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** Programmer's Technical Reference for MSDOS and the IBM PC **
C H A P T E R O N E
DOS AND THE IBM PC
C O N T E N T S
Some History ................................................... 1**1
What is DOS? ................................................... 1**2
Other Operating Systems ........................................ 1**3
Specific Versions of MS/PC-DOS ................................. 1**4
The Operating System Heirarchy ................................. 1**5
DOS Structure .................................................. 1**6
DOS Initialization ............................................. 1**7
Some History ................................................... 1**1
Development of MSDOS/PCDOS began in October 1980, when IBM began
searching the market for an operating system for the yet-to-be-
introduced IBM PC.
IBM had originally intended to use Digital Research's (actually,
they had the somewhat pretentious name of "Intergalactic Digital
Research" at the time) CP/M was then the industry standard operating
system - you either ran a BASIC with disk functions, someone's
proprietary OS, or CP/M.
Folklore reports various stories about the rift between DRI and IBM.
The most popular story claims Gary Kildall or DRI snubbed the IBM
executives by flying his airplane when the meeting was scheduled.
Another story claims Kildall didn't want to release the source for
CP/M to IBM, which would be odd, since they released it to other
companies. One noted industry pundit claims Kildall's wife killed the
deal by insisting on various contract changes. I suspect the deal was
killed by the good ol' boy network. It's hard to imagine a couple of
junior IBM executives giving up when ordered to a task as simple as
licensing an operating system from a vendor. It wouldn't look good on
their performance reports. It would be interesting to hear IBM's
story...
IBM then talked to a small company called Microsoft. Microsoft
was a language vendor. Bill Gates and Paul Allen had written
Microsoft BASIC and were selling it on punched tape or disk to early
PC hobbyists, which was probably a step up from the company's original
name and goal - they were Traf-O-Data before, making car counters for
highway departments.
Microsoft had no 8086 real operating system to sell, but quickly made
a deal to license Seattle Computer Products' 86-DOS operating system,
which had been written by Tim Paterson earlier in 1980 for use on that
company's line of 8086, S100 bus micros. 86-DOS (also called QDOS, for
Quick and Dirty Operating System) had been written as more or less a
16-bit version of CP/M, since Digital Research was showing no hurry in
introducing CP/M-86. Paterson's DOS 1.0 was approximately 4000 lines of
assembler source.
This code was quickly polished up and presented to IBM for
evaluation.
IBM found itself left with Microsoft's offering of "Microsoft Disk
Operating System 1.0". An agreement was reached between the two, and
IBM agreed to accept 86-DOS as the main operating system for their new
PC. Microsoft purchased all rights to 86-DOS in July 1981, and "IBM
Personal Computer DOS 1.0" was ready for the introduction of the IBM
PC in October 1981. IBM subjected the operating system to an
extensive quality-assurance program, reportedly found well over 300
bugs, and decided to rewrite the programs. This is why PC-DOS is
copyrighted by both IBM and Microsoft.
Some early OEM versions of DOS had different names, such as Compaq-
DOS, Z-DOS, Software Bus 86, etc. By version 2 Microsoft managed to
persuade everyone but IBM to refer to the product as "MS-DOS."
It is sometimes amusing to reflect on the fact that the IBM PC was
not originally intended to run MS-DOS. The target operating system at
the end of the development was for a (not yet in existence) 8086
version of CP/M. On the other hand, when DOS was originally written
the IBM PC did not yet exist! Although PC-DOS was bundled with the
computer, Digital Research's CP/M-86 would probably have been the main
operating system for the PC except for two things - Digital Research
wanted $495 for CP/M-86 (considering PC-DOS was essentially free) and
many software developers found it easier to port existing CP/M
software to DOS than to the new version of CP/M.
The IBM PC shipped without an operating system. IBM didn't start
bundling DOS until the second generation AT/339 came out. You could
order one of three operating systems for your PC, assuming you popped
for the optional disk drive and 64k RAM upgrade (base models had 16k
and a cassette player port). These operating systems were IBM
Personal Computer DOS 1.0, a version of the UCSD p-System, which was
an integrated Pascal operating system something like the souped-up
BASIC operating systems used by the Commodore 64 and others, or
Digital Research's CP/M-86, which was officially an option although
you couldn't buy it until later. Since IBM's $39.95 DOS was far
cheaper than anyone else's alternative, darned near everyone bought
DOS.
The upgrade from DOS 3.3 to 4.0 was done in-house by IBM. DOS 4.0
was a completely IBM product, later licensed back to Microsoft. In
early 1990 IBM announced that it was ceasing development of DOS and
all further work would be done solely by Microsoft.
Microsoft Press' "MSDOS Encyclopedia" shows a reproduction of a late
DOS 1.25 OEM brochure. Microsoft was touting future enhancements to
1.25 including Xenix-compatible pipes, process forks, and
multitasking, as well as "graphics and cursor positioning, kanji
support, multi-user and hard disk support, and networking." Microsoft
certainly thought big, but, alas, the forks, multitasking, and
multiuser support never came about, at least in US versions of DOS.
Oddly, the flyer claims:
"MS-DOS has no practical limit on disk size. MS-DOS uses 4-byte XENIX
OS compatible pointers for file and disk capacity up to 4 gigabytes."
Umm... yeah. One sort of gets the idea nobody at Microsoft had a
hard disk larger than 32 megabytes...
For the record they actually delivered:
Xenix-compatible pipes:
DOS 2.0 ("|" operator)
process forks, and multitasking:
eDOS 4.0 (not delivered in the US)
multi-user:
never delivered
graphics and cursor positioning:
DOS 2.0 (ANSI.SYS)
kanji support:
DOS 2.01, 2.25 (double-byte character set)
hard disk support:
DOS 2.0 (subdirectories)
networking:
DOS 3.1 (file locking support MS Networks)
DOS 6.0 (bundled Interlink in with DOS)
Early Microsoft ads pumped DOS' Xenix-like features and promised
Xenix functionality in future releases.
We'll probably never know what the real story was behind eDOS/DOS 4/
DOS 5/286DOS/OS2. Microsoft had announced their intent to build a
multitasking, multiuser version of MSDOS as early as 1982. They
shipped betas of "DOS 4.0" in '86 and early '87, before 3.3 was even
announced. Microsoft UK announced they had licensed 4.0 to Apricot
Computer, and the French Postal Service was supposed to be running it.
I've never been able to find out if Apricot ever shipped any 4.0 to
end users.
Despite Gordon Letwin's acid comments about problems with the 80286
processor, I doubt the '286 was the barrier between users and a
multitasking MS-DOS. I also doubt there was any shortage of
programming talent at Microsoft - Digital Research's Concurrent DOS
and Software Link's PC-MOS/386 were developed without undue trouble.
MSDOS and PC-DOS have been run on more than just the IBM-PC and
clones. Some of the following have been done:
Hardware PC Emulation:
Apple II -> TransPC 8088 board
Apple MacIntosh -> AST 80286 board
Atari 400/800 -> Co-Power 88 board
Atari ST -> PC-Ditto II cartridge
Amiga 2000 -> 8088 or A2286D 80286 Bridge Board
IBM PC/RT -> 80286 AT adapter
Kaypro 2 -> Co-Power Plus board
Software PC Emulation:
Apple MacIntosh -> SoftPC
Atari ST -> PC-Ditto I
IBM RS/6000 -> DOS emulation
DOS Emulation:
AIX (IBM RS/6000) -> DOS emulation with "PCSIMulator"
OS/2 1.x -> DOS emulation in "Compatibility Box"
OS/2 2.x -> executes Virtual DOS Machine
QNX -> DOS window
SunOS -> DOS window
Xenix -> DOS emulation with DOSMerge
What Is DOS?.................................................... 1**2
DOS exists as a high-level interface between an application program
and the computer. DOS stands for "Disk Operating System", which
reflects the fact that its main original purpose was to provide an
interface between the computer and its disk drives.
DOS now lets your programs do simple memory management, I/O from the
system console, and assorted system tasks (time and date, etc) as well
as managing disk operations. Versions 3.1 and up also incorporate
basic networking functions.
With the introduction of installable device drivers and TSR
(terminate but stay resident) programs in DOS 2.0, the basic DOS
functions may be expanded to cover virtually any scale of operations
required.
Other Operating Systems ........................................ 1**3
There are a number of compatible replacements for Microsoft's MSDOS.
Some are:
Alloy 386 Multiware (multitasking control prog,
licensed DOS)
Consortium Technologies MultiDOS (multitasking, multiuser)
Digital Research Concurrent DOS (multitasking)
Digital Research Concurrent DOS 386 (for 80386 computers)
Digital Research Concurrent DOS XM (multitasking, multiuser)
Digital Research DR-DOS (PC-DOS clones)
Digital Research Multiuser DOS (multitasking, multiuser)
PC-MOS/386 (multitasking, multiuser)
Wendin-DOS (multitasking, multiuser)
VM/386 (multitasking)
X-DOS (DOS 3.31 compatible)
Various other operating systems are available for the IBM PC. These
include:
Digital Research CP/M-86
Digital Research Concurrent CP/M-86 (multitasking)
Minix (multitasking UNIX workalike)
Pick (database-operating system)
QNX (multitasking, multiuser)
UCSD p-System (Pascal interpreter and operating system)
UNIX (various systems from IBM itself, Microsoft-SCO, Bell, and
various UNIX clones, single and multi user, such as AIX,
Xenix, AT&T System V, etc.)
"Shell" programs exist which use DOS only for disk management while
they more or less comprise a new operating system. These include:
DESQview Windows OmniView
GEM TopView TaskView
GeoWorks
TopView and TaskView (later called OmniView) and Omniview are no
longer sold.
Systems using the NEC V-series CPUs can execute Intel 8080/8085 8-bit
instructions as well as the 16-bit 8088-up instructions. They can run
standard Digital Research 8-bit CP/M and MP/M directly, as well as
other operating systems developed for that processor.
Specific Versions of MS/PC-DOS ................................. 1**4
DOS 1.x is essentially 86-DOS. DOS 2.x kept the multiple file layout
(the two hidden files and COMMAND.COM) but for all practical purposes
is an entirely different operating system with backwards compatibility
with 1.x. I seriously doubt there has been much code from 1.x
retained in 2.x. DOS 3.x is merely an enhancement of 2.x; there seems
little justification for jumping a whole version number. The disk
handling routines were considerably extended in 3.1, allowing disk
access in a "virtual" fashion, independent of whether the drive was a
local or network device. DOS 4.0, originating as it did from outside
Microsoft, can justify a version jump. Unfortunately, 4.0 seemed to
have very little reason to justify its existence - virtually all of
its core features could be found in one version or another of DOS 3.x.
According to Microsoft's Gordon Letwin, DOS 5.0 was a complete rewrite
with the kernel done in hand optimized assembly language.
DOS version nomenclature: major.minor.minor. The digit to the left
of the decimal point indicates a major DOS version change. 1.0 was
the first version. 2.0 added support for subdirectories, 3.0 added
support for networking, 4.0 added some minimal support for Lotus-
Intel-Microsoft EMS.
The first minor version indicates customization for a major
application. For example, 2.1 for the PCjr, 3.3 for the PS/2s. The
second minor version does not seem to have any particular meaning.
The main versions of DOS are:
86-DOS February 1981 Paterson's Quick'n'Dirty DOS first runs
on IBM's wirewrapped PC prototype
PC-DOS 1.0 August 1981 original IBM release
PC-DOS 1.05 -------- ---- fixes to BASIC interpreter
PC-DOS 1.1 June 1982 bugfix, double sided drive support
MS-DOS 1.25 July 1982 for early compatibles. This is the first
non-IBM OEM version
PC-DOS 2.0 March 1983 for PC/XT, Unix-type subdirectory support,
installable device drivers, I/O
redirection, subdirectories, hard disk
support, handle calls
PC-DOS 1.85 April 1983 internal IBM - extended 1.1 - not released
I found a copy of this one on an old
diskette. It added a whole host of
features, including an enhanced COMMAND.COM
with command line editing. Too bad none
of the goodies made it into DOS 2.0!
MS-DOS 2.01 -------- 1983 first support for individual country
formats, Kanji
PC-DOS 2.1 October 1983 for IBM PCjr, bugfixes for 2.0.
No country support
MS-DOS 2.11 December 1983 basically a cross of PC-DOS 2.1 and
MS-DOS 2.01
MS-DOS 2.12 -------- ---- special version for TI Professional
(nonstandard video and keyboard)
PC-DOS 3.0 August 1984 1.2 meg drive for PC/AT, some new system
calls, new external programs, 16-bit FAT,
specific support for IBM network
MS-DOS 3.05 November 1984 first OEM version of 3.x
PC-DOS 3.1 November 1984 bugfix for 3.0, implemented generic
network support
MS-DOS 2.25 October 1985 extended foreign language support
PC-DOS 3.2 January 1986 720k 3.5 inch drive support, special
support for laptops (IBM PC Convertible),
XCOPY
MS-DOS 4.0 April 1986 multitasking (Europe only) - withdrawn
from market after a very short run
PC-DOS 3.3 April 1987 for PS/2 series, 1.44 meg support,
multiple DOS partition support, code page
switching, improved foreign language
support, some new function calls, support
for the AT's CMOS clock.
MS-DOS 3.31 November 1987 over-32 meg DOS partitions. Different
versions from different OEMs (not
Microsoft). Compaq and Wyse are most
common.
PC-DOS 3.4 -------- ---- internal IBM - not released (4.0
development)
MS-DOS 2.11R -------- 1988 bootable ROM DOS for Tandy machines
PC-DOS 4.0 August 1988 32mb disk limit officially broken, minor
EMS support, more new function calls,
enhanced network support for external
commands. PCjr support dropped.
MS-DOS 4.01 January? 1989 Microsoft version with some bugfixes
MS-DOS 3.21R September1989 DOS in ROM, Flash File System for laptops
MS-DOS 3.3R -------- 1990 DOS in ROM, introduced for TI laptops
MS-DOS 5.0 June 1991 high memory support, uses up to 8 hard
disks, command line editor and aliasing,
2.88 floppies, ROMable OEM kit available
MS-DOS V February 1993 Japanese-market version of 5, with double
byte Kanji character support
MS-DOS 6.0 March 1993 disk compression (Doublespace), multiple
configurations in CONFIG.SYS
IBM's PC-DOS was long considered to be the "standard" version of DOS.
Now that MS 5.0 is a commercial product most developers will probably
write to it.
Microsoft's policy was once to sell DOS only to OEMs. Despite this,
they sold small quantities of DOS 3.2, 3.3, and 4.0 without
insurmountable difficulties. DOS 5.0 was conceived from the beginning
as an over-the-counter retail product.
Incidentally, IBM refers to its DOS as "The IBM Personal Computer
DOS." The term "PC-DOS" is a trademark of IBM's rival DEC.
Some versions of MS-DOS varied from PC-DOS in the available external
commands. Some OEMs only licensed the basic operating system code (the
xxxDOS and xxxBIO programs, and COMMAND.COM) from Microsoft, and
either wrote the rest themselves or contracted them from outside
software houses like Phoenix. Most of the external programs for DOS
3.x and 4.x are written in "C" while the 1.x and 2.x utilities were
written in assembly language. Other OEMs required customized versions
of DOS for their specific hardware configurations, such as Sanyo 55x
and early Tandy computers, which were unable to exchange their DOS
with the IBM version.
PC-DOS 3.0 was extremely buggy on release. It did not handle the DOS
environment correctly and there were numerous documented problems with
the batch file parser. The network support code was also
nonfunctional in that DOS version. It is recommended that users
upgrade to at least version 3.1.
DEC MS-DOS versions 2.11 for the Rainbow had the ANSI.SYS device
driver built into the main code. The Rainbow also used a unique quad
density, single-sided floppy drive and its DOS had special support for
it.
IBM had a version 1.85 of PC-DOS in April 1983, after the
introduction of DOS 2.0. It was evidently for internal use only,
supported multiple drive file searches (a primitive form of PATH),
built in MODE sommands for screen support, a /P parameter for TYPE for
paused screens, an editable command stack like the public domain
DOSEDIT.COM utility, and could be set up to remain completely resident
in RAM instead of a resident/transient part like normal DOS. It is a
pity some of the neat enhancements didn't make it into DOS 2.0. IBM
also had an "internal use only" version 3.4, evidently used while
developing DOS 4.0.
Digital Research's DR-DOS is the first widely available DOS clone.
Version 3.4, released in June 1988, was the one first available to the
American public. It was somewhat buggy and its use is not recommended.
DR 3.41 is extremely compatible and its use should pose no problems on
any machine. DR-DOS 5.0 (released May, 1990) is functionally
equivalent to MS-DOS 5.0. For all practical purposes, MS 5.0 is a
clone of DR 5.0, since DR beat MS to market by over a year. According
to Greg Ewald, DRI's DR-DOS product manager, DR-DOS was developed from
Concurrent DOS 386 with the multiuser and multitasking code stripped
out. DR-DOS 6.0 was introduced in December 1991, and added disk
compression via bundling the third-party SuperStor program. Novell DOS
7.0 (DRI sold out to Novell) in March 1993, at the same time as MS-DOS
6.0. Novell one-upped Microsoft by tossing in their Netware Lite with
their DOS.
Some versions of DOS used in compatibles do not maintain the 1.x,
2.x, ... numbering system. Columbia Data Products computers labeled
DOS 1.25 as DOS 2.0. Early Compaqs labeled DOS 2.0 as DOS 1.x. Other
versions incorporated special features - Compaq DOS 3.31 and Wyse DOS
3.21 both support >32mb disk partitions in the same fashion as DOS
4.x.
AT&T DOS 3.1 differs from generic MS-DOS 3.10 in its use of cluster-
size and file allocation table structures. AT&T DOS appears to use
rules not from version 3, but rather those from version 2.
Epson Equity III and ComputerLand 3.10 DOS's appear to use cluster
techniques that are a cross between versions 2 and 3. On type DOS
partitions, these DOS's use 3.x rules if the partition is larger than
32,680 sectors in total size. This implies 16 bit FAT entries as well.
On partitions below this size, they will use 2.x rules, including the
12 bit FAT entries.
Zenith DOS 3.x and Wyse DOS 3.2 have a builtin internal device driver
to handle up to 4 32Mb DOS partitions on a single hard disk. Wyse DOS
3.31 will handle single partitions up to 512Mb with a 32-bit FAT.
According to PC Week Magazine, July 4, 1988, Arabic versions of MS-
DOS are shipping with a hardware copy-protection system from Rainbow
Technologies. This is similar to the short-lived system used by
AutoCAD 2.52 and a very few other MS-DOS programs, where an adapter
block is plugged into the parallel port and software makes use of
coded bytes within the block. This type of copy protection has been
common on Commodore products for several years, where it is called a
"dongle."
The AutoCAD dongle was defeated by a small program written within
weeks of version 2.52's debut. Version 2.62 was released 3 months
later, without the dongle. The DOS dongle will, however, prevent the
system from booting at all unless it is found.
This makes the Arabic version of MSDOS the first copy-protected
operating system, a dubious distinction at best. The modifications to
the operating system to support the dongle are not known at this time.
Frankly, it would seem that burning the operating system into ROMs
would be cheaper and simpler.
Versions of DOS sold in Great Britain are either newer than those
sold in the US or use a different numbering system. DOS 3.4, 4.0,
4.1, 4.2, and 4.3 had been released there between the US releases of
3.3 and 4.0.
MSDOS 4.0 (eDOS) was introduced in mid-1987 in Europe (at SICOB in
Paris and sometime earlier by Apricot Computer in the UK). It offered
multitasking provided applications were specially written for it.
David Fraser (Microsoft UK Managing Director) is on record saying
that "DOS 4.0 is unlikely to set the world alight and is of interest
only to specific OEMs who want its features for networking and
communications." Standard DOS applications will run under DOS 4.x as
a foreground task according to uncertain information. It differs from
earlier versions only in allowing background tasks to run. For
further information, see Chapter 4.
Microsoft changed their OEM licensing agreements between DOS versions
2.x and 3.x. OEM versions of DOS 3.x must maintain certain data areas
and undocumented functions in order to provide compatibility with the
networking features of the operating system. For this reason, TSR
programs will be much more reliable when operating under DOS 3.x.
Several versions of DOS have been modified to be run out of ROM. The
Sharp PC5000 had MSDOS 1.25 in ROM, and the Toshiba 1000 and some
Tandy 1000 models have MSDOS 2.11 in ROM. In mid-September 1989
Microsoft introduced 3.21R ROMs for laptops, and in early '90 Texas
Instruments laptops were the first to get the 3.3R ROMs. All versions
of Digital Research's DR-DOS are available in ROM version and Award
Software is marketing DR-DOS cards to OEMs as a plug-in to ISA-bus
machines.
IBM's release of DOS 4.0 (and the immediate subsequent release of a
bugfix) was a dubious step "forward." DOS 4.0 was the first version
of DOS to come with a warranty; the catch is that IBM warranted it
only for a very slim list of IBM-packaged software. 4.0 had some
minor EMS support, support for large hard disks, and not much else.
With its voracious RAM requirements and lack of compatibility with
previous versions of DOS (many major software packages crashed under
DOS 4.0), plus the increase in price to a cool $150, there was no
great rush to go to that version of DOS.
Microsoft undertook development of MSDOS 5.0 in early 1990,
soliciting input from Usenet, BIX, and Compuserve among others.
This was quite a surprise after Bill Gates had announced "DOS is dead"
at every opportunity, trying to build support for OS/2. Alas, most of
Microsoft's revenue came from DOS, not OS/2's few sales (at $325 per
copy) or applications. Apparently Microsoft realized they were
shooting themselves in the foot and that there was still plenty of
life left in DOS. They dropped OS/2 development shortly after
starting on DOS 5.0.
5.0 is a functional clone of Digital Research's DR-DOS 5.0. 5.0's
compatibility was assured by what has been claimed as the largest
beta-test program in history -in his address to the Boston Computer
Society, Bill Gates announced over 7,500 testers were involved.
There are many versions of MS-DOS 5.0. Microsoft's original
revision reported "Revision A" when you used the at-first-undocumented
VER/R command. There was a Revision B and C, which I have personally
seen right out of the shrinkwrap. Microsoft has denied (at least up
to late 1992) there ever was a B or C revision, and shortly afterward
new copies started reporting "Revision A" no matter what the
datestamps on the files were. IBM DOS 5.0 went through a number of
CSDs, all of which were available for free download from their BBS in
Atlanta (see Appendix 5) but most of the revisions related to IBM
specific hardware problems.
MS-DOS 6.0 was introduced in March 1993. It bundles some third
party utilities and disk compression (developed from licensed code),
but other than boot control via new CONFIG.SYS options, it doesn't add
any new features. If it weren't for marketing reasons, it would
probably have been called DOS 5.1.
The Operating System Hierarchy ................................. 1**5
The Disk Operating System (DOS) and the ROM BIOS serve as an
insulating layer between the application program and the machine, and
as a source of services to the application program.
As the term 'system' might imply, DOS is not one program but a
collection of programs designed to work together to allow the user
access to programs and data. Thus, DOS consists of several layers of
"control" programs and a set of "utility" programs.
The system hierarchy may be thought of as a tree, with the lowest
level being the actual hardware. The 8088 or V20 processor sees the
computer's address space as a ladder one byte wide and one million
bytes long. Parts of this ladder are in ROM, parts in RAM, and parts
are not assigned. There are also 65,536 "ports" that the processor
can use to control devices.
The hardware is normally addressed by the ROM BIOS, which will always
know where everything is in its particular system. The chips may
usually also be written to directly, by telling the processor to write
to a specific address or port. This sometimes does not work as the
chips may not always be at the same addresses or have the same
functions from machine to machine.
DOS Structure .................................................. 1**6
DOS consists of four components:
* The boot record
* The ROM BIOS interface (IBMBIO.COM, DRBIOS.SYS, or IO.SYS)
* The DOS program file (IBMDOS.COM, DRBDOS.SYS, or MSDOS.SYS)
* The command processor (COMMAND.COM or aftermarket replacement)
* The Boot Record
The boot record begins on track 0, sector 1, side 0 of every diskette
prepared by the DOS FORMAT command. The boot record is placed on
diskettes to produce an error message if you try to start up the
system with a nonsystem diskette in drive A. For hard disks, the boot
record resides on the first sector of the DOS partition. All media
supported by DOS use one sector for the boot record.
* Read Only Memory (ROM) BIOS Interface and Extensions
The file IBMBIO.COM or IO.SYS is the interface module to the ROM
BIOS. This file provides a low-level interface to the ROM BIOS device
routines and may contain extensions or changes to the system board
ROMs. Some compatibles do not have a ROM BIOS to extend, and load the
entire BIOS from disk. (Sanyo 55x, Viasyn machines). Some versions
of MSDOS, such as those from Compaq's MS-DOS and Digital Research's
DRDOS 5.0, are named IBMBIO.COM but are not IBM files.
These low-level interface routines include the instructions for
performing operations such as displaying information on the screen,
reading the keyboard, sending data out to the printer, operating the
disk drives, and so on. It is the operating system's means of
controlling the hardware. IBMBIO.COM contains any modifications or
updates to the ROM BIOS that are needed to correct any bugs or add
support for other types of hardware such as new disk drives. By using
IBMBIO.COM to update the ROM BIOS on the fly when the user turns on
their computer, IBM does not need to replace the ROM BIOS chip itself,
but makes any corrections through the cheaper and easier method of
modifying the IBMBIO.COM file instead.
IBMBIO.COM also keeps track of hardware operations on an internal
stack or "scratch pad" area for the operating system to save
information such as addresses it will need, etc. An example of the
use for this stack can be seen when running a program such as a word
processor. If you have told the word processor to save your letter,
it will write the data to your disk. During this time, if you start
typing some more information, the keyboard generates a hardware
interrupt. Since you don't want the process of writing the
information to the disk to be interrupted, DOS allocates a slot in the
stack for the keyboard's hardware interrupt and when it gets a chance,
(probably after the data has been written to the disk), it can process
that interrupt and pick up the characters you may have been typing.
The STACKS= command in DOS 3.2+'s CONFIG.SYS file controls the number
of stack frames available for this purpose.
IBMBIO.COM also reads your CONFIG.SYS file and installs any device
drivers (i.e. DEVICE=ANSI.SYS) or configuration commands it may find
there.
* The DOS Program
The actual DOS program is the file IBMDOS.COM or MSDOS.SYS. It
provides a high-level interface for user (application) programs. This
program consists of file management routines, data blocking/deblocking
for the disk routines, and a variety of built-in functions easily
accessible by user programs.
When a user program calls these function routines, they accept high-
level information by way of register and control block contents. When
a user program calls DOS to perform an operation, these functions
translate the requirement into one or more calls to IBMBIO.COM,
MSDOS.SYS or system hardware to complete the request.
This section is often referred to as the "kernel" by systems
programmers.
* The Command Interpreter
The command interpreter, COMMAND.COM, is the part you interact with
on the command line. COMMAND.COM has three parts. IBM calls them the
"resident portion", the "initialization portion" and the "transient
portion".
IBM's original documentation spoke of installing alternate command
interpreters (programs other than COMMAND.COM) with the SHELL=
statement in CONFIG.SYS. Unfortunately, IBM chose not to document
much of the interaction between IBMDOS.COM and IBMBIO.COM. By the
time much of the interaction was widely understood, many commercial
software programs had been written to use peculiarities of COMMAND.COM
itself.
Several programs exist that perform as actual "shells" by completely
replacing COMMAND.COM and substituting their own command interpreter
to use with the hidden DOS files. Examples are Command Plus, a
commercial package, and the shareware 4DOS and FlexShell packages.
Both supply greatly enhanced batch language and editing capabilities.
NOTE: DOS 3.3+ checks for the presence of a hard disk, and will
default to COMSPEC=C:\. Previous versions default to
COMSPEC=A:\. Under some DOS versions, if COMMAND.COM is not
immediately available for reloading (i.e., swapping to a floppy
with COMMAND.COM on it) DOS may crash.
Resident Portion:
The resident portion resides in memory immediately following
IBMDOS.COM and its data area. This portion contains routines to
process interrupts 22h (Terminate Address), 23h (Ctrl-Break Handler),
and 24h (Critical Error Handler), as well as a routine to reload the
transient portion if needed. For DOS 3.x, this portion also contains
a routine to load and execute external commands, such as files with
exensions of COM or EXE.
When a program terminates, a checksum is used to determine if the
application program overlaid the transient portion of COMMAND.COM. If
so, the resident portion will reload the transient portion from the
area designated by COMSPEC= in the DOS environment. If COMMAND.COM
cannot be found, the system will halt.
All standard DOS error handling is done within the resident portion
of COMMAND.COM. This includes displaying error messages and
interpreting the replies to the "Abort, Retry, Ignore, Fail?" message.
Since the transient portion of COMMAND.COM is so large (containing
the internal commands and all those error messages), and it is not
needed when the user is running an application it can be overlaid that
program if that application needs the room. When the application is
through, the resident portion of COMMAND.COM brings the transient
portion back into memory to show the prompt. This is why you will
sometimes see the message "Insert disk with COMMAND.COM". It needs to
get the transient portion off the disk since it was overlaid with the
application program.
The initialization portion of COMMAND.COM follows the resident
portion and is given control during the bootup procedure. This
section actually processes the AUTOEXEC.BAT file. It also decides
where to load the user's programs when they are executed. Since this
code is only needed during startup, it is overlaid by the first
program which COMMAND.COM loads.
The transient portion is loaded at the high end of memory and it is
the command processor itself. It interprets whatever the user types
in at the keyboard, hence messages such as "Bad command or file name"
for when the user misspells a command. This portion contains all the
internal commands (i.e. COPY, DIR, RENAME, ERASE), the batch file
processor (to run .BAT files) and a routine to load and execute
external commands which are either .COM or .EXE files.
The transient portion of COMMAND.COM produces the system prompt,
(C>), and reads what the user types in from the keyboard and tries to
do something with it. For any .COM or .EXE files, it builds a command
line and issues an EXEC function call to load the program and transfer
control to it.
DOS Initialization ............................................. 1**7
The system is initialized by a software reset (Ctrl-Alt-Del), a
hardware reset (reset button), or by turning the computer on. The
Intel 80x8x series processors always look for their first instruction
at the end of their address space (0FFFF0h) when powered up or reset.
This address contains a jump to the first instruction for the ROM
BIOS.
Built-in ROM programs (Power-On Self-Test, or POST, in the IBM) check
machine status and run inspection programs of various sorts. Some
machines set up a reserved RAM area with bytes indicating installed
equipment (AT and PCjr).
When the ROM BIOS finds a ROM on an adapter card, it lets that ROM
take control of the system so that it may perform any set up necessary
to use the hardware or software controlled by that ROM. The ROM BIOS
searches absolute addresses C8000h through E0000h in 2K increments in
search of a valid ROM. A valid ROM is determined by the first few
bytes in the ROM. The ROM will have the bytes 55h, AAh, a length
indicator and then the assembly language instruction to CALL FAR (to
bring in a "FAR" routine). A checksum is done on the ROM to verify
its integrity, then the BIOS performs the CALL FAR to bring in the
executible code. The adapter's ROM then performs its initialization
tasks and hopefully returns control of the computer back to the ROM
BIOS so it can continue with the booting process.
The ROM BIOS routines then look for a disk drive at A: or an option
ROM (usually a hard disk) at absolute address C:800h. If no floppy
drive or option ROM is found, the BIOS calls int 19h (ROM BASIC if it
is an IBM) or displays an error message.
If a bootable disk is found, the ROM BIOS loads the first sector of
information from the disk and then jumps into the RAM location holding
that code. This code normally is a routine to load the rest of the
code off the disk, or to "boot" the system.
The following actions occur after a system initialization:
1. The boot record is read into memory and given control.
2. The boot record then checks the root directory to assure that the
first two files are IBMBIO.COM and IBMDOS.COM or their OEM
equivalents. These files must be in that order, with IBMBIO.COM
first, with its sectors in contiguous order.
note 1) IBMDOS.COM need not be contiguous in version 3.x+.
2) DR-DOS versions 3.40 through 6.0 may have DRBIOS.SYS and
DRDOS.SYS anywhere on the hard disk.
3) PC-MOS/386' $$MOS.SYS file may be anywhere on the hard
disk.
3. The boot record loads IBMBIO.COM into memory.
4. The initialization code in IBMBIO.COM loads IBMDOS.COM,
determines equipment status, resets the disk system,
initializes the attached devices, sets the system parameters
and loads any installable device drivers according to the
CONFIG.SYS file in the root directory (if present), sets the
low-numbered interrupt vectors, relocates IBMDOS.COM downward,
and calls the first byte of DOS.
note 1) CONFIG.SYS may be a hidden file.
5. DOS initializes its internal working tables, initializes the
interrupt vectors for interrupts 20h through 27h, and builds
a Program Segment Prefix for COMMAND.COM at the lowest
available segment. For DOS versions 3.10 up, DOS also
initializes the vectors for interrupts 0Fh through 3Fh. An
initialization routine is included in the resident portion and
assumes control during startup. This routine contains the
AUTOEXEC.BAT file handler and determines the segment address
where user application programs may be loaded. The
initialization routine is then no longer needed and is overlaid
by the first program COMMAND.COM loads.
note 1) AUTOEXEC.BAT may be a hidden file.
6. IBMDOS.COM uses the EXEC function call to load and start the top-
level command processor. The default command processor is
COMMAND.COM in the root directory of the boot drive. If
COMMAND.COM is in a subdirectory or another command processor is
to be used, it must be specified by a SHELL= statement in the
CONFIG.SYS file. A transient portion is loaded at the high end
of memory. This is the command processor itself, containing all
of the internal command processors and the batch file processor.
For DOS 2.x, this portion also contains a routine to load and
execute external commands, such as files with extensions of COM
or EXE. This portion of COMMAND.COM also produces the DOS prompt
(such as "A>"), reads the command from the standard input device
(usually the keyboard or a batch file), and executes the command.
For external commands, it builds a command line and issues an EXEC
function call to load and transfer control to the program.
note 1) COMMAND.COM may be a hidden file.
2) For IBM DOS 2.x, the transient portion of the command
processor contains the EXEC routine that loads and executes
external commands. For MSDOS 2.x+ and IBM DOS 3.x+, the
resident portion of the command processor contains the EXEC
routine.
3) IBMDOS only checks for a file named "COMMAND.COM". It will
load any file of that name if no SHELL= command is used.
That pretty much covers the bootup process. After the command
processor is loaded, it runs the AUTOEXEC.BAT file and then the user
gets their prompt to begin working.
