples in this section, and other sections,
you will notice that there is a ^D at the end
of some examples. This means to hold down the Control
key and hit the D key. Another commonly used
character is ^C, which respectively means to hold
down Control and press C.For other HOWTOs detailing IPSec implementation in
FreeBSD, take a look at
and .The IPsec mechanism provides secure communication for IP
layer and socket layer communication. This section should
explain how to use them. For implementation details, please
refer to The
Developers' Handbook.The current IPsec implementation supports both transport mode
and tunnel mode. However, tunnel mode comes with some restrictions.
http://www.kame.net/newsletter/
has more comprehensive examples.Please be aware that in order to use this functionality, you
must have the following options compiled into your kernel:options IPSEC #IP security
options IPSEC_ESP #IP security (crypto; define w/IPSEC)Transport Mode Example with IPv4Let us setup security association to deploy a secure channel
between HOST A (10.2.3.4) and HOST B (10.6.7.8). Here we show a little
complicated example. From HOST A to HOST B, only old AH is used.
From HOST B to HOST A, new AH and new ESP are combined.Now we should choose an algorithm to be used corresponding to
AH/new AH/ESP/
new ESP. Please refer to the &man.setkey.8; man
page to know algorithm names. Our choice is MD5 for AH, new-HMAC-SHA1
for new AH, and new-DES-expIV with 8 byte IV for new ESP.Key length highly depends on each algorithm. For example, key
length must be equal to 16 bytes for MD5, 20 for new-HMAC-SHA1,
and 8 for new-DES-expIV. Now we choose MYSECRETMYSECRET,
KAMEKAMEKAMEKAMEKAME, PASSWORD,
respectively.OK, let us assign SPI (Security Parameter Index) for each protocol.
Please note that we need 3 SPIs for this secure channel since three
security headers are produced (one for from HOST A to HOST B, two for
from HOST B to HOST A). Please also note that SPI MUST be greater
than or equal to 256. We choose, 1000, 2000, and 3000,
respectively.
(1)
HOST A ------> HOST B
(1)PROTO=AH
ALG=MD5(RFC1826)
KEY=MYSECRETMYSECRET
SPI=1000
(2.1)
HOST A <------ HOST B
<------
(2.2)
(2.1)
PROTO=AH
ALG=new-HMAC-SHA1(new AH)
KEY=KAMEKAMEKAMEKAMEKAME
SPI=2000
(2.2)
PROTO=ESP
ALG=new-DES-expIV(new ESP)
IV length = 8
KEY=PASSWORD
SPI=3000
Now, let us setup security association. Execute &man.setkey.8;
on both HOST A and B:
&prompt.root; setkey -c
add 10.2.3.4 10.6.7.8 ah-old 1000 -m transport -A keyed-md5 "MYSECRETMYSECRET" ;
add 10.6.7.8 10.2.3.4 ah 2000 -m transport -A hmac-sha1 "KAMEKAMEKAMEKAMEKAME" ;
add 10.6.7.8 10.2.3.4 esp 3000 -m transport -E des-cbc "PASSWORD" ;
^D
Actually, IPsec communication does not process until security policy
entries are defined. In this case, you must setup each host.
At A:
&prompt.root; setkey -c
spdadd 10.2.3.4 10.6.7.8 any -P out ipsec
ah/transport/10.2.3.4-10.6.7.8/require ;
^D
At B:
&prompt.root; setkey -c
spdadd 10.6.7.8 10.2.3.4 any -P out ipsec
esp/transport/10.6.7.8-10.2.3.4/require ;
spdadd 10.6.7.8 10.2.3.4 any -P out ipsec
ah/transport/10.6.7.8-10.2.3.4/require ;
^D
HOST A --------------------------------------> HOST E
10.2.3.4 10.6.7.8
| |
========== old AH keyed-md5 ==========>
<========= new AH hmac-sha1 ===========
<========= new ESP des-cbc ============
Transport Mode Example with IPv6Another example using IPv6.ESP transport mode is recommended for TCP port number 110 between
Host-A and Host-B.
============ ESP ============
| |
Host-A Host-B
fec0::10 -------------------- fec0::11
Encryption algorithm is blowfish-cbc whose key is
kamekame, and authentication algorithm is hmac-sha1
whose key is this is the test key.
Configuration at Host-A:
&prompt.root; setkey -c <<EOF
spdadd fec0::10[any] fec0::11[110] tcp -P out ipsec
esp/transport/fec0::10-fec0::11/use ;
spdadd fec0::11[110] fec0::10[any] tcp -P in ipsec
esp/transport/fec0::11-fec0::10/use ;
add fec0::10 fec0::11 esp 0x10001
-m transport
-E blowfish-cbc "kamekame"
-A hmac-sha1 "this is the test key" ;
add fec0::11 fec0::10 esp 0x10002
-m transport
-E blowfish-cbc "kamekame"
-A hmac-sha1 "this is the test key" ;
EOF
and at Host-B:&prompt.root; setkey -c <<EOF
spdadd fec0::11[110] fec0::10[any] tcp -P out ipsec
esp/transport/fec0::11-fec0::10/use ;
spdadd fec0::10[any] fec0::11[110] tcp -P in ipsec
esp/transport/fec0::10-fec0::11/use ;
add fec0::10 fec0::11 esp 0x10001 -m transport
-E blowfish-cbc "kamekame"
-A hmac-sha1 "this is the test key" ;
add fec0::11 fec0::10 esp 0x10002 -m transport
-E blowfish-cbc "kamekame"
-A hmac-sha1 "this is the test key" ;
EOF
Note the direction of SP.Tunnel Mode Example with IPv4Tunnel mode between two security gatewaysSecurity protocol is old AH tunnel mode, i.e. specified by
RFC1826, with keyed-md5 whose key is this is the test as
authentication algorithm.
======= AH =======
| |
Network-A Gateway-A Gateway-B Network-B
10.0.1.0/24 ---- 172.16.0.1 ----- 172.16.0.2 ---- 10.0.2.0/24
Configuration at Gateway-A:
&prompt.root; setkey -c <<EOF
spdadd 10.0.1.0/24 10.0.2.0/24 any -P out ipsec
ah/tunnel/172.16.0.1-172.16.0.2/require ;
spdadd 10.0.2.0/24 10.0.1.0/24 any -P in ipsec
ah/tunnel/172.16.0.2-172.16.0.1/require ;
add 172.16.0.1 172.16.0.2 ah-old 0x10003 -m any
-A keyed-md5 "this is the test" ;
add 172.16.0.2 172.16.0.1 ah-old 0x10004 -m any
-A keyed-md5 "this is the test" ;
EOF
If the port number field is omitted such as above then
[any] is employed. -m
specifies the mode of SA to be used. -m any means
wild-card of mode of security protocol. You can use this SA for both
tunnel and transport mode.and at Gateway-B:
&prompt.root; setkey -c <<EOF
spdadd 10.0.2.0/24 10.0.1.0/24 any -P out ipsec
ah/tunnel/172.16.0.2-172.16.0.1/require ;
spdadd 10.0.1.0/24 10.0.2.0/24 any -P in ipsec
ah/tunnel/172.16.0.1-172.16.0.2/require ;
add 172.16.0.1 172.16.0.2 ah-old 0x10003 -m any
-A keyed-md5 "this is the test" ;
add 172.16.0.2 172.16.0.1 ah-old 0x10004 -m any
-A keyed-md5 "this is the test" ;
EOF
Making SA bundle between two security gatewaysAH transport mode and ESP tunnel mode is required between
Gateway-A and Gateway-B. In this case, ESP tunnel mode is applied first,
and AH transport mode is next.
========== AH =========
| ======= ESP ===== |
| | | |
Network-A Gateway-A Gateway-B Network-B
fec0:0:0:1::/64 --- fec0:0:0:1::1 ---- fec0:0:0:2::1 --- fec0:0:0:2::/64
Tunnel Mode Example with IPv6Encryption algorithm is 3des-cbc, and authentication algorithm
for ESP is hmac-sha1. Authentication algorithm for AH is hmac-md5.
Configuration at Gateway-A:
&prompt.root; setkey -c <<EOF
spdadd fec0:0:0:1::/64 fec0:0:0:2::/64 any -P out ipsec
esp/tunnel/fec0:0:0:1::1-fec0:0:0:2::1/require
ah/transport/fec0:0:0:1::1-fec0:0:0:2::1/require ;
spdadd fec0:0:0:2::/64 fec0:0:0:1::/64 any -P in ipsec
esp/tunnel/fec0:0:0:2::1-fec0:0:0:1::1/require
ah/transport/fec0:0:0:2::1-fec0:0:0:1::1/require ;
add fec0:0:0:1::1 fec0:0:0:2::1 esp 0x10001 -m tunnel
-E 3des-cbc "kamekame12341234kame1234"
-A hmac-sha1 "this is the test key" ;
add fec0:0:0:1::1 fec0:0:0:2::1 ah 0x10001 -m transport
-A hmac-md5 "this is the test" ;
add fec0:0:0:2::1 fec0:0:0:1::1 esp 0x10001 -m tunnel
-E 3des-cbc "kamekame12341234kame1234"
-A hmac-sha1 "this is the test key" ;
add fec0:0:0:2::1 fec0:0:0:1::1 ah 0x10001 -m transport
-A hmac-md5 "this is the test" ;
EOF
Making SAs with the different endESP tunnel mode is required between Host-A and Gateway-A. Encryption
algorithm is cast128-cbc, and authentication algorithm for ESP is
hmac-sha1. ESP transport mode is recommended between Host-A and Host-B.
Encryption algorithm is rc5-cbc, and authentication algorithm for ESP is
hmac-md5.
================== ESP =================
| ======= ESP ======= |
| | | |
Host-A Gateway-A Host-B
fec0:0:0:1::1 ---- fec0:0:0:2::1 ---- fec0:0:0:2::2
Configuration at Host-A:
&prompt.root; setkey -c <<EOF
spdadd fec0:0:0:1::1[any] fec0:0:0:2::2[80] tcp -P out ipsec
esp/transport/fec0:0:0:1::1-fec0:0:0:2::2/use
esp/tunnel/fec0:0:0:1::1-fec0:0:0:2::1/require ;
spdadd fec0:0:0:2::1[80] fec0:0:0:1::1[any] tcp -P in ipsec
esp/transport/fec0:0:0:2::2-fec0:0:0:l::1/use
esp/tunnel/fec0:0:0:2::1-fec0:0:0:1::1/require ;
add fec0:0:0:1::1 fec0:0:0:2::2 esp 0x10001
-m transport
-E cast128-cbc "12341234"
-A hmac-sha1 "this is the test key" ;
add fec0:0:0:1::1 fec0:0:0:2::1 esp 0x10002
-E rc5-cbc "kamekame"
-A hmac-md5 "this is the test" ;
add fec0:0:0:2::2 fec0:0:0:1::1 esp 0x10003
-m transport
-E cast128-cbc "12341234"
-A hmac-sha1 "this is the test key" ;
add fec0:0:0:2::1 fec0:0:0:1::1 esp 0x10004
-E rc5-cbc "kamekame"
-A hmac-md5 "this is the test" ;
EOF
ChernLeeContributed by OpenSSHOpenSSHsecurityOpenSSHSecure shell is a set of network connectivity tools used to
access remote machines securely. It can be used as a direct
replacement for rlogin,
rsh, rcp, and
telnet. Additionally, any other TCP/IP
connections can be tunneled/forwarded securely through ssh.
ssh encrypts all traffic to effectively eliminate eavesdropping,
connection hijacking, and other network-level attacks.OpenSSH is maintained by the OpenBSD project, and is based
upon SSH v1.2.12 with all the recent bug fixes and updates. It
is compatible with both SSH protocols 1 and 2. OpenSSH has been
in the base system since FreeBSD 4.0.Advantages of Using OpenSSHNormally, when using &man.telnet.1; or &man.rlogin.1;,
data is sent over the network in an clear, un-encrypted form.
Network sniffers anywhere in between the client and server can
steal your user/password information or data transferred in
your session. OpenSSH offers a variety of authentication and
encryption methods to prevent this from happening.Enabling sshdOpenSSHenablingBe sure to make the following additions to your
rc.conf file:sshd_enable="YES"This will load the ssh daemon
the next time your system initializes. Alternatively, you can
simply run the sshd daemon.SSH ClientOpenSSHclientThe &man.ssh.1; utility works similarly to
&man.rlogin.1;.&prompt.root; ssh user@example.com
Host key not found from the list of known hosts.
Are you sure you want to continue connecting (yes/no)? yes
Host 'example.com' added to the list of known hosts.
user@example.com's password: *******The login will continue just as it would have if a session was
created using rlogin or
telnet. SSH utilizes a key fingerprint
system for verifying the authenticity of the server when the
client connects. The user is prompted to enter
yes only when
connecting for the first time. Future attempts to login are all
verified against the saved fingerprint key. The SSH client
will alert you if the saved fingerprint differs from the
received fingerprint on future login attempts. The fingerprints
are saved in ~/.ssh/known_hosts, or
~/.ssh/known_hosts2 for SSH v2
fingerprints.By default, OpenSSH servers are configured to accept both
SSH v1 and SSH v2 connections. The client, however, can choose
between the two. Version 2 is known to be more robust and
secure than its predecessor.ssh can be forced to use either protocol
by passing it the or argument
for v1 and v2, respectively.Secure CopyOpenSSHsecure copyscpThe scp command works similarly to
rcp; it copies a file to or from a remote machine,
except in a secure fashion.&prompt.root; scp user@example.com:/COPYRIGHT COPYRIGHT
user@example.com's password:
COPYRIGHT 100% |*****************************| 4735
00:00
&prompt.root;Since the fingerprint was already saved for this host in the
previous example, it is verified when using scp
here.The arguments passed to scp are similar
to cp, with the file or files in the first
argument, and the destination in the second. Since the file is
fetched over the network, through SSH, one or more of the file
arguments takes on the form
.ConfigurationOpenSSHconfigurationThe system-wide configuration files for both the OpenSSH
daemon and client reside within the /etc/ssh
directory.ssh_config configures the client
settings, while sshd_config configures the
daemon.Additionally, the
(/usr/sbin/sshd by default), and
rc.conf
options can provide more levels of configuration.ssh-keygenInstead of using passwords, &man.ssh-keygen.1; can
be used to generate RSA keys to authenticate a user.&prompt.user; ssh-keygen
Initializing random number generator...
Generating p: .++ (distance 66)
Generating q: ..............................++ (distance 498)
Computing the keys...
Key generation complete.
Enter file in which to save the key (/home/user/.ssh/identity):
Enter passphrase:
Enter the same passphrase again:
Your identification has been saved in /home/user/.ssh/identity.
...&man.ssh-keygen.1; will create a public and private
key pair for use in authentication. The private key is stored in
~/.ssh/identity, whereas the public key is
stored in ~/.ssh/identity.pub. The public
key must be placed in ~/.ssh/authorized_keys
of the remote machine in order for the setup to work.This will allow connection to the remote machine based upon
RSA authentication instead of passwords.If a passphrase is used in &man.ssh-keygen.1;, the user
will be prompted for a password each time in order to use the private
key.A SSH v2 DSA key can be created for the same purpose by using
the ssh-keygen -d command (or
ssh-keygen -t dsa for FreeBSD &os.current;).
This will
create a public/private DSA key for use in SSH v2 sessions only.
The public key is stored in ~/.ssh/id_dsa.pub,
while the private key is in ~/.ssh/id_dsa.DSA public keys are placed in
~/.ssh/authorized_keys2 on the remote
machine.&man.ssh-agent.1; and &man.ssh-add.1; are
utilities used in managing multiple passworded private keys.SSH TunnelingOpenSSHtunnelingOpenSSH has the ability to create a tunnel to encapsulate
another protocol in an encrypted session.The following command tells &man.ssh.1; to create a tunnel
for telnet.&prompt.user; ssh -2 -N -f -L 5023:localhost:23 user@foo.example.com
&prompt.user;The ssh command is used with the
following options:Forces ssh to use version 2 of
the protocol. (Do not use if you are working with older
ssh servers)Indicates no command, or tunnel only. If omitted,
ssh would initiate a normal
session.Forces ssh to run in the
background.Indicates a local tunnel in
localport:remotehost:remoteport
fashion.The remote SSH server.An SSH tunnel works by creating a listen socket on
localhost on the specified port.
It then forwards any connection received
on the local host/port via the SSH connection to the specified
remote host and port.In the example, port 5023 on
localhost is being forwarded to port
23 on localhost
of the remote machine. Since 23 is telnet,
this would create a secure telnet session through an SSH tunnel.This can be used to wrap any number of insecure TCP protocols
such as SMTP, POP3, FTP, etc.Using SSH to create a secure tunnel for SMTP&prompt.user; ssh -2 -N -f -L 5025:localhost:25 user@mailserver.example.com
user@mailserver.example.com's password: *****
&prompt.user; telnet localhost 5025
Trying 127.0.0.1...
Connected to localhost.
Escape character is '^]'.
220 mailserver.example.com ESMTPThis can be used in conjunction with an
&man.ssh-keygen.1; and additional user accounts to create a
more seamless/hassle-free SSH tunneling environment. Keys
can be used in place of typing a password, and the tunnels
can be run as a separate user.Practical SSH Tunneling ExamplesSecure Access of a POP3 serverAt work, there is an SSH server that accepts
connections from the outside. On the same office network
resides a mail server running a POP3 server. The network,
or network path between your home and office may or may not
be completely trustable. Because of this, you need to check
your e-mail in a secure manner. The solution is to create
an SSH connection to your office's SSH server, and tunnel
through to the mail server.&prompt.user; ssh -2 -N -f -L 2110:mail.example.com:110 user@ssh-server.example.com
user@ssh-server.example.com's password: ******When the tunnel is up and running, you can point your
mail client to send POP3 requests to localhost
port 2110. A connection here will be forwarded securely across
the tunnel to mail.example.com.Bypassing a Draconian FirewallSome network administrators impose extremely Draconian
firewall rules, filtering not only incoming connections,
but outgoing connections. You may be only given access
to contact remote machines on ports 22 and 80 for SSH
and web surfing.You may wish to access another (perhaps non-work
related) service, such as an Ogg Vorbis server to stream
music. If this Ogg Vorbis server is streaming on some other
port than 22 or 80, you will not be able to access it.The solution is to create an SSH connection to a machine
outside of your network's firewall, and use it to tunnel to
the Ogg Vorbis server.&prompt.user; ssh -2 -N -f -L 8888:music.example.com:8000 user@unfirewalled.myserver.com
user@unfirewalled.myserver.com's password: *******Your streaming client can now be pointed to
localhost port 8888, which will be
forwarded over to music.example.com port
8000, successfully evading the firewall.Further ReadingOpenSSH&man.ssh.1; &man.scp.1; &man.ssh-keygen.1;
&man.ssh-agent.1; &man.ssh-add.1;&man.sshd.8; &man.sftp-server.8;