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|
.\" -*- nroff-fill -*-
.\" $FreeBSD$
.Dd March 9, 2002
.Os
.Dt PICOBSD 8
.Sh NAME
.Nm picobsd
.Nd floppy disk based FreeBSD system
.Sh SYNOPSIS
.Nm
.Op Ar options
.Op Ar floppy-type Op Ar site-name
.Sh DESCRIPTION
The
.Nm
utility is a script which produces a minimal implementation of
.Fx
(historically called
.Nm PicoBSD )
which typically fits on one floppy disk, or can be downloaded as a
single image file from some media such as CDROM, flash memory, or through
.Xr etherboot .
.Pp
The
.Nm
utility was originally created to build simple standalone systems
such as firewalls or bridges, but because of the ability to
cross-build images with different source trees than the one
in the server, it can be extremely useful to developers to
test their code without having to reinstall the system.
.Pp
The boot media (typically a floppy disk) contains a boot loader and a
compressed kernel which includes a memory file system.
Depending on the media, it might also contain a number of
additional files, which can be updated at run time, and are
used to override/update those in the memory file system.
.Pp
The system loads the kernel in the normal way, uncompresses
the memory file system and mounts it as root.
It then updates the memory
file system with files from the boot media (if present),
and executes a specialized version of
.Pa /etc/rc .
The boot media (floppy, etc.) is
required for loading only, and typically used read-only.
After the boot phase, the system runs entirely from RAM.
.Pp
The following options are available (but also check the
.Nm
script for more details):
.Pp
.Bl -tag -width indent
.It Fl -src Ar SRC_PATH
Use the source tree at
.Ar SRC_PATH
instead the one at
.Pa /usr/src .
This can be useful for cross-building floppy images.
When using this option, you must also create and initialize the subtree at
.Ao Ar SRC_PATH Ac Ns Pa /../usr
with the correct header files, libraries, and tools (such as the
.Xr config 8
program) that are necessary for the cross-build (see the
.Fl -init
option below).
The source files are unmodified by the
.Nm
script.
However the source tree is not completely read-only,
because
.Xr config 8
expects the kernel configuration file to be in one of
its subdirectories, and also the process of initializing the
.Pa usr
subtree touches some parts of the source tree (this is a bug
in the release build scripts which might go away with time).
.It Fl -init
When used together with the
.Fl -src
option, this initializes the
.Ao Ar SRC_PATH Ac Ns Pa /../usr
subtree as necessary to subsequently build
.Nm
images.
.It Fl -modules
Also build kernel modules.
These are not stored on the floppy
image but are left available in the build directory.
.It Fl n
Make the script non-interactive.
Do not show the initial menu, and
proceed to the build process without requiring user input.
.It Fl v
Make the script verbose, showing
commands to be executed and waiting for user
input before executing each of them.
Useful for debugging.
.It Fl -all_in_mfs
Put the entire contents of the file system in the
memory file system image which is contained in the
kernel.
This is the default behaviour, and is
extremely useful as the kernel itself can be loaded,
using
.Xr etherboot
or
.Xr pxeboot 8 ,
as a fully functional system.
.It Fl -no_all_in_mfs
Leaves files contained in the
.Pa floppy.tree
on the floppy image, so they can be loaded separately
from the kernel (and updated individually to
customize the floppy image).
.It Fl -floppy_size Ar size
Set the size of the floppy image.
Values other
than 1440 can be used for images that are burned
into a CDROM.
.It Fl c , clean
Clean the product of previous builds.
.El
.Sh ENVIRONMENT
As a result of extreme size limitations, the
.Nm
environment differs from the normal
.Fx
in a number of ways:
.Bl -bullet
.It
There are no dynamic libraries, and there is no directory
.Pa /usr/lib .
As a result, only static executables may be executed.
.It
In order to reduce the size of the executables, all executables on a specific
floppy are joined together as a single executable built with
.Xr crunchgen 1 .
.It
Some programs are supplied in minimalistic versions, specifically
.Nm ns ,
a cut-down version of
.Xr netstat 1 ,
and
.Nm vm ,
a cut-down version of
.Xr vmstat 8 .
.El
.Sh BUILDING PicoBSD
The
.Nm
sources reside in the hierarchy
.Pa /usr/src/release/picobsd .
In the following discussion, all relative path names are relative to this
directory.
The
.Nm
build process has changed slightly over time, in order to cope
with the unavoidable increase of code size, which requires more and more
tricks to cram as much as possible onto the floppies.
Starting from
.Fx 4.3 ,
the supported build script is
.Pa /usr/src/release/picobsd/build/picobsd
which can be run from anywhere.
When run in interactive mode (the default without the
.Fl -n
option), the script will let you configure the various parameters
used to build the floppy image.
The following kinds of floppy are envisaged, and we try to keep them
functional and fitting in the 1.44MB floppy despite the unavoidable
increases in the size of the kernel and its applications:
.Bl -hang -width ".Pa bridge"
.It Pa bridge
configuration suitable for bridges, routers and firewalls.
.El
.Pp
The following configurations are also present but for reference
only.
Many of them are irremediably out of date and no effort
is done to keep them in good shape:
.Bl -hang -width ".Pa bridge"
.It Pa dial
configuration suitable for dial-out
.Pq Xr ppp 8
networking.
.It Pa isp
configuration suitable for dial-in
.Pq Xr ppp 8
networking.
.It Pa net
configuration suitable for general networking.
.It Pa router
configuration suitable for use as a router.
This particular configuration
aims to work on minimal hardware.
.El
.Pp
These configurations serve only as examples for
your own modification.
Not all of them have been tested,
and you might need small tweaks to the configuration
files to make them work or even fit into the
available disk space as code size increases.
.Pp
You can define your own floppy type, by creating a directory
with a name of your choice (e.g.\&
.Pa FOO )
which contains
some of the following files and directories.
For more
information on how to construct these files, look at one
of the standard
.Nm
configurations as a reference.
.Bl -tag -width indent
.It Pa PICOBSD
The kernel configuration file (required).
This is a mostly standard
kernel configuration file, possibly stripped down by removing
unnecessary drivers and options to reduce the kernel's size.
.Pp
To be recognised as a
.Nm
kernel config file, the file must also contain the line
beginning with
.Dq Li #PicoBSD
below, and a matching
.Dv MD_ROOT_SIZE
option:
.Bd -literal -offset indent
#marker def_sz init MFS_inodes floppy_inodes
#PicoBSD 4200 init 8192 32768
options MD_ROOT_SIZE=4200 # same as def_sz
.Ed
.Pp
This informs the script of the size of the memory file system and
provides a few other details on how to build the image.
.It Pa crunch.conf
.Xr crunchgen 1
configuration (required).
It contains the list of directories containing program sources,
the list of binaries to be built, and the list of libraries that
these programs use.
See the
.Xr crunchgen 1
manpage for the exact details on the syntax of this file.
.Pp
The following issues are particularly important when dealing
with
.Nm
configurations:
.Bl -bullet
.It
We can pass build options to those makefiles which understand
that, in order to reduce the size of the programs.
This is achieved with a line of the form
.Pp
.Dl "buildopts -DNO_PAM -DRELEASE_CRUNCH ..."
.It
When providing the list of directories where source files are, it
is convenient to list the following entry first:
.Pp
.Dl "srcdirs /usr/src/release/picobsd/tinyware"
.Pp
so that
.Nm Ns -specific
versions of the programs will be found there.
.It
The string
.Dq Li @__CWD__@
is replaced with the full pathname of the directory where the
.Nm
configuration resides (i.e., the one where we find
.Pa PICOBSD , crunch.conf ,
and so on).
This can be useful to refer source code that resides within a
configuration, e.g.\&
.Pp
.Dl "srcdirs @__CWD__@/src"
.El
.It Pa config
Shell variables, sourced by the
.Nm
script (optional).
The most important variables here are:
.Bl -tag -width ".Va MY_DEVS"
.It Va MY_DEVS
(Not used in
.Fx 5.0
where we have
.Xr devfs 5 ) .
Should be set to the list of devices to be created in the
.Pa /dev
directory of the image (it is really the argument passed to
.Xr MAKEDEV 8 ,
so refer to that manpage for the names).
.It Va fd_size
Size (in kilobytes) of the
.Nm
image.
By default,
.Va fd_size
is set to 1440
which produces an image suitable for a standard floppy.
.Pp
If you plan to store the image on a CDROM (e.g.\& using
the
.Dq "El Torito"
floppy emulation), you can set
.Va fd_size
equal to 2880.
If you are planning to dump the image onto a hard disk
(either in a partition or on the whole disk), you
are not restricted to one of the standard floppy sizes.
Using a large image size per se does not waste RAM at runtime,
because only the files that are actually loaded from the image
contribute to the memory usage.
.It Va import_files
Contains a list of files to be imported in the floppy tree.
Absolute names refer to the standard file system, relative
names refer to the root of the source tree being used
(i.e.\&
.Va SRC_PATH/.. ) .
You can normally use this option if you want to import
files such as shared libraries, or databases, without
having to replicate them first in your configuration
under the
.Pa floppy.tree/
directory.
.El
.It Pa floppy.tree.exclude
List of files from the standard floppy tree which
we do not want to be copied (optional).
.It Pa floppy.tree/
Local additions to the standard floppy tree (optional).
The content of this subtree will be copied as-is into the
floppy image.
.It Pa floppy.tree. Ns Aq Ar site-name
Same as above, but site-specific (optional).
.El
.Pp
More information on the build process can be found in the
comments in the
.Nm
script.
Sample configurations can be found in
.Pa /usr/src/release/picobsd/ Ns Ao Ar floppy-type Ac Ns Pa /
.Sh USING ALTERNATE SOURCE TREES
The build script can be instructed to use an alternate source tree
using the
.Fl -src Ar SRC_PATH
option.
The tree that you specify must contain full sources for the kernel
and for all programs that you want to include in your image.
As an example, to cross-build the
.Pa bridge
floppy
using RELENG_4 sources, you can do the following:
.Bd -literal -offset indent
cd <some_empty_directory>
mkdir FOO
(cd FOO; cvs -d<my_repository> co -rRELENG_4 src)
picobsd --src FOO/src --init # this is needed only once
picobsd --src FOO/src -n -v bridge
.Ed
.Pp
If the build is successful, the directory
.Pa build_dir-bridge/
will contain a
.Pa kernel
that can be downloaded with
.Xr etherboot ,
a floppy image called
.Pa picobsd.bin ,
plus the products of the compilation in other directories.
If you want to modify the source tree in
.Pa FOO/src ,
a new image can be produced by simply running
.Pp
.Dl "picobsd --src FOO/src -n -v bridge"
.Pp
whereas if the change affects include files or libraries
you first need to update them, e.g.\& by running first
.Pp
.Dl "picobsd --src FOO/src --init # this is needed only once"
.Pp
as you would normally do for any change of this kind.
.Sh INSTALLING PicoBSD
.Ss Floppy Install
Historically,
.Nm
is run from a floppy disk, where it can be installed with a simple
.Pp
.Dl "dd if=picobsd.bin of=/dev/rfd0"
.Pp
and the floppy is ready to boot.
.Ss Hard Disk Install
The same process can be used to store the image on a hard disk
(entire volume or one of the slices):
.Bd -literal -offset indent
dd if=picobsd.bin of=/dev/ad2
dd if=picobsd.bin of=/dev/ad2s3
dd if=picobsd.bin of=/dev/ad2 oseek=NN
.Ed
.Pp
The first form will install the image on the entire disk, and it
should work in the same way as for a floppy.
.Pp
The second form will install the image
on slice number 3 (which should be large enough to store the
contents of the image).
However, the process will only have success if the
partition does not contain a valid disklabel, otherwise the kernel will
likely prevent overwriting the label.
In this case you can use the
third form, replacing
.Ar NN
with the actual start of the partition
(which you can determine using
.Xr fdisk 8 ) .
Note that after saving the image to the slice, it will not yet be
recognised.
You have to use the
.Xr disklabel 8
command to properly initialize the label (do not ask why!).
One way to do this is
.Bd -literal -offset indent
disklabel -w ad0s2 auto
disklabel -e ad0s2
.Ed
.Pp
and from the editor enter a line corresponding to the actual partition, e.g.\&
if the image has 2.88MB (5760 sectors) you need to enter the following
line for the partition:
.Pp
.Dl "a: 5760 0 4.2BSD 512 4096"
.Pp
At this point the partition is bootable.
Note that the image size can be smaller than the slice size
(indicated as partition
.Dq Li c: ) .
.Ss CDROM Install
Another option is to put the image on a CDROM.
Assuming your image
for disk type
.Pa foo
is in the directory
.Pa build_dir-foo
then you can produce a bootable
.Dq "El Torito"
image (and burn it) with the
following command:
.Bd -literal -offset indent
mkisofs -b picobsd.bin -c boot.catalog -d -N -D -R -T \\
-o cd.img build_dir-foo
burncd -f /dev/acd0c -s 4 data cd.img fixate
.Ed
.Pp
Note that the image size is restricted to 1.44MB or 2.88MB, other sizes
most likely will not work.
.Ss Booting From The Network
Yet another way to use
.Nm
is to boot the image off the network.
For this purpose you should use the uncompressed kernel which is
available as a byproduct of the compilation.
Refer to the documentation
for network booting for more details, the
.Nm
kernel is bootable as a standard
.Fx
kernel.
.Sh BOOTING PicoBSD
To boot
.Nm ,
insert the floppy and reset the machine.
The boot procedure is similar to the
standard
.Fx
boot.
Booting from a floppy is normally rather slow (in the order of 1-2
minutes), things are much faster if you store your image on
a hard disk, Compact Flash, or CDROM.
.Pp
You can also use
.Xr etherboot
to load the preloaded, uncompressed kernel image
which is a byproduct of the
.Nm
build.
In this case
the load time is a matter of a few seconds, even on a 10Mbit/s
ethernet.
.Pp
After booting,
.Nm
loads the root file system from the memory file system, starts
.Pa /sbin/init ,
and passes control to a first startup script,
.Pa /etc/rc .
The latter populates the
.Pa /etc
and
.Pa /root
directories with the default files, then tries to identify the boot
device (floppy, hard disk partition) and possibly override the contents
of the root file system with files read from the boot device.
This allows you to store local configuration on the same media.
After this phase the boot device is no longer used, unless the
user specifically does it.
.Pp
After this, control is transferred to a second script,
.Pa /etc/rc1
(which can be overridden from the boot device).
This script tries to associate a hostname to the system by using
the MAC address of the first ethernet interface as a key, and
.Pa /etc/hosts
as a lookup table.
Then control is passed to the main user configuration script,
.Pa /etc/rc.conf ,
which is supposed to override the value of a number of configuration
variables which have been pre-set in
.Pa /etc/rc.conf.defaults .
You can use the
.Va hostname
variable to create different configurations from the same file.
After taking control back,
.Pa /etc/rc1
completes the initializations, and as part of this
it configures network interfaces and optionally calls the
firewall configuration script,
.Pa /etc/rc.firewall ,
where the user can store his own firewall configuration.
.Pp
Note that by default
.Nm
runs entirely from main memory, and has no swap space, unless you
explicitly request it.
The boot device is also not used anymore after
.Pa /etc/rc1
takes control, again, unless you explicitly request it.
.Sh CONFIGURING a PicoBSD system
The operation of a
.Nm
system can be configured through a few files which are read at boot
time, very much like a standard
.Fx
system.
There are, however, some minor differences to reduce the
number of files to store and/or customize, thus saving space.
Among the files to configure we have the following:
.Bl -tag -width indent
.It Pa /etc/hosts
Traditionally, this file contains the IP-to-hostname mappings.
In addition to this, the
.Nm
version of this file also contains
a mapping between Ethernet (MAC) addresses and hostnames, as follows:
.Bd -literal -offset indent
#ethertable start of the ethernet->hostname mapping
# mac_address hostname
# 00:12:34:56:78:9a pinco
# 12:34:56:* pallino
# * this-matches-all
.Ed
.Pp
where the line containing
.Dq Li #ethertable
marks the start of the table.
.Pp
If the MAC address is not found, the script will prompt you to
enter a hostname and IP address for the system, and this
information will be stored in the
.Pa /etc/hosts
file (in memory) so you can simply store them on disk later.
.Pp
Note that you can use wildcards in the address part, so a line
like the last one in the example will match any MAC address and
avoid the request.
.It Pa /etc/rc.conf
This file contains a number of variables which control the
operation of the system, such as interface configuration,
router setup, network service startup, etc.
For the exact list and meaning of these variables see
.Pa /etc/rc.conf.defaults .
.Pp
It is worth mentioning that some of the variables let you
overwrite the contents of some files in
.Pa /etc .
This option is available at the moment for
.Pa /etc/host.conf
and
.Pa /etc/resolv.conf ,
whose contents are generally very short and suitable for this
type of updating.
In case you use these variables, remember to use newlines
as appropriate, e.g.\&
.Bd -literal -offset indent
host_conf="# this goes into /etc/host.conf
hosts
bind"
.Ed
.Pp
Although not mandatory, in this file you should only set the
variables indicated in
.Pa /etc/rc.conf.defaults ,
and avoid starting services which depend on having the network running.
This can be done at a later time: if you set
.Va firewall_enable Ns = Ns Qq Li YES ,
the
.Pa /etc/rc.firewall
script will be run after configuring the network interfaces,
so you can set up your firewall and safely start network services or enable
things such as routing and bridging.
.It Pa /etc/rc.firewall
This script can be used to configure the
.Xr ipfw 4
firewall.
On entry, the
.Va fwcmd
variable is set to the pathname of the firewall command,
.Va firewall_type
contains the value set in
.Pa /etc/rc.conf ,
and
.Va hostname
contains the name assigned to the host.
.El
.Pp
There is a small script called
.Nm update
which can be used to edit and/or save to disk a copy of the files
you have modified after booting.
The script takes one or more absolute pathnames, runs the
editor on the files passed as arguments, and then saves a
compressed copy of the files on the disk (mounting and
unmounting the latter around the operation).
.Pp
If invoked without arguments,
.Nm update
edits and saves
.Pa rc.conf , rc.firewall ,
and
.Pa master.passwd .
.Pp
If one of the arguments is
.Pa /etc
(the directory name alone),
then the command saves to disk (without editing)
all the files in the directory for which a copy
already exists on disk (e.g.\& as a result of a previous update).
.Sh SEE ALSO
.Xr crunchgen 1 ,
.Xr mdconfig 8 ,
.Xr swapon 8 ,
.Xr vnconfig 8
.Sh AUTHORS
.An -nosplit
.An Andrzej Bialecki Aq abial@FreeBSD.org ,
with subsequent work on the scripts by
.An Luigi Rizzo Aq luigi@iet.unipi.it
and others.
Man page and
.Pa Makefiles
created by
.An Greg Lehey Aq grog@lemis.com .
.Sh BUGS
In order to build
.Nm ,
the kernel of the system on which it is built must have the
.Xr vn 4
driver installed.
.Pp
The build process must be run as
.Dq root
because of the need of running
.Xr mdconfig 8 Ns / Ns Xr vnconfig 8
and
.Xr mount 8 .
.Pp
Building
.Nm
is still a black art.
The biggest problem is determining what will fit on the
floppies, and the only practical method is trial and error.
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