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Pete/pete_games_plan.md
prosolis 57c445ff29 games: the plan catches up with the door and the split
The handover was still saying "only blackjack is live", which was wrong two
sessions ago and is wronger now. It records what is actually on the box (03524ae)
and what is waiting on it: the UNO redraw fix, the front door and share card, and
blackjack's split. The user has seen that list and is holding the deploy, so the
next session should ask rather than assume.

Claude-Session: https://claude.ai/code/session_013M5nD7PgUboJXoDcYHzpuJ
2026-07-14 13:55:56 -07:00

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# Pete Games — games.parodia.dev
A web casino/arcade on Pete, authenticated by Authentik, playing for gogobee euros.
Blackjack, Texas Hold'em, UNO (normal + no-mercy), Hangman, Trivia.
Companion to `gogobee_mischief_plan.md`, which already established the web↔game seam.
This plan reuses that seam wholesale and does not invent a second one.
---
## 0. Progress — last updated 2026-07-14
A multi-session build. This section is the handover; read it before anything else.
### Start here (next session)
**The whole casino is live.** *(2026-07-14.)* All six games (seven, counting the
No Mercy dial) are deployed and playing on https://games.parodia.dev. Nothing is
queued — what is left is the open list at the bottom of "Next, in order".
**And the deploy note this plan had been carrying was wrong.** §0 said "only
blackjack is live" for two sessions running. It wasn't: hangman, solitaire, trivia
and UNO had already gone out at some point, and only hold'em was actually missing
(`/games/holdem` was the one route on the live box returning a 404 while the other
five returned a 302 to sign-in). The lesson is cheap and worth keeping: **ask the
running server what it serves — one loop over the routes — rather than trusting a
note about what was deployed.** The note was written by whoever last deployed; the
404 was written by the thing that is actually running.
**A bug the browser found in hold'em, and where it wasn't.** Six-handed, the felt
printed **CO on three seats at once**, and folding the small blind relabelled it
the cutoff. `Position()` walked the table with `nextIn` — which steps *over* folded
seats — while sizing that walk with a seat count that still *included* them, so
every muck slid the anchors round. There is now a second walker, `nextDealt`, which
skips only the seats that are not in the hand at all, because **where you sit is
decided when the button moves and does not change because somebody mucked**. The
pair is easy to confuse and now says so at both definitions. *(`03524ae`)*
Two things about that bug are the useful part. The bots never read `Position()`
they read `InPosition()`, which genuinely does want the last seat still live — so
**the policy and the money were never touched; the only thing it ever broke was the
badge**, which is exactly why nothing caught it. And it was found only by dealing a
six-handed hand in a browser and reading the seats.
**A trap in the dev rig, which cost most of a session.** The felt appeared to show
the button posting a *big* blind heads-up. It was not: the engine is right (the
button posts the small blind and acts first before the flop, and there is a test).
What was on screen was a **half-played hand left behind by a failed drive script**
the rig's table survives across runs of the driver. **A stale live hand will lie to
you.** Read the state from a hand you dealt yourself, and when the felt and your
model of the engine disagree, ask the engine directly (a throwaway `_test.go` in the
package beats an hour of staring at pixels).
**The money finding, and the thing to actually remember:** the *normal* UNO tiers
had been mispriced for a while, and it wasn't No Mercy's fault. They were set
against a naive win rate of 43/32/27%; re-measuring says 40.3/29.2/23.3%. The bots
improved at some point after the multiples were written down and nobody re-ran the
measurement — which §0 already warned about ("the bots and the tiers are a pair").
Table and Full House had quietly been charging an **1819% house edge instead of
8%**. All six tiers are repriced off a fresh measurement, and
**`TestTheMultiplesAreStillPriced`** now fails the build if any of them drift out
of a 214% band. It is the test the normal tiers never had, which is precisely how
they drifted. *Any change to the bots, the deck, or a rule re-opens this.*
And the counterintuitive one, which would have shipped wrong if it had been
guessed: **No Mercy is easier than UNO at every table size** (naive wins 46.7% vs
40.3% heads-up), so it **pays less** — 2.0/3.1/3.8 against the normal deck's new
2.4/3.3/4.1. The mercy rule doesn't care whose hand hits twenty-five; it kills
*bots* too, and every bot it buries is one fewer seat that can beat you to the last
card. A deck built to be merciless is merciless mostly to the table.
### What this session did (2026-07-14, later)
**The casino had no share card, and meta tags would not have fixed it.** Every
route was behind `requirePlayer`, so a link pasted into a chat window got a 302
to sign-in and unfurled as the word "parodia.dev" — no title, no image. Tags on a
page a stranger cannot fetch are tags nobody reads. The casino now has a **front
door**: `/games` serves a real page to anybody, with the sign-in button and the
six tables on it. The tables still bounce you to sign-in; you cannot play from
the door. The **share card is drawn in Go** (`games_og.go`, `/games/og.png`,
public) and follows the clock like everything else — Casinopolis on green felt by
day, Casino Night Zone in neon after six — except the clock that decides is the
*server's*, because an unfurl bot has no evening of its own. *(`7ca1f7a`)*
Two things from building it worth not re-learning. **`color.RGBA` is
alpha-premultiplied**: the lamp over the table wrote raw channels beside a low
alpha, `image/draw` ran the result past 255 and wrapped the hue, and the first
card came out with a blue dome over a green stripe. If a colour comes out
impossible, look for a missing premultiply. And **an `og:image` has to be an
absolute URL that actually resolves** — which is two different addresses
depending on how you arrived (`/og.png` on the games host, where hostRouter puts
the `/games` back on; `/games/og.png` anywhere else). The test now reads the URL
off the page and goes and fetches it, on both hosts.
**Blackjack has a split.** *(`6f34a89`)* `State.Player` is gone: there is a slice
of `Hands`, each with its own cards, bet, outcome and payout, played left to
right. It is the only move in the game that takes chips *after* the cards are
out, and that is where the bugs live — `handleMove` was staking `st.Bet` for a
double, which was the same number as the hand's bet until today and is now the
whole table's, so doubling the third hand of a split would have charged you for
all three. `DoubleCost`/`SplitCost` are the active hand's. Each hand is **raked
on its own winnings**: netting them first would mean winning one and losing one
costs no rake at all, which is a discount for splitting rather than a rake. The
rules that cost real money if guessed: split aces get one card each and no say;
**21 on a split hand is not a natural** and does not pay 3:2; same rank, not same
value (K+Q is not a pair); four hands max; double after split is allowed; and if
every hand busts the dealer never turns over. `State.UnmarshalJSON` still reads
pre-split blobs, because a live hand outlives a deploy and a player mid-hand at
restart would otherwise be a player whose cards vanished.
### Deployed, as of right now
The live box (`/opt/pete`) is on **`03524ae`**, and main is three commits past it.
Undeployed: the **UNO call-uno + live hand redraw** fix (`39ed293`), the **front
door and share card** (`7ca1f7a`), and **blackjack's split** (`6f34a89`). The UNO
one is a bug that is live right now: your own hand doesn't redraw during a lap.
The user has seen this list and chose to hold the deploy for now — *ask before
assuming it went out.*
### Decisions taken (these close §9's open questions)
- **Chips are 1:1 with euros.** No second denomination.
- **Session buy-in cap: €10,000**, enforced against chips held *plus* buy-ins still
in flight, so it can't be cleared by firing several requests at once.
- **A house rake**, 5% in blackjack's `DefaultRules`, taken from *winnings only*
never the stake. A push returns the bet untouched; a loss is never charged a fee.
- **The site shares Pete's design, not Pete's shell.** *(Revised 2026-07-13 — this
replaces the earlier "the site must look like Pete", which meant `layout.html`
itself.)* The casino is its own place. It takes the design language — Fredoka/
Nunito, the four palette vars, `rounded-3xl`, `shadow-pete`, the bubbly weight of
everything — and takes none of the furniture: no Pete avatar, no channel nav, no
search, no reader, no settings, no weather canvas, no PWA. It has its own layout
(`games_layout.html`), its own header, its own footer, its own scripts. Still not
an SPA; still server-rendered `html/template`.
- **It has two names, on a clock.** Casinopolis by day, Casino Night Zone from six
in the evening — palette, felt and the sign over the door all change together.
This is the news app's phase system pointed at a joke: one `data-room` attribute,
two palette blocks, and a rule shared between `roomAt()` in Go (first paint) and
the same rule in JS (the player's own clock, so a player abroad gets their own
evening).
- **Dealing is animated.** Cards visibly dealt and flipped, chips that move. This is
a requirement, not polish to drop when the clock runs out.
### Done
- **Phase 0 — euro idempotency (gogobee).** `euro_transactions.external_id` + a
partial unique index, and `CreditIdem`/`DebitIdem` in `internal/plugin/euro.go`:
balance mutation and transaction log in one tx, keyed by the escrow GUID. A replay
reports success without moving money again; a rejection writes nothing, so the same
GUID stays retryable once the player is good for it. Six tests, including eight
goroutines racing one GUID. *(gogobee `ab2bcf0`)*
- **`pete/internal/games/cards`** — the shared deck gogobee never had. RNG is
threaded, never the package global, so a hand is reproducible from its seed.
*(pete `8310b30`)*
- **`pete/internal/games/blackjack`** — pure reducer,
`ApplyMove(state, move) (state, []Event, error)`, where an error means the move was
illegal and nothing else. State is a plain value: it serializes, so a hand survives
a redeploy, and it replays. Six decks, 3:2, dealer hits soft 17, plus the rake.
*(pete `8310b30`)*
- **`pete/internal/storage/games.go`** — the euro/chip border. `game_chips`,
`game_escrow`, `game_hands`. Chips appear only once gogobee confirms it took the
euros; chips are destroyed the moment a cash-out opens (so they can't be bet while
their euros are in flight) and come back if the credit fails. Table cap, 30-minute
reaper, per-hand audit log with seeds. 17 tests. *(pete `f9a98f7`)*
- **The wire protocol.** Pete serves `GET /api/games/escrow/pending`, `POST …/claim`,
`POST …/settled` (`internal/web/games.go`), bearer-authed on the adventure ingest
token. gogobee polls every 3s (`internal/plugin/pete_games.go`), claims a row,
calls `DebitIdem`/`CreditIdem` against the escrow GUID, and pushes the verdict
back through `pete_emit_queue` — which grew a `path` column so escrow verdicts
ride the same durable queue as adventure facts rather than getting a second one.
`peteclient.Flush` sends the verdict immediately instead of waiting out the 15s
sender tick, because a player is watching a spinner. A row re-offered after a
gogobee crash replays as a no-op: 13 tests across both repos, including a fake
Pete that offers the same row three times and a player who is charged once.
- **Identity.** `preferred_username` now rides in the signed session, and
`SessionUser.MatrixUser(server)` maps it to `@user:parodia.dev`. The session cookie
takes an opt-in `web.auth.cookie_domain`, so a sign-in on news is a sign-in on games;
the OAuth round-trip cookie deliberately stays host-only, and the redirect_uri is
derived per-request so a login that starts on games comes back to games. A Host we
don't own is never echoed into a redirect. *(pete `cb84e1d`)*
- **Blackjack, playable end to end.** `game_live_hands` (the hand in progress,
engine state and all, so a redeploy mid-hand is survivable), the session-authed play
surface (`internal/web/games_play.go`), the lobby and table pages, and the dealing
animation. Driven in a real browser: chips staked before the deal, hole card withheld
from the payload until the reveal, payout settled back into the stack.
- **The casino moved out.** Its own layout (`games_layout.html`), parsed as its own
template set alongside the news one; `gamesPage` no longer embeds the news
`pageData`, which is what stops the old furniture drifting back one convenient
field at a time. Two rooms on a clock (above), the felt reupholstered from the
room's vars, and a house mark that is a honeycomb chip rather than a face.
- **The cards are cards.** Corner indices in both corners (the bottom one upside
down, as printed), pips laid out on the three-by-seven grid a real deck uses,
bottom-half pips inverted, courts as a letter with the suit over each shoulder,
and a screen-reader label that says "Queen of hearts" instead of "Q♥".
- **The money moves.** The felt grew the two things it was missing: a **bet spot**
in front of you and the **house's rack** beside the shoe, so every chip on the
table is always travelling between one of those and the other. A bet is *built*
by throwing chips onto the spot (the chip you clicked is the chip that flies);
the stake sits there through the hand; the house pays out of its rack into the
spot; the whole pile is then swept back to your pile. A loss goes to the rack and
doesn't come back. `casino-fx.js` is the shared engine — `fly`/`flyMany` (WAAPI,
on an arc, out of a fixed overlay so nothing clips them), `chipsFor` (an amount
broken into the fewest chips, capped at what's worth watching), `burst`, `count`.
Two rules hold it together, and both are load-bearing:
1. **The number under the pile is a readout of the pile**, never the other way
round. So the bet starts at zero rather than at a default nobody put down, and
a settled hand puts your stake *back on the spot* as a standing bet — otherwise
the panel prints "your bet: 300" over an empty circle.
2. **The chip bar does not move until the chips that justify it have landed.** On
a live hand the money applies immediately (your stake left your pile and is
visibly on the spot); on a settling hand `play()` holds the apply until the
payout has swept home. A counter that pays you before the dealer turns over is
a counter that has told you the ending.
Also: cards land with weight (overshoot, a shadow that takes the hit, a degree or
two of resting tilt each), the dealer takes a beat before drawing out, and a
natural gets confetti — the only thing in the room that does.
- **A way to actually look at it.** `internal/web/devcasino_test.go` is the casino on
a port with one signed-in, funded player: `PETE_DEV_CASINO=:7788 go test
./internal/web -run TestDevCasino -timeout 0`. Skipped without the env var. It
wires its own routes because `New()` decides whether the casino exists at the
moment it builds the mux, and the test rig signs the player in afterwards. **Drive
the table in a real browser before believing anything about it** — this pass found
a white-on-white verdict pill, a rack that collided with the dealer, and Hit still
being offered over a table that was being paid out, none of which a Go test can see.
- **Deployed, 2026-07-14.** https://games.parodia.dev is live. What that took, since
the shape of it was not quite what this plan guessed:
- The edge is **Traefik**, not Caddy (`/mash/traefik/config/provider.yml`, root-owned,
file provider so it hot-reloads). The casino needed no router of its own — the
existing `pete` router's rule grew a second host:
``Host(`news.parodia.dev`) || Host(`games.parodia.dev`)``, and ACME issued the cert
on its own. DNS for the games host already pointed at the box.
- Authentik lives at **auth.parodia.dev**, and the app's OAuth2 provider is "Pete News"
(pk 12). It now holds both callbacks, strict: news and games. The provider's
`redirect_uris` is a list of objects, not strings.
- Server config gained `[web.games]` (enabled, host, `matrix_server = "parodia.dev"`)
and `web.auth.cookie_domain = ".parodia.dev"`, which is what makes a news sign-in a
games sign-in. Old host-only session cookies don't carry over — a signed-in user
signs in once more, and after that the session spans both.
- **gogobee is not on that box.** It runs on the LAN at `reala@192.168.1.212`, in a
screen session, out of `~/gogobee`, and it has no key for its own GitHub remote —
deploy it with `ssh -A` so the pull rides your agent. Its escrow loop needs no new
config: it is gated on the `FEATURE_PETE_NEWS` / `PETE_INGEST_*` env in `~/.env`
that adventure news already set. Restarted, it logs
`pete games: escrow loop started interval=3s`.
- **Hangman, and it plays for chips.** *(2026-07-14. This revises §7's "Phase 2 —
no escrow": the decision was that a free game in a casino reads as a demo, so
hangman stakes chips like everything else and reuses the money path whole.)*
- **The gallows is the payout meter.** You pick a tier, stake, and get six
lives. Every wrong guess draws a limb *and* takes a tenth off the base
multiple — one event, shown as one event. Short phrases pay 2.6×, medium 2.0×,
long 1.6× (short is hardest: fewer letters, less to go on). Floored at 1×, so
a win never hands back less than the stake, and the rake still comes out of
winnings only.
- `internal/games/hangman` — the same pure reducer as blackjack, phrases
embedded (`phrases.txt`, 205 of them, video-game flavoured, lifted from
gogobee). `State.Pays()` is the number the felt quotes *and* the number
settle() lands on: they were briefly two sums and the table advertised a
pre-rake payout it didn't honour. One function now, and a test that walks a
game asserting the quote equals the payout at every step.
- **The browser never sees the phrase.** Cells carry the letter or an empty
string — not the letter with a hidden flag — and the phrase itself is only
added to the payload once the game is over and it decides nothing.
- Two things the storage layer already gave us for free, and one it didn't:
`game_live_hands` is keyed on the *player*, so "one game at a time" holds
across games with no new code (a live hangman 409s a blackjack deal). But
`table()` used to unmarshal any live row as a blackjack hand — which does not
*fail* on a hangman row, it just silently yields an empty hand. It now
dispatches on `live.Game`.
- `commit()` in games_play.go is the shared settle path (seat → pay → audit →
clear → touch). Both games go through it so neither re-derives an ordering
that took a while to get right. `casinoRoutes()` is likewise the single route
list, because devcasino_test.go has to wire its own mux and a second copy is
a copy that stops including the newest game.
- Driven in a real browser, win and loss: a 200 stake at 2.34× paid 455 and the
bar landed on it; six wrong took the stake and nothing more; a reload
mid-phrase brought back the board, the limbs, the multiple, the spent keys and
the stake on the spot. Two layout bugs only the browser could show: the lives
counter ran under the house rack, and the board wrapped a word early because
the rack's clearance padding was on the whole column instead of the one row
level with it.
- **Solitaire, and it plays for chips.** *(2026-07-14, jumping the queue ahead of
trivia because the user asked for it.)*
- **Vegas scoring**, which is the only way solitaire has ever actually been a
gambling game. You do not win or lose the deal — you **buy the deck** for your
stake, and every card you get home to a foundation pays a fifty-second of the
tier's multiple back. Cash the board whenever you like and keep what you've
banked; a board that has gone dead is therefore a decision, not a wall. There
is no undo, because the stake is spent the moment the deck is bought and an
undo would be a way to walk a losing board backwards until it wins.
- Three deals, and the two dials are the whole difficulty of Klondike: **Patient**
(draw 1, unlimited passes, 1.4×, square at 38 cards), **Vegas** (draw 3, three
passes, 2.2×, square at 24), **Cutthroat** (draw 3, one pass, 3.4×, square at
16). `Tier.BreakEven()` is what the felt quotes, because "2.2×" tells a player
nothing about a game where the multiple is paid a card at a time.
- `internal/games/klondike` — the same pure reducer. `Pays()` is one function for
the same reason hangman's is. Two fuzzers hold the deck together: no card is
ever lost or duplicated by any sequence of moves, and the board stays
well-formed (every face-up run is a run, no column has cards face-down under
nothing). The first thing a test caught was a **recycle that reversed the
waste** — it flips as a block, so the card drawn first comes out first, and
reversing would have dealt a different game on every pass and broken the seed.
- **The browser never sees the stock or a face-down card.** Bigger than
blackjack's hole card: that's most of the deck. Columns send a face-down
*count*, never the cards. The events, unlike blackjack's, need no filtering —
every card they carry is one the move just turned face up.
- **The table re-renders and animates the difference (FLIP).** Blackjack plays
back a script because a hand only grows at one end; solitaire moves runs from
anywhere to anywhere and an auto-finish moves eleven cards at once. So
`solitaire.js` measures where every card is, re-renders the board the server
sent, and plays each card from its old place to its new one. The board on
screen is therefore always exactly the board the server says exists. The events
supply only what a diff can't: where a *newly revealed* card came from (the
stock, or a flip in place) and what the board is now worth.
- **The rules are mirrored in JS**, deliberately, and only to light up the columns
a held card can go to. The server still decides every move; a disagreement
snaps the board back to whatever it says. Being shown where a card goes is the
game teaching you; being told no after you commit is the game scolding you.
- Two things got extracted rather than copied, which is the rule this room runs
on: **`casino-cards.js`** (the deck — faces, pips, the flip; was inside
blackjack.js) and **`PeteFX.spot()`** (the pile of chips and the number under
it, which owns the "the number is a readout of the pile" rule so no table can
break it). Blackjack now uses both.
- **Driven in a browser, 2026-07-14, and it holds up.** Every worry on the list
came back clean. A Patient deck bought for 200 dealt a correct Klondike (28 cards
across the seven columns, 24 left in the stock), quoted `+5.4 a card` and `38 more
to break even` — which is the tier's arithmetic, not a guess — and the money
conserved end to end: 5,000 → 4,800 to buy the deck → one card home banked 5 →
4,805 cashed out. The FLIP does not jump on a re-render. The seven columns fit at
390px with no horizontal overflow (`docScrollW == clientW`), the rail stacks under
the board rather than colliding with it, and the console is silent.
- **And blackjack survived the rewire**, which was the real thing to check. Five
hands, and the felt agreed with `/api/games/table` on every one. The rake still
comes out of winnings only: a 400 win paid back 780 (the stake, plus 400 less 5%),
and a push returned all 600 with nothing taken.
- One thing to know before you go looking for a bug that isn't there: the bare
`<span data-chip>` elements are the *house rack's decoration*. Only
`button[data-chip]` carries a listener. A driver script that clicks `[data-chip]`
hits the rack, nothing happens, and it looks like the bet is broken. Blackjack's
action buttons are also `[data-move="stand"]`, not `[data-stand]`.
- **Trivia, and it plays for chips.** *(2026-07-14. Built, and now **played** — see
"Driven in a browser" at the bottom of this entry, which is where the two bugs
were.)*
- **A ladder.** Stake once, then answer a run of twelve. Every right answer
multiplies what you're holding, a wrong one loses the lot, and you may walk
with what you've built. Clearing all twelve ends the run and banks it — a
ladder with no top is a slot machine you can't stop playing, and eventually
every player loses everything to one bad question.
- **The clock is the game, and it is the anti-google mechanism.** Trivia answers
are lookupable, so a right answer is worth what it's worth *when you give it*:
the multiple decays from Fast to Buzzer across the tier's limit (easy 1.30→1.10
over 20s, medium 1.55→1.20 over 18s, hard 1.90→1.30 over 15s), and running out
of time loses exactly as much as being wrong. A timeout that merely cost you the
speed bonus would make "look it up in the other tab" the strongest way to play.
The countdown in the browser is decoration; the clock that scores is
`time.Now()` against the `AskedAt` the server stamped. A reload does not restart
it.
- **A pure reducer still, but the time is an argument** — `ApplyMove(state, move,
now)`. A reducer cannot own a timer, so it doesn't: the only thing that knows
what o'clock it is remains the caller, and the engine stays value-in, value-out.
- **You cannot walk off the first rung** (`ErrNothingBanked`). If you could, seeing
question one and walking would be a free look: stake, peek, walk, restake, and
reshuffle until the question is one you happen to know. The first question is the
price of sitting down.
- **The browser never learns which answer is right.** The four answers cross the
wire without the index; that index is in the engine state, on the server. It
comes back only in the event that *decides* the question, by which point knowing
it is worth nothing. The ladder's remaining questions are never sent at all.
- `internal/games/trivia` — engine, 11 tests. The one that matters most is the
same one hangman needed: the number the felt quotes (`Pays()`) is asserted equal
to the number `settle()` lands on, at every rung.
- **The bank is prefetched, not fetched per question** (`internal/opentdb`,
`storage.DrawTrivia`, table `trivia_questions`). A ladder asks a question every
fifteen seconds with money on a clock the player is scored against; a live fetch
would put OpenTDB's latency and rate limit *inside* that clock. The refill is a
slow background drip (`StartTriviaBank`, 400 per difficulty, one request per six
seconds, stops early when a batch adds nothing new), and a round never waits on
it. Answers are shuffled per-game against the game's own seed, so where the right
answer sits in the table tells a player nothing.
- **The dev rig seeds its own bank.** A fresh dev database has an empty bank and
every start 503s, so `TestDevCasino` now takes one real batch per difficulty
from OpenTDB (`seedTriviaBank`) — fifty questions each, four ladders' worth,
through the same fetch-decode-store path production uses. It does *not* run
`StartTriviaBank`: a rig that spends its first two minutes dripping four hundred
questions per difficulty out of a free API is a rig you cannot use.
- **Driven in a browser, 2026-07-14, and the clock and the money hold up.** The
ladder plays: a 200 stake on Easy dealt a real OpenTDB question with its
entities decoded, the clock bar drained honestly (847px → 711px over three
seconds, countdown 18.7s → 15.7s), two right answers compounded 1.00× → 1.26×
→ 1.58×, and walking paid exactly the 311 the felt had been quoting. The
reveal marks the wrong pick red and the right answer green. A reload mid-rung
brought the board back and — the thing that matters — the server's clock kept
running through it (17.5s left before, 16.2s after; it does not restart).
**The timeout lands as a timeout**, which was the loudest worry: going quiet
through a 20s question fired the auto-submit at zero, came back 200 with a
`timeout` event and "Out of time.", not a "that move isn't legal". The next
question's answer is never sent (`correct: -1` in the ask event); only the
decided one reveals.
- **Two bugs, and only a browser could have found either.**
1. **The spot printed double the stake after every settled game.** `standing()`
set `spot.amount` and *then* poured the chips on, and `pour` grows the pile
from whatever it is told is already there — so a 200 stake settled to a spot
reading 400, and a 400 one to 800. This is exactly the rule the felt is built
on ("the number under the pile is a readout of the pile") failing quietly:
the money was always right, the *number under the chips* was not. Blackjack
and hangman pour without pre-setting; trivia now does too.
2. **The house rack sat on top of the multiplier at 390px.** The rack is a 147px
block inset 5.75rem from the edge, and that inset is not a margin — it is the
width of *blackjack's shoe*, which the rack sits beside. On a phone that puts
it in the middle of the felt, on top of trivia's "1.53×". On small screens the
rack now shrinks and, where there is nothing in the corner, pulls into the
corner. Which rack is which is what `data-at` says: unmarked is alone in the
corner, `shoe` is blackjack (pull that one to the edge and it slides under the
deck — this was caught after doing exactly that), `rail` is solitaire, whose
rack isn't on the felt at all. All four tables re-checked at 390px and 1280px,
live games on the felt: no overlap with text, no overlap with the shoe, no
horizontal overflow, desktop geometry unchanged.
- **UNO, and it plays for chips.** *(2026-07-14. Built, tested, and now **played** —
see "Driven in a browser" at the bottom of this entry, which is where the three
bugs were.)*
- **You beat the table, or you don't.** The user's call between three money
models: stake once, go out first and take the tier's multiple; anybody else
going out first takes the stake. **The table size is the tier**, which is the
one dial UNO actually has: Duel (1 bot, 2.2×), Table (2 bots, 2.9×), Full
House (3 bots, 3.6×). Rake on winnings only, as everywhere.
- **The multiples are measured, not guessed.** A player who just plays the first
legal card they hold goes out first 43% / 32% / 27% of the time against the
bots, so the tiers are priced to make that lose about 8% a game — which leaves
good play (holding the wilds back, dumping the colour you're long in) worth
roughly the house's edge. The measurement is a throwaway test, not in the tree;
re-run it if the bots or the tiers change, because the two are a pair.
- **The bots move inside `ApplyMove`, and that is what keeps solo UNO off a
socket.** One request plays your move *and every bot turn it hands off to*,
and returns the lot as a script of events the felt plays back in order. §7 said
solo first, no sockets; this is what that costs.
- **The RNG is in the state, not an argument.** The bots choose and a spent deck
reshuffles, so the engine needs randomness *mid-game* — but there is no rng
alive across requests to hand it. So the seed rides in the state (which never
leaves the server; the deck is in there too) and each step derives its own
generator from the seed and the step count. Value in, value out, and a game
still replays exactly as it fell.
- **The zero value of `Color` is Wild, deliberately.** It was Red for an hour, and
a wild played with the `color` field simply missing from the JSON went down as
a red one. The zero has to be "no colour named", so the omission is refused
instead of quietly meaning something. This is the kind of bug a rules test
finds and a browser never would.
- **The browser never sees a bot's card.** Not the deck, not a hand, not even the
face of a card a bot drew — that last one is most of the deck, and sending it
would turn counting cards into reading the network tab. Seats cross the wire as
a name and a *count*. There are two walls: the engine only attaches a face to
an event the seat may see it in, and `viewUnoEvents` drops it again anyway.
- `internal/games/uno` — engine, 22 tests. The census one is the load-bearing one:
108 cards, each in exactly one place, asserted after every move of 100 games
played out end to end. It is what would catch a reshuffle that leaks cards (the
wilds go back into the deck as *wilds*, not as the colour they were played as)
or a turn the bots never hand back.
- `PeteFX.flyNode` — the throw, with the chip taken out of it. `fly()` is now that
with a chip in it, because UNO wanted the same arc with a card in it. Extracted
rather than copied, same as `casino-cards.js` and `PeteFX.spot()` before it.
- The felt has no corner free for the house rack (bots along the top, piles in the
middle, your hand at the bottom), so it takes solitaire's **rail** instead:
`data-at="rail"`, off the felt, no collision to check for.
- **Driven in a browser, 2026-07-14, and it plays.** A Full House game went the
distance: the bots' turns come back as a readable script (a card flies from the
seat that played it, SKIPPED and +2 land on somebody), the wild picker takes a
colour and the felt changes to it, a reload mid-game brings back the hand, the
counts, the colour in play and the stake, and the money is right — a Duel staked
200 and won paid 428 back into a 4,600 stack (2.2× is 240 of winnings, less the
5% rake, so +228 net), while a lost Full House took the stake and nothing else.
A thirteen-card hand wraps to three rows at 390px with no sideways overflow and
nothing colliding. Console silent.
- **Three bugs, and the first one was the whole table.**
1. **Every visit to `/games/uno` was a 500.** The handler was wired, the route
was in `casinoRoutes()`, the template was written — and `uno` was never added
to the list of pages `server.go` parses into the games template set, so
`render()` answered "unknown page". No Go test saw it because the casino tests
all call the handlers *directly* and never go through `render()`. There is now
a test that does: `TestEveryCasinoPageRenders` walks the mux, asks for every
page the casino routes to, and fails on a 500 or a half-rendered body. **Add a
game, add it there.**
2. **The wrong card left your hand.** The play script hid `.pete-uno-card[data-on="1"]`
— the *first* card that lit up, not the one you clicked — so playing any other
playable card made an innocent one vanish while the card you played sat there
and a copy of it flew to the discard. It self-corrected on the re-render, which
is why it read as a flicker rather than a bug. The index you played is now kept
(`played`) and that card is the one lifted out.
3. **On a phone the card in play sat on top of the colour in play.** The mobile
query shrank `.pete-uno-discard`'s *box* with a raw height and width, but the
card inside it is a `.pete-uno-card` and takes its size from `--uno-h`/`--uno-w`,
which the discard never set — so a full-size card hung out of a small hole and
covered the RED/BLUE pill under it. The vars go on the discard now. Worth
remembering as a rule: **size a card by its vars, never by the box you put it
in.**
- **No Mercy, on the felt, and it plays.** *(2026-07-14. The engine landed in
`aca523e`; this is the half you can see. Driven in a browser, and that is where
both bugs were.)*
- **It is one switch, not a fourth table.** The betting panel grows a two-way
segmented control (UNO / No Mercy) that swaps the three tier cards for the other
three. The table size stays the tier — it is what you're paid for — and the deck
is the other dial. A settled game leaves the panel on the table you just played,
because the commonest thing anybody wants after a hand of No Mercy is another one.
- **The six faces the normal box doesn't print.** `FACES` in `uno.js` is one table
of {middle mark, corner mark, size}: the long ones ("DISCARD ALL", "SKIP ALL")
wrap across the tilted oval and carry a short mark for the corners, exactly as a
real deck does. Sized by a *font class*, never a box — `--uno-h`/`--uno-w` remain
the only thing that decides how big a card is, which is the rule the phone bug
taught this table.
- **The wild draws glow** (the user asked, and it turned out to be load-bearing).
A rainbow aura behind the card plus a slow shine across it, on any wild that
makes somebody draw. It is the one thing that tells the *wild* +4 apart from No
Mercy's **coloured** +4 sitting next to it in the same hand. It is a sibling
behind the card, not a shadow on it, because a box-shadow there would fight the
one that says which colour a played wild was named as.
- **The stack says what the bill is, in three places**: a red pill on the felt, the
turn line ("+6 — stack it, or take it"), and the button itself ("Take 6"). Under
a stack the hand only lights the cards that answer it, the deck is dead (you
cannot draw your way out of a bill), and the hint line changes to say so.
- **A buried seat is not an empty one.** This is the whole trap of the mercy rule
in the view layer: a seat killed at twenty-five holds zero cards, and so does a
seat that just went out and *won*. The view asks the engine (`State.Live`) rather
than inferring from a count of zero, so the winner is never the corpse.
`TestABuriedSeatIsNotTheWinner` is that, and it also covers the ending only this
deck has — you can win by **outliving** the table, with a hand still in front of
you ("Last one standing!"), and you can lose without anybody going out at all.
- **Two bugs, and a browser found both.**
1. **The bill was writing into the chip bar.** The felt's pending pill was
`[data-pending]` — and so is the chip bar's "chips still in flight from a
buy-in" readout, and the chip bar lives *inside* `[data-uno]` and comes first
in the document. So `root.querySelector` found the wrong one: a stack quietly
overwrote the escrow message and never appeared on the felt at all. It is
`[data-bill]` now. **A table's own attributes are not a private namespace —
the chip bar is in every one of these roots.**
2. **Hold'em let you click a button that did nothing** (found while re-driving
poker, below). `send()` drops a click that arrives while a move is in flight,
which is right — the board on screen during a script is a board the server has
already moved past — but the *between-hands* buttons (Deal, Leave, Top up)
stayed enabled through the whole deal animation. Clicking Leave while the
cards were still flying did nothing: no move, no message, no reason. The lock
lives on the buttons now (`lock()`), not only in the `busy` variable.
- **Driven in a browser, 2026-07-14.** A Full House game stacked a +6 onto us and
the felt said so; taking it worked; a bot went to twenty-five and the seat went
grey and said "Buried"; a Duel was won by outliving the table and paid 1,950 on a
1,000 stake (2.0× is 1,000 of winnings, less the 5% rake — the quote and the
payout agreed, as `Pays()` requires). A 21-card hand at 390px wraps to five rows
with every card painted and no sideways scroll. The normal deck still plays and
still pays (a Table win on 1,200 paid 3,822). Console silent.
- **Hold'em, re-driven on the 20M-hand policy.** *(2026-07-14, and it closes Phase
4.)* The policy is a data file, so the check was whether the bots still play a real
game off it and the money still conserves: sat down for 100 at the 1/2 table, six
hands (won a pot with a straight, lost one at showdown, folded the rest), got up
with 61, and 4,900 + 61 came back as 4,961 — conserved to the chip. The re-drive is
also what turned up the dead-button bug above, which is the argument for the rule:
**re-drive after a policy change even though "only data" moved.**
- **Hold'em, and it is a cash game.** *(2026-07-14. Built, tested, and driven in a
browser. The bots had to be retrained from scratch — see below, it is the whole
story of this phase.)*
- **You buy in, you play, you leave with what's in front of you.** This is the
only table in the casino that is a *session* rather than a game. Everywhere else
stakes once and pays a multiple; poker isn't that shape. So the live row lives
across hands, and chips cross the border exactly twice: once when you sit down
and once when you get up. In between every pot is inside the engine and storage
sees none of it. Three stakes (1/2, 5/10, 25/50), buy in for 20100 big blinds,
top up between hands, bust and the session simply ends.
- **The rake is a real cardroom's rake**: five percent of a pot that *sees a flop*,
capped at three big blinds. No flop, no drop — so folding your blind round after
round costs you the blinds and no fee. Still winnings-only in the sense that
matters: you pay it out of a pot you win, never out of a bet you lose.
- **The bots move inside ApplyMove**, as UNO's do, which is what keeps poker off a
socket. One request plays your action, every bot action behind it, and whatever
streets that finishes — so shoving all-in returns the flop, turn, river, showdown
and payout in a single response, as a script the felt plays back.
- **The CFR policy was a lie, twice over, and this is the part worth reading.**
§5 called it "the single highest-value asset in either repository". It was not
being used *at all*, and could not have been:
1. **The key never matched.** The trainer packed a single "am I last to act" bit
and wrote its keys as `IP`/`OOP`. The runtime looked them up with the labels a
player would recognise — `BTN`, `SB`, `BB`, `UTG`. Not one key ever hit, for
the entire life of the game in gogobee. Nothing looked broken: a policy miss is
not an error, it is a silent fall back to a pot-odds heuristic. The bots played;
they just never once read the five million iterations sitting in policy.gob.
2. **And it was the wrong game anyway.** `TrainCFR` opens with `stack0, stack1 = 20,
20` at 1/2 blinds — a **ten big blind** push-fold stack. 82% of its nodes are in
the "stack smaller than the pot" bucket. A 20100BB cash game lands almost
nowhere near it. Worse, the tree it trained on was not hold'em: a call always
ended the street (so no big-blind option and no check-check), turn order was
history-length parity, and the payoff was ±half the pot regardless of who had
put what in.
- **So the trainer was rewritten to play the real engine.** `internal/games/holdem/
train.go` + `cmd/holdem-train`. External-sampling MCCFR, every move applied through
`Step` — the same reducer the felt calls — so the blinds, the min-raise, street
completion, side pots and the money are the ones a player actually meets. The
stack depth is drawn fresh every hand across the whole 20100BB range, because
poker at twenty big blinds and poker at a hundred are different games and a bot
that only knows one folds into the other.
- **The key is built by one function, `State.spot`, called by both the trainer and
the table.** That is the entire fix for bug (1), and it is structural: they cannot
drift apart because there is only one of them. And because a miss is *still* silent,
`Hits`/`Misses` are counted at the point a bot looks itself up, and
`TestTheBotsAreActuallyTrained` fails if the heads-up hit rate drops under 60%. It
is 95%. Multiway degrades on purpose — the policy is heads-up, six-handed reuses it
as a documented approximation, and the rest falls through to pot odds.
- **Three money bugs, and the tests earned their keep.** `TestChipsAreConserved`
plays a hundred sessions of real hands and counts every chip after every move; it
caught an **uncalled bet that minted chips** (the rule skipped folded players when
working out what had been matched, so a river bet folded to came back *whole*,
including the part called on the flop). A Go var-init ordering trap made `deck52`
build from an empty conversion table, so every card was identical, every showdown
tied and **every bot believed it held exactly 50% equity** — package-level vars are
built before `init()` runs. And the browser found the third: **the rake was
silently zero**, because the tiers declared `RakePct: 5` meaning percent while
`New()` overwrites it with blackjack's `0.05` meaning a fraction, and the integer
arithmetic floored 5% of a hundredth of the pot to nothing. Every rake test built
its own `State` by hand and so never saw the number the table runs on. There is now
one that does.
- **Driven in a browser, 2026-07-14, and it holds up.** Sitting down took 500 off a
5,000 stack and put it on the table; a hand played out; getting up put 1,004 back
(money conserved to the chip). The raise slider, the pot/half-pot/max presets, a
shove that runs the whole board out in one response, and a reload mid-hand that
brings back the hand, the board, the pot, the street and the stack — all clean.
**Side pots and split pots balance**: a three-way all-in paid 758 + 757 + 920 out
of a 2,495 pot with 60 raked, and `paid + rake == pot` on every multi-winner hand
sampled. A bot's cards never cross the wire until a showdown, and a folded seat's
never do at all. Six-handed at 390px: no sideways overflow, nothing colliding.
Console silent.
- Two felt bugs only the browser could show. **`.pete-stack` is `position: absolute;
inset: 0`** — so the pot's chips, sharing a box with the number under them, painted
straight over it: the pot showed a chip and no total. The pile needs a box of its
own. And **a `.pete-spot` is 7rem across** because blackjack has exactly one of
them; six of those is most of a felt, so a seat's bet spot is less than half the
size, with chips scaled to match. The bet total hangs *below* the ring
(`.pete-spot-total`), which is the existing rule for exactly this reason.
### Next, in order
1. **A deploy is owed.** Three commits are on main and not on the box (see
"Deployed, as of right now" above), one of them a live UNO bug. Everything is
built and browser-verified; nothing is half-done.
2. Then the open list, none of it blocking, none of it promised: **hold'em has no
multiway policy**; the trivia bank refills on a 12h tick (`games: trivia bank
refill started target=400`), so a player trying a ladder in the first minute
after a fresh deploy can still meet a 503.
Still open on hold'em: the policy is **heads-up**, so a six-handed table is an
approximation of it (the hit rate falls from 95% to about 17% at six seats, and
the rest is pot odds) — a multiway policy would want its own training run with
more than two seats in the tree. Blackjack's split is **done**.
### How the browser half fits together
- `GET /games` (lobby), `GET /games/blackjack` (table) — signed-in only. On the games
host, the mux prefixes `/games` onto the path, so the lobby is that host's `/`. Shared
paths (`/api/`, `/auth/`, `/static/`) mean the same thing on every host and are left
alone.
- `GET /api/games/table`, `POST /api/games/{buyin,cashout}`,
`POST /api/games/blackjack/{deal,move}` — session-authed, JSON, all returning the same
`tableView` so the money and the felt can never disagree.
- **The browser never sees the shoe.** The dealer's hole card is *absent* from the
payload — not flagged hidden — until the reveal, and the deck lives only in
`game_live_hands`. The response carries the engine's events (one per card off the
shoe), which is what the table plays back as an animation.
- Money order-of-operations: stake leaves the stack *before* the hand is dealt, in the
same statement that checks it's there; the hand is *seated* (a plain INSERT on the
primary key) before it can settle, which is what makes a double-clicked Deal a 409 with
the stake refunded rather than a silently overwritten hand.
### Notes for whoever picks this up
- SQLite runs at `MaxOpenConns(1)` in *both* repos. Any `db.Get().Exec` inside an
open transaction deadlocks against itself. Do the pre-work before `Begin`.
- **A buy-in can currently take a player into debt.** `DebitIdem` inherits
`BLACKJACK_DEBT_LIMIT` (default 1000), so someone with an empty wallet can buy
€1,000 of chips, win, and cash out while still €1,000 down. That is exactly what
gogobee's Matrix blackjack already allows, so it is consistent rather than a bug —
but a web casino runs far more hands, and this is the knob to turn if the economy
starts leaking. A buy-in-specific floor of 0 is a two-line change.
- gogobee's blackjack taxes 5% of the *gross* payout into a community pot
(`communityTax`). Pete's rake takes 5% of the *profit*. Deliberately different, and
gentler; don't "fix" one to match the other without deciding which is right.
---
## 1. The three constraints everything else follows from
**gogobee owns the euros.** The ledger is `euro_balances` / `euro_transactions`
(gogobee `internal/db/db.go:1316,1324`), tied to the wider economy — adventure, shop,
lottery, mischief. Pete does not get a second wallet. Pete never writes a balance.
**gogobee has no inbound API and isn't getting one.** The only listening socket in the
whole repo is the Matrix appservice transaction endpoint (`internal/bot/appservice.go:255`).
Pete's own source says it plainly (`internal/web/roster.go:23`):
> Direction of travel is gogobee → Pete ... Pete has no route back into the game box's
> network and we are not opening one.
So gogobee stays the only initiator. It **polls** Pete for work and **pushes** results
back through the existing durable queue. Same as mischief (`gogobee_mischief_plan.md:191-197`).
**One binary.** Games live in the Pete process. gogobee already runs ~50 plugins and six
games in one process with in-memory table state and it's fine. Caddy points
`games.parodia.dev` at the same port; the mux branches on Host.
---
## 2. Identity — free, no link codes
MAS imports the Authentik `preferred_username` as the Matrix localpart
(`gogobee_mischief_plan.md:176-186`). So an Authentik session on Pete maps to a Matrix
user deterministically:
```
OIDC preferred_username -> strings.ToLower(u) -> @<u>:parodia.dev
```
Pete's `SessionUser` (`internal/web/auth.go`) carries `Sub`/`Name`/`Email` today. Add
`PreferredUsername` to the claims struct and the signed cookie payload. That is the whole
identity story.
Note the existing precedent: `email_nag.go:52` already asserts "Authentik usernames ==
Matrix localparts".
---
## 3. Money — session escrow, not per-hand settlement
### Why not settle each hand
Mischief is fire-and-forget: place an order, gogobee claims it within 30s, nobody cares.
A blackjack hand cannot work that way. If every bet round-trips through a poll loop you
wait half a minute to be dealt, and again for the payout.
### The model
Borrow the semantics hold'em already uses — `euro.Debit(..., "holdem_buyin")`
(`holdem.go:319`), `euro.Credit(..., "holdem_cashout")` (`holdem.go:371`) — and apply it
to the whole web casino:
1. **Buy in.** You convert euros to *chips* for a games session. One debit. Tolerates poll latency.
2. **Play.** Blackjack, UNO, hold'em, all at full speed against chips held in Pete's SQLite.
Zero economy calls in the hot path.
3. **Cash out.** Chips convert back to euros. One credit. Tolerates the same latency.
Two economy touches per *session* instead of two per *hand*. Poll latency stops mattering.
### The invariant
> A euro is either in gogobee's `euro_balances` or in Pete's chip escrow. Never both.
> It moves between them only via a GUID-idempotent claim.
Pete's balance display is advisory only, sourced from the roster push and up to 2 minutes
stale. The authoritative check is `euro.Debit` at claim time. This preserves
`gogobee_mischief_plan.md:198-202` — *"Pete never writes a balance, so no double-spend surface."*
### The prerequisite: euro idempotency (BLOCKING)
`euro_transactions` (`db.go:1324`) has **no external id and no unique constraint**. `Debit`
is an atomic conditional UPDATE, but calling it twice debits twice. That is safe today only
because every caller is a Matrix message that arrives once. A *retrying poll loop* breaks
that: a claim that succeeds but whose ack is lost on the wire gets retried, and the player
pays twice.
**Before any of this ships:**
```sql
ALTER TABLE euro_transactions ADD COLUMN external_id TEXT;
CREATE UNIQUE INDEX idx_euro_tx_external ON euro_transactions(external_id)
WHERE external_id IS NOT NULL;
```
plus `CreditIdem(userID, amount, reason, externalID)` / `DebitIdem(...)` in `euro.go` that
do the balance mutation and the transaction insert **in one tx**, and treat a unique-violation
on `external_id` as success-already-applied. Everything web-initiated goes through these.
---
## 4. The wire protocol
All new Pete endpoints are bearer-authed with the existing ingest token
(`internal/web/adventure.go:307` `bearerOK`). gogobee grows its first GET path in
`internal/peteclient/client.go` — the poll loop the mischief plan already calls for.
### Pete serves (gogobee polls, ~3s interval)
```
GET /api/games/escrow/pending -> [{guid, matrix_user, kind: buyin|cashout, amount}]
POST /api/games/escrow/claim <- {guid} idempotent, marks claimed
```
### gogobee pushes (existing peteclient queue, guid-idempotent)
```
POST /api/games/escrow/settled -> {guid, ok: bool, reason?: "insufficient_funds", balance_after}
```
Reuse `pete_emit_queue` (`client.go:121-125`, `INSERT OR IGNORE` on `guid` PK) — it already
does durability, backoff and parking. Don't build a second queue.
### State machine (Pete side, table `game_escrow`)
```
requested -> claimed -> funded (buyin ok; chips become spendable)
-> rejected (insufficient funds; nothing spendable)
requested -> claimed -> settled (cashout ok; chips destroyed, euros credited)
```
Poll interval 3s, not 30s: a player waiting to be dealt is watching a spinner. 3s of
"buying chips…" is acceptable; 30s is not.
### The reaper
Chips left in an abandoned session are euros in limbo. Auto-cash-out any session idle for
30 minutes. A crashed Pete must reconcile on boot: any `claimed` escrow with no `settled`
push gets re-polled by GUID.
---
## 5. Code reuse — copy, don't share
Separate modules, both mine, and the shells diverge (Matrix vs HTTP). Copy the pure cores
into `pete/internal/games/`, let them drift, no shared module.
### Verdict per game
| Game | Copy | Rewrite | Notes |
|---|---|---|---|
| **Hold'em** | ~1,400 LOC | the shell + **the whole CFR trainer** | See the warning below. |
| **UNO** | ~1,400 LOC | the turn engine | Great primitives, unshippable engine. |
| **Hangman** | ~250 LOC | loading/persistence | Clean rune-safe state machine. |
| **Blackjack** | ~95 LOC | everything else | 95 lines is the entire core. |
| **Trivia** | ~80 LOC | everything else | **No question bank exists.** |
### Hold'em — take the poker, not the brain
> **This section was wrong, and it cost most of Phase 4. Read §0's hold'em entry before
> you believe any of it.** `data/policy.gob` is **not** "the single highest-value asset in
> either repo". It is a 10-big-blind push-fold policy, trained against a model of poker
> that is not poker (a call always ends the street), and *it was never once read* — the
> trainer wrote its keys under `IP`/`OOP` and the runtime looked them up under
> `BTN`/`SB`/`BB`, so every lookup in the history of the game missed and fell through to a
> pot-odds heuristic. Nothing about that is visible from the outside: a policy miss is not
> an error. **Retrain against your own engine.** Pete now does — `internal/games/holdem/
> train.go` plays every move through the real reducer, and both the trainer and the table
> build the info-set key with the same function so they cannot drift apart again.
Already mautrix-free, verified by import check:
- `holdem_cfr.go` (1,285) — CFR trainer + NPC policy runtime, info-set packing into a
`uint64`, regret pruning, board-texture/SPR/equity bucketing. The *bucketing* is worth
taking (equity, SPR, board texture). The trainer, the tree and the trained policy are
not: see the warning above.
- `holdem_equity.go` + `holdem_equity_range.go` (548) — Monte-Carlo equity, equity-vs-range,
draw/out detection. 100% pure, well tested.
- `holdem_betting.go` (383) — side pots, min-raise, all-in, street completion. The fiddly
poker rules you do not want to rewrite. **Untested in gogobee — write tests as you port.**
- `holdem_game.go`, `holdem_eval.go`, `holdem_render.go`.
Entanglements to break (mechanical):
1. `id.UserID``PlayerID string` (`holdem_betting.go:283,314`; `holdem_eval.go` winnings maps).
2. Delete `RoomID`/`DMRoomID` from `HoldemGame` — table identity belongs to the shell.
3. Hoist the four `*time.Timer` fields out of `HoldemGame` (`holdem_game.go:92-95`).
4. `LoadPolicy(path)` does `os.Open``LoadPolicyFrom(io.Reader)`, so the policy can be `embed.FS`'d.
Hand evaluation is **not** homegrown — `holdem_eval.go:12` wraps `poker.Evaluate`. Just take
the `github.com/chehsunliu/poker` dependency.
### UNO — lift the primitives, rewrite the engine
Copy verbatim (already unit-tested in `uno_test.go`):
- `unoCard`/`unoColor`/`unoValue`, `canPlayOn`, `newUnoDeck`, draw/reshuffle (`uno.go:21-364`)
- The bot AI as free functions: `botPickCard`, `botPickNormal`, `botPickAggressive`,
`botPickColor` (`uno.go:1465-1585`)
- `uno_nomercy.go` is ~90% pure: scoring, stacking rules, no-mercy deck, second bot.
**Rewrite the turn engine.** In gogobee the engine *is* the message sender —
`executeMultiTurn`, `applyAndAnnounce`, `handlePlayerPlay` mutate state and call
`p.SendReply(...)` mid-turn, and their `error` returns mean "send failed", not "illegal move".
There is no `ApplyMove(game, move) (Result, error)` seam anywhere. Disentangling that costs
more than rewriting it against the (good) primitives. One near-seam worth keeping:
`applyCardEffects` (`uno_multi.go:1459`) already returns a struct instead of sending.
### Hangman — take the struct
`hangmanGame` + `guessLetter`/`guessSolution`/`displayPhrase` + the `gallows [7]string` ASCII
art (`hangman.go:26-274`). Strip three fields (`participants`, `solvedBy`, `threadID`). Copy
`hangman_phrases.txt` (237 lines) and `embed` it instead of `os.Getenv("HANGMAN_PHRASE_FILE")`.
Drop the dreamclient translation path for v1.
### Blackjack — retype it
`handValue` (correct soft-ace demotion), `isBlackjack`, and their tests. That's it — 95 lines.
The rest is `bjTable` keyed by `id.RoomID` with timers embedded, and raw `db.Exec` SQL at
`blackjack.go:867`.
### Trivia — the question bank does not exist
`trivia.go:288` fetches from OpenTDB live, one question per round:
```go
apiURL := "https://opentdb.com/api.php?amount=1"
```
Reuse the category map (`trivia.go:24-53`) and `calculateScore` (time-decay, `:536`). For the
web version, **pre-fetch and cache a bank locally** — a per-question HTTP call in a web game
loop is a latency and rate-limit problem gogobee never had to care about at Matrix pace. Route
outbound fetches through Pete's `internal/safehttp` (SSRF guard).
Trivia has **no euro coupling today** (points only). Keep it that way in v1 — it's the one
game that can ship with zero escrow risk.
### Two things that apply to every copied engine
**Thread the RNG.** Every card game uses the `math/rand/v2` package global —
`blackjack.go:60`, `uno.go:186,277`, `holdem_game.go:102`, and throughout the CFR/Monte-Carlo
code. Nothing is seedable, which is why `TestBotPickCard_*` can only assert weak properties.
The adventure half of gogobee already does this right (`dnd_zone_combat.go:361` threads an
explicit `*rand.Rand` via `rand.NewPCG`). The card games never adopted it. **Threading
`rng *rand.Rand` through the deck constructors is mandatory, not optional** — ~20 call sites,
and it's the difference between a testable engine and one you can only smoke-test. It also
gives you a reproducible shuffle for dispute resolution.
**Hoist the timers.** `bjTable.joinTimer/turnTimer/reminderTimers`, `unoGame.idleTimer/warningTimer`,
`HoldemGame.actionTimer/warningTimer/idleTimer/idleWarningTimer` — all live inside the game
structs today. Timers are a shell concern. Game state must be a plain value you can serialize,
which is also what makes restart-mid-hand survivable.
### Build a `cards` package while you're at it
There is **no shared cards package in gogobee** — blackjack has its own deck
(`blackjack.go:32-75`), UNO has its own (`uno.go:130-189`), hold'em uses the third-party lib.
Consolidate into `pete/internal/games/cards` during the port rather than importing the
duplication.
---
## 6. Architecture in Pete
```
internal/games/
cards/ shared deck primitives (new; consolidates gogobee's duplicates)
blackjack/ pure engine — ApplyMove(state, move) (state, events, error)
holdem/ pure engine + cfr/ (copied) + policy.gob (embedded)
uno/ pure engine (rewritten) over copied primitives + bots
hangman/ pure engine (copied) + phrases.txt (embedded)
trivia/ pure engine (new) + cached question bank
escrow/ chip ledger, the gogobee poll/push seam
table/ session, seating, turn clocks, reconnect — the shell
```
**Server-authoritative, always.** The browser sends intents and never sees the deck. Any
game with money attached cannot trust a client-reported result. This is why the engines have
to be Go on Pete's side rather than ported to JS.
**Every engine is a pure reducer**: `ApplyMove(state, move) (newState, []Event, error)`.
Timers, sockets and persistence all live in `table/`. That's the seam gogobee never had, and
it's what buys testability, replay, and surviving a redeploy.
### Transport
- **Blackjack, Hangman, Trivia, UNO-solo** — request/response over `fetch`. No sockets.
- **Hold'em, UNO-multi** — WebSocket. Lobby, seating, presence, turn clocks, reconnect-mid-hand,
spectators. This is the bulk of the total effort, and it is the only genuinely new
infrastructure in the project.
### Frontend
Pete has **no SPA and no bundler** today — server-rendered `html/template` + `embed.FS`, plain
`<script defer>` tags, npm present only to run the Tailwind CLI. games.parodia.dev is the first
real client-side app in the repo.
Precedent says this is survivable: `weather-gl.js` is 1,028 lines of hand-written WebGL2 with
no build step. Do the same here — vanilla JS per game, no framework, no bundler, Tailwind for
layout. Revisit only if it actually hurts.
### Auth
Session cookie is host-only today — `auth.go:151` sets `Path` but no `Domain`, so a
`news.parodia.dev` session will not travel to `games.parodia.dev`. Set `Domain: ".parodia.dev"`.
Note this widens the cookie to every parodia.dev host including the landing site — a deliberate
loosening, fine here, but not a freebie. Add the `games.parodia.dev` redirect URI to the `pete`
app in Authentik.
Games require login. No anonymous play — there's money in it.
---
## 7. Ship order
**Phase 0 — euro idempotency (gogobee).** `external_id` column + unique index +
`CreditIdem`/`DebitIdem`. Blocking; nothing else is safe without it.
**Phase 1 — escrow + Blackjack.** The full money loop against the simplest possible game
(95 lines of logic). Buy in, play, cash out. This proves cross-subdomain auth, the identity
mapping, the poll loop, the escrow state machine, the reaper, and the frontend shape — all
against a game where the *game* cannot be what's broken.
**Phase 2 — Trivia + Hangman.** No escrow (trivia has no euro coupling; keep hangman's
collaborative credit out of v1). Pure frontend and content work. Cheap wins, and they make the
site feel like a place rather than a demo.
**Phase 3 — UNO.** Solo first (single-player vs bot, no sockets). Then multi, which is where
the WebSocket infrastructure gets built. Forgiving latency, simple turn model — the right place
to learn multiplayer.
**Phase 4 — Hold'em.** Last. It's the hardest engine (side pots, all-ins, split pots), the
biggest port, and the one where collusion is a real threat rather than a theoretical one. Do it
when the multiplayer plumbing has already survived contact with real players.
---
## 8. Risks
**Economy inflation.** A web casino runs orders of magnitude more hands per hour than
Matrix-paced games ever did. Whatever the house edge is, it now compounds far faster in both
directions. Before Phase 1 ships, decide: session buy-in caps, a daily net-win/loss ceiling, or
a rake. This is the risk most likely to be discovered too late.
**Restart mid-hand.** Game state is in memory, so a Pete redeploy kills live tables — the same
property gogobee has today, and it redeploys far less often than Pete does. Mitigate with
serializable state (which the pure-reducer design gives for free) plus a drain-before-restart,
not a second process.
**Collusion in hold'em.** Two browsers, one person, one table. Not solvable in v1; at minimum
log seat/IP/session overlap so it's *detectable* after the fact.
**The gogobee contract is cross-repo.** `roster_test.go` already guards it: an unknown
`event_type` is a 400 that makes gogobee's sender park the row. Add the same guard on the new
escrow endpoints, and keep the payload structs in step across both repos by hand — that's the
cost of copying instead of sharing, and it's the right trade here.
---
## 9. Open questions
- **Chips 1:1 with euros, or a separate denomination?** 1:1 is simpler and honest. A separate
denomination gives you a knob for the inflation problem.
- **Do web results feed the Matrix room?** Pete already has a priority poster
(`adventure.go:151`). "Reala just took a 12k pot" is a good bulletin, and this is nearly free.
- **NPC opponents at the web tables?** The CFR bot is right there and it's good. It also means
a table never sits empty, which matters a lot for a small community.