Porting WWIV 4.23 to FreeBSD UNIX

Robert N. M. Watson

Premature Optimism
Screenshots
WWIV 4.23
New Files (DOS, BIOS compatibility)
Porting WWIV to UNIX in 10 Easy Steps
Known Issues

In January, 2007, I spent a weekend porting WWIV 4.23, based on a source license from 1995, to FreeBSD 6.2. These notes describe what's involved in doing this. As the WWIV 4.x source code is not open source, I cannot redistribute the patches, but I can provide supplemental DOS and BIOS compatibility source that anyone wanting to replicate this can use. I ported the basic WWIV structure, including the communications and display libraries, user system, message bases, g-files, e-mail, transfers, and so on. I made no attempt to deal with external programs, such as doors, WWIV networking, external events, and external transfer protocols. By the end of the weekend, I was able to log in locally and via FreeBSD's synthetic NULL modem device driver, read e-mail, messages, and so on. This port is hardly complete, but as proof of concepts go, it's not shabby.

Premature Optimism

Discovered while perusing posts from my BBS message boards using the FreeBSD port of WWIV:

47/50: Port to UNIX
Name: Star Gazer #1 @3101
Date: Sat Nov 19 22:21:27 1994


I'm currently in the process of porting WWIV to Unix so I can switch to a free 
implementation of BSD (eg., FreeBSD 2.0 when released.)  If anyone out there 
has experience with Unix/C (and BSD style socket access) and is interested in 
helping out, please let me know.  Email rwatson@sidwell.edu, or autoreply to 
this mail and I can email you source and access information.

Thanks..

                       哪哪屯屯屯- Star Gazer -屯屯屯哪哪

I meant well, but never got much further than that e-mail. However, this does illustrate an early interest in FreeBSD!

Screenshots

No software port is complete without the a few screenshots. These images were captured using ksnapshot running on FreeBSD 7.x, with WWIV 4.23 running over the synthetic null modem device (nmdm). Click to view the full-size capture.

WWIV 4.23

WWIV is written in relatively portable Borland C code, but relies on the availability of a variety of system functions and libraries present in the MS DOS and Borland C programming environments. These include DOS APIs for file system access, BIOS functions for screen management, and direct hardware I/O for serial port access. To get WWIV running on FreeBSD, I had to provide support routines to emulate these services based on natively available services, such as POSIX I/O routines, ncurses, etc. There are also some C language differences that must be adapted to, and in some cases papered over.

Why not just use WWIV 5.0, the open source C++ offspring of WWIV 4? Well, I have a WWIV 4.23 install already, and am, at heart, a C programmer, not a C++ programmer. However, you can learn more about WWIV 5 on its sourceforget.net web page.

New Files (DOS, BIOS compatibility)

New files created during the port, under a BSD license:

borland.h - Functions and definitions from Borland C not found in most UNIX environments
cons.h - Abstracted ncurses interface to resemble functions implemented by video BIOS
dos.h - Functions and definitions for DOS library calls
emul.h - General functions for setting up the DOS and BIOS emulation environment
my_bios.c - Implementation of some BIOS and hardware functionality
my_borland.c - Implementation of Borland library functions
my_com.c - Implementation of WWIV communications API using UNIX ttys
my_cons.c - Implementation of simple BIOS video functions using ncurses
my_dos.c - DOS library functions wrapped around POSIX, mostly file access
my_emul.c - Infrastructure and setup for emulation environment

Porting WWIV to UNIX in 10 Easy Steps

-1. Rename all source files to be all lower-case.

This is UNIX.

0. Create a makefile

The shipped makefiles are not useful as a starting point, create new ones.

1. C language changes

Remove all "#pragma hdrstop" statements; these are a Borland C compiler performance optimization and to not apply with gcc. Likewise other #pragma statements.
Rename WWIV 'yn()' function to 'yesno()' to avoid collision with then yn(3) floating point function.
#define far, interrupt, and huge to nothing, since they don't apply.
#define farmalloc() and farfree() to POSIX equivilents.
Remove references to farcoreleft(), which returns the amount of free memory available in the Borland C runtime environment. This was purely advisory.
Eliminate or otherwise ignore all code relating to overlays, which are not required.
Fix certain printfs, sprintfs, etc. For example, gcc doesn't like format strings specifying decimal points for longs.
Cast arguments to time(3) to (time_t *), not (long *). Similar time_t related changes elsewhere.
Provide our own OFFOF() macros to replace use of FP_OFF(), since far pointers don't exist in UNIX-land. This sort of expression comes in handy: #define OFFOF(x) ((uintptr_t)(&u.x) - (uintptr_t)(&u))
Replace dubious casts of data structure types to pointer casts. For example, replace: "&(type)variable" with: "(type *)&variable".
Replace "random(x)" with "(random() % x)". Initialize the random number generator with srandomdev() rather than randomize().
Modern compilers and systems pad structures for alignment reasons; Borland C did not. As WWIV interchangeably uses on-disk and in-memory data structure layouts, it's easiest simply to mark all WWIV data Structures as __packed in order to eliminate binary incompatibility. In particular, look in instmsg.h, net.h, and vardec.h. This is important because the source code for INIT.EXE was not distributed to WWIV source licensees, and so there is no way to initialize new BBS configuration files without writing a new initialization tool.
Implement Borland C string functions that don't exist in POSIX/C99: gcvt(), itoa(), ltoa(), stricmp(), strupr(), ultoa().
Implement Borland C non-portable I/O functions getch(), getche().

2. Adjust include files

Search for and remove inclusions of: alloc.h conio.h dos.h io.h mem.h; In some cases, replace paths, for example sys\stat.h to sys/stat.h.

3. Disable everything relating to printers

Search for and #ifdef out references to stdprn and sysconfig_printer. Probably this should be replaced with syslog(3) calls.

4. Disable all external programs

Do so by hook or by crook; I disabled various shell points, execution points, external chat programs, network callouts, external programs, etc, using ifdefs.

5. Build a serial port compatibility library

Rename many functions in com.c to begin with wwiv_ or #ifdef out entirely (such as setbeep(), dtr(), etc).
Implement check_comport(), async_isr(), outcomch(), peek1c(), get1c(), comhit(), dump(), set_baud(), initport(), closeport(), dtr(), rts(), cdet(), empty() in terms of UNIX ttys. Implement ring buffer, etc, to allow peaking and so on.

6. Build a BIOS and console compatibility library

Implement several parallel instances of various functions that invoke DOS or BIOS interrupts, including geninterrupt().
Implement interrupt 0x10 (video BIOS) functions in terms of ncurses, including 0x2 (setxy), 0x3 (getxy), 0x6 (scrollup), 0x7 (scrolldown), 0x9 (putchar), 0xf (getwidth).
Implement keyboard interrupt 06 function 0x1 (check for key hit).
Implement DOS interrupt routines 0x6 (console I/O), 0x33 (ctrl-break handling).
Implement setbeep() in terms of ncurses.
Provide peek() and peekb() for video mode, keyboard status, and numlock state (sysop available to chat).

7. Build a DOS compatibility library

Search through for references to function name and constant conflicts between DOS and POSIX. For example, chdir() to dos_chdir(), mkdir() to dos_mkdir(), and open() to dos_open().
Define _osmajor, _osminor.
Define struct ftime, struct date, struct time, struct dostime, struct ffblk, struct dfree, struct SREGS, struct DWORDREGS, struct WORDREGS, struct BYTEREGS, struct REGS.
Define _S_IWRITE to S_IWUSR, _S_IREAD to S_URUSR.
Define O_BINARY to 0.
Define MAXDRIVE, MAXPATH, MAXDIR, MAXFILE, MAXEXT, DRIVE, DIRECTORY, FILENAME, EXTENSION, WILDCARDS.
Define compatibility flags for dos_open() which will be mapped to similar UNIX semantics: SH_COMPAT, SH_DENYRW, SH_DENYWR, SH_DENYRD, SH_DENYNO.
Create wrapper geninterrupt(), getvect(), int86(), int86x(), setvect().
Implement DOS library calls: _chmod(), chsize(), delay(), dostounix(), filelength(), findfirst(), findnext(), fnsplit(), getcurdir(), getdate(), getdfree(), getftime(), getdisk(), gettime(), searchpath(), setdisk(), setftime(), unixtodos(), dos_chdir(), dos_mkdir(), dos_open(). Also dos_init() to initialize the DOS run-time environment. Among other things, the library calls simulate multiple drives pointed at various UNIX paths, and the fact that DOS programs have several different simultaneous working directories (one per drive).
Implement interrupt 21h function 0x2a (get time).

8. Add MT_UNIX to utility.c, comment out various things that can't work.

10. Fix lots of random compiling things that aren't meaningful anymore, such as attempts to manipulate stack pointers in extrn.c.

Since we're not implementing external programs or overlays, these can basically be ignored.

Known Issues

There are so many issues it's almost silly to enumerate them, but here are a few:

My understanding of ncurses, especially scrolling, is poor, so the console login is of limited utility.
Right now there's no way to set that the sysop is local, so chatting doesn't work.
I did test multi-instance execution, but not much.
Not being able to run external programs, such as the daily external event and networking, is quite a problem.
You must have an existing WWIV configuration since INIT.EXE source isn't available. It would be easy enough to create one, but I haven't since I already have a configuration.
There are a number of Y2K bugs in WWIV 4.23.
Certain activities, such as reading the display using direct memory access, don't work. As such, activities that may re-draw the prompt and current input, which include requesting help in some contexts, fail.
Input during the waiting-for-caller screen is unreliable.