⮜ Blog

⮜ List of tags

Showing all posts tagged
,
and

📝 Posted:
🚚 Summary of:
P0189
Commits:
22abdd1...b4876b6
💰 Funded by:
Arandui, Lmocinemod
🏷 Tags:

(Before we start: Make sure you've read the current version of the FAQ section on a potential takedown of this project, updated in light of the recent DMCA claims against PC-98 Touhou game downloads.)


Slight change of plans, because we got instructions for reliably reproducing the TH04 Kurumi Divide Error crash! Major thanks to Colin Douglas Howell. With those, it also made sense to immediately look at the crash in the Stage 4 Marisa fight as well. This way, I could release both of the obligatory bugfix mods at the same time.
Especially since it turned out that I was wrong: Both crashes are entirely unrelated to the custom entity structure that would have required PI-centric progress. They are completely specific to Kurumi's and Marisa's danmaku-pattern code, and really are two separate bugs with no connection to each other. All of the necessary research nicely fit into Arandui's 0.5 pushes, with no further deep understanding required here.

But why were there still three weeks between Colin's message and this blog post? DMCA distractions aside: There are no easy fixes this time, unlike 📝 back when I looked at the Stage 5 Yuuka crash. Just like how division by zero is undefined in mathematics, it's also, literally, undefined what should happen instead of these two Divide error crashes. This means that any possible "fix" can only ever be a fanfiction interpretation of the intentions behind ZUN's code. The gameplay community should be aware of this, and might decide to handle these cases differently. And if we have to go into fanfiction territory to work around crashes in the canon games, we'd better document what exactly we're fixing here and how, as comprehensible as possible.

  1. Kurumi's crash
  2. Marisa's crash

With that out of the way, let's look at Kurumi's crash first, since it's way easier to grasp. This one is known to primarily happen to new players, and it's easy to see why:

The pattern that causes the crash in Kurumi's fight. Also demonstrates how the number of bullets in a ring is always halved on Easy Mode after the rank-based tuning, leading to just a 3-ring on playperf = 16.

So, what should the workaround look like? Obviously, we want to modify neither the default number of ring bullets nor the tuning algorithm – that would change all other non-crashing variations of this pattern on other difficulties and ranks, creating a fork of the original gameplay. Instead, I came up with four possible workarounds that all seemed somewhat logical to me:

  1. Firing no bullet, i.e., interpreting 0-ring literally. This would create the only constellation in which a call to the bullet group spawn functions would not spawn at least one new bullet.
  2. Firing a "1-ring", i.e., a single bullet. This would be consistent with how the bullet spawn functions behave for "0-way" stack and spread groups.
  3. Firing a "∞-ring", i.e., 200 bullets, which is as much as the game's cap on 16×16 bullets would allow. This would poke fun at the whole "division by zero" idea… but given that we're still talking about Easy Mode (and especially new players) here, it might be a tad too cruel. Certainly the most trollish interpretation.
  4. Triggering an immediate Game Over, exchanging the hard crash for a softer and more controlled shutdown. Certainly the option that would be closest to the behavior of the original games, and perhaps the only one to be accepted in Serious, High-Level Play™.

As I was writing this post, it felt increasingly wrong for me to make this decision. So I once again went to Twitter, where 56.3% voted in favor of the 1-bullet option. Good that I asked! I myself was more leaning towards the 0-bullet interpretation, which only got 28.7% of the vote. Also interesting are the 2.3% in favor of the Game Over option but I get it, low-rank Easy Mode isn't exactly the most competitive mode of playing TH04.
There are reports of Kurumi crashing on higher difficulties as well, but I could verify none of them. If they aren't fixed by this workaround, they're caused by an entirely different bug that we have yet to discover.


Onto the Stage 4 Marisa crash then, which does in fact apply to all difficulty levels. I was also wrong on this one – it's a hell of a lot more intricate than being just a division by the number of on-screen bits. Without having decompiled the entire fight, I can't give a completely accurate picture of what happens there yet, but here's the rough idea:

Reference points for Marisa's point-reflected movement. Cyan: Marisa's position, green: (192, 112), yellow: the intended end point.
One of the two patterns in TH04's Stage 4 Marisa boss fight that feature frame number-dependent point-reflected movement. The bits were hacked to self-destruct on the respective frame.

tl;dr: "Game crashes if last bit destroyed within 4-frame window near end of two patterns". For an informed decision on a new movement behavior for these last 8 frames, we definitely need to know all the details behind the crash though. Here's what I would interpret into the code:

  1. Not moving at all, i.e., interpreting 0 as the middle ground between positive and negative movement. This would also make sense because a 12-frame duration implies 100% of the movement to consist of the braking phase – and Marisa wasn't moving before, after all.
  2. Move at maximum speed, i.e., dividing by 1 rather than 0. Since the movement duration is still 12 in this case, Marisa will immediately start braking. In total, she will move exactly ¾ of the way from her initial position to (192, 112) within the 8 frames before the pattern ends.
  3. Directly warping to (192, 112) on frame 0, and to the point-reflected target on 4, respectively. This "emulates" the division by zero by moving Marisa at infinite speed to the exact two points indicated by the velocity formula. It also fits nicely into the 8 frames we have to fill here. Sure, Marisa can't reach these points at any other duration, but why shouldn't she be able to, with infinite speed? Then again, if Marisa is far away enough from (192, 112), this workaround would warp her across the entire playfield. Can Marisa teleport according to lore? I have no idea… :tannedcirno:
  4. Triggering an immediate Game O– hell no, this is the Stage 4 boss, people already hate losing runs to this bug!

Asking Twitter worked great for the Kurumi workaround, so let's do it again! Gotta attach a screenshot of an earlier draft of this blog post though, since this stuff is impossible to explain in tweets…

…and it went through the roof, becoming the most successful ReC98 tweet so far?! Apparently, y'all really like to just look at descriptions of overly complex bugs that I'd consider way beyond the typical attention span that can be expected from Twitter. Unfortunately, all those tweet impressions didn't quite translate into poll turnout. The results were pretty evenly split between 1) and 2), with option 1) just coming out slightly ahead at 49.1%, compared to 41.5% of option 2).

(And yes, I only noticed after creating the poll that warping to both the green and yellow points made more sense than warping to just one of the two. Let's hope that this additional variant wouldn't have shifted the results too much. Both warp options only got 9.4% of the vote after all, and no one else came up with the idea either. :onricdennat: In the end, you can always merge together your preferred combination of workarounds from the Git branches linked below.)


So here you go: The new definitive version of TH04, containing not only the community-chosen Kurumi and Stage 4 Marisa workaround variant, but also the 📝 No-EMS bugfix from last year. Edit (2022-05-31): This package is outdated, 📝 the current version is here! 2022-04-18-community-choice-fixes.zip Oh, and let's also add spaztron64's TH03 GDC clock fix from 2019 because why not. This binary was built from the community_choice_fixes branch, and you can find the code for all the individual workarounds on these branches:

Again, because it can't be stated often enough: These fixes are fanfiction. The gameplay community should be aware of this, and might decide to handle these cases differently.


With all of that taking way more time to evaluate and document, this research really had to become part of a proper push, instead of just being covered in the quick non-push blog post I initially intended. With ½ of a push left at the end, TH05's Stage 1-5 boss background rendering functions fit in perfectly there. If you wonder how these static backdrop images even need any boss-specific code to begin with, you're right – it's basically the same function copy-pasted 4 times, differing only in the backdrop image coordinates and some other inconsequential details.
Only Sara receives a nice variation of the typical 📝 blocky entrance animation: The usually opaque bitmap data from ST00.BB is instead used as a transition mask from stage tiles to the backdrop image, by making clever use of the tile invalidation system:

TH04 uses the same effect a bit more frequently, for its first three bosses.

Next up: Shinki, for real this time! I've already managed to decompile 10 of her 11 danmaku patterns within a little more than one push – and yes, that one is included in there. Looks like I've slightly overestimated the amount of work required for TH04's and TH05's bosses…

📝 Posted:
🚚 Summary of:
P0186, P0187, P0188
Commits:
a21ab3d...bab5634, bab5634...426a531, 426a531...e881f95
💰 Funded by:
Blue Bolt, [Anonymous], nrook
🏷 Tags:

Did you know that moving on top of a boss sprite doesn't kill the player in TH04, only in TH05?

Screenshot of Reimu moving on top of Stage 6 Yuuka, demonstrating the lack of boss↔player collision in TH04
Yup, Reimu is not getting hit… yet.

That's the first of only three interesting discoveries in these 3 pushes, all of which concern TH04. But yeah, 3 for something as seemingly simple as these shared boss functions… that's still not quite the speed-up I had hoped for. While most of this can be blamed, again, on TH04 and all of its hardcoded complexities, there still was a lot of work to be done on the maintenance front as well. These functions reference a bunch of code I RE'd years ago and that still had to be brought up to current standards, with the dependencies reaching from 📝 boss explosions over 📝 text RAM overlay functionality up to in-game dialog loading.

The latter provides a good opportunity to talk a bit about x86 memory segmentation. Many aspiring PC-98 developers these days are very scared of it, with some even going as far as to rather mess with Protected Mode and DOS extenders just so that they don't have to deal with it. I wonder where that fear comes from… Could it be because every modern programming language I know of assumes memory to be flat, and lacks any standard language-level features to even express something like segments and offsets? That's why compilers have a hard time targeting 16-bit x86 these days: Doing anything interesting on the architecture requires giving the programmer full control over segmentation, which always comes down to adding the typical non-standard language extensions of compilers from back in the day. And as soon as DOS stopped being used, these extensions no longer made sense and were subsequently removed from newer tools. A good example for this can be found in an old version of the NASM manual: The project started as an attempt to make x86 assemblers simple again by throwing out most of the segmentation features from MASM-style assemblers, which made complete sense in 1996 when 16-bit DOS and Windows were already on their way out. But there was a point to all those features, and that's why ReC98 still has to use the supposedly inferior TASM.

Not that this fear of segmentation is completely unfounded: All the segmentation-related keywords, directives, and #pragmas provided by Borland C++ and TASM absolutely can be the cause of many weird runtime bugs. Even if the compiler or linker catches them, you are often left with confusing error messages that aged just as poorly as memory segmentation itself.
However, embracing the concept does provide quite the opportunity for optimizations. While it definitely was a very crazy idea, there is a small bit of brilliance to be gained from making proper use of all these segmentation features. Case in point: The buffer for the in-game dialog scripts in TH04 and TH05.

// Thanks to the semantics of `far` pointers, we only need a single 32-bit
// pointer variable for the following code.
extern unsigned char far *dialog_p;

// This master.lib function returns a `void __seg *`, which is a 16-bit
// segment-only pointer. Converting to a `far *` yields a full segment:offset
// pointer to offset 0000h of that segment.
dialog_p = (unsigned char far *)hmem_allocbyte(/* … */);

// Running the dialog script involves pointer arithmetic. On a far pointer,
// this only affects the 16-bit offset part, complete with overflow at 64 KiB,
// from FFFFh back to 0000h.
dialog_p += /* … */;
dialog_p += /* … */;
dialog_p += /* … */;

// Since the segment part of the pointer is still identical to the one we
// allocated above, we can later correctly free the buffer by pulling the
// segment back out of the pointer.
hmem_free((void __seg *)dialog_p);

If dialog_p was a huge pointer, any pointer arithmetic would have also adjusted the segment part, requiring a second pointer to store the base address for the hmem_free call. Doing that will also be necessary for any port to a flat memory model. Depending on how you look at it, this compression of two logical pointers into a single variable is either quite nice, or really, really dumb in its reliance on the precise memory model of one single architecture. :tannedcirno:


Why look at dialog loading though, wasn't this supposed to be all about shared boss functions? Well, TH04 unnecessarily puts certain stage-specific code into the boss defeat function, such as loading the alternate Stage 5 Yuuka defeat dialog before a Bad Ending, or initializing Gengetsu after Mugetsu's defeat in the Extra Stage.
That's TH04's second core function with an explicit conditional branch for Gengetsu, after the 📝 dialog exit code we found last year during EMS research. And I've heard people say that Shinki was the most hardcoded fight in PC-98 Touhou… Really, Shinki is a perfectly regular boss, who makes proper use of all internal mechanics in the way they were intended, and doesn't blast holes into the architecture of the game. Even within TH05, it's Mai and Yuki who rely on hacks and duplicated code, not Shinki.

The worst part about this though? How the function distinguishes Mugetsu from Gengetsu. Once again, it uses its own global variable to track whether it is called the first or the second time within TH04's Extra Stage, unrelated to the same variable used in the dialog exit function. But this time, it's not just any newly created, single-use variable, oh no. In a misguided attempt to micro-optimize away a few bytes of conventional memory, TH04 reserves 16 bytes of "generic boss state", which can (and are) freely used for anything a boss doesn't want to store in a more dedicated variable.
It might have been worth it if the bosses actually used most of these 16 bytes, but the majority just use (the same) two, with only Stage 4 Reimu using a whopping seven different ones. To reverse-engineer the various uses of these variables, I pretty much had to map out which of the undecompiled danmaku-pattern functions corresponds to which boss fight. In the end, I assigned 29 different variable names for each of the semantically different use cases, which made up another full push on its own.

Now, 16 bytes of wildly shared state, isn't that the perfect recipe for bugs? At least during this cursory look, I haven't found any obvious ones yet. If they do exist, it's more likely that they involve reused state from earlier bosses – just how the Shinki death glitch in TH05 is caused by reusing cheeto data from way back in Stage 4 – and hence require much more boss-specific progress.
And yes, it might have been way too early to look into all these tiny details of specific boss scripts… but then, this happened:

TH04 crashing to the DOS prompt in the Stage 4 Marisa fight, right as the last of her bits is destroyed

Looks similar to another screenshot of a crash in the same fight that was reported in December, doesn't it? I was too much in a hurry to figure it out exactly, but notice how both crashes happen right as the last of Marisa's four bits is destroyed. KirbyComment has suspected this to be the cause for a while, and now I can pretty much confirm it to be an unguarded division by the number of on-screen bits in Marisa-specific pattern code. But what's the cause for Kurumi then? :thonk:
As for fixing it, I can go for either a fast or a slow option:

  1. Superficially fixing only this crash will probably just take a fraction of a push.
  2. But I could also go for a deeper understanding by looking at TH04's version of the 📝 custom entity structure. It not only stores the data of Marisa's bits, but is also very likely to be involved in Kurumi's crash, and would get TH04 a lot closer to 100% PI. Taking that look will probably need at least 2 pushes, and might require another 3-4 to completely decompile Marisa's fight, and 2-3 to decompile Kurumi's.

OK, now that that's out of the way, time to finish the boss defeat function… but not without stumbling over the third of TH04's quirks, relating to the Clear Bonus for the main game or the Extra Stage:

And after another few collision-related functions, we're now truly, finally ready to decompile bosses in both TH04 and TH05! Just as the anything funds were running out… :onricdennat: The remaining ¼ of the third push then went to Shinki's 32×32 ball bullets, rounding out this delivery with a small self-contained piece of the first TH05 boss we're probably going to look at.

Next up, though: I'm not sure, actually. Both Shinki and Elis seem just a little bit larger than the 2¼ or 4 pushes purchased so far, respectively. Now that there's a bunch of room left in the cap again, I'll just let the next contribution decide – with a preference for Shinki in case of a tie. And if it will take longer than usual for the store to sell out again this time (heh), there's still the 📝 PC-98 text RAM JIS trail word rendering research waiting to be documented.