ESDI Adventures

Posted on March 19, 2025 by Michal Necasek

At long last, I got hold of a decently well functioning ESDI drive. From my earlier adventures, I had a WD1007V-SE2 controller, as well as an older WD1007A. The WD1007A (Compaq branded) used to live in a Hyundai 286 machine together with a Microscience ESDI drive. But the Microscience drive tragically died some years ago.

I also have a somewhat working ST4182E drive (152MB), but its heads have an unfortunate tendency to stick when the drive is not use and then require manual intervention, so the drive isn’t very usable.

Now I got a CDC/Imprimis/Seagate Wren VI drive, CDC model number 94196-766 or Seagate model ST4766E. It has a formatted capacity of about 664MB and it was about the biggest ESDI drive in Seagate’s product lineup.

A 1991 ST4766E ESDI drive

The drive was sold as untested and I didn’t expect much of it. Visual inspection revealed mild corrosion in one area of the PCB, but there was no obvious cause for it (no leaky capacitors or some such). It may have been a result of sub-optimal storage conditions.

Before powering up the drive for the first time, I was rather apprehensive. But the drive spun up just fine and made the right kind of noises—heads unlatching followed by a seek test; by now I have a very good idea what a Seagate drive of CDC lineage should sound like. There were no suspicions noises and for a full-height 5.25″ drive with 8 disks inside the ST4766E is fairly quiet.

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Posted in ESDI, PC hardware, PC history, Seagate | 31 Comments

Time Trouble

Posted on March 7, 2025 by Michal Necasek

Last Friday I had a moment of panic. While investigating why different run-time libraries might interpret file timestamps differently, I noticed that even Windows doesn’t always agree with itself. When was dos4gw.exe last modified, at 10:14 PM or 9:14 PM?

Which is it, 9:14 PM or 10:14 PM?

For some (but not all) files, the dir command in cmd shows timestamps that are off by an hour compared to timestamps shown by Explorer or PowerShell. How is this possible? And is either of those timestamps even correct?

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Posted in Bugs, Development, Microsoft | 19 Comments

Learn Something Old Every Day, Part XIV: read() Return Value May Surprise

Posted on February 25, 2025 by Michal Necasek

Last week I amused myself by porting some source code from Watcom C to Microsoft C. In general that is not difficult, because Watcom C was intended to achieve a high degree of compatibility with Microsoft’s C dialect.

Yet one small-ish program kept crashing when built with Microsoft C. It didn’t seem to be doing anything suspicious and didn’t produce any noteworthy warnings when built with either compiler.

After some head scratching and debugging, I traced the difference to a piece of code like this:

  if( read( hdl, buf, BUF_SIZE ) != BUF_SIZE )
      // Last file block read, deal with EOF
  else
      // Not near end of file

To my surprise, the return value from read() is rather different between the two compilers’ run-time libraries when the file is open with the O_TEXT flag (and therefore meant to translate line endings from CR/LF to LF when reading).

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Posted in C, Development | 4 Comments

Learn Something Old Every Day, Part XIII: InDOS Is Not Enough

Posted on February 12, 2025 by Michal Necasek

The other day I spent a while trying to understand the purpose of a rather strange looking piece of code inside Borland’s THELP.COM utility shipped with Turbo Pascal 6.0 (THELP.COM was misbehaving under emulated DOS).

The THELP utility performs the following actions:

  • Use INT 21h/34h to get the address of the InDOS flag
  • Starting from the beginning of the InDOS segment, search for word 3E80h using the SCASW instruction
  • If found, check if the location in memory six bytes past the 3E80h word holds the value BCh
  • If so, store the word just past 3E80h for later use

This logic is applied to DOS version 4 and below (effectively 2.0 to 4.x), not newer versions. But what could it possibly be good for?

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Posted in DOS, PC history, Undocumented | 13 Comments

Minor 387 Documentation Mystery

Posted on January 10, 2025 by Michal Necasek

So here I am, writing a bit of test code to figure out the behavior of x87 FPUs with regard to saving and loading the FPU state (FSTENV/FLDENV and FSAVE/FRSTOR instructions in different modes and formats).

The original real-mode only 8087 state format included the instruction and operand pointers as 20-bit linear addresses (because $REASONS) and also stored 11 bits of the floating-point (FP) opcode; the remaining five were always the ESC instruction.

The 287 also needed to be able to save the state in protected mode, with full segment and offset addresses. For whatever reason, Intel decided to keep the size of the saved FP environment (7 words); because the saved code and data pointer addresses used 32 bits each instead of 20, there was no longer room for the floating-point opcode. That wasn’t a huge deal because the opcode could be fished out of memory.

When the 387 came out, it naturally needed to support 32-bit state, with 16-bit segments and 32-bit offsets. Instead of 7 words, the 32-bit state was extended to 7 dwords, with extra padding in reserved fields.

I was pretty sure the floating-point opcode is there somewhere in the 32-bit protected-mode state, but needed a reminder as to where exactly. I happened to have Agarwal’s 80×86 Architecture & Programming, Volume II (1991) open on a nearby page, so I looked there first. On page 240, there’s a diagram of the 32-bit protected-mode FPU state format. But no FP opcode. Odd.

The next closest book was Hummel’s PC Magazine Programmer’s Technical Reference: The Processor and Coprocessor (1992). On page 696, documenting the FSTENV/FNSTENV instruction, there’s the saved state diagram. But again, no floating-point opcode! Is my memory that bad? (Rhetorical question, don’t answer!)

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Posted in Documentation, Intel, x87 | 9 Comments

The Other Three

Posted on January 2, 2025 by Michal Necasek

A previous blog post explored the semi-mysterious yet sometimes highly useful DOS APPEND command. Now it’s time to look at its relatives: ASSIGN, JOIN, and SUBST.

ASSIGN

ASSIGN is the oldest of the bunch. It was written by IBM and first appeared in PC DOS 2.0 in March 1983 (it wasn’t part of MS-DOS 2.x). It is very simple and rather limited.

ASSIGN re-routes requests to an existing drive to another drive. If the user runs

ASSIGN A=C

then requests to drive A: end up addressing drive C: instead.

Note “existing” — the drive letter that is being reassigned must exist. On a machine that has drives A:, B:, C:, and D:, an attempt to run

ASSIGN F=D

will fail with “Invalid parameter”.

Like APPEND, the ASSIGN command is a TSR, and it is one of the earliest DOS TSRs, together with the PRINT command.

ASSIGN works by intercepting INT 25h and 26h vectors (direct disk I/O) and re-routes all accesses according to its internal drive map.

There are no provisions to unload ASSIGN, but running ASSIGN without any arguments will clear its drive mapping table and undo any effects of previous ASSIGN commands.

In later DOS versions,

ASSIGN /STATUS

will show the current drive mappings, if any.

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Posted in DOS, IBM, PC history | 13 Comments

I Thought I Found a Bug…

Posted on December 25, 2024 by Michal Necasek

So I was working on improving a DOS emulator, when I found that something seemingly trivial wasn’t working right when COMMAND.COM was asked to do the following:

echo AB> foo.txt
echo CD>> foo.txt

Instead of ABCD, foo.txt contained ABBC.

I verified that yes, the right data was being passed to fwrite(), with the big caveat that what COMMAND.COM was doing wasn’t quite as straightforward as one might think:

  • Open foo.txt
  • Write ‘AB’
  • Close foo.txt
  • Open foo.txt
  • Seek one byte backward from the end of the file
  • Read one byte
  • Write ‘CD’
  • Close foo.txt

The reason for the complexity is that COMMAND.COM tries to deal with a case that the file ends with a Ctrl-Z character (which wasn’t the case for me), and if so, the Ctrl-Z needs to be deleted. Somehow the seek/read/write sequence was confusing things. But why?

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Posted in Bugs, C, Development, Watcom | 25 Comments

DOS APPEND

Posted on December 20, 2024 by Michal Necasek

For a long time, I couldn’t quite grasp what the DOS APPEND command could possibly be good for. Until I came across a situation which APPEND was made for.

When I worked on organizing and building the DOS 2.11 source code, I tried to place the source files in a tree structure similar to that used by DOS 3.x (this is known from DOS 3.x OAKs):

C:.
└───src
    ├───bios
    ├───cmd
    │   ├───chkdsk
    │   ├───command
    │   ├───debug
    │   ├───diskcopy
    │   ├───edlin
    │   ├───exe2bin
    │   ├───fc
    │   ├───find
    │   ├───format
    │   ├───more
    │   ├───print
    │   ├───recover
    │   ├───sort
    │   └───sys
    ├───dos
    ├───inc
    └───msdos

The inc subdirectory unsurprisingly contains shared include files such as DOSSYM.ASM, which are included just about from everywhere. No problem, right?

Except… to get output that most closely matches existing DOS 2.x binaries, it is necessary to use an old version of MASM (version 1.25 seems to do the trick). But MASM 1.25 is designed to run on top of DOS 1.x, and knows nothing whatsoever about directories.

It is possible that back in the day, DOS 2.x was built from a single huge directory on a hard disk. In fact it is known that DOS 2.0 could not be built on PCs at all, and was built on DEC mainframes. Yet DOS 2.11 was also clearly modified such that it could be build on PCs using Microsoft’s development tools.

However it was done back in 1983, lumping 150+ assembler source files into a single directory, and then adding hundreds of object and executable files, did not sound at all appealing. Cloning DOSSYM.ASM to every directory where it was needed seemed even worse.

That’s when I somehow remembered that APPEND exists, and realized that it’s the perfect solution to the problem. Before building, one can run

APPEND ..\..\INC;..\INC

and the inc directory becomes accessible from all of its sibling subdirectories and from subdirectories one level deeper. It would have been possible to use an absolute path as well, but this way the build batch file does not need to know where it lives.

With APPEND in place, the old MASM 1.25 which uses FCB I/O will find the centrally located include files, and the source code can be organized into a neat hierarchical structure that’s far easier to work with than one giant blob.

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Posted in DOS, IBM | 46 Comments

Stack Checking on OS/2

Posted on November 19, 2024 by Michal Necasek

A while ago I was involved in debugging a seemingly simple yet mysterious problem:

That error message should not have been there

A piece of code (a fairly simple interface DLL) built with the Open Watcom compiler was failing with a bogus stack overflow error. The mystery was that this failure only happened on OS/2 Warp Connect. It didn’t happen on OS/2 2.0 or Warp Server for e-Business (WSeB) or MCP2. And it also didn’t happen on Warp Connect updated to FixPack 40.

That’s weird, right? And getting to the bottom of the faulty stack check was a bit of a journey…

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Posted in Debugging, Development, OS/2, Watcom | Leave a comment

Programming NetBIOS on OS/2

Posted on October 23, 2024 by Michal Necasek

Recently I spent some time trying to understand a piece of networking code, and it turned out to be far more difficult than it should have been. The code in question is the NetBIOS interface of C-Kermit and was originally written in the early 1990s.

The module uses two very similar but not identical code paths. The comments suggest that one alternative, using ACSNETB.DLL, is the “Traditional NetBios interface” used by IBM’s LAN Adapter and Protocol Support (aka LAPS), OS/2 Extended Services, and Communications Manager/2. The other code path uses NETAPI.DLL and it’s called “Newer Netbeui Interface”, used by the Microsoft LAN Manager Requester, IBM LAN Server Requester, and Novell Netware Requester. The comments are wrong, but more about that below.

The API used by NETAPI.DLL is documented in the Microsoft LAN Manager programming reference. It consists of four functions: NetBiosEnum, NetBiosOpen, NetBiosSubmit, and NetBiosClose. The NetBiosSubmit function takes an NCB (Network Control Block) as input, except the NCB usage is left more or less completely undocumented by Microsoft.

The LAN Manager document points programmers curious about NCBs to the “IBM PC-NET Technical Reference”, “IBM PC LAN Technical Reference”, and “IBM PC-LAN Technical Reference”, all in the same Microsoft manual. (Which is exactly why IBMers considered Microsoft sloppy and undisciplined.)

My initial search for programming the ACSNETB.DLL interface turned up nothing. I could not find anything in the Communications Manager manuals, or in the MPTS documentation, or really anywhere one would normally find OS/2 programming information. Because it’s not there.

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Posted in Development, Documentation, IBM, Microsoft, Novell, OS/2 | 18 Comments