I'm sure you've read the licenses that come with most commercial software - they say you can only use one copy of the software on one computer. The Debian GNU/Linux System isn't like that. We encourage you to put a copy on every computer in your school or place of business. Lend it to your friends, and help them install it on their computers. You can even make thousands of copies and sell them - with a few restrictions. That's because Debian is based on free software.
Free software doesn't mean that it doesn't have a copyright, and it doesn't mean that the CD you buy containing this software is distributed at no charge, it simply means that the licenses of individual programs do not require you to pay for the privilege of copying the programs. There are other sorts of restrictions on how you copy the software, which you can read about once you've installed the system. For example, many of the programs in the system are licensed under the GNU General Public License, or GPL. The GPL requires that you make the source code of the programs available whenever you distribute a copy of the program. Thus, we've included the source code for all of those programs in the Debian system. There are several other forms of copyright and software license used on the programs in Debian. You can find the copyrights and licenses of every program by looking in the directory /usr/doc/program-name/copyright once you've installed your system.
The most important legal notice is that this software comes with no warranties. People who write free software can't afford to be sued.
Your computer must have a 386, 486, Pentium, or Pentium Pro processor, or one of the clones of those processors made by manufacturers such as Cyrix, AMD, TI, IBM, etc. If your processor has letters like "sx", "sl", "slc", etc. after the number as in "386sx", that's fine. The system will not run on the 286 or lower processors.
Your computer must use the ISA, EISA, PCI, or VL bus. The VL bus is also known as VESA Local Bus or VLB. Computers that have PCI or VLB generally have ISA or EISA slots as well. Linux offers some support for the Micro-Channel bus used in IBM PS/2 computers, but this is not included on the Debian rescue disk.
You must have at least 4MB of RAM and 40MB of hard disk. If you want to install everything from the chess game through the printed-circuit design software, you'll need 300MB or more. The disk interfaces that emulate the "AT" hard disk interface which are often called MFM, RLL, IDE, or ATA are supported. SCSI disk controllers from many different manufacturers are supported. See the Linux Hardware Compatibility HOWTO for more details.
You must have a 1.2MB or 1.44MB floppy disk drive as the a: drive in the system upon which you will install Linux. If you have both a 1.2MB and a 1.44MB drive, you should configure the hardware so that the 1.44MB drive is a:, if this is not too difficult.
You should be using a VGA-compatible display interface for the console terminal. Nearly every modern display card is compatible with VGA. CGA, MDA, or HGA might work OK for text, but they won't work with the X Window System, and we haven't tested them. Use of a serial terminal for the console is not yet supported.
Linux supports a large variety hardware devices such as mice, printers, scanners, modems, network cards, etc. However, none of these devices are required while installing the system.
Before you start, make sure to back up every file that is now on your system. The installation procedure can wipe out all of the data on a hard disk!
Besides this document, you'll need the cfdisk manual page, the Dselect Tutorial, the Linux Hardware Compatibility HOWTO, and the X11 Release note for non-US-keyboard users.
If your computer is connected to a network, you should ask your network's system administrator for this information:
There are some hardware details you should look into. First, decide which disk you want to place the Linux system on. You've backed that up along with your other disks already, right?
Your motherboard probably provides a BIOS set-up menu. Some systems start this menu if you press DEL while the system is booting, some require a SETUP disk, and some have other means of invoking the BIOS set-up menu. If you can start this menu, use it to control the features discussed in the following several paragraphs.
Many BIOS set-up menus allow you to select the devices that will be used to bootstrap the system. Set this to look for a bootable operating system on a:, (the first floppy disk), and then c: (the first hard disk). Since you'll boot Linux from a floppy while installing it, it's important that the BIOS enables booting from a floppy disk.
If your system provides both extended and expanded memory, set it so that there is as much extended and as little expanded memory as possible. Linux requires extended memory and can not use expanded memory.
Disable any virus-warning features your BIOS may provide. If you have a virus-protection board or other special hardware, make sure it is disabled or physically removed while running Linux. These aren't compatible with Linux, and Linux has a better method of protecting you from viruses.
Your motherboard probably provides shadow RAM. You may see settings for "Video BIOS Shadow", "C800-CBFF Shadow", etc. Disable all shadow RAM. Shadow RAM is used to accellerate access to the ROMs on your motherboard and on some of the controller cards. Linux avoids using these ROMs once it has booted because it provides its own faster 32-bit software in place of the 16-bit programs in the ROMs. Disabling the shadow RAM may make some of it available for programs to use as normal memory. Leaving the shadow RAM enabled may interfere with Linux access to hardware devices.
If your motherboard provides Advanced Power Management (APM), configure it so that power management is controlled by APM. Disable the doze, standby, suspend, nap, and sleep modes, and disable the hard-disk power-down timer. Linux can take over control of these modes, and can do a better job of power-management than the BIOS. The version of the operating system kernel on the installation floppies does not, however, use APM, because we've had reports of one laptop system crashing when the Linux APM driver is configured. Once you've installed Linux, you can install the kernel-source package and build a custom-configured version of the operating system kernel to enable APM and other features.
If your BIOS offers something like "15-16 MB Memory Hole", please disable that. Linux expects to find memory there if you have that much RAM.
We have a report of an Intel Endeavor motherboard on which there is an option called "LFB" or "Linear Frame Buffer". This had two settings: "Disable" and "1 Megabyte". Set it to "1 Megabyte". When disabled, the installation floppy was not read correctly, and the system eventually crashed. At this writing we don't understand what's going on with this particular device - it just worked with that setting and not without it.
If any cards provide "mapped memory", the memory should be mapped somewhere between 0xA0000 and 0xFFFFF (from 640K to just below 1 megabyte) or at an address at least 1 megabyte greater than the total amount of RAM in your system.
A disturbing trend is the proliferation of Windows modems and printers. In some cases these are specially designed to be operated by the Microsoft Windows operating system and bear the legend Made expecially for Windows-based computers. This is generally done by removing the embedded processors of the hardware and shifting the work they do over to a Windows driver that is run by your computer's main CPU. This strategy makes the hardware less expensive, but the savings are often not passed on to the user and this hardware may even be more expensive than equivalent devices that retain their embedded intellegence.
You should avoid windows-specific hardware for two reasons. The first is that the manufacturers do not generally make the resources available to write a Linux driver. Generally, the hardware and software interface to the device is proprietary, and documentation is not available without a non-disclosure agreement, if it is available at all. This precludes its being used for free software, since free software writers disclose the source code of their programs. The second reason is that when devices like these have had their embedded processors removed, the operating system must perform the work of the embedded processors, often at real-time priority, and thus the CPU is not available to run your programs while it is driving these devices. Since the typical Windows user does not multi-process as intensively as a Linux user, the manufacturers hope that the Windows user simply won't notice the burden this hardware places on their CPU. However, any multi-processing operating system, even Windows 95 or NT, is degraded when peripheral manufacturers skimp on the embedded processing power of their hardware.
You can help this situation by encouraging these manufacturers to release the documentation and other resources necessary for us to program their hardware, but the best strategy is simply to avoid this sort of hardware until it is listed as working in the Linux Hardware Compatibility HOWTO.
Some hardware manufacturers simply won't tell us how to write drivers for their hardware, or they won't allow us access to the documentation without a non-disclosure agreement that would prevent us from releasing the Linux source code. One example is the IBM laptop DSP sound system used in recent ThinkPad systems - some of these systems also couple the sound system to the modem. Since we haven't been granted access to the documentation on these devices, they simply won't work under Linux. You can help by asking the manufacturers of such hardware to release the documentation. If enough people ask, they will realize that Linux is an important market. The Linux Hardware Compatibility HOWTO provides information about what devices currently have Linux drivers.
If your a: drive of the system upon which you will install Linux uses 1.44MB floppy disks, you will need these files: resq1440.bin, drv1440.bin , base14-1.bin, base14-2.bin, base14-3.bin, and base14-4.bin. If your a: drive uses 1.2MB floppies, you'll need resq1200.bin, drv1200.bin, base12-1.bin, base12-2.bin, base12-3.bin, and base12-4.bin. If you are using a web browser on a networked computer to read this document, you can probably retrieve the files by clicking on their names in your web browser. Otherwise, you can retrieve them from ftp://ftp.debian.org/debian/rex/disks-i386/current, or a similar directory in any of the Debian FTP mirror sites. All of these are floppy disk image files, which means that each file contains the complete contents of a floppy disk in raw form. A special program is used to write the image files to floppy disk in raw mode.
Find 7 formatted floppy disks. Mark these as "Rescue", "Device Drivers", "Custom Boot", "Base 1", "Base 2", "Base 3", and "Base 4".
Here is the filename-to-disk-label correspondence:
resq1440.bin or resq1200.bin: "Rescue Floppy"
drv1440.bin or drv1200.bin: "Device Drivers Floppy"
base14-1.bin or base12-1.bin: "Base 1"
and so on for "Base 2", "Base 3", and "Base 4".
No file is written to the Custom Boot floppy, that will be written by the Debian system while it is being installed.
You'll find the rawrite2.exe program in the /debian/tools directory. There's also a rawrite2.txt file containing instructions for rawrite2.exe .
To write the floppy disk image files to the floppy disks, use the command
rawrite2 file drive
where file is one of the floppy disk image files, and drive is either a: or b:.
Some workstations attempt to automaticaly mount a floppy disk when you place it in the drive. You might have to disable this feature before the workstation will allow you to write a floppy in raw mode. Unfortunately, I don't know the command necessary to do this for your particular workstation. Ask your system administrator.
To write the floppy disk image files to the floppy disks, use the command
dd if=file of=/dev/fd0 bs=512 conv=sync ; sync
where file is one of the floppy disk image files. /dev/fd0 is a commonly used name of the floppy-disk device, it may be different on your workstation. The command may return to the prompt before Unix has finished writing the floppy disk, so look for the disk-in-use light on the floppy drive and be sure that the light is out and the disk has stopped revolving before you remove it from the drive. On some systems, you'll have to run a command to eject the floppy from the drive.
The number one problem of people installing Debian for the first time seems to be floppy-disk reliability.
The Rescue Floppy is the one with the worst problems, because that floppy is read by BIOS before Linux boots. BIOS doesn't seem to read as reliably as the Linux floppy disk driver, and may just stop without printing an error message if it reads incorrect data. There can also be failures in the drivers floppy and the base floppies, most of which indicate themselves with a flood of messages about disk I/O errors.
If you are having the installation stall at a particular floppy, the first thing you should do is re-download the floppy disk image and write it to a different floppy. Simply reformatting the old floppy is not sufficient, even if it appears that the floppy was reformatted and written with no errors. It's sometimes useful to try writing the floppy on a different system.
One user reports he had to write three boot floppies before one worked, and then everything was fine with the third floppy.
We also have several users who report floppy disk reliability problems that seem to be linked to Cyrix CPUs. We don't fully understand the problem. It doesn't happen to every Cyrix system. We doubt it's a fault in the Cyrix CPU - a problem with the BIOS or the Linux kernel is more likely. If you think it's happening to you, tell us.
Place the Rescue floppy in the a: floppy drive, and reset the system by pressing reset, turning the system off and then on, or by pressing Control-Alt-Del on the keyboard. The floppy disk should be accessed, and you should then see a screen that introduces the rescue floppy and ends with the boot: prompt. It's called the Rescue floppy because you can use it to boot your system and perform repairs if there is ever a problem that makes your hard disk unbootable. Thus, you should save this floppy after you've installed your system.
You can do two things at the boot: prompt. You can press the function keys F1 through F10 to view a few pages of helpful information, or you can boot the system. If you have any hardware devices that aren't made accessable from Linux correctly when Linux boots, you may find a parameter to add to the boot command line in the screens you see by pressing F3, F4, and F5. If you add any parameters to the boot command line, be sure to type the word linux and a space before the first parameter. If you simply press Enter, that's the same as typing linux without any special parameters.
If this is the first time you're booting the system, just press Enter and see if it works correctly. It probably will. If not, you can reboot later and look for any special parameters that inform the system about your hardware.
Once you press Enter, you should see the message Loading..., and then Uncompressing Linux..., and then a page or so of cryptic information about the hardware in your system. There may be a many messages in the form can't find something, or something not present, can't initialize somethjing, or even this driver release depends on something. Most of these messages are harmless. You see them because the installation boot disk is built to run on computers with many different peripheral devices. Obviously, no one computer will have every possible peripheral device, so the operating system may emit a few complaints while it looks for peripherals you don't own. You may also see the system pause for a while. This happens when it is waiting for a device to respond, and that device is not present on your system. If you find the time it takes to boot the system unacceptably long, you can create a custom kernel once you've installed your system without all of the drivers for non-existant devices.
If you system has 4MB RAM, you may now see a paragraph about low memory and a text menu with three choices. If your system has enough RAM you won't see this at all, and you'll go directly to the color-or-monochrome dialog box. If you get the low-memory menu, you should go through its selections in order. Partition your disk, activate the swap partition, and start the graphical installation system. The program that is used to partition your disk is called cfdisk, and you should use the manual page for cfdisk as an aid in its operation. Use cfdisk to create a Linux Swap partition (type 82). You need the swap partition to provide virtual memory during the installation process, since that process will use more memory than you have in your system. Select the size for the amount of virutal memory you intend to use once your system is installed. 16 megabytes is probably the lowest amount that's practical, use 32 megabytes if you can spare the space, and 64 if your disk is large enough that you won't miss that much.
Once the system has finished booting, you should see the color or monochrome choice dialog box. If your monitor displays black-and-white, press Enter to continue with the installation. Otherwise, use the arrow key to move the cursor to the Color menu item and then press Enter. The display should change from black-and-white to color. Then press Enter again to continue with the installation.
You may see a dialog box that says The installation program is determining the current state of your system. On some systems, this will go by too quickly to read. You'll see this dialog box between steps in the main menu. The installation program will check the state of the system in between each step. This checking allows you to re-start the installation without losing the work you have already done if you happen to halt your system in the middle of the installation process. If you have to restart an installation, you will have to configure color-or-monochrome, configure your keyboard, re-activate your swap partition, and re-mount any disks that have been initialized. Anything else that you have done with the installation system will be saved.
During the entire installation process, you will be presented with the main menu. The choices at the top of the menu will change to indicate your progress in installing the system. Phil Hughes wrote in Linux Journal that you could teach a chicken to install Debian! He meant that the installation process was mostly just pecking at the return key. The first choice on the installation menu is the next action that you should perform according to what the system detects you have already done. It should say Next, and at this point the next item should be Configure the Keyboard.
Make sure the highlight is on the Next item, and Press Enter to go to the keyboard configuration menu. Select a keyboard that conforms to the layout used for your national language, or select something close if the keyboard layout you want isn't represented. Once the system is installed, you'll be able to select a keyboard layout from a wider range of choices. Move the highlight to the keyboard selection you desire and press enter. Use the arrow keys to move the highlight - they are in the same place in all national language keyboard layouts, so they are independent of the keyboard configuration.
If you are an experienced Unix or Linux user, press LeftAlt-F2 to get to the second virtual console. That's the Alt key on the left-hand side of the space bar, and the F2 function key, at the same time. This is a separate window running a Bourne shell clone called ash. At this point you are booted from the RAM disk, and there is a limited set of Unix utilities available for your use. You can see what programs are available with the command ls /bin /sbin /usr/bin /usr/sbin. Use the menus to perform any task that they are able to do - the shell and commands are only there in case something goes wrong. In particular, you should always use the menus, not the shell, to activate your swap partition, because the menu software can't detect that you've done this from the shell. Press LeftAlt-F1 to get back to menus. Linux provides up to 64 virtual consoles, although the Rescue floppy only uses a few of them.
Did we tell you to back up your disks? Here's your first chance to wipe out all of the data on your disks, and your last chance to save your old system. If you haven't backed up all of your disks, remove the floppy from the drive, reset the system, and run backups.
If you have not already partitioned your disks for Linux native and Linux swap filesystems, the menu item Next will be Partition a Hard Disk. If you have already created at least one Linux Native and one Linux Swap disk partition, the Next menu selection will be Initialize and Activate the Swap Disk Partition, or you may even skip that step if your system had low memory and you were asked to activate the swap partition as soon as the system started. Whatever the Next menu selection is, you can use the down-arrow key to select Partition a Hard Disk.
The Partition a Hard Disk menu item presents you with a list of disk drives you can partition, and runs the cfdisk program, which allows you to create and edit disk partitions. The cfdisk manual page is included with this document, and you should read it now. You must create one "Linux" (type 83) disk partition, and one "Linux Swap" (type 82) partition.
Your swap partition will be used to provide virtual memory for the system and should be between 16 and 128 megabytes in size, depending on how much disk space you have and how many large programs you want to run. Linux will not use more than 128 megabytes of swap, so there's no reason to make your swap partition larger than that. a swap partition is strongly recommended, but you can do without one if you insist, and if your system has more than 16 megabytes of RAM. If you wish to do this, please select the Do Without a Swap Partition item from the menu.
The "Linux" disk partition will hold all of your files, and you may make it any size between 40 megabytes and the maximum size of your disk minus the size of the swap partition. If you are already familiar with Unix or Linux, you may want to make additional partitions - for example, you can make partitions that will hold the /var, and /usr, filesystems.
This will be the Next menu item once you have created one disk partition. You have the choice of initializing and activating a new swap partition, activating a previously-initialized one, and doing without a swap partition. It's always permissible to re-initialize a swap partition, so select Initialize and Activate the Swap Disk Partition unless you are sure you know what you are doing. This menu choice will give you the option to scan the entire partition for un-readable disk blocks caused by defects on the surface of the hard disk platters. This is useful if you have MFM, RLL, or older SCSI disks, and never hurts. Properly-working IDE disks don't need this choice, as they have their own internal mechanism for mapping out bad disk blocks.
The swap partition provides virtual memory to supplement the RAM memory that you've installed in your system. It's even used for virtual memory while the system is being installed. That's why we initialize it first.
At this point, the Next menu item should be Initialize a Linux Disk Partition. If it isn't, it's because you haven't completed the disk partitioning process, or you haven't made one of the menu choices dealing with your swap partition.
You can initialize a Linux Disk partition, or alternatedly you can mount a previously-initialized one.
These floppies will not upgrade an old system without removing the files - Debian provides a different procedure than using the boot floppies for upgrading existing Debian systems. Thus, if you are using old disk partitions that are not empty, you should initialize them (which erases all files) here. You must initialize any partitions that you created in the disk partitioning step. About the only reason to mount a partition without initializing it at this point would be to mount a partition upon which you have already performed some part of the installation process using this same set of installation floppies.
Select the Next menu item to initialize and mount the / disk partition. The first partition that you mount or initialize will be the one mounted as / (pronounced root). You will be offered the choice to scan the disk partition for bad blocks, as you were when you initialized the swap partition. It never hurts to scan for bad blocks, but it could take 10 minutes or more to do so if you have a large disk.
Once you've mounted the / partition, the Next menu item will be Install the Base System unless you've already performed some of the installation steps. You can use the arrow keys to select the menu items to initialize and/or mount disk partitions if you have any more partitions to set up. If you have created separate partitions for /var, /usr, or other filesystems, you should initialize and/or mount them now.
This should be the Next menu step after you've mounted your / disk, unless you've already performed some of the installation steps on /. Select the Install the Base System menu item. There will be a pause while the system looks for a "local copy" of the base system. This search is for CD-ROM installations and will not succeed, and you'll be offered a menu of drives to use to read the base floppies. Select the appropriate drive. Feed in the Base 1, 2, and 3 (and 4 if you are using 1.2MB floppies) as requested by the program. If one of the base floppies is unreadable, you'll have to create a replacement floppy and feed all 3 (or 4) floppies into the system again. Once the floppies have all been read, the system will install the files it's read from them. This could take 10 minutes or more on slow systems, less on faster ones.
At this point, the Next menu item should be Install the Operating System Kernel. Select it, and you will be prompted to select a floppy drive and insert the rescue floppy. This will copy the kernel on to the hard disk. In a later step this kernel will be used to create a custom boot floppy for your system, and to make the hard disk bootable without a floppy.
Select the menu item to install the device drivers, and you'll be prompted to insert the device drivers floppy. The device drivers will be copied to your hard disk. Select the Configure Device Drivers menu item and look for devices that are on your system. Configure those device drivers, and they will be loaded whenever your system boots.
There is a menu selection for PCMCIA device drivers, but you need not use it . Once your system is installed, you can install the pcmcia-cs package. This detects PCMCIA cards automaticaly, and configures the ones it finds. It also copes with hot-plugging the cards whiule the system is booted - they will all be configured as they are plugged in, and de-confugured when you unplug them.
At this point you've read in all of the files that make up a minimal Debian system, but you must perform some configuration before the system will run. Select the Configure the Base System menu item.
You'll be asked to select your time zone. Look for your time zone or region of the world in the menu, and type it at the prompt. This may lead to another menu, in which you can select your actual time zone.
Next, you'll be asked if your system clock is to be set to GMT or local time. Select GMT if you will only be running Linux and Unix on your system, and select local time if you will be running another operating system such as DOS or Windows. Unix and Linux keep GMT time on the system clock and use software to convert it to the local time zone. This allows them to keep track of daylight savings time and leap years, and even allows users who are logged in from other time zones to individually set the time zone used on their terminal. If you run the system clock on GMT and your locality uses daylight savings time, you'll find that the system adjusts for daylight savings time properly on the days that it starts and ends.
You'll have to configure the network even if you don't have a network, but you'll only have to answer the first two questions - what is the name of your computer?, and is your system connected to a network?.
If you are connected to a network, here come some questions that you may not be able to figure out on your own - check with your system administrator if you don't know:
Some technical details you might, or might not, find handy: the program will guess that the network IP address is the bitwise-AND of your system's IP address and your netmask. It will guess the broadcast address is the bitwise OR of your system's IP address with the bitwise negation of the netmask. It will guess that your gateway system is also your DNS server. If you can't find any of these answers, use the system's guesses - you can change them once the system has been installed, if necessary, by editing /etc/init.d/network .
If you select to make the hard disk boot directly to Linux, you will be asked to install a master boot record. If you aren't using a boot manager (and this is probably the case if you don't know what a boot manager is), answer yes to this question. The next question will be whether you want to boot Linux automaticaly from the hard disk when you turn on your system. This sets Linux to be the bootable partition - the one that will be loaded from the hard disk. If you answer no to this question, you can set the bootable partition later using the DOS fdisk program, or with the Linux fdisk or activate programs.
If you are installing Linux on a drive other than the first hard disk in your system, be sure to make a boot floppy. The boot ROM of most systems is only capable of directly booting from the first hard drive, not the second one. You can, however, work around this problem once you've installed your system. To do so, read the instructions in the directory /usr/doc/lilo.
You should make a boot floppy even if you intend to boot the system from the hard disk. The reason for this is that it's possible for the hard disk bootstrap to be mis-installed, but a boot floppy will almost always work. Select Make a Boot Floppy from the menu and feed the system a blank floppy as directed. Make sure the floppy isn't write-protected, as the software will format and write it. Mark this the "Custom Boot" floppy and write-protect it once it has been written.
This is what electrical engineers call the smoke test - what happens when you turn on a new system for the first time. Remove the floppy disk from the floppy drive, and select the Reboot the System menu item. If the Linux system doesn't start up, insert the Custom Boot floppy you created and reset your system. Linux should boot. You should see the same messages as when you first booted the installation boot floppy, followed by some new messages.
This is the password for the super-user, a login that bypasses all security protection on your system. It should only be used to perform system administration, and only for as short a time as possible. Do not use root as your personal login. You will be prompted to create a personal login as well, and that's the one you should use to send and receive e-mail and perform most of your work - not root. The reason to avoid using root's privileges is that you might be tricked into running a trojan-horse program - that is a program that takes advantage of your super-user power to compromise the security of your system behind your back. Any good book on Unix system administration will cover this topic in more detail - consider reading one if it's new to you. The good news is that Linux is probably more secure than other operating systems you might run on your PC. DOS and Windows, for example, give all programs super-user privilege. That's one reason that they have been so plagued by viruses.
All of the passwords you create should contain from 6 to 8 characters, and should contain both upper and lower-case characters, as well as punctuation characters.
Once you've added both logins, you'll be dropped into the dselect program. The Dselect Tutorial is required reading before you run dselect. Dselect allows you to select packages to be installed on your system. If you have a CD-ROM or hard disk containing the additional Debian packages that you want to install on your system, or you are connected to the Internet, this will be useful to you right away. Otherwise, you may want to quit dselect and start it later, once you have transported the Debian package files to your system. You must be the super-user (root) when you run dselect. If you are about to install the X Window system and you do not use a US keyboard, you should read the X11 Release note for non-US-keyboard users.
After you've quit dselect, you'll be presented with the login prompt. Log in using the personal login and password you selected. Your system is now ready to use.
The last update of this document was made on Friday, December 6 at 23:10.
Copyright 1996 Bruce Perens. This document may be distributed under the terms of the GNU General Public License.
Trademarks that are not explicitly acknowledged here are the property of their respective holders. 386, 386sx, 486, Pentium, and Pentium Pro are the property of Intel. Windows is a trademark of Microsoft. ThinkPad and PS/2 are the property of IBM.