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Macintosh System 7 on x86?

Rabbit holes... My regular morning peruse of HackerNews saw me read this article on Mac OS X being ported to the original WII. Amazing, I thought to myself... I wonder if I can skip the emulator on my X68000 and port Macintosh System 7 to it directly?

I went off to read the actual blog over here. Brilliant write-up and beautifully presented. Coding on Trains and Planes... and even in Hawaii? Love it!

The comments on HN had interesting hints to the source of System 7 being available? I googled and found this github project. WTAF? Hah. Someone is having a good set of 'sessions' with an AI agent, making it disassemble, understand and re-write System 7 so that it'll work on x86? There are even released ISOs? Nuts! Does it work?

& 'C:\Program Files\qemu\qemu-system-i386' -cdrom system71-en.iso -vga std -m 256M

And wow.. it... works?

A bit clunky. Mouse works and Simpletext opened! What about on real hardware?

Burn a disc and then see if my Dell Dual-PII will boot it...

5 seconds later and we were in! Mouse moved for a bit then it all locked up. I'M IMPRESSED! Keep this alive!

Sharp X68000 Pro – RAM + HDD + Power

I couldn't believe it. seeing a full set X68000 Pro on the shelf at the Ota Road Super Potato in Den Den Town, Osaka. Of course, the staff instantly told me it was for display only and didn't work! The story was that they'd bought it a few years back and it worked then, but since had stopped working. The monitor was fine, but the main CPU was not turning on. It was therefore 'KAZARI'... decoration.

I was happy with decoration, for the price. Shipping was to be another concern. Fortunately, Super Potato is partnered with a logistics firm upstairs and Mori-San and X-San helped describe the process to me. I'd buy the unit on the day and wait until after Golden Week for them to contact couriers and provide a quote. I'd then pay via Paypal and they'd ship the unit to me! Easy!

To be honest, after turning on and playing a few rounds of Bubble Bobble, the poor thing has been sitting as KAZARI in the corner of my study/office for quite a while. I recently made a 3D-printed bezel cover for the monitor, which doesn't look too bad! Regardless of all the work to that point, I'd recently come to the realisation that I either need to move it on... or actually learn how to use it!

The machine works great... floppy games load fine... but that's not fun-n-technical enough... I want to use HDDs, CDs?, MOs? and work out what that CPU Clock Switch does... and how to use the memory cards. Also, can I rig up an ethernet to serial adapter to get data transferring over to it a little more easier? Maybe even use a BBS?

Random Access Intricacies

Understanding RAM in an X68000 is mildly difficult. It seems that, nearly akin to an Amiga, there's a clear distinction between system/onboard RAM and extra supplementary RAM. I suppose that goes for PCs too with conventional vs. extended RAM, etc... Anyway, to use any I/O slot memory expansion boards, the base system needs to have 2mb of internal memory. From the factory, X68000 ACE, PRO and PROII systems only have 1mb and so a CZ-6BE1A module is required. Fortunately, this machine already came with the module installed!

With 2mb onboard, you can then tinker with I/O slot memory cards. I was googlin' at some point and saw a good deal on an XSIMM10 card, so I bought it! Little did I think to check the blank plates on my machine to see if I already had one? Turns out I did! How hilarous.

Left-most above is an I.O Data PIO-6834-4 4mb memory expansion. There's a jumper block to set where this memory starts in the memory map. Since we've got 2mb onboard, this card must start straight after that and provide another 4mb, taking the machine to 6mb.

The other board above is a XSIMM10 memory board which will allow up to 10mb of memory to be added! These cards can be configured to place the two pairs of memory wherever needed. Interestingly, the configuration examples show a 4mb "system" area above the 10mb additional RAM? Does that mean these cards can be used together?

In the end I only used the XSIMM10 with the full 8mb populated to bring the machine to 10mb.

SASI/SCSI HDDs

There's a great tutorial here for setting up HDDs. It seems tho, that you're expected to use one of the devices specified and not just boring old spinning-rust. I tried three external SCSI drives that I had laying around, connected to the 50-pin SASI centronics port and couldn't get any of them to work. Anything from stalling INITs to "device not operational" to "cannot xxxx".

After trying the units above, I turned to the internet and sought help. This magical post indicates that not many SCSI drives are compatible and for those that are, they need to be able to have parity disabled. I don't even know what that is! That flat beige unit above has an ST11200N inside... and it seems that parity should be disabled by default. I popped it open and found...

A slew of jumpers enabling parity! I disabled it, but had no luck.

Further goog'lin brought up this excellent article at gamesx... and that last little paragraph is a killer.

SASI models will be somewhat limited in terms of what drives can be used. First and foremost you'll need a drive that doesn't require parity (if you don't want to build the parity faker circuit). Even then, you'll run into plenty of drives that just won't work even though they can have their parity disabled.

There's a table there with two 1GB drives listed... and they're both listed as no-worky. The table also lists the Quantum ProDrive LPS42S as 'working', and I have two in my HDD box'o'junk!, so I tried them all out. After a lot of tinkering, I couldn't get any of those to work either. So, I tried my SCSI2SD. It also showed no signs of life, until I jumpered the Termination Power pins!

The best thing is that I have a terminator with an LED in it, no idea where that came from, which shows me if the bus has power on it. The LED only illuminates when there is termination power on the bus and, up until this point, it'd been off the whole time. Finally, with the SCSI2SD TERMPWR jumpered, the light lit up!

Of course, if I'd read the bloody manual for the SCSI2SD earlier, it would've been obvious from day one:

    Sharp X68000
        SASI models supported. See gamesx.com for information on building a custom cable.
        needs J3 TERMPWR jumper
        Set to SCSI ID 3. ID0 will not work. 

Ok, we're learning. From here, with the drive initially as ID 0, the machine would freeze if the drive was already powered on before the machine was started. So, instead, I started it after the boot process.. allowing me to format it! I then set the drive back to ID3 and, after following these instructions, I installed the SxSI BIOS in SRAM and the machine booted from the drive!

So, with this now understood, could I get an older drive to work? The Conner 3040 42mb Drive supposedly has Termination Power and Parity options. With this drive connected... the terminator light... didn't light up?

So, can we inject terminator power? In the SCSI2SD schematic, they're just feeding +5v into pin 26 on the SCSI cable, but then also providing 3v3 to the termination resistors... does my "active" terminator with the LED also do the 3v3 conversion and just needs the 5v power rail?

Actually, we can test this using a better method first. Let's leave this unit on the SCSI chain, but set it up to some higher ID and then slap the Conner at ID3 before it. Even with all this trickery, I couldn't get a spinning-rust drive to cleanly format.

So, instead, let's switch back to the SCSI2SD and follow the instructions to use the HDD image from here. After writing it to the SD card, the unit booted up perfectly with all 3 partitions showing!

What about running floppy games from the HDD?

Yeah, this was confusing.. until I google'd and came across this link. Wow. You can just run the autoexec.bat from the folder? Works for some games... not all.

Bubble Bobble ran .. but sounded totally weird! I then delved into the world of X68000 Music Drivers, realising that the bootdisk had OPM3DRV loaded first. When I then ran autoexec in the bublbobl folder, it loaded GMD68K.r over the top and ... haha ... What a symphony! It seems that loading two drivers in sequence causes all sorts of issues. I then tinkered around by installing the Roland MIDI Card, trying to see if it'd work on MIDI. Turns out there's absolutely no setting to enable MIDI... and then it actually stopped playing music altogether?

Overclocked? Me?

Turns out the previous owner already had an overclock switch/mod installed which toggled between a 40mhz and 60mhz crystal and that I'd accidentally flicked it! It's hiding at the right edge of the top expansion slot cover.

Internally, there's a piece of veroboard with some 74-series logic to allow a solid-state selection of which crystal to use. Above, if you check out the first photo in the RAM area, you'll see where the twisted-pair blue wires run to where the original 40mhz crystal would have been on the mainboard. The other wires run to one of the front-panel LEDs.

This switches the internal system speed between 10mhz and 16mhz (thanks to clock dividers) and Bubble Bobble hates this! I must admit that I'd seen the internal wiring and obvious mods, back when I first received the machine, but never cared to think what repercussions could be caused by flicking it! Turns out that games for the X68000 are very fixed on expecting a 10mhz clock and that Bubble Bobble's sound driver HATES 16mhz.

So, what to do? Make AI write a CPU speed detection app. I used the dev environment from Chibi Akuma's Site and saved a screenshot of the site for posterity:

It's beautiful. Anyway, code was 'written':

And it even worked! Thanks Gemini! It's very friendly with you when coding:

The source and binaries are downloadable here.

Power Supply

I started to have a weird boot-loop issue where the machine would click on, but then quickly click off again... and loop at about a 2-second cycle. It sounded bad, but would "fix itself" after a 30-minute cool-down. The worst in me suspected the power supply was going... so I braced myself for impact.

Christ. Those two 3300uf caps are juicy...

Crap photo.. but that 1000uf cap at the back is also ready to launch!

Quick work was made of extracting, cleaning and replacing the culprits...

Anyone who has done this before can smell the above picture. A ionizer in the other room actually turned on thanks to the tuna-flavoured solder-fumes that were wafting through the apartment.

Take it easy when clearing the silicone as there are components buried in it. I had to repair a jumper wire which I'd accidently dismembered. Also watch out for the height of the 2200uf cap which needs to fit under the external power port.

Meanwhile, check out the filter cap on the main-board which was hiding under the power supply? Factory bodge? Seems to be the same silicon!

Programming / Linux?

Maybe it's time for a DOS port of OpenTTD? I could use this gcc compiler? Or this huge repo of sample C++ source? It also seems that NetBSD can be installed, but an MPU is required.

Hah, you can even follow these instructions to run a Macintosh?

A-Train (III) – Taiwanese Big Box Edition

This showed up on eBay and I fought a hard negotiation to get my hands on it. It was actually a few years ago... and I've only just thought to open the box and check if the disks work! Actually, the same seller still has another copy of it, and a copy of the Construction Set on eBay... still for crazy prices.

The box is mildly grotty... and it gets worse on the inside. The floppies are white, with quite colourful labels. Very pretty, but they also contained a concerning amount of grime as I spun the disk in the insert.

Initial attempts to read the disks failed miserably. Rawwrite just threw random errors and attempts to clean the disks didn't work. I then googl'd for methods and everywhere just seemed to indicate isopropyl alcohol. Most also came with the warning to NOT insert the disk whilst it was still wet.

... I, of course, didn't bother to wait for the alcohol to dry... instead believing it might also help keep the drive heads clean. Things started to progress and read percentages were starting to get higher and higher, but Rawwrite wasn't fun as there was no mechanism to "retry on fail". That's where IMD came in...

I set the retry count to 200 and let it chugggg.... and chug it did! On the first attempt, it got to the end of the first disk, but, as you can see above, it still failed on 2 of 78 sectors. I thought this was the end, and so I put the disks back in the box and attempted to forget about it.

The next day, I had decided to try again and attempted to image the first disk again with IMD, using the same settings. Would you believe it just worked? No extra cleaning... nothing. It chugged a little and performed a few sector retries, but it got there!

I then proceeded to install the game after writing the first disk to a spare floppy. I'd stupidly only written one disk and started the install... realising that I'd have to use the 2nd and 3rd originals ... but it worked! They'd had a few issues when imaging, but somehow the continual reading must have cleaned them up.

Booting it up...

Everything in the installer felt very stock-standard and I'd therefore assumed the game would be stock A-Train (III) with a spattering of Mandarin (maybe Taiwanese Hokkien?)... but boy was I wrong. They've added two introduction movies and even copy protection!

Here's a shot of the copy protection screen...

And here's where they stored the password on each of the 104 pages!

Turns out the password is a tiny code down next to the page number.

I'll attempt to hack the code out of the EXE shortly. I did get bored and sent the first 10 numbers to Google Gemini... seeing if it could work out a pattern, but it had zero fkn chance. And finally, here are the disk images in IMD and IMG formats for anyone who wants to play at home. There's also the installed HD folder that you can drop straight into DOSBOX. Also, the EXEs have been unpacked, where possible, to allow better disassembly... when I could be bothered... to try and work out how the copy-protection works... I wonder if it looks up a byte in memory? Or in the EXE?

Dell PowerEdge 2200

This beast seems to have had a hard life and needed a bit of skewing to get it back into shape. I saw it on the usual auction site, from a seller nearby, and my offer was accepted! It seems nobody wanted it, as the seller had mentioned it was EISA and that standard ISA cards wouldn't work... little did they know!

The Dell PowerEdge 2200 contains a Dual Pentium II FX motherboard with EISA and PCI slots. Not much IO on the rear meant I could finally utilise one of the many USB cards sitting in the junk box! The case itself turned out to be not-quite plumb, so it received a few taps of love to get it as-square-as-possible.

I didn't wait to boot it up and, as expected (and mentioned by the seller), it came up fine. 256mb of RAM and a single CPU. It did keep throwing the following error though:

After replacing the CMOS battery and saving CMOS settings, I had assumed the error would have pissed-off, but it didn't? A quick google instructed me that this was the EISA bus reporting an error, which seems to be a secondary configuration requiring a boot-floppy configurator. You'll find the EXE (which writes a floppy for you) over here, even though it mentions that it is for a 2100.

How cute is that? Dell still has support for this machine! Either way, the configuration was saved, as there was no EISA to configure, and the error went away!

More CPU

The machine only had one 333mhz CPU installed, with a terminator in the second slot.

I google'd, checking what CPU speeds were available in the Deschutes Pentium II line and managed to procure two 450mhz units. Of course, I should've done proper research as it turns out that the motherboard's FX chipset's 66mhz bus meant it peaked at 333mhz. Hence why the existing CPU was only 333mhz. Even funnier, the jumpers on the motherboard only indicate 233mhz and 266mhz settings?

Turns out that RSVD1 = 300mhz and RSVD2 = 333mhz! The already-purchased 450mhz CPUs went in after grafting over a heatsink from the existing 333mhz CPU. I must admit, too much effort was required to remove the old heatsink!

I had to actually go and buy a solid new torx driver. I only attempted this after finding that this is the internet and people have already struggled... and triumphed! I actually had to hammer the screwdriver into the screws to be able to turn them without stripping the heads.

The CPUs were individually tested and then installed, happily underclocked. Of course, this was short-lived when the BIOS reported the following issue:

I needed a second CPU thermostat!... so I tried to work out how the existing one worked. It happened to be a directly-wired AD22103K, of which are mildly unobtanium. I went full-dodge and ordered it with a few EPROMs from China.

I wired it up as per the other themister and, well, the BIOS stopped complaining!?

More RAM

The Retro Web's page on the 2200 specifies EDO SDRAM and so I hunted down the box'o'junk. Of course... I had nothing that looked like the existing DIMM:

Lots of RAM was found, but the middle slot didn't seem to align?

I wonder what that middle slot specifies. Either way, I managed to find 3 more 64mb sticks...

Which then totalled 457772mb!

Nice. That means we're 256 + 64 + 64 + 64 (aka 512 - 64)... which is great as Win98 hates 512 and above.

Filling the EISA slots

There ain't much available for EISA slots on the marketplaces. I managed to hunt down a 10/100 Ethernet card, to free a PCI slot...

And then a second SCSI card, to provide an external SCSI port...

They all installed cleanly, with the SCSI card taking up the entire depth of the case! I think that's the first time I've ever used the plastic supports on the right of any AT/ATX case. You'll need the EISA configuration disk and then any relevant configuration files. The SCSI card worked from the configs already on-disk, but the ethernet needed a download.

One note for the SCSI card was that I needed to set it from Standard Mode to Enhanced Mode via the EISA Configuration Disk. I spent a lot of time trying to find DOS drivers for the card, until I realised that EISA is 'all powerful' and all settings are done via CFG files and the system-in-question's EISA configurator!

Windows 98 SE

Everything just worked! Quite amazing, really. The SCSI card needed a "find non-PNP hardware", as it was installed after Windows and is not PNP, despite being EISA.

Of course, Windows 98 doesn't use the second CPU, so mildly useless! It's bloody quick though... it takes more time to count RAM than it then does to get to the network login prompt.

Windows 2000 and XP

Win2K hates EISA! I suppose I could install a PCI network card just for it, but that'd sorta ruin the experience. Same goes for XP... but they do run well!

BeOS 5.0

Installed and worked perfectly.

The teapot spun and the CPU graphs danced!

Redhat 6.2

The HP J2577A 100VG EISA Ethernet card didn't work straight away, but this article at HPE's support forum indicated that I needed to insmod hp100, and?...

Yey! Adding the alias to /etc/conf.modules didn't quite get it loaded on boot... so I used linuxconf and then client -> local settings to get the adapter enabled and set up.

Next up I followed the instructions over here to get OpenTTD 0.1.4 going. Same problems and fixes as per that article and ....

Lol... what is that? I hadn't even realised I was running in 8bpp! How to fix? Xf86 runs in 8-bit by default, so... run as test of startx with...

#startx −− −bpp 16

And?

Yup! Looks good... you can commit this to /etc/X11/XF86Config with:

DefaultColorDepth 16

... in your "Screen" section. It's not DefaultDepth, as that's an alias in newer Xorgs, etc. Enjoy!