Okay, `sub` seems to be a pretty standard place for user identifiers.
Let's start with that assumption! I override the `oauth2-mock-server`'s
default of `johndoe` with `theneopetsteam`, just to be cute :3
In this change, we wire up a new NeoPass OAuth2 strategy for OmniAuth,
and hook up the "Log in with NeoPass" button to use it!
The authentication currently fails with `invalid_credentials`, and
shows the `owo` response we hardcoded into the NeoPass server's token
response. We need to finally follow up on the little `TODO` written in
there!
If you pass `?neopass=1` (or a secret value in production), you can see
the "Log in with NeoPass" button, which currently takes you to
OmniAuth's "developer" login page, where you can specify a name and
email and be redirected back. (All placeholder UI!)
We're gonna strip the whole developer strategy out pretty fast and
replace it with one that uses our NeoPass test server. This is just me
checking my understanding of the wiring!
The modeling code is slow! I think in production it's being cached, and
tbh I though I had development mode caching turned on over here, but
it's quite evidently _not_ doing it if so, so. Okay! Skip for now.
This `.gif` format is used in the items list "export to petpage"
feature, as the image URL for items whose URLs are known to contain
blocked words that prevent them from being used in petpages.
But when doing some Rails upgrade long ago, we didn't notice the new
security feature that blocks redirects to other sites without a special
flag being set. It was triggering 500 errors, oops.
Now, we set the flag!
According to our GlitchTip error tracker, every time we deploy, a
couple instances of `Async::Stop` and `Async::Container::Terminate`
come in, presumably because:
1. systemd sends a STOP signal to the `falcon host` process.
2. `falcon host` gives the in-progress requests some time to finish up
3. Sometimes some requests take too long, and so something happens.
(either a timer in Falcon or a KILL signal from systemd, not sure!)
that leads the ongoing requests to finally be terminated by raising
an `Async::Stop` or `Async::Container::Terminate`. (I'm not sure
when each happens, and maybe they happen at different points in the
process? Maybe one happens for the actual long-running ones, vs the
other happens if more requests come in during the meantime but get
caught in the spin-down process?)
4. Rails bubbles up the errors, our Sentry library notices them and
sends them to GlitchTip, the user presumably receives the generic
500 error, and the app can finally close down gracefully.
It's hard for me to validate that this is *exactly* what's happening
here or that my mitigation makes sense, but my logic here is basically,
if these exceptions are bubbling up as "uncaught exceptions" and
spamming up our error log, then the best solution would be to catch
them!
So in this change, we add an error handler for these two error classes,
which hopefully will 1) give users a better experience when this
happens, and 2) no longer send these errors to our logging 🤞❗️
That strange phenomenon where the best way to get a noisy bug out of
your logs is to fix it lmao
I don't think people see this very often visually, but it's showing up
in our error logging! The Rails API changed here long ago and we didn't
notice: to render public files, we should use the `file` argument
instead of `template`.
Yay, we finally added it, the part where we include the appearance data
for the items based on both the species/color and the alt style! Now,
switching to Faerie Acara correctly filters the search only to items
that would fit (I think literally just only body_id=0 items right now,
but we're not banking on that!)
Previously, the query wouldn't fill into the search box or page title
if e.g. parsing had failed. Now it does!
I'm not sure why the rescue strategy we previously had here doesn't
work anymore (I'm sure it must've in the past sometime?), but this is
simpler anyway, let's go!
For now, I'm doing it with a secret feature flag, since I want to be
committing but it isn't all quite working yet!
Search works right, and the appearance data is getting returned, but I
don't have the Apollo Cache integrations yet, which we rely on more
than I remembered!
Also, alt styles will crash it for now!
Adding new functionality to the item search JSON endpoint, and adding
an adapter layer to match the GQL format!
Hopefully this will be pretty drop-in-able, we'll see!
The alt styles controller is the one place we use this right now, but
I'm planning to generalize this to loading appearances during item
search, too!
I also add more `only` fields to the alt styles `as_json` call, because
idk it feels like good practice to both 1) say what we need in this
endpoint, rather than rely on default behavior upstream, and 2) to
avoid leaking fields we didn't realize were on there. (And also to
preserve bandwidth, too!)
I built this API endpoint in anticipation of a change I never actually
made! I'll just remove it for now, leaning toward cleanuppery over
holding onto something I'm not sure about.
I'm gonna also use this for a task to try to warm up *all* the
manifests in the database! But to start, just a simple one, to prepare
the alt styles page quickly on first run. (This doesn't really matter
in production now that I've already visited the page once, but it helps
when resetting things in dev, and I think more it's about establishing
the pattern!)
Preparing to finally move wardrobe-2020's item search to use the main
app's API endpoints instead!
One blocker I forgot about here: Impress 2020 has actual support for
knowing an item's true appearance, like by reading the manifest and
stuff, that we haven't really ported over. I feel like maybe I should
pause and work on the changes to manifest-archiving that I'd been
planning anyway? I'll think about it.
Okay, so I still don't know why rendering is just so slow (though
migrating away from item translations did help!), but I can at least
cache entire closet lists as a basic measure.
That way, the first user to see the latest version of a closet list
will still need just as much time to load it… but *only* the ones that
have changed since last time (rather than always the full page), and
then subsequent users get to reuse it too!
Should help a lot for high-traffic lists, which incidentally are likely
to be the big ones belonging to highly active traders!
One big change we needed to make was to extract the `user-owns` and
`user-wants` classes (which we use for trade matches for *the user
viewing the list right now*) out of the cached HTML, and apply them
after with Javascript instead. I always dislike moving stuff to JS, but
the wins here seem. truly very very good, all things considered!
I think this was to explain why `order` wasn't part of this query, and
we probably used to sort in the controller? But now the item search
module takes care of all that, this is just confusing to say now imo!
Mostly this is just me testing out what it would look like to
modularize the app more… I've noticed that some concerns, like
fundraising, are just not relevant to most of the app, and being able
to lock them away inside subfolders feels like it'll help tidy up
long folder lists.
Notably, I haven't touched the models case yet, because I worry that
might be a bit more complex, whereas everything else seems pretty
well-isolated? We'll try it out!
Okay right, the wardrobe-2020 app treats `state` as a bit of an
override thing, and `pose` is the main canonical field for how a pet
looks. We were missing a few pieces here:
1. After loading a pet, we weren't including the `pose` field in the
initial query string for the wardrobe URL, but we _were_ including
the `state` field, so the outfit would get set up with a conflicting
pet state ID vs pose.
2. When saving an outfit, we weren't taking the `state` field into
account at all. This could cause the saved outfit to not quite match
how it actually looked in-app, because the default pet state for
that species/color/pose trio could be different; and regardless, the
outfit state would come back with `appearanceId` set to `null`,
which wouldn't match the local outfit state, which would trigger an
infinite loop.
Here, we complete the round-trip of the `state` field, from pet loading
to outfit saving to the outfit data that comes back after saving!
Yay it works(*)! But two major missing pieces:
- Outfit saving doesn't persist it at all
- Item compatibility is unaffected: items will still appear in search
and in the preview, even when they don't fit anymore.
To help with space, I'm just showing the word "Nostalgic" (or "???" if
it's from a series we don't recognize, this is hardcoded by ID), and
trusting that from context it will be obvious that it's the "Nostalgic
Faerie" case or whatever. (Moreover, in both the button and the select
we're omitting the species name, by similar reasoning!)
Note that this _still_ doesn't actually apply the style to the outfit
whatsoever; this is all just local state as we're continuing to play
with UI concepts. Actually applying it is probably next though! (Though
there's a couple more UI things I want to do, like some affordances to
clarify that a Style is applied and that Expression changes won't work.)
It was a bit tricky to figure out the right API for this, since I'm
looking ahead to the possibility of splitting these across multiple
pages with more detail, like we do in DTI 2020.
What I like about this API is that the caller gets to apply, or not
apply, whatever scopes they want to the underlying hanger set (like
`includes` or `order`), without violating the usual syntax by e.g.
passing it as a parameter to a method.