• Intel Celeron 766 Processor

• MSI MS-6309 V.2.0 Mainboard

• 512MB PQI PC133 SDRAM

• 16x Lite-On LTD-165H DVD-ROM

• 40x24x10 Sony CRX175A1 CD-RW

• NVIDIA RIVA 32MB TNT2 M64

• D-Link DFE-530TX 10/100 NIC

• Realtek RTL8029(AS) 10 NIC

• Lucent Mars2 Linmodem

• C-Media CMI8738 PCI Audio Device

• Miro DC-30 VIVO

• Aopen KF-45A Miditower Case

• Acer Accufeel Keyboard

• Genius Netscroll+ Mouse

• Compaq MV500 Presario Monitor

• Windows XP on /dev/hda1

• FreeBSD 4.2 on /dev/hda2

• Redhat 8.0 on /dev/hda5

• Debian 3.0r0 on /dev/hda6

• Mandrake 9.1 on /dev/hda7

• Swap partition on /dev/hda8

Backup master boot record.

This is installed as the basic boot sector. In the case of most modern distributions it is actually a symbolic link to one of four files /boot/boot-bmp.b, /boot/boot-menu.b, /boot/boot-text.b, /boot/boot-compat.b which allow a user to change the boot-up schema so that it utilises a splash screen, a simple menu, a text based interface or a minimal boot loader to ensure compatibility respectively. In each case re-installation of lilo is necessary in order to complete the changes. To change the actual 'boot-logo' you can either use utilities such as fblogo or the more refined bootsplash.

Used to boot non-Linux operating systems.

Installed kernel configuration. This file is most useful when compiling kernels on other systems or device modules. Below is a small sample of what the contents of the file looks like.

CONFIG_X86=y CONFIG_MICROCODE=m CONFIG_X86_MSR=m CONFIG_MATH_EMULATION=y CONFIG_MTRR=y CONFIG_MODULES=y CONFIG_MODVERSIONS=y CONFIG_SCSI_DEBUG=m CONFIG_I2O=m CONFIG_ARCNET_ETH=y CONFIG_FMV18X=m CONFIG_HPLAN_PLUS=m CONFIG_ETH16I=m CONFIG_NE2000=m CONFIG_HISAX_HFC_PCI=y CONFIG_ISDN_DRV_AVMB1_C4=m CONFIG_USB_RIO500=m CONFIG_QUOTA=y CONFIG_AUTOFS_FS=m CONFIG_ADFS_FS=m CONFIG_AFFS_FS=m CONFIG_HFS_FS=m CONFIG_FAT_FS=y CONFIG_MSDOS_FS=y CONFIG_UMSDOS_FS=m CONFIG_FBCON_VGA=m CONFIG_FONT_8x8=y CONFIG_FONT_8x16=y CONFIG_SOUND=m CONFIG_SOUND_CMPCI=m CONFIG_AEDSP16=m

As you can see, it's rather simplistic. The line begins with the configuration option and whether it's configured as part of the kernel, as a module or not at all. Lines beginning with a # symbol are comments and are not interpreted during processing.

Used to boot to the 0S/2 operating system.

Contains the location of the kernel.

Normally the kernel or symbolic link to the kernel.

This subdirectory contains the GRUB configuration files including boot-up images and sounds. GRUB is the GNU GRand Unified Bootloader, a project which intends to solve all bootup problems once and for all. One of the most interesting features, is that you don't have to install a new partition or kernel, you can change all parameters at boot time via the GRUB Console, since it knows about the filesystems.

Maps devices in /dev to those used by grub. For example, (/dev/fd0) is represented by /dev/fd0 and (hd0, 4) is referenced by /dev/hda5.

Grub configuration file.

Grub boot-up welcome message.

Grub boot-up background image.

First serial port (mice, modems).

PS/2 mouse connection (mice, keyboards).

First parallel port (printers, scanners, etc).

The name DSP comes from the term digital signal processor, a specialized processor chip optimized for digital signal analysis. Sound cards may use a dedicated DSP chip, or may implement the functions with a number of discrete devices. Other terms that may be used for this device are digitized voice and PCM.

This subdirectory contains most of the USB device nodes. Device name allocations are fairly simplistic so no elaboration is be necessary.

First SCSI device (HDD, Memory Sticks, external mass storage devices such as CD-ROM drives on laptops, etc).

First SCSI CD-ROM device.

First joystick device.

This directory tree contains all the configuration files for the X Window System. Users should note that many of the files located in this directory are actually symbolic links to the /usr/X11R6 directory tree. Thus, the presence of these files in these locations can not be certain.

The 'X' configuration file. Most modern distributions possess hardware autodetection systems that enable automatic creation of a valid file. Should autodetection fail a configuration file can also be created manually provided that you have sufficient knowledge about your system. It would be considered prudent not to attempt to type out a file from beginning to end. Rather, use common configuration utilities such as xf86config, XF86Setup and xf86cfg to create a workable template. Then, using suitable documentation commence optimization through intuition and/or trial and error. Options that can be configured via this file include X modules to be loaded on startup, keyboard, mouse, monitor and graphic chipset type. Often, commercial distributions will include their own X configuration utilities such as XDrake on Mandrake and also Xconfiguration on Redhat. Below is a sample X configuration file from the reference system

### BEGIN DEBCONF SECTION # XF86Config-4 (XFree86 server configuration file) generated by dexconf, the # Debian X Configuration tool, using values from the debconf database. # # Edit this file with caution, and see the XF86Config-4 manual page. # (Type "man XF86Config-4" at the shell prompt.) # # If you want your changes to this file preserved by dexconf, only # make changes # before the "### BEGIN DEBCONF SECTION" line above, and/or after the # "### END DEBCONF SECTION" line below. # # To change things within the debconf section, run the command: # dpkg-reconfigure xserver-xfree86 # as root. Also see "How do I add custom sections to a dexconf- # generated # XF86Config or XF86Config-4 file?" in /usr/share/doc/xfree86- # common/FAQ.gz. Section "Files" FontPath "unix/:7100" # local font server # if the local font server has problems, # we can fall back on these FontPath "/usr/lib/X11/fonts/misc" FontPath "/usr/lib/X11/fonts/cyrillic" FontPath "/usr/lib/X11/fonts/100dpi/:unscaled" FontPath "/usr/lib/X11/fonts/75dpi/:unscaled" FontPath "/usr/lib/X11/fonts/Type1" FontPath "/usr/lib/X11/fonts/Speedo" FontPath "/usr/lib/X11/fonts/100dpi" FontPath "/usr/lib/X11/fonts/75dpi" EndSection Section "Module" Load "GLcore" Load "bitmap" Load "dbe" Load "ddc" Load "dri" Load "extmod" Load "freetype" Load "glx" Load "int10" Load "pex5" Load "record" Load "speedo" Load "type1" Load "vbe" Load "xie" EndSection Section "InputDevice" Identifier "Generic Keyboard" Driver "keyboard" Option "CoreKeyboard" Option "XkbRules" "xfree86" Option "XkbModel" "pc104" Option "XkbLayout" "us" EndSection Section "InputDevice" Identifier "Configured Mouse" Driver "mouse" Option "CorePointer" Option "Device" "/dev/psaux" Option "Protocol" "NetMousePS/2" Option "Emulate3Buttons" "true" Option "ZAxisMapping" "4 5" EndSection Section "InputDevice" Identifier "Generic Mouse" Driver "mouse" Option "SendCoreEvents" "true" Option "Device" "/dev/input/mice" Option "Protocol" "ImPS/2" Option "Emulate3Buttons" "true" Option "ZAxisMapping" "4 5" EndSection Section "Device" Identifier "Generic Video Card" Driver "nv" # Option "UseFBDev" "true" Option "UseFBDev" "false" EndSection Section "Monitor" Identifier "Generic Monitor" HorizSync 30-38 VertRefresh 43-95 Option "DPMS" EndSection Section "Screen" Identifier "Default Screen" Device "Generic Video Card" Monitor "Generic Monitor" DefaultDepth 16 SubSection "Display" Depth 1 Modes "800x600" "640x480" EndSubSection SubSection "Display" Depth 4 Modes "800x600" "640x480" EndSubSection SubSection "Display" Depth 8 Modes "800x600" "640x480" EndSubSection SubSection "Display" Depth 15 Modes "800x600" "640x480" EndSubSection SubSection "Display" Depth 16 Modes "800x600" "640x480" EndSubSection SubSection "Display" Depth 24 Modes "800x600" "640x480" EndSubSection EndSection Section "ServerLayout" Identifier "Default Layout" Screen "Default Screen" InputDevice "Generic Keyboard" InputDevice "Configured Mouse" InputDevice "Generic Mouse" EndSection Section "DRI" Mode 0666 EndSection ### END DEBCONF SECTION

As you can see, the layout of the file is quite simple and tends to be quite standard across most distributions. At the top are the locations of the various font files for X (note - X will not start if you do not specify a valid font), next is the "Modules" section. It details what modules are to be loaded upon startup. The most well known extensions are probably GLX (required for 3D rendering of graphics and games) and Xinerama which allows users to expand their desktop over several monitors. Next are the various "Device" sections which describe the type of hardware you have. Improper configuration of these subsections can lead to heartache and trauma with seemingly misplaced keys, bewitched mice and also constant flashing as X attempts to restart in a sometimes never ending loop. In most cases when all else fails the vesa driver seems to be able to initialise most modern video cards. In the "Screen" section it is possible to alter the default startup resolution and depth. Quite often it is possible to alter these attributes on the fly by using the alt-ctrl-+ or alt-ctrl- set of keystrokes. Lastly are the "ServerLayout" and "DRI" sections. Users will almost never touch the "DRI" section and only those who wish to utilise the Xinerama extensions of X will require having to change any of the ServerLayout options.

In general your default keyboard mapping comes from your X server setup. If this setup is insufficient and you are unwilling to go through the process of reconfiguration and/or you are not the superuser you'll need to use the xmodmap program. This is the utility's global configuration file.

The various symbols, types, geometries of keymaps that the X server supports can be found in this directory tree.

Low Bandwidth X (LBX) proxy server configuration files. Applications that would like to take advantage of the Low Bandwidth extension to X (LBX) must make their connections to an lbxproxy. These applications need know nothing about LBX, they simply connect to the lbxproxy as if it were a regular X server. The lbxproxy accepts client connections, multiplexes them over a single connection to the X server, and performs various optimizations on the X protocol to make it faster over low bandwidth and/or high latency connections. It should be noted that such compression will not increase the pace of rendering all that much. Its primary purpose is to reduce network load and thus increase overall network latency. A competing project called DXPC (Differential X Protocol Compression) has been found to be more efficient at this task. Studies have shown though that in almost all cases ssh tunneling of X will produce far better results than through any of these specialised pieces of software.

X proxy services manager initialisation files. proxymngr is responsible for resolving requests from xfindproxy (in the xbase-clients package) and other similar clients, starting new proxies when appropriate, and keeping track of all the available proxy services.

X display manager configuration files. xdm manages a collection of X servers, which may be on the local host or remote machines. It provides services similar to those provided by init, getty, and login on character-based terminals: prompting for login name and password, authenticating the user, and running a session. xdm supports XDMCP (X Display Manager Control Protocol) and can also be used to run a chooser process which presents the user with a menu of possible hosts that offer XDMCP display management. If the xutils package is installed, xdm can use the sessreg utility to register login sessions to the system utmp file; this, however, is not necessary for xdm to function.

This is the master 'xdm' configuration file. It determines where all other 'xdm' configuration files will be located. It is almost certain to be left undisturbed.

GNOME Display Manager configuration files. gdm provides the equivalent of a "login:" prompt for X displays- it pops up a login window and starts an X session. It provides all the functionality of xdm, including XDMCP support for managing remote displays. The greeting window is written using the GNOME libraries and hence looks like a GNOME application- even to the extent of supporting themes! By default, the greeter is run as an unprivileged user for security.

This is the primary configuration file for GDM. Through it, users can specify whether they would like their system to automatically login as a certain user, background startup image and also if they would like to run their machine as somewhat of a terminal server by using the XDMCP protocol.

Home of xfs fonts.

X font server configuration files. xfs is a daemon that listens on a network port and serves X fonts to X servers (and thus to X clients). All X servers have the ability to serve locally installed fonts for themselves, but xfs makes it possible to offload that job from the X server, and/or have a central repository of fonts on a networked machine running xfs so that all the machines running X servers on a network do not require their own set of fonts. xfs may also be invoked by users to, for instance, make available X fonts in user accounts that are not available to the X server or to an already running system xfs.

This is the 'xfs' initialisation file. It specifies the number of clients that are allowed to connect to the 'xfs' server at any one time, the location of log files, default resolution, the location of the fonts, etc.

# font server configuration file # $Xorg: config.cpp,v 1.3 2000/08/17 19:54:19 cpqbld Exp $ # allow a maximum of 10 clients to connect to this font server client-limit = 10 # when a font server reaches its limit, start up a new one clone-self = on # log messages to /var/log/xfs.log (if syslog is not used) error-file = /var/log/xfs.log # log errors using syslog use-syslog = on # turn off TCP port listening (Unix domain connections are still permitted) no-listen = tcp # paths to search for fonts catalogue = /usr/lib/X11/fonts/misc/,/usr/lib/X11/fonts/cyrillic/, /usr/lib/X11/fonts/100dpi/:unscaled,/usr/lib/X11/fonts/75dpi/:unscaled, /usr/lib/X11/fonts/Type1/,/usr/lib/X11/fonts/CID, /usr/lib/X11/fonts/Speedo/,/usr/lib/X11/fonts/100dpi/, /usr/lib/X11/fonts/75dpi/ # in decipoints default-point-size = 120 # x1,y1,x2,y2,... default-resolutions = 100,100,75,75 # font cache control, specified in kB cache-hi-mark = 2048 cache-low-mark = 1433 cache-balance = 70

Home of configuration files for twm. The original Tabbed Window Manager.

xinit configuration files. 'xinit' is a configuration method of starting up an X session that is designed to used as part of a script. Normally, this is used at larger sites as part of a tailored login process.

Global xinitrc file, used by all X sessions started by xinit (startx). Its usage is of course overridden by a .xinitrc file located in the home directory of a user.

'adduser' configuration. The adduser command can create new users, groups and add existing users to existing groups. Adding users with adduser is much easier than adding them by hand. Adduser will choose appropriate UID and GID values, create a home directory, copy skeletal user configuration from /etc/skel, allow you to set an initial password and the GECOS field. Optionally a custom script can be executed after this commands. See adduser(8) and adduser.conf(5) for full documentation.

Has parameters to help adjust the software (kernel) time so that it matches the RTC.

This is the aliases file - it says who gets mail for whom. It was originally generated by `eximconfig', part of the exim package distributed with Debian, but it may edited by the mail system administrator. See exim info section for details of the things that can be configured here. An aliases database file (aliases.db) is built from the entries in the aliases files by the newaliases utility.

It is possible for several programs fulfilling the same or similar functions to be installed on a single system at the same time. For example, many systems have several text editors installed at once. This gives choice to the users of a system, allowing each to use a different editor, if desired, but makes it difficult for a program to make a good choice of editor to invoke if the user has not specified a particular preference.

The alternatives system aims to solve this problem. A generic name in the filesystem is shared by all files providing interchangeable functionality. The alternatives system and the system administrator together determine which actual file is referenced by this generic name. For example, if the text editors ed(1) and nvi(1) are both installed on the system, the alternatives system will cause the generic name /usr/bin/editor to refer to /usr/bin/nvi by default. The system administrator can override this and cause it to refer to /usr/bin/ed instead, and the alternatives system will not alter this setting until explicitly requested to do so.

The generic name is not a direct symbolic link to the selected alternative. Instead, it is a symbolic link to a name in the alternatives directory, which in turn is a symbolic link to the actual file referenced. This is done so that the system administrator's changes can be confined within the /etc directory.

This is Debian's next generation front-end for the dpkg package manager. It provides the apt-get utility and APT dselect method that provides a simpler, safer way to install and upgrade packages. APT features complete installation ordering, multiple source capability and several other unique features, see the Users Guide in /usr/share/doc/apt/guide.text.gz

deb cdrom:[Debian GNU/Linux 3.0 r0 _Woody_ - Official i386 Binary-7 (20020718)]/ unstable contrib main non-US/contrib non-US/main deb cdrom:[Debian GNU/Linux 3.0 r0 _Woody_ - Official i386 Binary-6 (20020718)]/ unstable contrib main non-US/contrib non-US/main deb cdrom:[Debian GNU/Linux 3.0 r0 _Woody_ - Official i386 Binary-5 (20020718)]/ unstable contrib main non-US/contrib non-US/main deb cdrom:[Debian GNU/Linux 3.0 r0 _Woody_ - Official i386 Binary-4 (20020718)]/ unstable contrib main non-US/contrib non-US/main deb cdrom:[Debian GNU/Linux 3.0 r0 _Woody_ - Official i386 Binary-3 (20020718)]/ unstable contrib main non-US/contrib non-US/main deb cdrom:[Debian GNU/Linux 3.0 r0 _Woody_ - Official i386 Binary-2 (20020718)]/ unstable contrib main non-US/contrib non-US/main deb cdrom:[Debian GNU/Linux 3.0 r0 _Woody_ - Official i386 Binary-1 (20020718)]/ unstable contrib main non-US/contrib non-US/main # deb http://security.debian.org/ stable/updates main

Contains a list of apt-sources from which packages may be installed via APT.

ALSA (Advanced Linux Sound Architecture) configuration file. It is normally created via alsactl or other third-party sound configuration utilities that may be specific to a distribution such as sndconfig from Redhat.

Users denied access to the at daemon. The 'at' command allows user to execute programs at an arbitrary time.

Configuration files for autoconf. 'autoconf' creates scripts to configure source code packages using templates. To create configure from configure.in, run the autoconf program with no arguments. autoconf processes configure.ac with the m4 macro processor, using the Autoconf macros. If you give autoconf an argument, it reads that file instead of configure.ac and writes the configuration script to the standard output instead of to configure. If you give autoconf the argument -, it reads the standard input instead of configure.ac and writes the configuration script on the standard output.

The Autoconf macros are defined in several files. Some of the files are distributed with Autoconf; autoconf reads them first. Then it looks for the optional file acsite.m4 in the directory that contains the distributed Autoconf macro files, and for the optional file aclocal.m4 in the current directory. Those files can contain your site's or the package's own Autoconf macro definitions. If a macro is defined in more than one of the files that autoconf reads, the last definition it reads overrides the earlier ones.

System wide functions and aliases' file for interactive bash shells.

Programmable completion functions for bash 2.05a.

This is the chat script used to dial out to your default service provider.

These directories contain scripts to be executed on a regular basis by the cron daemon.

'cron' configuration file. This file is for the cron table to setup the automatic running of system routines. A cron table can also be established for individual users. The location of these user cron table files will be explained later on.

# /etc/crontab: system-wide crontab # Unlike any other crontab you don't have to run the `crontab' # command to install the new version when you edit this file. # This file also has a username field, that none of the other crontabs do. SHELL=/bin/sh PATH=/usr/local/sbin:/usr/local/bin:/sbin:/bin:/usr/sbin:/usr/bin # m h dom mon dow user command 25 6 * * * root test -e /usr/sbin/anacron || run-parts --report /etc/cron.daily 47 6 * * 7 root test -e /usr/sbin/anacron || run-parts --report /etc/cron.weekly 52 6 1 * * root test -e /usr/sbin/anacron || run-parts --report /etc/cron.monthly #

System-wide .login file for csh(1). This file is sourced on all invocations of the shell. It contains commands that are to be executed upon login and sometimes aliases also.

System-wide .logout file for csh(1). This file is sourced on all invocations of the shell. It contains commands that are to be executed upon logout.

System-wide .cshrc file for csh(1). This file is sourced on all invocations of the shell. This file should contain commands to set the command search path, plus other important environment variables. This file should not contain commands that produce output or assume the shell is attached to a tty.

Configuration files for the Common UNIX Printing System (CUPS). Files here are used to define client-specific parameters, such as the default server or default encryption settings.

'deluser' configuration files. The deluser command can remove users and groups and remove users from a given group. Deluser can optionally remove and backup the user's home directory and mail spool or all files on the system owned by him. Optionally a custom script can also be executed after each of the commands.

This daemon sets up the /dev filesystem for use. It creates required symbolic links in /dev and also creates (if so configured, as is the default) symbolic links to the "old" names for devices.

'devfsd' configuration files. This daemon sets up the /dev filesystem for use. It creates required symbolic links in /dev and also creates (if so configured, as is the default) symbolic links to the "old" names for devices.

'dhclient' configuration file and 'dhclient' script files respectively. It configures your system so that it may act as a client on a DHCP based network. It is essential to connect to the Internet nowadays.

# /etc/dict.conf Written by Bob Hilliard <hilliard@debian.org> # 1998/03/20. Last revised Sun, 22 Nov 1998 18:10:04 -0500 This is # the configuration file for /usr/bin/dict. In most cases only the # server keyword need be specified. # This default configuration will try to access a dictd server on # the local host, failing that, it will try the public server. In # many cases this will be slow, so you should comment out the line # for the server that you don't want to use. To use any other # server, enter its IP address in place of "dict.org". # Refer to the dict manpage (man dict) for other options that could # be inserted in here. server localhost server dict.org

dict is a client for the Dictionary Server Protocol (DICT), a TCP transaction based query/response protocol that provides access to dictionary definitions from a set of natural language dictionary databases.

Configuration file for the Linux DOS Emulator. DOSEMU is a PC Emulator application that allows Linux to run a DOS operating system in a virtual x86 machine. This allows you to run many DOS applications. It includes the FreeDOS kernel, color text and full keyboard emulation (via hotkeys) via terminal, built-in X support, IBM character set font, graphics capability at the console with most compatible video cards, DPMI support so you can run DOOM, CDROM support, builtin IPX and pktdrvr support. Note - 'dosemu' is simply a ported version of Corel's own PC-DOS.

Part of the exim package. This file contains email addresses to use for outgoing mail. Any local part not in here will be qualified by the system domain as normal. It should contain lines of the form:

ESD configuration files. The Enlightened sound daemon is designed to mix together several digitized audio streams for playback by a single device. Like nasd, artsd and rplay it also has the capability to play sounds remotely.

The control list of systems who want to access the system via NFS, a the list of directories that you would like to share and the permissions allocated on each share.

# /etc/exports: the access control list for filesystems which may be # exported to NFS clients. See exports(5). ## LTS-begin ## # # The lines between the 'LTS-begin' and the 'LTS-end' were added # on: Sun Feb 23 05:54:17 EST 2003 by the ltsp installation script. # For more information, visit the ltsp homepage # at http://www.ltsp.org # /opt/ltsp/i386 192.168.0.0/255.255.255.0(ro,no_root_squash) /var/opt/ltsp/swapfiles 192.168.0.0/255.255.255.0(rw,no_root_squash) # # The following entries need to be uncommented if you want # Local App support in ltsp # #/home 192.168.0.0/255.255.255.0(rw,no_root_squash) ## LTS-end ##

Floppy disk parameter table. Describes what different floppy disk formats look like. Used by setfdprm.

The configuration file for 'mount' and now 'supermount'. It lists the filesystems mounted automatically at startup by the mount -a command (in /etc/rc or equivalent startup file). Under Linux, also contains information about swap areas used automatically by swapon -a.

Determines who might get ftp-access to your machine.

List of ftp users that need to be chrooted.

List of disallowed ftp users.

Lists gateways for 'routed'.

Configures console-logins.

MIME magic patterns as used by the Gnome VFS library.

Similar to /etc/passwd. It lists the configured user groups and who belongs to them.

Old /etc/group file.

Contains encrypted forms of group passwords.

Old /etc/gshadow file.

Contains the hostname of your machine (can be fully qualified or not).

Determines the search order for look-ups (usually hosts bind, i.e. "check /etc/hosts first and then look for a DNS").

This file is used to define a system name and domain combination with a specific IP address. This file needs to always contain an entry for an IP address, if the machine is connected to the network.

### etherconf DEBCONF AREA. DO NOT EDIT THIS AREA OR INSERT TEXT BEFORE IT. 127.0.0.1 localhost ::1 localhost ip6-localhost ip6-loopback fe00::0 ip6-localnet ff00::0 ip6-mcastprefix ff02::1 ip6-allnodes ff02::2 ip6-allrouters ff02::3 ip6-allhosts 192.168.0.99 debian.localdomain.com debian ### END OF DEBCONF AREA. PLACE YOUR EDITS BELOW; THEY WILL BE PRESERVED. 192.168.0.1 ws001

Part of the tcp-wrappers system to control access to your machine's services. It lists hosts that are allowed to access the system and specific daemons.

# /etc/hosts.allow: list of hosts that are allowed to access the # system. # See the manual pages hosts_access(5), hosts_options(5) # and /usr/doc/netbase/portmapper.txt.gz # # Example: ALL: LOCAL @some_netgroup # ALL: .foobar.edu EXCEPT terminalserver.foobar.edu # # If you're going to protect the portmapper use the name "portmap" # for the daemon name. Remember that you can only use the keyword # "ALL" and IP addresses (NOT host or domain names) for the # portmapper. See portmap(8) and /usr/doc/portmap/portmapper.txt.gz # for further information. bootpd: 0.0.0.0 in.tftpd: 192.168.0. portmap: 192.168.0. rpc.mountd: 192.168.0. rpc.nfsd: 192.168.0. gdm: 192.168.0. nasd: 192.168.0.

part of the tcp-wrappers system to control access to your machine's services. It lists hosts that are not allowed to access the system.

# Example: ALL: some.host.name, .some.domain # ALL EXCEPT in.fingerd: other.host.name, .other.domain # # If you're going to protect the portmapper use the name "portmap" # for the daemon name. Remember that you can only use the keyword # "ALL" and IP addresses (NOT host or domain names) for the # portmapper. See portmap(8) and /usr/doc/portmap/portmapper.txt.gz # for further information. # # The PARANOID wildcard matches any host whose name does not match # its address. You may wish to enable this to ensure any programs # that don't validate looked up hostnames still leave understandable # logs. In past versions of Debian this has been the default. # ALL: PARANOID

Apache configuration files. Apache is a versatile, high-performance HTTP server. The most popular server in the world, Apache features a modular design and supports dynamic selection of extension modules at runtime. Its strong points are its range of possible customization, dynamic adjustment of the number of server processes, and a whole range of available modules including many authentication mechanisms, server-parsed HTML, server-side includes, access control, CERN httpd metafiles emulation, proxy caching, etc. Apache also supports multiple virtual homing.

TCP/IP IDENT protocol server. It implements the TCP/IP proposed standard IDENT user identification protocol (RFC 1413). identd operates by looking up specific TCP/IP connections and returning the username of the process owning the connection. It can also return other information besides the username.

# /etc/identd.conf - an example configuration file #-- The syslog facility for error messages # syslog:facility = daemon #-- User and group (from passwd database) to run as server:user = nobody #-- Override the group id # server:group = kmem #-- What port to listen on when started as a daemon or from /etc/inittab # server:port = 113 #-- The socket backlog limit # server:backlog = 256 #-- Where to write the file containing our process id # server:pid-file = "/var/run/identd/identd.pid" #-- Maximum number of concurrent requests allowed (0 = unlimited) # server:max-requests = 0 #-- Enable some protocol extensions like "VERSION" or "QUIT" protocol:extensions = enabled #-- Allow multiple queries per connection protocol:multiquery = enabled #-- Timeout in seconds since connection or last query. Zero = disable # protocol:timeout = 120 #-- Maximum number of threads doing kernel lookups # kernel:threads = 8 #-- Maximum number of queued kernel lookup requests # kernel:buffers = 32 #-- Maximum number of time to retry a kernel lookup in case of failure # kernel:attempts = 5 #-- Disable username lookups (only return uid numbers) # result:uid-only = no #-- Enable the ".noident" file # result:noident = enabled #-- Charset token to return in replies # result:charset = "US-ASCII" #-- Opsys token to return in replies # result:opsys = "UNIX" #-- Log all request replies to syslog (none == don't) # result:syslog-level = none #-- Enable encryption (only available if linked with a DES library) # result:encrypt = no #-- Path to the DES key file (only available if linked with a DES library) # encrypt:key-file = "/usr/local/etc/identd.key" #-- Include a machine local configuration file # include = /etc/identd.conf

Configuration of services that are started by the INETD TCP/IP super server. 'inetd' is now deprecated. 'xinetd' has taken its place. See /etc/xinet.conf for further details.

# /etc/inetd.conf: see inetd(8) for further information. # # Internet server configuration database # # # Lines starting with "#:LABEL:" or "#<off>#" should not # be changed unless you know what you are doing! # # If you want to disable an entry so it isn't touched during # package updates just comment it out with a single '#' character. # # Packages should modify this file by using update-inetd(8) # # <service_name> <sock_type> <proto> # <flags> <user> <server_path> # <args> # #:INTERNAL: Internal services #echo stream tcp nowait root internal #echo dgram udp wait root internal #chargen stream tcp nowait root internal #chargen dgram udp wait root internal discard stream tcp nowait root internal discard dgram udp wait root internal daytime stream tcp nowait root internal #daytime dgram udp wait root internal time stream tcp nowait root internal #time dgram udp wait root internal #:STANDARD: These are standard services. ftp stream tcp nowait root /usr/sbin/tcpd /usr/sbin/in.ftpd telnet stream tcp nowait telnetd.telnetd /usr/sbin/tcpd /usr/sbin/in.telnetd #:MAIL: Mail, news and uucp services. smtp stream tcp nowait mail /usr/sbin/exim exim -bs imap2 stream tcp nowait root /usr/sbin/tcpd /usr/sbin/imapd imap3 stream tcp nowait root /usr/sbin/tcpd /usr/sbin/imapd #:INFO: Info services ident stream tcp wait identd /usr/sbin/identd identd finger stream tcp nowait nobody /usr/sbin/tcpd /usr/sbin/in.fingerd #:BOOT: Tftp service is provided primarily for booting. #Most sites run this only on machines acting as "boot servers." tftp dgram udp wait nobody /usr/sbin/tcpd /usr/sbin/in.tftpd -s /tftpboot

Order of scripts run in /etc/rc?.d ================================== 0. Overview. All scripts executed by the init system are located in /etc/init.d. The directories /etc/rc?.d (? = S, 0 .. 6) contain relative links to those scripts. These links are named S<2-digit-number>< original-name> or K<2-digit-number><original-name>. If a scripts has the ".sh" suffix it is a bourne shell script and MAY be handled in an optimized manner. The behaviour of executing the script in an optimized way will not differ in any way from it being forked and executed in the regular way. The following runlevels are defined: N System bootup (NONE). S Single user mode (not to be switched to directly) 0 halt 1 single user mode 2 .. 5 multi user mode 6 reboot 1. Boot. When the systems boots, the /etc/init.d/rcS script is executed. It in turn executes all the S* scripts in /etc/rcS.d in alphabetical (and thus numerical) order. The first argument passed to the executed scripts is "start". The runlevel at this point is "N" (none). Only things that need to be run once to get the system in a consistent state are to be run. The rcS.d directory is NOT meant to replace rc.local. One should not start daemons in this runlevel unless absolutely necessary. Eg, NFS might need the portmapper, so it is OK to start it early in the boot process. But this is not the time to start the squid proxy server. 2. Going multiuser. After the rcS.d scripts have been executed, init switches to the default runlevel as specified in /etc/inittab, usually "2". Init then executes the /etc/init.d/rc script which takes care of starting the services in /etc/rc2.d. Because the previous runlevel is "N" (none) the /etc/rc2.d/KXXxxxx scripts will NOT be executed - there is nothing to stop yet, the system is busy coming up. If for example there is a service that wants to run in runlevel 4 and ONLY in that level, it will place a KXXxxxx script in /etc/rc{2,3,5}.d to stop the service when switching out of runlevel 4. We do not need to run that script at this point. The /etc.rc2.d/SXXxxxx scripts will be executed in alphabetical order, with the first argument set to "start". 3. Switching runlevels. When one switches from (for example) runlevel 2 to runlevel 3, /etc/init.d/rc will first execute in alphabetical order all K scripts for runlevel 3 (/etc/rc3.d/KXXxxxx) with as first argument "stop" and then all S scripts for runlevel 3 (/etc/rc3.d/SXXxxxx) with as first argument "start". As an optimization, a check is made for each "service" to see if it was already running in the previous runlevel. If it was, and there is no K (stop) script present for it in the new runlevel, there is no need to start it a second time so that will not be done. On the other hand, if there was a K script present, it is assumed the service was stopped on purpose first and so needs to be restarted. We MIGHT make the same optimization for stop scripts as well- if no S script was present in the previous runlevel, we can assume that service was not running and we don't need to stop it either. In that case we can remove the "coming from level N" special case mentioned above in 2). But right now that has not been implemented. 4. Single user mode. Switching to single user mode is done by switching to runlevel 1. That will cause all services to be stopped (assuming they all have a K script in /etc/rc1.d). The runlevel 1 scripts will then switch to runlevel "S" which has no scripts - all it does is spawn a shell directly on /dev/console for maintenance. 5. Halt/reboot Going to runlevel 0 or 6 will cause the system to be halted or rebooted, respectively. For example, if we go to runlevel 6 (reboot) first all /etc/rc6.d/KXXxxxx scripts will be executed alphabetically with "stop" as the first argument. Then the /etc/rc6.d/SXXxxxx scripts will be executed alphabetically with "stop" as the first argument as well. The reason is that there is nothing to start any more at this point - all scripts that are run are meant to bring the system down. In the future, the /etc/rc6.d/SXXxxxx scripts MIGHT be moved to /etc/rc6.d/K1XXxxxx for clarity.

Boot-time system configuration/initialization script. Tells init how to handle runlevels. It sets the default runlevel. This is run first except when booting in emergency (-b) mode. It also enables a user to startup a getty session on an external device such as the serial ports. To add terminals or dial-in modem lines to a system, just add more lines to /etc/inittab, one for each terminal or dial-in line. For more details, see the manual pages init, inittab, and getty. If a command fails when it starts, and init is configured to restart it, it will use a lot of system resources: init starts it, it fails, init starts it, it fails, and so on. To prevent this, init will keep track of how often it restarts a command, and if the frequency grows to high, it will delay for five minutes before restarting again. /etc/inittab also has some special features that allow init to react to special circumstances. powerwait Allows init to shut the system down, when the power fails. This assumes the use of a UPS, and software that watches the UPS and informs init that the power is off. ctrlaltdel Allows init to reboot the system, when the user presses ctrl-alt-del on the console keyboard. Note that the system administrator can configure the reaction to ctrl-alt-del to be something else instead, e.g., to be ignored, if the system is in a public location. sysinit Command to be run when the system is booted. This command usually cleans up /tmp, for example. The list above is not exhaustive. See your inittab manual page for all possibilities, and for details on how to use the ones above. To set (or reset) initial terminal colours. The following shell script should work for VGA consoles: for n in 1 2 4 5 6 7 8; do setterm -fore yellow -bold on -back blue -store > /dev/tty$n done Substitute your favorite colors, and use /dev/ttyS$n for serial terminals. To make sure they are reset when people log out (if they've been changed) replace the references to getty (or mingetty or uugetty or whatever) in /etc/inittab with references to /sbin/mygetty. #!/bin/sh setterm -fore yellow -bold on -back blue -store > $1 exec /sbin/mingetty $@ An example /etc/inittab is provided below.

# /etc/inittab: init(8) configuration. # $Id: etc.xml,v 1.10 2004/02/03 21:42:57 binh Exp $ # The default runlevel. id:2:initdefault: # Boot-time system configuration/initialization script. # This is run first except when booting in emergency (-b) mode. si::sysinit:/etc/init.d/rcS # What to do in single-user mode. ~~:S:wait:/sbin/sulogin # /etc/init.d executes the S and K scripts upon change # of runlevel. # # Runlevel 0 is halt. # Runlevel 1 is single-user. # Runlevels 2-5 are multi-user. # Runlevel 6 is reboot. l0:0:wait:/etc/init.d/rc 0 l1:1:wait:/etc/init.d/rc 1 l2:2:wait:/etc/init.d/rc 2 l3:3:wait:/etc/init.d/rc 3 l4:4:wait:/etc/init.d/rc 4 l5:5:wait:/etc/init.d/rc 5 l6:6:wait:/etc/init.d/rc 6 # Normally not reached, but fallthrough in case of emergency. z6:6:respawn:/sbin/sulogin # What to do when CTRL-ALT-DEL is pressed. ca:12345:ctrlaltdel:/sbin/shutdown -t1 -a -r now # Action on special keypress (ALT-UpArrow). #kb::kbrequest:/bin/echo "Keyboard Request #--edit /etc/inittab to let this work." # What to do when the power fails/returns. pf::powerwait:/etc/init.d/powerfail start pn::powerfailnow:/etc/init.d/powerfail now po::powerokwait:/etc/init.d/powerfail stop # /sbin/getty invocations for the runlevels. # # The "id" field MUST be the same as the last # characters of the device (after "tty"). # # Format: # <id>:<runlevels>:<action>:<process> # # Note that on most Debian systems tty7 is used by the X Window System, # so if you want to add more getty's go ahead but skip tty7 if you run X. # 1:2345:respawn:/sbin/getty 38400 tty1 2:23:respawn:/sbin/getty 38400 tty2 3:23:respawn:/sbin/getty 38400 tty3 4:23:respawn:/sbin/getty 38400 tty4 5:23:respawn:/sbin/getty 38400 tty5 6:23:respawn:/sbin/getty 38400 tty6 # Example how to put a getty on a serial line (for a terminal) # #T0:23:respawn:/sbin/getty -L ttyS0 9600 vt100 #T1:23:respawn:/sbin/getty -L ttyS1 9600 vt100 # Example how to put a getty on a modem line. # #T3:23:respawn:/sbin/mgetty -x0 -s 57600 ttyS3 Undocumented features The letters A-C can be used to spawn a daemon listed in /etc/inittab. For example, assuming you want to start getty on a port to receive a call, but only after receiving a voice call first (and not all the time). Furthermore, you want to be able to receive a data or a fax call and that when you get the voice message you'll know which you want. You insert two new lines in /etc/inittab, each with its own ID, and each with a runlevel such as A for data and B for fax. When you know which you need, you simply spawn the appropriate daemon by calling 'telinit A' or 'telinit B'. The appropriate getty is put on the line until the first call is received. When the caller terminates the connection, the getty drops because, by definition, on demand will not respawn. The other two letters, S and Q, are special. S brings you system to maintenance mode and is the same as changing state to runlevel 1. The Q is used to tell init to reread inittab. The /etc/inittab file can be changed as often as required, but will only be read under certain circumstances: -One of its processes dies (do you need to respawn another?) -On a powerful signal from a power daemon (or a command line) -When told to change state by telinit The Q argument tells init to reread the /etc/inittab file. Even though it is called the System V runlevel system runlevels 7-9 are legitimate runlevels that can be used if necessary. The administrator must remember to alter the inittab file though and also to create the required rc?.d files.

Global inputrc for libreadline. Readline is a function that gets a line from a user and automatically edits it.

Configuration file for ISA based cards. This standard is virtually redundant in new systems. The 'isapnptools' suite of ISA Plug-And-Play configuration utilities is used to configure such devices. These programs are suitable for all systems, whether or not they include a PnP BIOS. In fact, PnP BIOS adds some complications because it may already activate some cards so that the drivers can find them, and these tools can unconfigure them, or change their settings causing all sorts of nasty effects.

ISDN configuration files.

Output by getty before the login prompt. Usually contains a short description or welcoming message to the system. The contents are up to the system administrator. Debian GNU/\s 3.0 \n \l

Presents the welcome screen to users who login remotely to your machine (whereas /etc/issue determines what a local user sees on login). Debian GNU/%s 3.0 %h

KDE initialization scripts and KDM configuration.

Location for the K Desktop Manager files. kdm manages a collection of X servers, which may be on the local host or remote machines. It provides services similar to those provided by init, getty, and login on character-based terminals: prompting for login name and password, authenticating the user, and running a session. kdm supports XDMCP (X Display Manager Control Protocol) and can also be used to run a chooser process which presents the user with a menu of possible hosts that offer XDMCP display management.

System wide KDE initialization script. Commands here executed every time the KDE environment is loaded. It's a link to /etc/kde2/system.kdeglobals

X libraries.

Local libraries.

Configuration file for the Linux boot loader 'lilo'. 'lilo' is the original OS loader and can load Linux and others. The 'lilo' package normally contains lilo (the installer) and boot-record-images to install Linux, OS/2, DOS and generic Boot Sectors of other Oses. You can use Lilo to manage your Master Boot Record (with a simple text screen, text menu or colorful splash graphics) or call 'lilo' from other boot-loaders to jump-start the Linux kernel.

This file lists locales that you wish to have built. You can find a list of valid supported locales at /usr/share/i18n/SUPPORTED. Other combinations are possible, but may not be well tested. If you change this file, you need to re-run locale-gen.

Locale name alias data base.

Configuration control definitions for the login package. An inordinate number of attributes can be altered via this single file such as the location of mail, delay in seconds after a failed login, enabling display of fail log information, display of unknown username login failures, shell environment variables, etc....

The logrotate utility is designed to simplify the administration of log files on a system which generates a lot of log files. Logrotate allows for the automatic rotation compression, removal and mailing of log files. Logrotate can be set to handle a log file daily, weekly, monthly or when the log file gets to a certain size. Normally, logrotate runs as a daily cron job.

# see "man logrotate" for details # rotate log files weekly weekly # keep 4 weeks worth of backlogs rotate 4 # create new (empty) log files after rotating old ones create # uncomment this if you want your log files compressed #compress # packages drop log rotation information into this directory include /etc/logrotate.d # no packages own wtmp, or btmp -- we'll rotate them here /var/log/wtmp { monthly create 0664 root utmp rotate 1 } /var/log/btmp { missingok monthly create 0664 root utmp rotate 1 } # system-specific logs may be configured here

Configuration file for ltrace (Library Call Tracer). It tracks runtime library calls in dynamically linked programs. 'ltrace' is a debugging program which runs a specified command until it exits. While the command is executing, ltrace intercepts and records the dynamic library calls which are called by the executed process and the signals received by that process. It can also intercept and print the system calls executed by the program. The program to be traced need not be recompiled for this, so you can use it on binaries for which you don't have the source handy. You should install ltrace if you need a sysadmin tool for tracking the execution of processes.

Magic local data and configuration file for the file(1) command. Contains the descriptions of various file formats based on which file guesses the type of the file. Insert here your local magic data. Format is described in magic(5).

Initialization file for 'mail'. 'mail' is an intelligent mail processing system which has a command syntax reminiscent of ed with lines replaced by messages. It's basically a command line version of Microsoft Outlook.

'metamail' capabilities file. The mailcap file is read by the metamail program to determine how to display non-text at the local site. The syntax of a mailcap file is quite simple, at least compared to termcap files. Any line that starts with "#" is a comment. Blank lines are ignored. Otherwise, each line defines a single mailcap entry for a single content type. Long lines may be continued by ending them with a backslash character, \. Each individual mailcap entry consists of a content-type specification, a command to execute, and (possibly) a set of optional "flag" values.

The mailcap ordering specifications. The order of entries in the /etc/mailcap file can be altered by editing the /etc/mailcap.order file. Each line of that file specifies a package and an optional mime type. Mailcap entries that match will be placed in the order of this file. Entries that don't match will be placed later.

Mail server hostname. Normally the same as the hostname.

The menu package was inspired by the install-fvwm2-menu program from the old fvwm2 package. However, menu tries to provide a more general interface for menu building. With the update-menus command from this package, no package needs to be modified for every X window manager again, and it provides a unified interface for both text-and X-oriented programs.

When a package that wants to add something to the menu tree gets installed, it will run update-menus in its postinstall script. Update-menus then reads in all menu files in /etc/menu/ /usr/lib/menu and /usr/lib/menu/default, and stores the menu entries of all installed packages in memory. Once that has been done, it will run the menu-methods in /etc/menu-methods/*, and pipe the information about the menu entries to the menu-methods on stdout, so that the menu-methods can read this. Each Window Manager or other program that wants to have the debian menu tree, will supply a menu-method script in /etc/menu-methods/. This menu-method then knows how to generate the startup-file for that window manager. To facilitate this task for the window-manager maintainers, menu provides a install-menu program. This program can generate the startup files for just about every window manager.

Configuration files for use of mgetty as the interface on the serial port. The mgetty routine special routine has special features for handling things such as dial up connections and fax connections.

MIME-TYPES and the extensions that represent them. This file is part of the "mime-support" package. Note: Compression schemes like "gzip", "bzip", and "compress" are not actually "mime-types". They are "encodings" and hence must _not_ have entries in this file to map their extensions. The "mime-type" of an encoded file refers to the type of data that has been encoded, not the type of the encoding.

'minicom' configuration files. 'minicom' is a communication program which somewhat resembles the shareware program TELIX but is free with source code and runs under most unices. Features include dialling directory with auto-redial, support for UUCP-style lock files on serial devices, a separate script language interpreter, capture to file, multiple users with individual configurations, and more.

List of modules to be loaded at startup.

# /etc/modules: kernel modules to load at boot time. # # This file should contain the names of kernel modules that are # to be loaded at boot time, one per line. Comments begin with # a "#", and everything on the line after them are ignored. unix af_packet via-rhine cmpci ne2k-pci nvidia

### This file is automatically generated by update-modules" # # Please do not edit this file directly. If you want to change or add # anything please take a look at the files in /etc/modutils and read # the manpage for update-modules. # ### update-modules: start processing /etc/modutils/0keep # DO NOT MODIFY THIS FILE! # This file is not marked as conffile to make sure if you upgrade modutils # it will be restored in case some modifications have been made. # # The keep command is necessary to prevent insmod and friends from ignoring # the builtin defaults of a path-statement is encountered. Until all other # packages use the new `add path'-statement this keep-statement is essential # to keep your system working keep ### update-modules: end processing /etc/modutils/0keep ### update-modules: start processing /etc/modutils/actions # Special actions that are needed for some modules # The BTTV module does not load the tuner module automatically, # so do that in here post-install bttv insmod tuner post-remove bttv rmmod tuner ### update-modules: end processing /etc/modutils/actions ### update-modules: start processing /etc/modutils/aliases # Aliases to tell insmod/modprobe which modules to use # Uncomment the network protocols you don't want loaded: # alias net-pf-1 off # Unix # alias net-pf-2 off # IPv4 # alias net-pf-3 off # Amateur Radio AX.25 # alias net-pf-4 off # IPX # alias net-pf-5 off # DDP / appletalk # alias net-pf-6 off # Amateur Radio NET/ROM # alias net-pf-9 off # X.25 # alias net-pf-10 off # IPv6 # alias net-pf-11 off # ROSE / Amateur Radio X.25 PLP # alias net-pf-19 off # Acorn Econet alias char-major-10-175 agpgart alias char-major-10-200 tun alias char-major-81 bttv alias char-major-108 ppp_generic alias /dev/ppp ppp_generic alias tty-ldisc-3 ppp_async alias tty-ldisc-14 ppp_synctty alias ppp-compress-21 bsd_comp alias ppp-compress-24 ppp_deflate alias ppp-compress-26 ppp_deflate # Crypto modules (see http://www.kerneli.org/) alias loop-xfer-gen-0 loop_gen alias loop-xfer-3 loop_fish2 alias loop-xfer-gen-10 loop_gen alias cipher-2 des alias cipher-3 fish2 alias cipher-4 blowfish alias cipher-6 idea alias cipher-7 serp6f alias cipher-8 mars6 alias cipher-11 rc62 alias cipher-15 dfc2 alias cipher-16 rijndael alias cipher-17 rc5 ### update-modules: end processing /etc/modutils/aliases ### update-modules: start processing /etc/modutils/ltmodem-2.4.18 # lt_drivers: autoloading and insertion parameter usage alias char-major-62 lt_serial alias /dev/tts/LT0 lt_serial alias /dev/modem lt_serial # options lt_modem vendor_id=0x115d device_id=0x0420 Forced=3,0x130,0x2f8 # section for lt_drivers ends ### update-modules: end processing /etc/modutils/ltmodem-2.4.18 ### update-modules: start processing /etc/modutils/paths # This file contains a list of paths that modprobe should scan, # beside the once that are compiled into the modutils tools # themselves. ### update-modules: end processing /etc/modutils/paths ### update-modules: start processing /etc/modutils/ppp alias /dev/ppp ppp_generic alias char-major-108 ppp_generic alias tty-ldisc-3 ppp_async alias tty-ldisc-14 ppp_synctty alias ppp-compress-21 bsd_comp alias ppp-compress-24 ppp_deflate alias ppp-compress-26 ppp_deflate ### update-modules: end processing /etc/modutils/ppp ### update-modules: start processing /etc/modutils/setserial # # This is what I wanted to do, but logger is in /usr/bin, which isn't # loaded when the module is first loaded into the kernel at boot time! # #post-install serial /etc/init.d/setserial start | #logger -p daemon.info -t "setserial-module reload" #pre-remove serial /etc/init.d/setserial stop | #logger -p daemon.info -t "setserial-module uload" # alias /dev/tts serial alias /dev/tts/0 serial alias /dev/tts/1 serial alias /dev/tts/2 serial alias /dev/tts/3 serial post-install serial /etc/init.d/setserial modload > /dev/null 2> /dev/null pre-remove serial /etc/init.d/setserial modsave > /dev/null 2> /dev/null ### update-modules: end processing /etc/modutils/setserial ### update-modules: start processing /etc/modutils/arch/i386 alias parport_lowlevel parport_pc alias char-major-10-144 nvram alias binfmt-0064 binfmt_aout alias char-major-10-135 rtc ### update-modules: end processing /etc/modutils/arch/i386

These utilities are intended to make a Linux modular kernel manageable for all users, administrators and distribution maintainers.

Debian default mtools configuration file. The mtools series of commands work with MS-DOS files and directories on floppy disks. This allows you to use Linux with MS-DOS formatted diskettes on DOS and Windows systems.

This file is used by the man_db package to configure the man and cat paths. It is also used to provide a manpath for those without one by examining their PATH environment variable. For details see the manpath(5) man page.

Was formally named /etc/fdprm. See /etc/fdprm for further details.

The message of the day, automatically output after a successful login. Contents are up to the system administrator. Often used for getting information to every user, such as warnings about planned downtimes. Linux debian.localdomain.com 2.4.18 #1 Sat Mar 15 00:17:39 EST 2003 i686 unknown Most of the programs included with the Debian GNU/Linux system are freely redistributable; the exact distribution terms for each program are described in the individual files in /usr/share/doc/*/copyright Debian GNU/Linux comes with ABSOLUTELY NO WARRANTY, to the extent permitted by applicable law.

List of currently mounted filesystems. Initially set up by the bootup scripts, and updated automatically by the mount command. Used when a list of mounted filesystems is needed, e.g., by the df command. This file is sometimes a symbolic link to /proc/mounts.

List of networks that the system is currently located on. For example, 192.168.0.0.

System Database/Name Service Switch configuration file.

OSS (Open Sound System) configuration file.

This directory is the home of the configuration files for PAMs, Pluggable Authentication Modules.

Holds your postfix configuration files. Postfix is now the MTA of choice among Linux distributions. It is sendmail-compatible, offers improved speed over sendmail, ease of administration and security. It was originally developed by IBM and was called the IBM Secure Mailer and is used in many large commercial networks. It is now the de-facto standard.

The place where your dial-up configuration files are placed. More than likely to be created by the text menu based pppconfig or other GUI based ppp configuration utilities such as kppp or gnome-ppp.

Most programs use a file under the /etc/pam.d/ directory to setup their PAM service modules. This file is and can be used, but is not recommended.

Paper size configuration file.

Default papersize.

This is the 'old' password file, It is kept for compatibility and contains the user database, with fields giving the username, real name, home directory, encrypted password, and other information about each user. The format is documented in the passwd man(ual) page.

root:x:0:0:root:/root:/bin/bash daemon:x:1:1:daemon:/usr/sbin:/bin/sh bin:x:2:2:bin:/bin:/bin/sh sys:x:3:3:sys:/dev:/bin/sh sync:x:4:100:sync:/bin:/bin/sync games:x:5:100:games:/usr/games:/bin/sh man:x:6:100:man:/var/cache/man:/bin/sh lp:x:7:7:lp:/var/spool/lpd:/bin/sh mail:x:8:8:mail:/var/mail:/bin/sh news:x:9:9:news:/var/spool/news:/bin/sh uucp:x:10:10:uucp:/var/spool/uucp:/bin/sh proxy:x:13:13:proxy:/bin:/bin/sh postgres:x:31:32:postgres:/var/lib/postgres:/bin/sh www-data:x:33:33:www-data:/var/www:/bin/sh backup:x:34:34:backup:/var/backups:/bin/sh operator:x:37:37:Operator:/var:/bin/sh list:x:38:38:SmartList:/var/list:/bin/sh irc:x:39:39:ircd:/var:/bin/sh gnats:x:41:41:Gnats Bug-Reporting System (admin):/var/lib/gnats:/bin/sh nobody:x:65534:65534:nobody:/home:/bin/sh binh:x:1000:1000:,,,:/home/binh:/bin/bash identd:x:100:65534::/var/run/identd:/bin/false sshd:x:101:65534::/var/run/sshd:/bin/false gdm:x:102:101:Gnome Display Manager:/var/lib/gdm:/bin/false telnetd:x:103:103::/usr/lib/telnetd:/bin/false dummy:x:1001:1001:,,,:/home/dummy:/bin/bash

Old /etc/passwd file.

Printer configuration (capabilities) file. The definition of all system printers, whether local or remote, is stored in this file. Its layout is similar to that of /etc/termcap but it uses a different syntax.

Files and commands to be executed at login or startup time by the Bourne or C shells. These allow the system administrator to set global defaults for all users.

Shells scripts to be executed upon login to the Bourne or C shells. These scripts are normally ca