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developer 18785efc8c Merge pull request 'release v1.13.0: payments wallet mechanics + database point-in-time recovery' (#220) from development into master 2026-07-08 23:42:15 +00:00
developer 850884d077 Merge pull request 'feat(deploy): continuous WAL archiving to S3 for point-in-time recovery' (#219) from feature/postgres-pitr-archiving into development
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2026-07-08 23:35:07 +00:00
Ilia Denisov a58f2ce0e4 fix(deploy): support a non-standard S3 port for the pgBackRest endpoint
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The S3 endpoint is a host only; some providers publish a separate, non-443
port. Add an optional PGBACKREST_S3_PORT (default 443) alongside the endpoint
host, wired through the prod overlay, write-prod-env.sh and both prod workflows,
and clarify in the docs that the endpoint variable takes the host alone.
2026-07-09 01:14:05 +02:00
Ilia Denisov e922f5f3b9 feat(deploy): continuous WAL archiving to S3 for point-in-time recovery
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Add pgBackRest-based PITR for the production database, shipped disarmed
(archive_mode and the base-backup timer gated off) so it stays inert until the
operator arms it before real payments — an un-armed deploy cannot pile WAL onto
the disk.

- Postgres now builds from a thin image carrying pgBackRest (archive_command runs
  in-process); the prod overlay wires an encrypted (AES-256-CBC), path-style S3
  repository with 30-day retention and a daily full base-backup systemd timer.
- Repository config/secrets flow through the PROD_PGBACKREST_* Gitea set and
  write-prod-env.sh; prod-rollback re-renders the same env so a rollback cannot
  disarm archiving.
- Grafana alerts watch pg_stat_archiver (failing / stalled), absent-safe on the
  test contour, which never archives.
- Fix the pre-migration pg_dump to snapshot the whole database (was backend-only,
  silently excluding payments).
- Document the PITR runbook, the arming sequence and the restore drill in
  deploy/README.md; record the measured cost/perf assessment.
2026-07-09 00:58:04 +02:00
developer 04976a64e8 Merge pull request 'feat(payments): wallet screen with balances, benefits and storefront' (#218) from feature/payments-wallet-ui into development
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2026-07-08 16:44:06 +00:00
Ilia Denisov 4aa6174968 feat(payments): wallet screen with balances, benefits and storefront
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Add the "Кошелёк" section to the settings hub: context-visible chip
balances, active benefits (no-ads term/forever, hints) and a storefront of
chip-priced values and money-priced chip packs. Guests have no wallet; the
Google Play build hides the money purchases behind a RuStore stub; a web
purchase that would draw VK/Telegram chips warns first.

Add the catalog read path the storefront needs — a context-projected
GET /api/v1/user/wallet/catalog (payments service + store, gateway op
wallet.catalog, FBS Catalog/CatalogProduct/CatalogAtom, client decode) —
plus the client leg for the existing wallet.get/buy ops. Value spends reuse
the existing spend path; the chip-pack purchase (money order flow) arrives
with payment intake, so its action is a disabled placeholder for now.

Covered by Go unit (catalog projection) + integration (/wallet/catalog over
Postgres), vitest (formatting, spendable selection, web-spend warning, GP
flag, codec + gateway encode round-trips) and Playwright mock e2e (render,
guest-hidden, GP stub, warning) on Chromium + WebKit.
2026-07-08 12:37:32 +02:00
developer 41f4fd3497 Merge pull request 'feat(payments): chip wallet, store-compliance gate and benefit application' (#217) from feature/payments-currency-benefit-core into development
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2026-07-08 05:53:24 +00:00
Ilia Denisov 1c06d1d0d1 feat(payments): chip wallet, store-compliance gate and benefit application
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Stand up the internal chip/benefit mechanic behind the narrow payments interface:
context-aware balances and benefits, an atomic chip spend, admin grants as
zero-price value sales, the one-directional store-compliance gate (VK/TG same-
origin only, web draws direct→vk→tg, VK-iOS frozen, untrusted fail-closed), and
per-origin hint and no-ads application with term stacking. Reads are served from
an in-process, account-keyed write-through cache (mirroring the suspension gate),
so hot paths issue no query to the payments schema.

Flip the online-game hint wallet and the ad-banner suppression from the deprecated
accounts.hint_balance / paid_account columns to the payments benefit (a hint
balance no longer suppresses the banner — only a no-ads benefit does), and fold
chip segments and benefits by origin on account merge, inside the merge tx. Add
the GET/POST /api/v1/user/wallet edge chain (REST → Connect → FlatBuffers) plus
its codec unit test; no wallet UI yet.

Bring the frozen owner decisions log into the repo at
docs/PAYMENTS_DECISIONS_ru.md (it was untracked under .vscode) and reference it
from PLAN.md; record the read-cache design and the present-sources interface in
PLAN.md and docs/PAYMENTS.md (+ RU mirror).
2026-07-08 06:06:40 +02:00
developer 780ff68ec2 Merge pull request 'release: offline mode + local pass-and-play (hotseat) — proposed v1.12.0' (#212) from development into master 2026-07-07 14:40:43 +00:00
developer 57ff2d03f8 Merge pull request 'Release v1.11.0: PWA install + code-only PWA login + email/metrics fixes' (#187) from development into master 2026-07-05 21:02:08 +00:00
developer a9d0986e74 Merge pull request 'Release v1.10.0: banner colours + urgent, and 3 UI fixes' (#183) from development into master 2026-07-05 14:10:25 +00:00
developer 45957bdcd6 Merge pull request 'Release: promote development → master (old Android WebView support + unsupported-engine telemetry)' (#178) from development into master 2026-07-04 21:23:29 +00:00
developer 829e29a726 Merge pull request 'Release v1.8.0: prod build fix (re-promote)' (#175) from development into master 2026-07-03 21:48:13 +00:00
developer 399508f2f0 Merge pull request 'Release v1.8.0: promote development → master' (#173) from development into master 2026-07-03 21:31:25 +00:00
developer 3a18e683ca Merge pull request 'release: VK Mini App + landscape UI + dict v1.3.1 seed (development→master)' (#144) from development into master 2026-06-30 05:37:43 +00:00
developer 93d086a8a3 Merge pull request 'release: v1.7.0 — Telegram Mini App embedding enhancements' (#138) from development into master 2026-06-24 11:49:44 +00:00
developer 8fe1bdba6b Merge pull request 'release: v1.6.0 — promo deep-link seeds EN variant (+ UI nits)' (#135) from development into master 2026-06-23 21:02:19 +00:00
developer 7923b3cc09 Merge pull request 'release v1.5.1: support-relay card + topic-reopen fixes' (#133) from development into master 2026-06-23 16:54:01 +00:00
developer 4891216749 Merge pull request 'release v1.5.0: Telegram bot support relay' (#131) from development into master 2026-06-23 16:16:04 +00:00
developer f1b8769c89 Merge pull request 'release: v1.4.1 — Telegram nav (windowed, own back button, debug panel)' (#129) from development into master 2026-06-23 13:27:31 +00:00
developer b6f28a2423 Merge pull request 'release: v1.4.0 — Telegram launch diagnostic + dynamic SDK load' (#127) from development into master 2026-06-23 08:40:09 +00:00
developer e32ee9ce68 Merge pull request 'Release: development → master' (#125) from development into master 2026-06-22 22:36:42 +00:00
developer dc946a1faf Merge pull request 'release v1.2.2: edge HTTP/3 stall fix + db-size dashboard threshold' (#121) from development into master 2026-06-22 19:50:58 +00:00
developer 384bd143d0 Merge pull request 'Promote development → master: banner tip set + banner/push language fix' (#114) from development into master 2026-06-22 18:28:00 +00:00
developer c5d22fceca Merge pull request 'Promote development → master: Erudit blank star + dictionary v1.3.0 pin' (#111) from development into master 2026-06-22 13:12:01 +00:00
developer deaa7a29c5 Merge pull request 'Promote development → master (docs finalize + UI tweaks + Telegram name fallback)' (#108) from development into master 2026-06-22 07:27:40 +00:00
developer 24017bcb7f Merge pull request 'Promote development → master (deploy v2: versioning + visible jobs + rollback)' (#106) from development into master 2026-06-22 06:01:03 +00:00
developer 2c4f4b10dc Merge pull request 'Promote development → master (initial production release: pre-release line + Stage 18)' (#104) from development into master 2026-06-22 05:05:48 +00:00
83 changed files with 5403 additions and 225 deletions
+13 -1
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@@ -77,7 +77,7 @@ jobs:
# The main-stack images via compose (reuses the build args, incl. VERSION);
# the bot separately, since it is profiled out of the prod compose.
docker compose -f docker-compose.yml -f docker-compose.prod.yml build
docker compose -f docker-compose.yml -f docker-compose.prod.yml push backend gateway landing validator renderer
docker compose -f docker-compose.yml -f docker-compose.prod.yml push postgres backend gateway landing validator renderer
docker build -f ../platform/telegram/Dockerfile --target bot --build-arg VERSION="$TAG" -t "$REGISTRY/scrabble-telegram-bot:$TAG" ..
docker push "$REGISTRY/scrabble-telegram-bot:$TAG"
@@ -135,6 +135,18 @@ jobs:
DICT_VERSION: ${{ vars.DICT_VERSION }}
POSTGRES_DB: ${{ vars.PROD_POSTGRES_DB }}
POSTGRES_USER: ${{ vars.PROD_POSTGRES_USER }}
# Point-in-time recovery (pgBackRest -> S3), prod main host only. Endpoint/bucket/
# region + the archive-mode switch are variables; the S3 keys + the repository cipher
# passphrase are secrets. All empty/off until the operator arms archiving; flipping
# PROD_PGBACKREST_ARCHIVE_MODE=on activates it (deploy/README.md, arming).
PGBACKREST_ARCHIVE_MODE: ${{ vars.PROD_PGBACKREST_ARCHIVE_MODE }}
PGBACKREST_S3_ENDPOINT: ${{ vars.PROD_PGBACKREST_S3_ENDPOINT }}
PGBACKREST_S3_PORT: ${{ vars.PROD_PGBACKREST_S3_PORT }}
PGBACKREST_S3_BUCKET: ${{ vars.PROD_PGBACKREST_S3_BUCKET }}
PGBACKREST_S3_REGION: ${{ vars.PROD_PGBACKREST_S3_REGION }}
PGBACKREST_S3_KEY: ${{ secrets.PROD_PGBACKREST_S3_KEY }}
PGBACKREST_S3_KEY_SECRET: ${{ secrets.PROD_PGBACKREST_S3_KEY_SECRET }}
PGBACKREST_CIPHER_PASS: ${{ secrets.PROD_PGBACKREST_CIPHER_PASS }}
# TELEGRAM_MINIAPP_URL and GRAFANA_ROOT_URL are derived from PUBLIC_BASE_URL in
# deploy/write-prod-env.sh, not stored variables.
steps:
+10
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@@ -77,6 +77,16 @@ jobs:
SERVICE_EMAIL: ${{ vars.PROD_SERVICE_EMAIL }}
GRAFANA_SMTP_PORT: ${{ vars.GRAFANA_SMTP_PORT }}
GF_SMTP_ENABLED: ${{ vars.PROD_GF_SMTP_ENABLED }}
# PITR archiving parity: a rollback must re-render the SAME env.sh, else it would
# silently disarm WAL archiving (PGBACKREST_ARCHIVE_MODE would fall back to off).
PGBACKREST_ARCHIVE_MODE: ${{ vars.PROD_PGBACKREST_ARCHIVE_MODE }}
PGBACKREST_S3_ENDPOINT: ${{ vars.PROD_PGBACKREST_S3_ENDPOINT }}
PGBACKREST_S3_PORT: ${{ vars.PROD_PGBACKREST_S3_PORT }}
PGBACKREST_S3_BUCKET: ${{ vars.PROD_PGBACKREST_S3_BUCKET }}
PGBACKREST_S3_REGION: ${{ vars.PROD_PGBACKREST_S3_REGION }}
PGBACKREST_S3_KEY: ${{ secrets.PROD_PGBACKREST_S3_KEY }}
PGBACKREST_S3_KEY_SECRET: ${{ secrets.PROD_PGBACKREST_S3_KEY_SECRET }}
PGBACKREST_CIPHER_PASS: ${{ secrets.PROD_PGBACKREST_CIPHER_PASS }}
INPUT_TARGET: ${{ inputs.target_version }}
steps:
- uses: actions/checkout@v4
+159 -85
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@@ -2,9 +2,12 @@
Technical, step-by-step implementation of the monetization domain. Business mechanics and
the rationale for every rule live in [`docs/PAYMENTS.md`](docs/PAYMENTS.md) (RU mirror
[`docs/PAYMENTS_ru.md`](docs/PAYMENTS_ru.md)); this file is the *how*. Each stage is written
to be self-sufficient: returning to it gives full context — goal, exact touch-points,
tests, done-criteria, and current status — without re-deriving decisions.
[`docs/PAYMENTS_ru.md`](docs/PAYMENTS_ru.md)); the frozen owner agreements they both derive
from (the `D1``D41` decisions log) live in
[`docs/PAYMENTS_DECISIONS_ru.md`](docs/PAYMENTS_DECISIONS_ru.md) — the authority when a rule
is disputed. This file is the *how*. Each stage is written to be self-sufficient: returning
to it gives full context — goal, exact touch-points, tests, done-criteria, and current
status — without re-deriving decisions.
## How to use this file
@@ -28,9 +31,9 @@ tests, done-criteria, and current status — without re-deriving decisions.
|-------|-------|---------|--------|
| E0 | Payments data foundation | 1 | DONE |
| E1 | Trusted platform signal | 1 | DONE |
| E2 | Currency + benefit core | 1 | TODO |
| E3 | Wallet UI | 1 | TODO |
| E4 | Durability (PITR) | 2 | TODO |
| E2 | Currency + benefit core | 1 | DONE |
| E3 | Wallet UI | 1 | DONE |
| E4 | Durability (PITR) | 2 | WIP |
| E5 | Payment intake | 2 | TODO |
| E6 | Ads | 2 | TODO |
| E7 | Admin & reports | 2 | TODO |
@@ -82,9 +85,21 @@ Read once; individual stages assume it.
`registerRoutes` gated `if s.payments != nil`, admin section in `registerConsole` gated
`if s.payments != nil`.
- Game/other domains depend on payments only through a **narrow interface** (e.g.
`AdFree(ctx, account, platform) bool`, `SpendHint(ctx, account, platform) error`,
`Balances(ctx, account, platform) …`). Keep the surface small; this is the seam that lets
payments become a separate process later without touching callers.
`AdFree(ctx, account, platform, present) bool`, `SpendHint(ctx, account, platform, present)
error`, `Balances(ctx, account, platform, present) …`), where `present` is the set of
identity sources the account currently holds (`vk`→vk, `telegram`→telegram, `email`→direct;
`robot` ignored), computed by the caller from `account.Identities` — payments carries no
cross-schema identity knowledge, so unlink/re-link availability (D14) falls out live. Keep
the surface small; this is the seam that lets payments become a separate process later
without touching callers.
- **Read model.** Hot reads (`AdFree`/`HintsAvailable`/`Balances` and the gate) are served
from an in-process, account-keyed, write-through cache inside the payments package
(mirroring `account/suspension.go`), invalidated on every payments mutation
(spend/grant/fund/refund/merge); the payments DB is touched only on a cache miss, so the
steady-state hot path issues no query to the `payments` schema. The D39 materialized
`balances`/`benefits` tables stay the in-transaction write target the cache fronts.
Single-instance, matching the deployment (a multi-instance backend would need a shared
cache).
### Migrations & codegen
@@ -283,33 +298,40 @@ Release 2). TG/direct subtype is not cryptographically trusted — E2 must keep
## E2 — Currency + benefit core
**Status:** TODO · **Release 1** · depends on: E0, E1 · mechanics: PAYMENTS §2–§6, §11.
**Status:** DONE · **Release 1** · depends on: E0, E1 · mechanics: PAYMENTS §2–§6, §11.
**Goal.** The full internal money mechanic, exercisable end-to-end **without real money**
via `admin_grant`: chip balances, spend→benefit atomically, the compliance gate by context,
benefit application (no-ads stacking, hints per-origin), the legacy migration, and the
`SpendHint` rewrite. This is the heart.
**Payments service (Go).**
**Payments service (Go).** Every read/gate method also takes `present` (the account's live
identity sources, see *Domain boundary*) and is served from the read cache.
- `Balances(ctx, account, platform)`the segments spendable in the platform's context
(VK→vk; TG→tg; direct→direct+vk+tg; VK-iOS→frozen/view; untrusted→none).
- `Spend(ctx, account, platform, productID)` → gate-checked purchase of a value with chips:
resolve spendable segments by context, draw by priority (direct→vk→tg on web), write a
`spend` ledger row + decrement balance + apply benefit (extend `ads_paid_until[origin]`
from `max(now,end)` / set `ads_forever` / add hints) **in one tx**, stamping `origin` =
platform context. Refuse if untrusted (fail-closed) or funds insufficient.
- `Grant(ctx, account, origin, atoms)``admin_grant` ledger row (price 0, concrete values
only, never chips), same benefit application; origin chosen by the admin (E7 UI; here the
service method + an internal/admin entrypoint).
- `AdFree(ctx, account, platform)` / `HintsAvailable(ctx, account, platform)` /
`SpendHint(ctx, account, platform)` → apply the one-directional origin rule: in context P,
usable origins = {P} plus, when P is web/native, {vk,tg} (relaxation outward); in VK only
vk; in TG only tg.
- `Merge` / `Unlink` hooks: extend `accountmerge` to merge segments+benefits by origin
(same-origin add, different coexist), and make segment availability follow identity
presence (unlink → sleep, re-link → wake). Warn-before-unlink is a UI concern (surface the
balance via the interface).
- `Balances(ctx, account, platform, present)`per-segment `{source, chips, spendable}` for
the context (VK→vk spendable, direct/tg hidden; TG→tg; direct→direct+vk+tg by priority;
VK-iOS→vk shown as a **frozen** number, none spendable; untrusted→view-only, none spendable).
- `Spend(ctx, account, platform, present, productID)` → gate-checked purchase of a **value**
(CHIP price, `method=NULL`; never a chip pack) with chips: resolve spendable segments by
context, draw by priority direct→vk→tg, write a `spend` ledger row (+ a catalog **snapshot**
of atoms+price) + decrement balance + apply benefit (extend `ads_paid_until[origin]` from
`max(now,end)` / set `ads_forever` / add hints) **in one tx**, stamping `origin` = platform
context. Refuse if untrusted (fail-closed) or funds insufficient.
- `Grant(ctx, account, origin, atoms)` → a **0-price sale of a value**: an `admin_grant`
ledger row (`chips_delta=0`, + snapshot), same benefit application; concrete values only,
never chips (no chips move — it neither requires nor touches a balance). Origin chosen by
the admin. In E2 this is the Go service method only, exercised by tests; the admin grant UI
+ catalog editor are E7.
- `AdFree(ctx, account, platform, present)` / `HintsAvailable(…)` / `SpendHint(…)` → apply
the one-directional origin rule: in context P, usable origins = {P} plus, when P is
web/native, {vk,tg} (relaxation outward); in VK only vk; in TG only tg. Hint consumption
draws by the same priority direct→vk→tg.
- `Merge` / `Unlink` hooks: extend `accountmerge` to merge segments **and** benefits by origin
(same-origin add — chips sum, terms extend per origin; different origins coexist) in the
caller's tx (`MergeTx`), and make **both** segment *and* benefit availability follow
identity presence — unlink sleeps the balance *and* the benefit, re-link wakes them (D14),
resolved live from `present`. Warn-before-unlink surfaces the balance via the interface; the
warning UI itself is not E2.
**Backend wiring & migration.**
@@ -328,18 +350,22 @@ methods, Connect methods + transcode + FBS. Admin grant is internal/admin (E7 UI
**Tests.**
- unit (Go): gate-by-context matrix (every row of PAYMENTS §4); priority draw; no-ads
stacking (`+=` from max(now,end)) + forever override; per-origin hint applicability;
merge/unlink segment math.
- unit (Go): gate-by-context matrix (every row of PAYMENTS §4, incl. VK-iOS frozen +
untrusted); priority draw; no-ads stacking (`+=` from max(now,end)) + forever override;
per-origin hint applicability + direct→vk→tg draw; merge/unlink segment+benefit math;
catalog snapshotting; read-cache invalidation on each mutation.
- integration: atomic spend (ledger+balance+benefit in one tx; failure rolls all back);
admin_grant credits values not chips; legacy migration zeroes and flips reads; merge/
unlink over Postgres.
- UI: none new (E3 builds the screen); wallet DTO covered by codec unit tests.
**Done-criteria.** With chips seeded via `admin_grant`, a user can buy no-ads/hints; the gate
blocks cross-context spend and cross-origin application; ads gate reads the new benefit;
`SpendHint` uses segments; all layers green; **compliance regression** (a `direct` benefit
never activates inside VK/TG) is a named test.
**Done-criteria.** `admin_grant` applies no-ads/hints directly (a 0-price sale of a value —
no chips involved); the player chip-spend path (`Spend`) is proven by unit/integration tests
(balance seeded in-test, since a legitimate chip source arrives only with Release 2); the gate
blocks cross-context spend and cross-origin application; the ads gate reads the new benefit;
`SpendHint` uses segments; the hot read paths hit the read cache, not the `payments` schema;
all layers green; **compliance regression** (a `direct` benefit never activates inside VK/TG)
is a named test.
**Notes/risks.** This is the high-blast-radius core (money semantics + a live path
`SpendHint`/`ads.Eligible`). Minimize surface, keep the interface narrow, no mixed-in
@@ -349,82 +375,128 @@ refactors. The legacy flip is expand-contract: reads move first, DROP much later
## E3 — Wallet UI
**Status:** TODO · **Release 1** · depends on: E2 · mechanics: PAYMENTS §1, §7, §6, §13, §4.
**Status:** DONE · **Release 1** · depends on: E2 · mechanics: PAYMENTS §1, §7, §6, §13, §4.
**Goal.** The user-facing "Кошелёк" (Wallet) section: balances + active benefits + the
catalog storefront, honouring guest-hidden, GP-stub, and the web-spend warning.
**Backend + wire (catalog read — new).** E2 shipped `wallet.get` / `wallet.buy` (segments +
benefits + a chip spend) but no way to *list* the catalog; the storefront needs one, so E3 adds a
read path following the E2 shape:
- `payments.Service.Catalog(ctx, cxt)` + `store.loadCatalog` (`internal/payments/{catalog,
store_catalog}.go`) read every **active** product with atoms and prices and project them to the
context (`projectCatalog`, pure + unit-tested): a **value** (no `chips` atom) carries its CHIP
price and shows everywhere; a **chip pack** (`chips` atom) carries the money price for the
context method (`cxt.Kind`: vk→VOTE, telegram→XTR, direct→RUB) and shows only where that method
is priced. Read **uncached** (the catalog is small and rarely edited — unlike the per-account
balances/benefits the read cache fronts).
- REST `GET /api/v1/user/wallet/catalog` (`handleWalletCatalog`, gated by `walletGate`) →
`catalogDTO`; gateway op `wallet.catalog` (`transcode.go` + `encodeCatalog`), `backendclient.
Catalog`; FBS `Catalog`/`CatalogProduct`/`CatalogAtom` (`pkg/fbs/scrabble.fbs`), client
`decodeCatalog`.
**UI (`ui/`).**
- New `'wallet'` tab in `ui/src/screens/SettingsHub.svelte``SettingsTab` union, tab
button **between Friends (:65) and About (:66)**, body branch in the `:42-51` switch,
`'wallet'` route in `ui/src/lib/routeparse.ts` + `ui/src/App.svelte`. Reuse the hub's
guest/offline gating.
- `Wallet.svelte` screen: **minimal** — context-available chip balances + active benefits
(no-ads until date, hints count). **No history feed** (PAYMENTS §11 — noise). Storefront:
products from the configurable catalog, prices in chips (values) / per-method (chip packs).
- New `'wallet'` tab in `ui/src/screens/SettingsHub.svelte` — `SettingsTab` union, tab button
**between Friends and About** (guest-hidden like Friends, offline-disabled like Profile/Friends),
body branch, `'wallet'` route in `ui/src/lib/routeparse.ts` + `ui/src/App.svelte`.
- `Wallet.svelte` screen: context-available chip balances + active benefits (no-ads until date /
forever, hints count). **No history feed** (PAYMENTS §11 — noise). Storefront: values priced in
chips (buyable with `wallet.buy`), chip packs priced per method.
- **Guest:** section hidden entirely (durable-only).
- **GP build:** purchase CTA replaced by a stub ("install the RuStore build to make
purchases"); rewarded + spending earned chips still work. Detect the GP native build.
- **Web-spend warning:** before spending vk/tg chips in a web/native (direct) context, show
an own `Modal` (not `showPopup` — that eats the user-activation gesture) warning the value
will be web/native-only.
- Extract all logic into `ui/src/lib/*` (unit-testable); keep `.svelte` thin.
- **GP build:** the chip-pack purchases are hidden behind a RuStore stub; spending earned chips on
values still works (PAYMENTS §13). Detected by a build-time flag `VITE_GP_BUILD`
(`ui/src/lib/distribution.ts`), forcible under the mock e2e with `?gp`.
- **Web-spend warning:** before a value spend that would draw vk/tg chips in a direct context, an
own `Modal` (not `showPopup`) warns the benefit will be web/native-only. The context is inferred
client-side (`executionContext` — VK/Telegram/direct); the server enforces the real gate on
`wallet.buy` (fail-closed), so no wallet-DTO change was needed.
- Logic extracted to `ui/src/lib/{wallet,distribution}.ts` (unit-testable); `.svelte` stays thin.
**Pack purchase is display-only in E3.** Buying a chip pack needs the money order flow, which is
**E5**; here a pack card shows its price with a disabled **"Soon"** action. E5 replaces that with the
launch/order CTA. Value spends are wired now (E2 `wallet.buy`), though a Release-1 durable account
has 0 chips until funding exists (E5/E6), so a real value spend returns insufficient-funds until then.
**Tests.**
- unit (vitest): storefront/price formatting, context-available-segment selection, warning
trigger condition.
- UI (Playwright mock, Chromium+WebKit): Wallet renders between Friends/About; guest hides
it; GP stub; warning modal on web vk/tg spend. Mock overlay must stay instant under
`MODE==='mock'` (or it intercepts taps).
- unit (Go): `projectCatalog` context matrix (value everywhere; pack per context method; misconfig
omitted). unit (vitest): money/price formatting, spendable-segment selection, warning trigger,
the GP flag; `decodeCatalog` codec round-trip (mock e2e bypasses the codec).
- integration (`inttest`): `/wallet/catalog` returns active products with the context-correct price
over Postgres; soft-deleted excluded.
- UI (Playwright mock, Chromium+WebKit): Wallet renders between Friends/About; guest hides it
(`?guest` seam); GP stub (`?gp`); warning modal on a vk-drawing web spend, no warning on a
direct-covered spend. Mock overlay stays instant under `MODE==='mock'` (or it intercepts taps).
**Done-criteria.** Owner can review the Wallet on the deployed test contour (visual sign-off
is on the contour, not local); balances/benefits/storefront correct per context; guest/GP/
warning paths verified. Release 1 is now demonstrable end-to-end via `admin_grant`.
**Done-criteria (met).** Balances/benefits/storefront render per context; guest/GP/warning paths
verified by unit + integration + mock e2e on both engines. **A *populated* contour review depends
on later stages** (no products until the E7 catalog editor, no chip funding until E5/E6, no grant
UI until E7): on the contour E3 shows the correct **empty** wallet/storefront states; the populated
UI is proven by the mock e2e. (This replaces the earlier "demonstrable end-to-end via `admin_grant`"
line — the grant UI is E7.)
**Notes/risks.** No global `.btn`/`.ghost` in `ui/` — style per-component with scoped CSS +
tokens (mirror NewGame `.invite` for a CTA). Svelte whitespace/`$state` naming gotchas
apply. iOS WebView download/gesture caveats are irrelevant here (no file delivery).
**Notes/risks.** No global `.btn`/`.ghost` in `ui/` — styled per-component with scoped CSS + tokens
(mirror NewGame `.invite`). Product titles are single-language catalog data (E0 `product.title`),
shown verbatim; currency/chip words are i18n, counts follow the app's label+number convention (no
noun agreement). Svelte whitespace/`$state` naming gotchas apply.
---
## E4 — Durability (PITR)
**Status:** TODO · **Release 2** · depends on: E0 (schema exists) · mechanics: PAYMENTS §14.
**Status:** WIP — repo artifacts landed; **prod arming pending** (owner-coordinated, before
E5). · **Release 2** · depends on: E0 (schema exists) · mechanics: PAYMENTS §14 (D4).
**Goal.** Continuous WAL archiving with point-in-time recovery, armed **before the first
real money** is accepted (E5 prod). Protects both money and game data.
**Work.**
**Locked decisions (this stage).**
- Add WAL archiving to the prod Postgres (pgBackRest or WAL-G): base backups + continuous
WAL to a second host or object storage. Wire into `deploy/` (compose/prod overlay +
ansible `deploy/ansible/`), config + secrets under the `PROD_` prefix.
- Restore runbook in `deploy/README.md`: base + WAL replay to a timestamp; test the restore
on a scratch target.
- Keep the existing migration-time `pg_dump` (`deploy/prod-deploy.sh`) as belt-and-braces.
- **Tool: pgBackRest.** **Destination: Selectel S3** object storage (encrypted AES-256-CBC,
path-style addressing), **prod main host only** — the test contour never archives. (D4 left
the tool + destination open; resolved here. Warm replica stays deferred, per D4.)
- **Retention 30 days**, **daily full base backup** (a systemd timer) + continuous WAL
(`archive_command`, a 5-minute forced switch bounds the recovery point). Assessment
(owner-reviewed prod gate): measured prod WAL **~0.77 MB/day**, DB **~9.6 MB** → archive
**< 1 ₽/month** on Selectel S3, **negligible** perf impact. Recorded in `deploy/README.md`.
- **Archiving ships gated OFF** (`PGBACKREST_ARCHIVE_MODE` on the DB, `pitr_enabled` for the
timer — both default off), so the merged/redeployed artifact is inert until armed and an
un-armed prod deploy **cannot** pile WAL onto the disk.
**Mandatory pre-prod assessment (owner-required, gates the Release 2 prod rollout).**
Before the first money goes live, produce and record here:
**Work (landed in the artifacts PR into `development`).**
1. **Disk-storage cost estimate** for the WAL archive + base backups (retention window ×
WAL volume; account for both hosts / object-storage pricing). This can change hosting
sizing.
2. **PG performance-degradation assessment** from continuous archiving (write amplification,
archive_command latency, backup I/O contention) on the prod-sized instance.
- pgBackRest in the DB image (`deploy/postgres/Dockerfile`); postgres becomes a built + pushed
image (prod overlay `image:` + `prod-deploy.yaml` build/push list).
- Repository config + `archive_mode` via `PGBACKREST_*` env on the prod-overlay postgres
service; secrets/vars rendered by `deploy/write-prod-env.sh` from the `PROD_PGBACKREST_*`
Gitea set; **parity added to `prod-rollback.yaml`** (a rollback must not disarm archiving).
- Daily base-backup systemd timer (Ansible `main` role, gated by `pitr_enabled`).
- Two Grafana alerts on the exporter's `pg_stat_archiver` metrics (failing / stalled),
absent/NaN-safe on the contour.
- Belt-and-braces `pg_dump` fixed to dump the **whole DB** (`deploy/prod-deploy.sh` was
`-n backend`, silently excluding `payments`); manual-restore runbook updated.
- Full PITR runbook + arming sequence + recorded assessment in `deploy/README.md`.
Neither blocks building the plan, but both **must** be completed and reviewed before the
prod release — surface the numbers to the owner (they may change host settings).
**Prod arming (SEPARATE — owner-coordinated, before E5; NOT the artifacts PR).** Owner creates
the Selectel S3 bucket + the `PROD_PGBACKREST_*` secrets/variables (incl. `ARCHIVE_MODE=on`);
then promote `development → master` → `prod-deploy` (archive_mode on behind the maintenance
window), `pgbackrest stanza-create` + first base backup + `check`, re-run Ansible with
`-e pitr_enabled=true`, and run the restore drill on an isolated one-shot target. Exact steps:
`deploy/README.md` (point-in-time recovery — arming).
**Tests.** Restore drill on a scratch instance (base + WAL → target timestamp) documented
and passing. No app-level tests.
**Tests.** Restore drill on an isolated one-shot instance (base + WAL → target timestamp),
recorded in `deploy/README.md`. No app-level tests. Local verification: `docker compose config`
valid + the custom PG image builds (archiving inert on the contour).
**Done-criteria.** WAL archiving live on prod PG; a timed restore verified; cost + perf
assessment recorded and owner-reviewed; runbook in `deploy/README.md`.
**Done-criteria.** Artifacts merged with archiving inert. **Fully done** at arming: WAL
archiving live on prod PG; a timed restore verified; cost + perf assessment reviewed; runbook
current in `deploy/README.md`.
**Notes/risks.** The tg host is weak (1 vCPU) — if the archive lands there, watch
contention. Migrations stay expand-contract so image rollback remains DB-safe alongside PITR.
**Notes/risks.** The repository **cipher passphrase is unrecoverable if lost** — stored apart
from the S3 keys. Enabling `archive_mode` restarts postgres (rides the prod-deploy maintenance
window). Migrations stay expand-contract so image rollback remains DB-safe alongside PITR.
---
@@ -440,7 +512,9 @@ receipts, and refunds.
- `POST /api/v1/user/wallet/order` → create `order(pending)` (account/platform/product/
expected amount/origin), return the provider-specific launch payload with `order_id`
threaded in (Robokassa `InvId` / TG `invoice_payload` / VK `item`).
threaded in (Robokassa `InvId` / TG `invoice_payload` / VK `item`). The storefront's chip-pack
card wires its purchase CTA to this here, **replacing the disabled "Soon" placeholder E3 left**
(`ui/src/screens/Wallet.svelte`).
- Robokassa + VK **public webhooks**: new edge routes (add to `deploy/caddy/Caddyfile`
`@gateway` matcher — or they fall to the landing catch-all), signature/HMAC verified,
proxied into a payments intake handler. Match by `order_id`, verify amount, credit
+4 -1
View File
@@ -100,7 +100,10 @@ state, lobby enqueue, chat). The social/account/history operations under
`/api/v1/user`: `friends/*` (request/respond/cancel/unfriend,
list/incoming, the one-time `code` issue/redeem), `blocks/*`, `invitations/*`
(create/accept/decline/cancel/list), `PUT profile`, `email/{request,confirm}`,
`stats`, and `games/:id/gcg` (finished-only). The `internal/notify` hub feeds a
`stats`, `games/:id/gcg` (finished-only), and the payments `wallet` /
`wallet/catalog` (`GET` — the context-visible chip segments + benefits, and the
storefront catalog) / `wallet/buy` (`POST` — a chip spend on a value), served by
`internal/payments` behind the store-compliance gate. The `internal/notify` hub feeds a
second listener — `internal/pushgrpc`, a gRPC server (`BACKEND_GRPC_ADDR`) streaming
live events (your-turn, opponent-moved, chat, nudge, match-found, notify) to the
gateway. The gateway-only `POST /api/v1/internal/push-target` (a user's
+8 -1
View File
@@ -195,7 +195,8 @@ func run(ctx context.Context, cfg config.Config, logger *zap.Logger) error {
emails.SetSendLimiter(account.NewSendLimiter(time.Minute, 5))
// Account linking & merge: the orchestrator over the account, merge and
// session layers. Wired to the /api/v1/user/link REST surface below.
links := link.NewService(emails, accounts, accountmerge.NewMerger(db), sessions)
merger := accountmerge.NewMerger(db)
links := link.NewService(emails, accounts, merger, sessions)
socialSvc := social.NewService(social.NewStore(db), accounts, games)
socialSvc.SetNotifier(hub)
socialSvc.SetMetrics(tel.MeterProvider().Meter("scrabble/backend/social"))
@@ -270,6 +271,12 @@ func run(ctx context.Context, cfg config.Config, logger *zap.Logger) error {
}
logger.Info("payments domain ready")
// Wire the payments surface into the domains that consume it: the online-game hint wallet
// and the account-merge wallet fold. Done after the reachability check so a broken payments
// schema fails boot before anything depends on it.
games.SetHintWallet(paymentsSvc)
merger.SetPayments(paymentsSvc)
// The image-render sidecar client for the PNG export artifact; nil (PNG
// download answers 404) when BACKEND_RENDERER_URL is unset.
var renderer *render.Client
+40 -20
View File
@@ -51,8 +51,24 @@ var ErrSameAccount = errors.New("accountmerge: primary and secondary are the sam
type Merger struct {
db *sql.DB
now func() time.Time
// payments, when set, merges the two accounts' chip segments and benefits by origin inside
// the merge transaction (SetPayments). Nil leaves payments untouched (tests that do not
// exercise the wallet).
payments PaymentsMerger
}
// PaymentsMerger is the payments surface the account merge enlists: fold the secondary's
// segments and benefits into the primary within the merge transaction, then invalidate the
// affected read caches after the commit. *payments.Service satisfies it.
type PaymentsMerger interface {
MergeTx(ctx context.Context, tx *sql.Tx, primary, secondary uuid.UUID) error
Invalidate(ids ...uuid.UUID)
}
// SetPayments installs the payments merge hook. It must be called during startup wiring; the
// default (nil) merges no wallet state.
func (m *Merger) SetPayments(p PaymentsMerger) { m.payments = p }
// NewMerger constructs a Merger over db.
func NewMerger(db *sql.DB) *Merger {
return &Merger{db: db, now: func() time.Time { return time.Now().UTC() }}
@@ -67,7 +83,7 @@ func (m *Merger) Merge(ctx context.Context, primary, secondary uuid.UUID) error
return ErrSameAccount
}
now := m.now()
return withTx(ctx, m.db, func(tx *sql.Tx) error {
if err := withTx(ctx, m.db, func(tx *sql.Tx) error {
if err := guardActiveSharedGame(ctx, tx, primary, secondary); err != nil {
return err
}
@@ -107,8 +123,21 @@ func (m *Merger) Merge(ctx context.Context, primary, secondary uuid.UUID) error
if err := deleteEphemerals(ctx, tx, secondary); err != nil {
return err
}
if m.payments != nil {
if err := m.payments.MergeTx(ctx, tx, primary, secondary); err != nil {
return fmt.Errorf("accountmerge: payments: %w", err)
}
}
return tombstone(ctx, tx, primary, secondary, now)
})
}); err != nil {
return err
}
// The payments read cache is invalidated only after the merge commits, so a read racing the
// transaction cannot re-cache pre-merge state (both accounts' rows are moved or dropped).
if m.payments != nil {
m.payments.Invalidate(primary, secondary)
}
return nil
}
// guardActiveSharedGame returns ErrActiveGameConflict when primary and secondary
@@ -248,25 +277,16 @@ func mergeBestMoves(ctx context.Context, tx *sql.Tx, primary, secondary uuid.UUI
return nil
}
// mergeAccountFields adds secondary's hint wallet to primary and ORs the paid flag;
// all other profile fields stay the primary's.
func mergeAccountFields(ctx context.Context, tx *sql.Tx, primary, secondary uuid.UUID, now time.Time) error {
var sec model.Accounts
if err := postgres.SELECT(table.Accounts.AllColumns).
FROM(table.Accounts).
WHERE(table.Accounts.AccountID.EQ(postgres.UUID(secondary))).
QueryContext(ctx, tx, &sec); err != nil {
return fmt.Errorf("accountmerge: load secondary account: %w", err)
}
upd := table.Accounts.UPDATE(
table.Accounts.HintBalance, table.Accounts.PaidAccount, table.Accounts.UpdatedAt,
).SET(
table.Accounts.HintBalance.ADD(postgres.Int(int64(sec.HintBalance))),
table.Accounts.PaidAccount.OR(postgres.Bool(sec.PaidAccount)),
postgres.TimestampzT(now),
).WHERE(table.Accounts.AccountID.EQ(postgres.UUID(primary)))
// mergeAccountFields bumps the primary account's updated_at to reflect the merge. The former
// hint-wallet and paid-flag merge moved to the payments domain, where segments and benefits
// merge by origin (see the payments MergeTx step and docs/PAYMENTS.md §6); the legacy
// accounts.hint_balance / paid_account columns are deprecated and no longer read or written.
func mergeAccountFields(ctx context.Context, tx *sql.Tx, primary, _ uuid.UUID, now time.Time) error {
upd := table.Accounts.UPDATE(table.Accounts.UpdatedAt).
SET(postgres.TimestampzT(now)).
WHERE(table.Accounts.AccountID.EQ(postgres.UUID(primary)))
if _, err := upd.ExecContext(ctx, tx); err != nil {
return fmt.Errorf("accountmerge: update primary account: %w", err)
return fmt.Errorf("accountmerge: touch primary account: %w", err)
}
return nil
}
-8
View File
@@ -100,14 +100,6 @@ type ActiveCampaign struct {
OverrideDark *ColorSet
}
// Eligible reports whether an account should be shown the advertising banner: a
// free account (not paid) with an empty hint wallet and without the no_banner
// role. The no_banner role suppresses the banner unconditionally; buying a paid
// account or any hints also removes it.
func Eligible(paidAccount bool, hintBalance int, hasNoBanner bool) bool {
return !paidAccount && hintBalance <= 0 && !hasNoBanner
}
// computeActiveSet builds the resolved rotation feed from the enabled campaigns
// at time now, in language lang, and reports whether the feed is an urgent one.
// Campaigns outside their validity window, and campaigns with no messages, are
-24
View File
@@ -6,30 +6,6 @@ import (
"time"
)
func TestEligible(t *testing.T) {
tests := []struct {
name string
paidAccount bool
hintBalance int
hasNoBanner bool
want bool
}{
{name: "free, empty wallet, no role", want: true},
{name: "paid", paidAccount: true, want: false},
{name: "has hints", hintBalance: 3, want: false},
{name: "no_banner role", hasNoBanner: true, want: false},
{name: "paid and has hints", paidAccount: true, hintBalance: 5, want: false},
{name: "no_banner overrides everything", hasNoBanner: true, want: false},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
if got := Eligible(tt.paidAccount, tt.hintBalance, tt.hasNoBanner); got != tt.want {
t.Errorf("Eligible(%v,%d,%v) = %v, want %v", tt.paidAccount, tt.hintBalance, tt.hasNoBanner, got, tt.want)
}
})
}
}
func TestComputeActiveSet(t *testing.T) {
now := time.Date(2026, 6, 15, 12, 0, 0, 0, time.UTC)
past := now.Add(-24 * time.Hour)
+51 -4
View File
@@ -18,6 +18,8 @@ import (
"scrabble/backend/internal/account"
"scrabble/backend/internal/engine"
"scrabble/backend/internal/notify"
"scrabble/backend/internal/payments"
"scrabble/backend/internal/session"
)
// Service is the game domain: it drives the engine over a single match, persists
@@ -50,6 +52,11 @@ type Service struct {
// its asynchronous TriggerMove); nil disables the fast path (the scan still covers
// these games). Kept as a func so the game package never imports the robot package.
aiTrigger func(gameID uuid.UUID)
// hintWallet is the payments surface the online-game hint path spends against (the
// segmented, context-aware hint balance). It is set by SetHintWallet during wiring; when
// nil, only the free per-game allowance is served (no purchased hints). vs_ai hints are
// wallet-free and never touch it.
hintWallet HintWallet
// clearNudges, when set, marks the actor's pending nudges in a game read once they
// have committed a move (a nudge answered by moving stops counting as unread). It is
// best-effort and kept as a func so the game package never imports the social package.
@@ -105,6 +112,39 @@ func (svc *Service) SetAITrigger(trigger func(gameID uuid.UUID)) {
svc.aiTrigger = trigger
}
// HintWallet is the payments surface the online-game hint path uses: the context-aware hint
// balance (HintsAvailable) and a one-hint spend (SpendHint), both keyed by the trusted execution
// context and the account's present identity sources. *payments.Service satisfies it.
type HintWallet interface {
HintsAvailable(ctx context.Context, accountID uuid.UUID, cxt payments.Context, present []payments.Source) (int, error)
SpendHint(ctx context.Context, accountID uuid.UUID, cxt payments.Context, present []payments.Source) (bool, error)
}
// SetHintWallet installs the payments hint wallet the online-game hint path spends against. It
// must be called during startup wiring; the default (nil) serves only the free per-game allowance.
func (svc *Service) SetHintWallet(w HintWallet) {
svc.hintWallet = w
}
// walletContext resolves the payments gate inputs for an account on the current request: the
// trusted execution context (from the session platform carried on ctx; absent ⇒ untrusted) and
// the account's present identity sources (which chip/benefit segments are awake, §6).
func (svc *Service) walletContext(ctx context.Context, accountID uuid.UUID) (payments.Context, []payments.Source, error) {
var cxt payments.Context
if p, ok := session.PlatformFromContext(ctx); ok {
cxt = payments.NewContext(p.Kind, p.Subtype)
}
ids, err := svc.accounts.Identities(ctx, accountID)
if err != nil {
return payments.Context{}, nil, err
}
kinds := make([]string, len(ids))
for i, id := range ids {
kinds[i] = id.Kind
}
return cxt, payments.PresentSources(kinds), nil
}
// SetNudgeClearer installs the hook that marks a mover's pending nudges read after
// their move commits. It must be called during startup wiring; the default (nil)
// leaves nudges to be cleared only when the recipient opens the move history or chat.
@@ -1121,13 +1161,20 @@ func (svc *Service) Hint(ctx context.Context, gameID, accountID uuid.UUID) (Hint
}
return HintResult{Move: move}, nil
}
acc, err := svc.accounts.GetByID(ctx, accountID)
cxt, present, err := svc.walletContext(ctx, accountID)
if err != nil {
return HintResult{}, err
}
wallet := 0
if svc.hintWallet != nil {
wallet, err = svc.hintWallet.HintsAvailable(ctx, accountID, cxt, present)
if err != nil {
return HintResult{}, err
}
}
used := pre.Seats[seat].HintsUsed
fromAllowance := used < pre.HintsPerPlayer
if !fromAllowance && acc.HintBalance <= 0 {
if !fromAllowance && wallet <= 0 {
return HintResult{}, ErrNoHintsLeft
}
@@ -1142,9 +1189,9 @@ func (svc *Service) Hint(ctx context.Context, gameID, accountID uuid.UUID) (Hint
return HintResult{}, ErrNoHintAvailable
}
walletAfter := acc.HintBalance
walletAfter := wallet
if !fromAllowance {
spent, err := svc.accounts.SpendHint(ctx, accountID)
spent, err := svc.hintWallet.SpendHint(ctx, accountID, cxt, present)
if err != nil {
return HintResult{}, err
}
+48 -15
View File
@@ -15,13 +15,15 @@ import (
"scrabble/backend/internal/account"
"scrabble/backend/internal/ads"
"scrabble/backend/internal/payments"
"scrabble/backend/internal/server"
)
// bannerServer assembles a console-capable server with the ads domain wired.
func bannerServer(t *testing.T) (*server.Server, *ads.Service) {
func bannerServer(t *testing.T) (*server.Server, *ads.Service, *payments.Service) {
t.Helper()
adsSvc := ads.NewService(ads.NewStore(testDB))
paySvc := newPaymentsService()
srv := server.New(":0", server.Deps{
Logger: zap.NewNop(),
Accounts: account.NewStore(testDB),
@@ -29,8 +31,9 @@ func bannerServer(t *testing.T) (*server.Server, *ads.Service) {
Registry: testRegistry,
DictDir: dictDir(),
Ads: adsSvc,
Payments: paySvc,
})
return srv, adsSvc
return srv, adsSvc, paySvc
}
// findCampaign returns the id of the campaign with the given name, or fails.
@@ -71,7 +74,7 @@ func defaultCampaign(t *testing.T, svc *ads.Service) ads.Campaign {
// reorder/delete.
func TestBannerConsoleCRUD(t *testing.T) {
ctx := context.Background()
srv, adsSvc := bannerServer(t)
srv, adsSvc, _ := bannerServer(t)
h := srv.Handler()
base := "http://admin.test/_gm"
const origin = "http://admin.test"
@@ -151,7 +154,7 @@ func TestBannerConsoleCRUD(t *testing.T) {
// unrelated campaign's URL must be refused.
func TestBannerMessageOwnership(t *testing.T) {
ctx := context.Background()
srv, adsSvc := bannerServer(t)
srv, adsSvc, _ := bannerServer(t)
h := srv.Handler()
base := "http://admin.test/_gm"
const origin = "http://admin.test"
@@ -207,10 +210,11 @@ type profileBanner struct {
// wallet each suppress it.
func TestBannerProfileEligibility(t *testing.T) {
ctx := context.Background()
srv, _ := bannerServer(t)
srv, _, pay := bannerServer(t)
accounts := account.NewStore(testDB)
id := provisionAccount(t)
// getBanner fetches the profile banner with no platform header (an untrusted context).
getBanner := func() profileBanner {
t.Helper()
rec := userGet(t, srv, "/api/v1/user/profile", id)
@@ -223,10 +227,27 @@ func TestBannerProfileEligibility(t *testing.T) {
}
return p
}
// getBannerTG fetches the profile banner in a trusted Telegram context — the account's
// telegram identity makes telegram the applicable origin for its benefits.
getBannerTG := func() profileBanner {
t.Helper()
rec := httptest.NewRecorder()
req := httptest.NewRequest(http.MethodGet, "/api/v1/user/profile", nil)
req.Header.Set("X-User-ID", id.String())
req.Header.Set("X-Platform", "telegram/android")
srv.Handler().ServeHTTP(rec, req)
if rec.Code != http.StatusOK {
t.Fatalf("profile = %d, want 200", rec.Code)
}
var p profileBanner
if err := json.Unmarshal(rec.Body.Bytes(), &p); err != nil {
t.Fatalf("decode profile: %v", err)
}
return p
}
// A free account with an empty hint wallet and no role is eligible.
p := getBanner()
if p.Banner == nil || len(p.Banner.Campaigns) == 0 || p.Banner.Timings.HoldMs <= 0 {
// A free account with no role and no benefit is eligible.
if p := getBanner(); p.Banner == nil || len(p.Banner.Campaigns) == 0 || p.Banner.Timings.HoldMs <= 0 {
t.Fatalf("eligible account: banner=%v", p.Banner)
}
@@ -241,19 +262,31 @@ func TestBannerProfileEligibility(t *testing.T) {
t.Fatalf("revoke role: %v", err)
}
// A non-empty hint wallet suppresses it.
if _, err := accounts.GrantHints(ctx, id, 5); err != nil {
// A hint wallet no longer suppresses the banner — hints and no-ads are distinct benefits now.
if err := pay.Grant(ctx, id, payments.SourceTelegram, 5, 0, false); err != nil {
t.Fatalf("grant hints: %v", err)
}
if p := getBanner(); p.Banner != nil {
t.Fatal("a non-empty hint wallet still shows the banner")
if p := getBannerTG(); p.Banner == nil {
t.Fatal("a hint wallet must NOT suppress the banner")
}
// An active no-ads benefit applicable in the context suppresses the banner.
if err := pay.Grant(ctx, id, payments.SourceTelegram, 0, 30, false); err != nil {
t.Fatalf("grant no-ads: %v", err)
}
if p := getBannerTG(); p.Banner != nil {
t.Fatal("an active no-ads benefit must suppress the banner")
}
// Fail-closed: without a trusted platform the same benefit does not apply, so the banner shows.
if p := getBanner(); p.Banner == nil {
t.Fatal("an untrusted context must not apply the no-ads benefit (banner should show)")
}
}
// TestBannerSurvivesProfileUpdate guards that a profile update (e.g. a language switch) returns the
// banner block too, so the client's profile keeps the banner instead of losing it until reload.
func TestBannerSurvivesProfileUpdate(t *testing.T) {
srv, _ := bannerServer(t)
srv, _, _ := bannerServer(t)
id := provisionAccount(t)
body := `{"display_name":"Tester","preferred_language":"ru","time_zone":"UTC","away_start":"00:00",` +
@@ -283,7 +316,7 @@ func TestBannerSurvivesProfileUpdate(t *testing.T) {
// default campaign stays plain (colours + urgent are ignored for it).
func TestBannerConsoleColorsAndUrgent(t *testing.T) {
ctx := context.Background()
srv, adsSvc := bannerServer(t)
srv, adsSvc, _ := bannerServer(t)
h := srv.Handler()
base := "http://admin.test/_gm"
const origin = "http://admin.test"
@@ -351,7 +384,7 @@ func TestBannerConsoleColorsAndUrgent(t *testing.T) {
// otherwise suppress the banner.
func TestBannerUrgentBypassesEligibility(t *testing.T) {
ctx := context.Background()
srv, adsSvc := bannerServer(t)
srv, adsSvc, _ := bannerServer(t)
accounts := account.NewStore(testDB)
id := provisionAccount(t)
+13 -10
View File
@@ -14,6 +14,8 @@ import (
"scrabble/backend/internal/account"
"scrabble/backend/internal/engine"
"scrabble/backend/internal/game"
"scrabble/backend/internal/payments"
"scrabble/backend/internal/session"
)
// TestListForAccount checks the lobby "my games" query: it returns exactly the
@@ -401,8 +403,13 @@ func gameStatus(t *testing.T, svc *game.Service, id uuid.UUID) (status, endReaso
// TestHintPolicy exercises the per-game allowance, the profile wallet and the
// disabled switch.
func TestHintPolicy(t *testing.T) {
ctx := context.Background()
// A trusted platform context so the online hint wallet (payments) is reachable; a provisioned
// account carries a telegram identity, so the telegram origin is the applicable one here.
ctx := session.WithPlatform(context.Background(),
session.Platform{Kind: session.PlatformKindTelegram, Subtype: session.SubtypeAndroid})
svc := newGameService()
pay := newPaymentsService()
svc.SetHintWallet(pay) // share the handle so a grant invalidates the wallet the game reads
seats := []uuid.UUID{provisionAccount(t), provisionAccount(t)}
seed := openingSeed(t)
g, err := svc.Create(ctx, game.CreateParams{
@@ -428,7 +435,11 @@ func TestHintPolicy(t *testing.T) {
if _, err := svc.Hint(ctx, g.ID, seats[0]); !errors.Is(err, game.ErrNoHintsLeft) {
t.Fatalf("second hint = %v, want ErrNoHintsLeft", err)
}
setHintBalance(t, seats[0], 2)
// Grant 2 hints on the telegram origin through the service so its read cache is invalidated
// (a raw insert would leave the cache warmed at zero by the allowance hint above).
if err := pay.Grant(ctx, seats[0], payments.SourceTelegram, 2, 0, false); err != nil {
t.Fatalf("grant hints: %v", err)
}
res, err := svc.Hint(ctx, g.ID, seats[0]) // spends the wallet
if err != nil {
t.Fatalf("wallet hint: %v", err)
@@ -603,14 +614,6 @@ func setAway(t *testing.T, id uuid.UUID, tz, start, end string) {
}
}
func setHintBalance(t *testing.T, id uuid.UUID, n int) {
t.Helper()
if _, err := testDB.ExecContext(context.Background(),
`UPDATE backend.accounts SET hint_balance = $1 WHERE account_id = $2`, n, id); err != nil {
t.Fatalf("set hint balance: %v", err)
}
}
func equalStrings(a, b []string) bool {
if len(a) != len(b) {
return false
+34
View File
@@ -17,6 +17,7 @@ import (
"scrabble/backend/internal/engine"
"scrabble/backend/internal/game"
"scrabble/backend/internal/lobby"
"scrabble/backend/internal/payments"
"scrabble/backend/internal/robot"
"scrabble/backend/internal/social"
)
@@ -42,9 +43,42 @@ func newGameService() *game.Service {
zap.NewNop(),
)
svc.SetFirstMoveEntropy(seatZeroFirstMove)
svc.SetHintWallet(newPaymentsService())
return svc
}
// newPaymentsService builds a payments service over the shared pool (its own in-process read
// cache), for wiring the game hint wallet and the account-merge fold in the integration suite.
func newPaymentsService() *payments.Service {
return payments.NewService(payments.NewStore(testDB))
}
// seedBenefit writes a payments benefit row for an account+origin directly (bypassing the
// service), used to stand up wallet state a test then spends or merges. A non-zero hints count
// and/or the forever flag are set; a caller wanting a no-ads term sets it via seedBenefitUntil.
func seedBenefit(t *testing.T, id uuid.UUID, origin string, hints int, forever bool) {
t.Helper()
if _, err := testDB.ExecContext(context.Background(),
`INSERT INTO payments.benefits (account_id, origin, hints, ads_forever) VALUES ($1,$2,$3,$4)
ON CONFLICT (account_id, origin) DO UPDATE SET hints = EXCLUDED.hints, ads_forever = EXCLUDED.ads_forever`,
id, origin, hints, forever); err != nil {
t.Fatalf("seed benefit: %v", err)
}
}
// readBenefit reads an account's benefit row for an origin: the hint count and the forever flag
// (both zero/false when the row is absent).
func readBenefit(t *testing.T, id uuid.UUID, origin string) (hints int, forever bool) {
t.Helper()
err := testDB.QueryRowContext(context.Background(),
`SELECT hints, ads_forever FROM payments.benefits WHERE account_id=$1 AND origin=$2`, id, origin).
Scan(&hints, &forever)
if err != nil && !errors.Is(err, sql.ErrNoRows) {
t.Fatalf("read benefit: %v", err)
}
return hints, forever
}
// seatZeroFirstMove is a first-move-draw entropy factory that always elects the first
// listed account as the leader, keeping the integration suite's turn order stable
// despite the real draw's randomness: the first contender draws a blank — the best
+9 -18
View File
@@ -58,14 +58,6 @@ func bestMoveCount(t *testing.T, id uuid.UUID) int {
return n
}
func setWallet(t *testing.T, id uuid.UUID, hints int, paid bool) {
t.Helper()
if _, err := testDB.ExecContext(context.Background(),
`UPDATE backend.accounts SET hint_balance=$2, paid_account=$3 WHERE account_id=$1`, id, hints, paid); err != nil {
t.Fatalf("set wallet: %v", err)
}
}
func bindEmailIdentity(t *testing.T, acc uuid.UUID, email string) {
t.Helper()
if _, err := testDB.ExecContext(context.Background(),
@@ -131,6 +123,7 @@ func TestAccountMergeCore(t *testing.T) {
ctx := context.Background()
store := account.NewStore(testDB)
merger := accountmerge.NewMerger(testDB)
merger.SetPayments(newPaymentsService())
primary := provisionAccount(t)
secondary := provisionAccount(t)
@@ -140,8 +133,8 @@ func TestAccountMergeCore(t *testing.T) {
setStats(t, secondary, 3, 1, 2, 400, 80)
setStatsCounts(t, primary, 100, 5)
setStatsCounts(t, secondary, 50, 8)
setWallet(t, primary, 2, false)
setWallet(t, secondary, 5, true)
seedBenefit(t, primary, "telegram", 2, false)
seedBenefit(t, secondary, "telegram", 5, true) // hints sum, forever OR-s on merge
// Best moves: secondary's scrabble_en (80) beats primary's (50) and is kept; secondary's
// scrabble_ru (30) is new to primary and carried over.
setBestMove(t, primary, "scrabble_en", 50)
@@ -165,15 +158,13 @@ func TestAccountMergeCore(t *testing.T) {
t.Error("secondary stats row should be deleted after merge")
}
acc, err := store.GetByID(ctx, primary)
if err != nil {
t.Fatalf("get primary: %v", err)
// The payments wallet merged by origin: hints sum (2+5) and the forever flag OR-s; the
// deprecated accounts.hint_balance / paid_account columns are no longer touched by a merge.
if hints, forever := readBenefit(t, primary, "telegram"); hints != 7 || !forever {
t.Errorf("merged telegram benefit = hints %d forever %v, want 7/true", hints, forever)
}
if acc.HintBalance != 7 {
t.Errorf("hint balance = %d, want 7", acc.HintBalance)
}
if !acc.PaidAccount {
t.Error("paid_account should be true (ORed from secondary)")
if hints, _ := readBenefit(t, secondary, "telegram"); hints != 0 {
t.Errorf("secondary benefit should be cleared after merge, got hints %d", hints)
}
if owner, ok, _ := store.AccountIDByIdentity(ctx, account.KindEmail, email); !ok || owner != primary {
@@ -0,0 +1,113 @@
//go:build integration
package inttest
import (
"context"
"testing"
"github.com/google/uuid"
"scrabble/backend/internal/payments"
)
// methodPrice is one per-method money price for a seeded chip pack.
type methodPrice struct {
method string
currency string
amount int64
}
// seedPackProduct creates an active chip pack: a product carrying the chips atom and a money price
// per method. It returns the product id.
func seedPackProduct(t *testing.T, chips int, prices ...methodPrice) uuid.UUID {
t.Helper()
ctx := context.Background()
prod := uuid.New()
if _, err := testDB.ExecContext(ctx,
`INSERT INTO payments.product (product_id, title, active) VALUES ($1,'test pack',true)`, prod); err != nil {
t.Fatalf("seed pack product: %v", err)
}
if _, err := testDB.ExecContext(ctx,
`INSERT INTO payments.product_item (product_id, atom_type, quantity) VALUES ($1,'chips',$2)`, prod, chips); err != nil {
t.Fatalf("seed chips item: %v", err)
}
for _, p := range prices {
if _, err := testDB.ExecContext(ctx,
`INSERT INTO payments.product_price (product_id, method, currency, amount) VALUES ($1,$2,$3,$4)`,
prod, p.method, p.currency, p.amount); err != nil {
t.Fatalf("seed pack price %s: %v", p.method, err)
}
}
return prod
}
// findCatalogProduct returns the projected storefront product for id in the context (the catalog
// is global, so tests assert by id rather than count — testDB is shared).
func findCatalogProduct(t *testing.T, svc *payments.Service, cxt payments.Context, id uuid.UUID) (payments.CatalogProduct, bool) {
t.Helper()
view, err := svc.Catalog(context.Background(), cxt)
if err != nil {
t.Fatalf("catalog: %v", err)
}
for _, p := range view.Products {
if p.ProductID == id.String() {
return p, true
}
}
return payments.CatalogProduct{}, false
}
// TestPaymentsCatalogByContext verifies the storefront projects a value at its chip price in every
// context and a chip pack at the context method's money price, over Postgres.
func TestPaymentsCatalogByContext(t *testing.T) {
svc := newPaymentsService()
value := seedValueProduct(t, 500, 250, 0)
pack := seedPackProduct(t, 100,
methodPrice{"vk", "VOTE", 20},
methodPrice{"telegram", "XTR", 25},
methodPrice{"direct", "RUB", 14900},
)
for _, kind := range []string{"vk", "telegram", "direct"} {
v, ok := findCatalogProduct(t, svc, payments.NewContext(kind, "web"), value)
if !ok {
t.Fatalf("value missing in %s context", kind)
}
if v.Kind != "value" || v.Chips != 500 || v.MoneyCurrency != "" {
t.Errorf("value in %s = %+v, want kind=value chips=500 no money", kind, v)
}
}
cases := []struct {
kind string
amount int64
currency string
}{
{"vk", 20, "VOTE"},
{"telegram", 25, "XTR"},
{"direct", 14900, "RUB"},
}
for _, tc := range cases {
p, ok := findCatalogProduct(t, svc, payments.NewContext(tc.kind, "web"), pack)
if !ok {
t.Fatalf("pack missing in %s context", tc.kind)
}
if p.Kind != "pack" || p.Chips != 0 || p.MoneyAmount != tc.amount || p.MoneyCurrency != tc.currency {
t.Errorf("pack in %s = %+v, want kind=pack amount=%d currency=%s", tc.kind, p, tc.amount, tc.currency)
}
}
}
// TestPaymentsCatalogExcludesDeactivated verifies a soft-deleted product drops out of the storefront.
func TestPaymentsCatalogExcludesDeactivated(t *testing.T) {
svc := newPaymentsService()
prod := seedValueProduct(t, 100, 10, 0)
if _, err := testDB.ExecContext(context.Background(),
`UPDATE payments.product SET active=false WHERE product_id=$1`, prod); err != nil {
t.Fatalf("deactivate: %v", err)
}
if _, ok := findCatalogProduct(t, svc, payments.NewContext("direct", "web"), prod); ok {
t.Error("deactivated product must not appear in the storefront")
}
}
@@ -0,0 +1,279 @@
//go:build integration
package inttest
import (
"context"
"database/sql"
"errors"
"testing"
"time"
"github.com/google/uuid"
"scrabble/backend/internal/payments"
)
// seedBalance writes a chip balance for an account+source directly (payments has no FK to
// accounts, so a bare uuid is a valid account id here).
func seedBalance(t *testing.T, id uuid.UUID, source string, chips int) {
t.Helper()
if _, err := testDB.ExecContext(context.Background(),
`INSERT INTO payments.balances (account_id, source, chips) VALUES ($1,$2,$3)
ON CONFLICT (account_id, source) DO UPDATE SET chips = EXCLUDED.chips`,
id, source, chips); err != nil {
t.Fatalf("seed balance: %v", err)
}
}
// readBalance reads an account's chip balance for a source (0 when the row is absent).
func readBalance(t *testing.T, id uuid.UUID, source string) int {
t.Helper()
var chips int
err := testDB.QueryRowContext(context.Background(),
`SELECT chips FROM payments.balances WHERE account_id=$1 AND source=$2`, id, source).Scan(&chips)
if err != nil && !errors.Is(err, sql.ErrNoRows) {
t.Fatalf("read balance: %v", err)
}
return chips
}
// benefitUntil reads an account's no-ads term end for an origin (nil when none).
func benefitUntil(t *testing.T, id uuid.UUID, origin string) *time.Time {
t.Helper()
var until *time.Time
err := testDB.QueryRowContext(context.Background(),
`SELECT ads_paid_until FROM payments.benefits WHERE account_id=$1 AND origin=$2`, id, origin).Scan(&until)
if err != nil && !errors.Is(err, sql.ErrNoRows) {
t.Fatalf("read benefit until: %v", err)
}
return until
}
// ledgerRows counts an account's ledger rows of a given kind.
func ledgerRows(t *testing.T, id uuid.UUID, kind string) int {
t.Helper()
var n int
if err := testDB.QueryRowContext(context.Background(),
`SELECT count(*) FROM payments.ledger WHERE account_id=$1 AND kind=$2`, id, kind).Scan(&n); err != nil {
t.Fatalf("ledger count: %v", err)
}
return n
}
// seedValueProduct creates an active chip-priced value: a product with a CHIP price (method
// NULL) and the given hint / no-ads-day atoms. It returns the product id.
func seedValueProduct(t *testing.T, priceChips, hints, noAdsDays int) uuid.UUID {
t.Helper()
ctx := context.Background()
prod := uuid.New()
if _, err := testDB.ExecContext(ctx,
`INSERT INTO payments.product (product_id, title, active) VALUES ($1,'test value',true)`, prod); err != nil {
t.Fatalf("seed product: %v", err)
}
if _, err := testDB.ExecContext(ctx,
`INSERT INTO payments.product_price (product_id, method, currency, amount) VALUES ($1, NULL, 'CHIP', $2)`,
prod, priceChips); err != nil {
t.Fatalf("seed price: %v", err)
}
if hints > 0 {
if _, err := testDB.ExecContext(ctx,
`INSERT INTO payments.product_item (product_id, atom_type, quantity) VALUES ($1,'hints',$2)`, prod, hints); err != nil {
t.Fatalf("seed hints item: %v", err)
}
}
if noAdsDays > 0 {
if _, err := testDB.ExecContext(ctx,
`INSERT INTO payments.product_item (product_id, atom_type, quantity) VALUES ($1,'noads_days',$2)`, prod, noAdsDays); err != nil {
t.Fatalf("seed noads item: %v", err)
}
}
return prod
}
// TestPaymentsSpendAppliesAtomically verifies a chip spend writes the ledger row, decrements the
// balance and applies the benefit together over Postgres.
func TestPaymentsSpendAppliesAtomically(t *testing.T) {
ctx := context.Background()
svc := newPaymentsService()
acc := uuid.New()
seedBalance(t, acc, "direct", 100)
prod := seedValueProduct(t, 60, 3, 30)
if err := svc.Spend(ctx, acc, payments.NewContext("direct", "web"), []payments.Source{payments.SourceDirect}, prod); err != nil {
t.Fatalf("spend: %v", err)
}
if got := readBalance(t, acc, "direct"); got != 40 {
t.Errorf("balance after spend = %d, want 40", got)
}
if hints, _ := readBenefit(t, acc, "direct"); hints != 3 {
t.Errorf("hints after spend = %d, want 3", hints)
}
if benefitUntil(t, acc, "direct") == nil {
t.Error("no-ads term not applied by the spend")
}
if n := ledgerRows(t, acc, "spend"); n != 1 {
t.Errorf("spend ledger rows = %d, want 1", n)
}
}
// TestPaymentsSpendInsufficientNoWrite verifies an under-funded spend is refused and writes
// nothing (the balance, benefit and ledger are untouched).
func TestPaymentsSpendInsufficientNoWrite(t *testing.T) {
ctx := context.Background()
svc := newPaymentsService()
acc := uuid.New()
seedBalance(t, acc, "direct", 10)
prod := seedValueProduct(t, 60, 3, 0)
if err := svc.Spend(ctx, acc, payments.NewContext("direct", "web"), []payments.Source{payments.SourceDirect}, prod); !errors.Is(err, payments.ErrInsufficientChips) {
t.Fatalf("spend = %v, want ErrInsufficientChips", err)
}
if got := readBalance(t, acc, "direct"); got != 10 {
t.Errorf("balance changed to %d, want 10 (no write)", got)
}
if h, _ := readBenefit(t, acc, "direct"); h != 0 {
t.Errorf("benefit applied on a refused spend: hints %d", h)
}
if ledgerRows(t, acc, "spend") != 0 {
t.Error("spend ledger row written on a refused spend")
}
}
// TestPaymentsSpendGuardRollsBack forces the in-transaction guard to bite: with a stale read
// cache the draw plan looks affordable, but the guarded decrement matches no row and the whole
// transaction rolls back — no ledger row, no benefit, balance unchanged.
func TestPaymentsSpendGuardRollsBack(t *testing.T) {
ctx := context.Background()
svc := newPaymentsService()
acc := uuid.New()
seedBalance(t, acc, "direct", 100)
present := []payments.Source{payments.SourceDirect}
cxt := payments.NewContext("direct", "web")
if _, err := svc.Wallet(ctx, acc, cxt, present); err != nil { // warm the cache at 100
t.Fatalf("warm: %v", err)
}
// Drain the real balance behind the cache's back (no invalidation), so the plan over-commits.
if _, err := testDB.ExecContext(ctx, `UPDATE payments.balances SET chips = 10 WHERE account_id=$1 AND source='direct'`, acc); err != nil {
t.Fatalf("drain: %v", err)
}
prod := seedValueProduct(t, 60, 3, 0)
if err := svc.Spend(ctx, acc, cxt, present, prod); !errors.Is(err, payments.ErrInsufficientChips) {
t.Fatalf("spend = %v, want ErrInsufficientChips", err)
}
if got := readBalance(t, acc, "direct"); got != 10 {
t.Errorf("balance = %d, want 10 (rolled back)", got)
}
if ledgerRows(t, acc, "spend") != 0 {
t.Error("spend ledger row written despite the rollback")
}
if h, _ := readBenefit(t, acc, "direct"); h != 0 {
t.Error("benefit applied despite the rollback")
}
}
// TestPaymentsGrantCreditsValuesNotChips verifies admin_grant applies a benefit at price 0
// without ever crediting chips (D16).
func TestPaymentsGrantCreditsValuesNotChips(t *testing.T) {
ctx := context.Background()
svc := newPaymentsService()
acc := uuid.New()
if err := svc.Grant(ctx, acc, payments.SourceDirect, 5, 0, true); err != nil {
t.Fatalf("grant: %v", err)
}
if hints, forever := readBenefit(t, acc, "direct"); hints != 5 || !forever {
t.Errorf("granted benefit = hints %d forever %v, want 5/true", hints, forever)
}
if readBalance(t, acc, "direct") != 0 {
t.Error("a grant must not credit chips")
}
if ledgerRows(t, acc, "admin_grant") != 1 {
t.Error("admin_grant ledger row missing")
}
if ledgerRows(t, acc, "spend") != 0 || ledgerRows(t, acc, "fund") != 0 {
t.Error("a grant wrote a non-grant ledger row")
}
}
// TestPaymentsSpendHintByContext verifies a hint is drawn from an applicable origin, and that a
// direct-origin hint is not usable inside a VK context (the compliance wall for hints).
func TestPaymentsSpendHintByContext(t *testing.T) {
ctx := context.Background()
svc := newPaymentsService()
acc := uuid.New()
seedBenefit(t, acc, "direct", 2, false)
present := []payments.Source{payments.SourceDirect, payments.SourceVK}
if spent, err := svc.SpendHint(ctx, acc, payments.NewContext("direct", "web"), present); err != nil || !spent {
t.Fatalf("web spend hint = %v (err %v), want true", spent, err)
}
if h, _ := readBenefit(t, acc, "direct"); h != 1 {
t.Errorf("hints after spend = %d, want 1", h)
}
// Inside VK the applicable origins are {vk} only, so the direct-origin hint is untouched.
if spent, _ := svc.SpendHint(ctx, acc, payments.NewContext("vk", "android"), present); spent {
t.Error("direct-origin hint spent inside VK — compliance wall breached")
}
if h, _ := readBenefit(t, acc, "direct"); h != 1 {
t.Errorf("direct hints changed inside VK = %d, want 1 (untouched)", h)
}
}
// TestPaymentsComplianceGateOverPostgres is the named compliance regression at the integration
// layer: a direct-origin no-ads benefit applies on the web but never inside a store wrapper.
func TestPaymentsComplianceGateOverPostgres(t *testing.T) {
ctx := context.Background()
svc := newPaymentsService()
acc := uuid.New()
if err := svc.Grant(ctx, acc, payments.SourceDirect, 0, 30, false); err != nil {
t.Fatalf("grant: %v", err)
}
present := []payments.Source{payments.SourceDirect, payments.SourceVK}
if adFree, _ := svc.AdFree(ctx, acc, payments.NewContext("direct", "web"), present); !adFree {
t.Error("direct no-ads should apply on web")
}
if adFree, _ := svc.AdFree(ctx, acc, payments.NewContext("vk", "android"), present); adFree {
t.Error("direct no-ads must NOT apply inside VK (compliance wall)")
}
if adFree, _ := svc.AdFree(ctx, acc, payments.NewContext("telegram", "web"), present); adFree {
t.Error("direct no-ads must NOT apply inside Telegram (compliance wall)")
}
}
// TestPaymentsMergeFoldsSegmentsAndBenefits verifies the merge folds chip segments (sum) and
// benefits (hints sum, forever OR) by origin, and clears the secondary's rows, over Postgres.
func TestPaymentsMergeFoldsSegmentsAndBenefits(t *testing.T) {
ctx := context.Background()
svc := newPaymentsService()
primary, secondary := uuid.New(), uuid.New()
seedBalance(t, primary, "vk", 10)
seedBalance(t, secondary, "vk", 25)
seedBenefit(t, primary, "vk", 1, false)
seedBenefit(t, secondary, "vk", 4, true)
tx, err := testDB.BeginTx(ctx, nil)
if err != nil {
t.Fatalf("begin: %v", err)
}
if err := svc.MergeTx(ctx, tx, primary, secondary); err != nil {
_ = tx.Rollback()
t.Fatalf("merge: %v", err)
}
if err := tx.Commit(); err != nil {
t.Fatalf("commit: %v", err)
}
svc.Invalidate(primary, secondary)
if got := readBalance(t, primary, "vk"); got != 35 {
t.Errorf("merged chips = %d, want 35", got)
}
if h, forever := readBenefit(t, primary, "vk"); h != 5 || !forever {
t.Errorf("merged benefit = hints %d forever %v, want 5/true", h, forever)
}
if readBalance(t, secondary, "vk") != 0 {
t.Error("secondary balance not cleared after merge")
}
}
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package payments
import (
"sync"
"time"
"github.com/google/uuid"
)
// benefitState is an account's benefit row for one origin: the no-ads term end (nil = none),
// the perpetual forever flag, and the hint count. It is the context-independent stored form;
// the read paths aggregate it over the origins applicable in a context.
type benefitState struct {
adsPaidUntil *time.Time
adsForever bool
hints int
}
// walletState is an account's full payments state: chip balances by source and benefits by
// origin. It is the raw, context-independent data every read path filters per execution
// context — the value the cache holds and the store recomputes from the materialized tables.
type walletState struct {
chips map[Source]int
benefits map[Source]benefitState
}
// chipsOf returns the chip balance for a source, zero when the segment has no row (an absent
// segment reads as zero, §2).
func (w walletState) chipsOf(s Source) int { return w.chips[s] }
// benefitOf returns the benefit for an origin, the zero benefit when the origin has no row.
func (w walletState) benefitOf(o Source) benefitState { return w.benefits[o] }
// walletCache is the payments read model: each account's chip/benefit state, keyed by account
// id, read on every ad-eligibility / hint / wallet / gate request and invalidated on every
// payments mutation (spend, grant, fund, refund, merge). It is a write-through cache in front
// of the materialized balances/benefits tables — the same pattern the account-suspension gate
// uses (backend/internal/account/suspension.go) — so the steady-state hot path issues no query
// to the payments schema. It is single-instance, matching the deployment (one shared Store); a
// multi-instance backend would need a shared cache.
type walletCache struct {
mu sync.RWMutex
m map[uuid.UUID]walletState
}
// newWalletCache constructs an empty cache.
func newWalletCache() *walletCache {
return &walletCache{m: make(map[uuid.UUID]walletState)}
}
// get returns the cached state for an account and whether it was present.
func (c *walletCache) get(id uuid.UUID) (walletState, bool) {
c.mu.RLock()
defer c.mu.RUnlock()
s, ok := c.m[id]
return s, ok
}
// put stores an account's state.
func (c *walletCache) put(id uuid.UUID, s walletState) {
c.mu.Lock()
defer c.mu.Unlock()
c.m[id] = s
}
// invalidate drops an account's entry so the next read reloads it from the materialized tables.
// Called after every mutation once its transaction has committed.
func (c *walletCache) invalidate(id uuid.UUID) {
c.mu.Lock()
defer c.mu.Unlock()
delete(c.m, id)
}
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package payments
// AtomQty is one atom line of a catalog product in the read model: the base value type it grants
// (chips / hints / no-ads days / tournament) and how many of it the product carries.
type AtomQty struct {
AtomType string
Quantity int
}
// CatalogProduct is one storefront product projected for the execution context. A value is
// bought with chips, so it carries Chips (its uniform chip price) and no money price. A chip pack
// funds chips with money, so it carries MoneyAmount (minor units) and MoneyCurrency for the
// context's payment method and no chip price. Atoms lists what the product grants.
type CatalogProduct struct {
Kind string // "value" (bought with chips) or "pack" (funds chips with money)
ProductID string
Title string
Chips int // a value's uniform chip price; 0 for a pack
MoneyAmount int64 // a pack's price in the context currency's minor units; 0 for a value
MoneyCurrency string // a pack's currency for the context method; empty for a value
Atoms []AtomQty
}
// CatalogView is the storefront read model for one execution context: the products a player sees
// and can buy there — every chip-priced value plus the chip packs priced in the context's method.
type CatalogView struct {
Products []CatalogProduct
}
// atomChips is the atom type that marks a product as a chip pack (it funds chips) rather than a
// value (bought with chips). A value never carries it.
const atomChips = "chips"
// projectCatalog turns the raw active catalog into the storefront for the context. A value (no
// chips atom) is shown everywhere at its CHIP price. A chip pack is shown only when it carries a
// price for the context's payment method (cxt.Kind: vk / telegram / direct), priced in that
// method's currency. A value missing its CHIP price and a pack missing a price for the context
// method are omitted (misconfigured or unavailable there). An untrusted context (empty Kind) has
// no method, so only values show; buying is gated server-side regardless.
func projectCatalog(entries []catalogEntry, cxt Context) CatalogView {
var out CatalogView
for _, e := range entries {
isPack := false
atoms := make([]AtomQty, 0, len(e.atoms))
for _, a := range e.atoms {
atoms = append(atoms, AtomQty{AtomType: a.atomType, Quantity: a.quantity})
if a.atomType == atomChips {
isPack = true
}
}
p := CatalogProduct{ProductID: e.id.String(), Title: e.title, Atoms: atoms}
if isPack {
pr, ok := findPrice(e.prices, string(cxt.Kind))
if !ok {
continue // no price for this context's method — not purchasable here
}
p.Kind = "pack"
p.MoneyAmount = pr.amount
p.MoneyCurrency = string(pr.currency)
} else {
pr, ok := findPrice(e.prices, "")
if !ok {
continue // a value must carry a CHIP price
}
p.Kind = "value"
p.Chips = int(pr.amount)
}
out.Products = append(out.Products, p)
}
return out
}
// findPrice returns the price row for the given payment method — the empty string selects a
// value's CHIP price row (stored with a NULL method).
func findPrice(prices []priceRow, method string) (priceRow, bool) {
for _, pr := range prices {
if pr.method == method {
return pr, true
}
}
return priceRow{}, false
}
+136
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package payments
import (
"testing"
"github.com/google/uuid"
)
// catalog fixtures: a chip-priced value (hints), a multi-method chip pack, a VK-only chip pack, a
// value with no CHIP price (misconfigured), and a pack whose only method is telegram.
func fixtureCatalog() []catalogEntry {
value := catalogEntry{
id: uuid.MustParse("00000000-0000-0000-0000-000000000001"),
title: "250 hints",
atoms: []atomQty{{atomType: "hints", quantity: 250}},
prices: []priceRow{
{method: "", currency: CurrencyChip, amount: 500},
},
}
pack := catalogEntry{
id: uuid.MustParse("00000000-0000-0000-0000-000000000002"),
title: "100 chips",
atoms: []atomQty{{atomType: "chips", quantity: 100}},
prices: []priceRow{
{method: "vk", currency: CurrencyVote, amount: 20},
{method: "telegram", currency: CurrencyStar, amount: 25},
{method: "direct", currency: CurrencyRUB, amount: 14900},
},
}
vkOnlyPack := catalogEntry{
id: uuid.MustParse("00000000-0000-0000-0000-000000000003"),
title: "VK-only chips",
atoms: []atomQty{{atomType: "chips", quantity: 50}},
prices: []priceRow{
{method: "vk", currency: CurrencyVote, amount: 10},
},
}
brokenValue := catalogEntry{
id: uuid.MustParse("00000000-0000-0000-0000-000000000004"),
title: "no chip price",
atoms: []atomQty{{atomType: "noads_days", quantity: 30}},
// no CHIP price row — misconfigured, must be omitted
}
return []catalogEntry{value, pack, vkOnlyPack, brokenValue}
}
// byID indexes a projected storefront by product id for assertions.
func byID(v CatalogView) map[string]CatalogProduct {
m := make(map[string]CatalogProduct, len(v.Products))
for _, p := range v.Products {
m[p.ProductID] = p
}
return m
}
func TestProjectCatalog_ContextMatrix(t *testing.T) {
const (
valueID = "00000000-0000-0000-0000-000000000001"
packID = "00000000-0000-0000-0000-000000000002"
vkPackID = "00000000-0000-0000-0000-000000000003"
brokenID = "00000000-0000-0000-0000-000000000004"
)
entries := fixtureCatalog()
tests := []struct {
name string
cxt Context
wantPackAmt int64
wantPackCur Currency
wantVKPack bool // the vk-only pack visible?
}{
{"vk", Context{Kind: SourceVK}, 20, CurrencyVote, true},
{"vk-ios frozen still lists vk price", Context{Kind: SourceVK, Subtype: SubtypeIOS}, 20, CurrencyVote, true},
{"telegram", Context{Kind: SourceTelegram}, 25, CurrencyStar, false},
{"direct", Context{Kind: SourceDirect}, 14900, CurrencyRUB, false},
}
for _, tc := range tests {
t.Run(tc.name, func(t *testing.T) {
got := byID(projectCatalog(entries, tc.cxt))
// The value shows everywhere at its uniform chip price, never a money price.
v, ok := got[valueID]
if !ok {
t.Fatalf("value missing from %s storefront", tc.name)
}
if v.Kind != "value" || v.Chips != 500 || v.MoneyCurrency != "" || v.MoneyAmount != 0 {
t.Errorf("value = %+v, want kind=value chips=500 no money", v)
}
if len(v.Atoms) != 1 || v.Atoms[0].AtomType != "hints" || v.Atoms[0].Quantity != 250 {
t.Errorf("value atoms = %+v, want [hints:250]", v.Atoms)
}
// The multi-method pack shows the context method's price, in that currency, no chips.
p, ok := got[packID]
if !ok {
t.Fatalf("pack missing from %s storefront", tc.name)
}
if p.Kind != "pack" || p.Chips != 0 || p.MoneyAmount != tc.wantPackAmt || p.MoneyCurrency != string(tc.wantPackCur) {
t.Errorf("pack = %+v, want kind=pack amount=%d currency=%s", p, tc.wantPackAmt, tc.wantPackCur)
}
// The vk-only pack shows only where a vk price exists.
if _, ok := got[vkPackID]; ok != tc.wantVKPack {
t.Errorf("vk-only pack present=%v, want %v (%s)", ok, tc.wantVKPack, tc.name)
}
// The misconfigured value (no CHIP price) is never shown.
if _, ok := got[brokenID]; ok {
t.Errorf("misconfigured value must be omitted (%s)", tc.name)
}
})
}
}
// An untrusted context (empty Kind) has no payment method, so it shows values only — no packs.
func TestProjectCatalog_UntrustedShowsValuesOnly(t *testing.T) {
got := byID(projectCatalog(fixtureCatalog(), Context{}))
if _, ok := got["00000000-0000-0000-0000-000000000001"]; !ok {
t.Error("untrusted context should still list the chip-priced value")
}
for _, id := range []string{
"00000000-0000-0000-0000-000000000002",
"00000000-0000-0000-0000-000000000003",
} {
if _, ok := got[id]; ok {
t.Errorf("untrusted context must not list pack %s", id)
}
}
}
// An empty catalog projects to an empty storefront (no products seeded yet — the Release-1 state).
func TestProjectCatalog_Empty(t *testing.T) {
if got := projectCatalog(nil, Context{Kind: SourceDirect}); len(got.Products) != 0 {
t.Errorf("empty catalog projected %d products, want 0", len(got.Products))
}
}
+202
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package payments
import (
"slices"
"time"
)
// Source is the platform axis a chip balance is segmented by (where it was funded) and a
// benefit is stamped with (where it was bought — its origin). The two roles share this value
// set but mean different things (see docs/PAYMENTS.md §3); Source names the axis for both.
type Source string
const (
// SourceVK is the VK platform: Votes purchases and VK rewarded ads fund here.
SourceVK Source = "vk"
// SourceTelegram is the Telegram platform: Stars purchases fund here.
SourceTelegram Source = "telegram"
// SourceDirect is the open web / native context: Robokassa purchases fund here.
SourceDirect Source = "direct"
)
// Valid reports whether s is one of the three known platform sources.
func (s Source) Valid() bool {
switch s {
case SourceVK, SourceTelegram, SourceDirect:
return true
default:
return false
}
}
// SubtypeIOS is the one device subtype the gate keys on: VK on iOS is frozen for spending
// (Apple forbids spending virtual currency on digital goods outside IAP). It is trusted only
// for VK, where it rides inside the signed launch parameters.
const SubtypeIOS = "ios"
// SourceForIdentityKind maps a backend identity kind to the payments source whose segment that
// identity makes available: a vk/telegram identity to its own source, a durable email identity
// to the direct source (the web/native recovery anchor). A robot identity — or any unknown
// kind — maps to no source (second return false). Callers use it to build the present set the
// payments interface takes, since payments cannot read the account schema.
func SourceForIdentityKind(kind string) (Source, bool) {
switch kind {
case "vk":
return SourceVK, true
case "telegram":
return SourceTelegram, true
case "email":
return SourceDirect, true
default:
return "", false
}
}
// PresentSources maps an account's identity kinds to the payments sources they make available
// (§6), de-duplicated: vk→vk, telegram→telegram, email→direct; a robot or unknown kind maps to
// nothing. Callers pass the kinds from account.Identities so the gate — which holds no
// cross-schema identity knowledge — can resolve which segments are awake.
func PresentSources(kinds []string) []Source {
var out []Source
for _, k := range kinds {
if s, ok := SourceForIdentityKind(k); ok && !has(out, s) {
out = append(out, s)
}
}
return out
}
// Context is the trusted execution context the store-compliance gate keys on: the platform
// Kind (the source the wrapper enforces) plus, for VK, the trusted Subtype (only the VK-iOS
// freeze depends on it). The zero Context (empty Kind) is an untrusted platform — the gate is
// fail-closed there: no spend, no purchase, no foreign-origin benefit, view only.
type Context struct {
Kind Source
Subtype string
}
// NewContext builds a Context from the session platform's kind and subtype strings (as carried
// on the trusted X-Platform signal). An unrecognised or empty kind yields an untrusted Context.
func NewContext(kind, subtype string) Context {
k := Source(kind)
if !k.Valid() {
return Context{}
}
return Context{Kind: k, Subtype: subtype}
}
// Trusted reports whether the platform is trusted (a known kind). An untrusted context denies
// every spend/purchase and the application of any foreign origin.
func (c Context) Trusted() bool { return c.Kind.Valid() }
// vkFrozen reports whether this is the VK-iOS spend freeze: VK context on the trusted iOS
// subtype. A previously bought benefit still applies there, but no spend or purchase is possible.
func (c Context) vkFrozen() bool { return c.Kind == SourceVK && c.Subtype == SubtypeIOS }
// spendPriority is the fixed draw order when several segments are spendable in one context
// (D7): the "home" direct segment first, the store-funded segments after.
var spendPriority = []Source{SourceDirect, SourceVK, SourceTelegram}
// has reports whether present contains s.
func has(present []Source, s Source) bool {
return slices.Contains(present, s)
}
// spendableSources returns the chip segments that may be SPENT in the context, in draw-priority
// order, restricted to the sources the account actually has (present). It is empty when the
// platform is untrusted (fail-closed) or VK-iOS (frozen): inside VK/TG only the same-named
// segment is spendable; on web/native all attached segments are, drained direct→vk→tg.
func spendableSources(c Context, present []Source) []Source {
if !c.Trusted() || c.vkFrozen() {
return nil
}
switch c.Kind {
case SourceVK, SourceTelegram:
if has(present, c.Kind) {
return []Source{c.Kind}
}
return nil
default: // direct (web/native)
var out []Source
for _, s := range spendPriority {
if has(present, s) {
out = append(out, s)
}
}
return out
}
}
// applicableOrigins returns the benefit origins that APPLY in the context, in draw-priority
// order, restricted to present sources. It differs from spendableSources in one way: VK-iOS is
// NOT excluded — a benefit bought earlier still applies while spending is frozen. Inside VK/TG
// only the same-named origin applies (a foreign, e.g. direct, origin never activates inside a
// store — the compliance wall); on web/native direct+vk+tg all apply, drained direct→vk→tg.
func applicableOrigins(c Context, present []Source) []Source {
if !c.Trusted() {
return nil
}
switch c.Kind {
case SourceVK, SourceTelegram:
if has(present, c.Kind) {
return []Source{c.Kind}
}
return nil
default: // direct (web/native)
var out []Source
for _, s := range spendPriority {
if has(present, s) {
out = append(out, s)
}
}
return out
}
}
// visibleSources returns the segments the wallet shows in the context, regardless of whether
// they are spendable: inside a store only the same-named segment (the others are invisible
// there); on web/native or an untrusted context all three (untrusted shows them view-only).
func visibleSources(c Context) []Source {
switch c.Kind {
case SourceVK, SourceTelegram:
return []Source{c.Kind}
default:
return spendPriority
}
}
// Segment is one chip balance the wallet shows: the source, its chip count, and whether it can
// be spent in the current context (false for a frozen VK-iOS balance or an untrusted platform).
type Segment struct {
Source Source
Chips int
Spendable bool
}
// BenefitView is the benefit state applicable in the current context: whether ads are off (and
// until when, or forever) and how many hints are available. It aggregates over the origins
// applicable in the context (§5).
type BenefitView struct {
AdsForever bool
AdsPaidUntil *time.Time
Hints int
}
// WalletView is the read model returned to the wallet: the visible segments plus the
// context-applicable benefits.
type WalletView struct {
Segments []Segment
Benefits BenefitView
}
// benefitDelta is the benefit change a spend or grant applies to one origin: hints added, a
// no-ads term in whole days (stacked from max(now, current end)), and the perpetual forever
// flag (which overrides terms).
type benefitDelta struct {
hintsAdd int
noAdsDays int
forever bool
}
// zero reports whether the delta changes nothing.
func (d benefitDelta) zero() bool { return d.hintsAdd == 0 && d.noAdsDays == 0 && !d.forever }
+132
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package payments
import (
"slices"
"testing"
)
// allPresent is an account attached to every source (the maximal present set).
var allPresent = []Source{SourceDirect, SourceVK, SourceTelegram}
func TestSpendableSources(t *testing.T) {
tests := []struct {
name string
ctx Context
present []Source
want []Source
}{
{"vk android, vk present", Context{Kind: SourceVK, Subtype: "android"}, allPresent, []Source{SourceVK}},
{"vk ios frozen", Context{Kind: SourceVK, Subtype: SubtypeIOS}, allPresent, nil},
{"vk android, vk absent", Context{Kind: SourceVK, Subtype: "android"}, []Source{SourceDirect}, nil},
{"telegram", Context{Kind: SourceTelegram, Subtype: "web"}, allPresent, []Source{SourceTelegram}},
{"telegram, tg absent", Context{Kind: SourceTelegram}, []Source{SourceVK}, nil},
{"direct all present, priority", Context{Kind: SourceDirect, Subtype: "web"}, allPresent, []Source{SourceDirect, SourceVK, SourceTelegram}},
{"direct, only vk+tg attached", Context{Kind: SourceDirect}, []Source{SourceTelegram, SourceVK}, []Source{SourceVK, SourceTelegram}},
{"direct, nothing attached", Context{Kind: SourceDirect}, nil, nil},
{"untrusted fail-closed", Context{}, allPresent, nil},
}
for _, tc := range tests {
t.Run(tc.name, func(t *testing.T) {
if got := spendableSources(tc.ctx, tc.present); !slices.Equal(got, tc.want) {
t.Errorf("spendableSources(%+v, %v) = %v, want %v", tc.ctx, tc.present, got, tc.want)
}
})
}
}
func TestApplicableOrigins(t *testing.T) {
tests := []struct {
name string
ctx Context
present []Source
want []Source
}{
// A benefit still APPLIES on VK-iOS while spending is frozen.
{"vk ios still applies", Context{Kind: SourceVK, Subtype: SubtypeIOS}, allPresent, []Source{SourceVK}},
{"vk android", Context{Kind: SourceVK, Subtype: "android"}, allPresent, []Source{SourceVK}},
{"telegram", Context{Kind: SourceTelegram}, allPresent, []Source{SourceTelegram}},
{"direct all, priority", Context{Kind: SourceDirect}, allPresent, []Source{SourceDirect, SourceVK, SourceTelegram}},
{"untrusted fail-closed", Context{}, allPresent, nil},
}
for _, tc := range tests {
t.Run(tc.name, func(t *testing.T) {
if got := applicableOrigins(tc.ctx, tc.present); !slices.Equal(got, tc.want) {
t.Errorf("applicableOrigins(%+v, %v) = %v, want %v", tc.ctx, tc.present, got, tc.want)
}
})
}
}
// TestComplianceWall is the named unit-level compliance regression: a direct origin (externally
// paid, outside any store cash desk) must NEVER be applicable inside a VK or TG wrapper, and no
// segment is ever spendable there beyond the same-named one. The dangerous direction stays shut.
func TestComplianceWall(t *testing.T) {
for _, kind := range []Source{SourceVK, SourceTelegram} {
for _, sub := range []string{"android", "ios", "web"} {
ctx := Context{Kind: kind, Subtype: sub}
if slices.Contains(applicableOrigins(ctx, allPresent), SourceDirect) {
t.Errorf("direct origin applies inside %s/%s — compliance wall breached", kind, sub)
}
for _, s := range spendableSources(ctx, allPresent) {
if s != kind {
t.Errorf("foreign segment %s spendable inside %s/%s", s, kind, sub)
}
}
// The opposite store's origin must not leak in either (vk⊥tg).
other := SourceVK
if kind == SourceVK {
other = SourceTelegram
}
if slices.Contains(applicableOrigins(ctx, allPresent), other) {
t.Errorf("%s origin applies inside %s — cross-store leak", other, kind)
}
}
}
}
func TestVisibleSources(t *testing.T) {
if got := visibleSources(Context{Kind: SourceVK, Subtype: SubtypeIOS}); !slices.Equal(got, []Source{SourceVK}) {
t.Errorf("VK visible = %v, want [vk] (direct/tg hidden in a store)", got)
}
if got := visibleSources(Context{Kind: SourceDirect}); !slices.Equal(got, allPresent) {
t.Errorf("direct visible = %v, want all three", got)
}
if got := visibleSources(Context{}); !slices.Equal(got, allPresent) {
t.Errorf("untrusted visible = %v, want all three (view-only)", got)
}
}
func TestSourceForIdentityKind(t *testing.T) {
tests := []struct {
kind string
want Source
ok bool
}{
{"vk", SourceVK, true},
{"telegram", SourceTelegram, true},
{"email", SourceDirect, true},
{"robot", "", false},
{"unknown", "", false},
}
for _, tc := range tests {
got, ok := SourceForIdentityKind(tc.kind)
if got != tc.want || ok != tc.ok {
t.Errorf("SourceForIdentityKind(%q) = %q,%v want %q,%v", tc.kind, got, ok, tc.want, tc.ok)
}
}
}
func TestNewContextTrusted(t *testing.T) {
if c := NewContext("vk", "ios"); !c.Trusted() || !c.vkFrozen() {
t.Errorf("vk/ios: trusted=%v frozen=%v, want true/true", c.Trusted(), c.vkFrozen())
}
if c := NewContext("bogus", "web"); c.Trusted() {
t.Errorf("bogus kind should be untrusted")
}
if c := NewContext("", ""); c.Trusted() {
t.Errorf("empty kind should be untrusted")
}
if c := NewContext("direct", "web"); c.vkFrozen() {
t.Errorf("direct is never frozen")
}
}
+236 -7
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@@ -1,17 +1,246 @@
package payments
import "context"
import (
"context"
"database/sql"
"encoding/json"
"fmt"
"time"
// Service is the payments domain's application layer — the narrow surface other
// domains depend on, keeping the schema reachable through one seam. The
// data-foundation layer exposes only a health check; the wallet, benefit and
// store-compliance operations arrive with the currency mechanics.
"github.com/google/uuid"
)
// Service is the payments domain's application layer — the narrow surface other domains depend
// on, keeping the schema reachable through one seam. Every read/gate method takes the trusted
// execution Context and the account's present identity sources (which segments are awake, §6);
// payments holds no cross-schema identity knowledge, so the caller supplies present. Reads are
// served from the store's in-process cache, so the steady-state hot path issues no query to the
// payments schema.
type Service struct {
store *Store
clock func() time.Time
}
// NewService constructs a Service over store.
func NewService(store *Store) *Service { return &Service{store: store} }
// NewService constructs a Service over store with a wall-clock time source.
func NewService(store *Store) *Service {
return &Service{store: store, clock: func() time.Time { return time.Now().UTC() }}
}
// Ping reports whether the payments schema is reachable.
func (s *Service) Ping(ctx context.Context) error { return s.store.Ping(ctx) }
// Wallet returns the read model for the account in the execution context: the segments visible
// there (each with its chip count and whether it is spendable) plus the context-applicable
// benefits. In a store context only the same-named segment is shown; on web/native or an
// untrusted platform all attached segments are shown, spendable only when the gate allows.
func (s *Service) Wallet(ctx context.Context, accountID uuid.UUID, cxt Context, present []Source) (WalletView, error) {
st, err := s.store.state(ctx, accountID)
if err != nil {
return WalletView{}, err
}
now := s.clock()
view := WalletView{Benefits: benefitView(st, cxt, present, now)}
spendable := spendableSources(cxt, present)
for _, src := range visibleSources(cxt) {
if !has(present, src) {
continue // only the account's own (attached) segments are shown
}
view.Segments = append(view.Segments, Segment{
Source: src,
Chips: st.chipsOf(src),
Spendable: has(spendable, src),
})
}
return view, nil
}
// Catalog returns the storefront for the execution context: every chip-priced value (shown in
// every context) plus the chip packs priced in the context's payment method. It is read straight
// from the catalog tables — small and rarely edited, so uncached. An untrusted context has no
// method and so shows values only; buying is gate-checked on Spend regardless (fail-closed).
func (s *Service) Catalog(ctx context.Context, cxt Context) (CatalogView, error) {
entries, err := s.store.loadCatalog(ctx)
if err != nil {
return CatalogView{}, err
}
return projectCatalog(entries, cxt), nil
}
// AdFree reports whether ads are suppressed for the account in the context: some origin
// applicable there has an active no-ads term or the forever flag. Fail-closed on an untrusted
// platform (no origin applies).
func (s *Service) AdFree(ctx context.Context, accountID uuid.UUID, cxt Context, present []Source) (bool, error) {
st, err := s.store.state(ctx, accountID)
if err != nil {
return false, err
}
now := s.clock()
for _, o := range applicableOrigins(cxt, present) {
b := st.benefitOf(o)
if b.adsForever || (b.adsPaidUntil != nil && b.adsPaidUntil.After(now)) {
return true, nil
}
}
return false, nil
}
// HintsAvailable returns how many hints the account can use in the context — the sum over the
// applicable origins. Zero on an untrusted platform.
func (s *Service) HintsAvailable(ctx context.Context, accountID uuid.UUID, cxt Context, present []Source) (int, error) {
st, err := s.store.state(ctx, accountID)
if err != nil {
return 0, err
}
total := 0
for _, o := range applicableOrigins(cxt, present) {
total += st.benefitOf(o).hints
}
return total, nil
}
// SpendHint consumes one hint from the first applicable origin that has one (priority
// direct→vk→tg), returning whether a hint was spent. It spends nothing when no origin is
// applicable (untrusted platform or no attached segment).
func (s *Service) SpendHint(ctx context.Context, accountID uuid.UUID, cxt Context, present []Source) (bool, error) {
origins := applicableOrigins(cxt, present)
if len(origins) == 0 {
return false, nil
}
return s.store.consumeHint(ctx, accountID, origins, s.clock())
}
// Spend buys a chip-priced value: it gate-checks the context, draws the price across the
// spendable segments by priority direct→vk→tg, and applies the benefit — atomically. The
// benefit's origin is the purchase context. It fails closed on an untrusted or frozen platform
// (ErrUntrusted) and on insufficient chips (ErrInsufficientChips).
func (s *Service) Spend(ctx context.Context, accountID uuid.UUID, cxt Context, present []Source, productID uuid.UUID) error {
spendable := spendableSources(cxt, present)
if len(spendable) == 0 {
return ErrUntrusted // untrusted, frozen, or no attached segment — no spend
}
prod, err := s.store.loadProduct(ctx, productID)
if err != nil {
return err
}
st, err := s.store.state(ctx, accountID)
if err != nil {
return err
}
draws, ok := planDraws(st, spendable, prod.priceChips)
if !ok {
return ErrInsufficientChips
}
snapshot, err := marshalSnapshot(prod)
if err != nil {
return err
}
return s.store.spend(ctx, accountID, draws, cxt.Kind, productID, prod.delta, snapshot, s.clock())
}
// Grant applies a benefit to an origin as a zero-price sale — an admin_grant ledger row and the
// benefit (hints, a no-ads term in whole days, or the forever flag). It never grants chips (no
// balance is touched — D16), so its signature has no chip amount. The origin is the admin's
// compliance choice.
func (s *Service) Grant(ctx context.Context, accountID uuid.UUID, origin Source, hints, noAdsDays int, forever bool) error {
if !origin.Valid() {
return fmt.Errorf("payments: invalid grant origin %q", origin)
}
d := benefitDelta{hintsAdd: hints, noAdsDays: noAdsDays, forever: forever}
if d.zero() {
return fmt.Errorf("payments: empty grant")
}
snapshot, err := marshalGrant(d)
if err != nil {
return err
}
return s.store.grant(ctx, accountID, origin, d, snapshot, s.clock())
}
// MergeTx merges the secondary account's segments and benefits into the primary inside the
// caller's transaction (the account-merge flow). The caller invalidates the affected caches
// after committing (Invalidate).
func (s *Service) MergeTx(ctx context.Context, tx *sql.Tx, primary, secondary uuid.UUID) error {
return s.store.MergeTx(ctx, tx, primary, secondary, s.clock())
}
// Invalidate drops the cached state of the listed accounts (called after a merge commit).
func (s *Service) Invalidate(ids ...uuid.UUID) { s.store.Invalidate(ids...) }
// benefitView aggregates the benefits applicable in the context into the wallet view: ads-off
// forever if any applicable origin is perpetual, else the latest active term end, plus the total
// available hints.
func benefitView(st walletState, cxt Context, present []Source, now time.Time) BenefitView {
var v BenefitView
for _, o := range applicableOrigins(cxt, present) {
b := st.benefitOf(o)
if b.adsForever {
v.AdsForever = true
}
if b.adsPaidUntil != nil && b.adsPaidUntil.After(now) {
if v.AdsPaidUntil == nil || b.adsPaidUntil.After(*v.AdsPaidUntil) {
v.AdsPaidUntil = b.adsPaidUntil
}
}
v.Hints += b.hints
}
return v
}
// planDraws greedily allocates price across the spendable segments in priority order, draining
// each before moving on. It returns the per-segment draws and whether the segments together held
// enough.
func planDraws(st walletState, spendable []Source, price int) ([]sourceAmount, bool) {
remaining := price
var draws []sourceAmount
for _, src := range spendable {
if remaining <= 0 {
break
}
avail := st.chipsOf(src)
if avail <= 0 {
continue
}
take := min(avail, remaining)
draws = append(draws, sourceAmount{source: src, amount: take})
remaining -= take
}
if remaining > 0 {
return nil, false
}
return draws, true
}
// purchaseSnapshot is the catalog snapshot stored on a spend/grant ledger row, so history and
// receipts stay independent of later catalog edits (§7/D34).
type purchaseSnapshot struct {
ProductID string `json:"product_id,omitempty"`
Title string `json:"title,omitempty"`
Atoms map[string]int `json:"atoms,omitempty"`
PriceChips int `json:"price_chips"`
Forever bool `json:"forever,omitempty"`
}
// marshalSnapshot builds the snapshot for a chip spend.
func marshalSnapshot(p catalogProduct) ([]byte, error) {
b, err := json.Marshal(purchaseSnapshot{ProductID: p.id.String(), Title: p.title, Atoms: p.atoms, PriceChips: p.priceChips})
if err != nil {
return nil, fmt.Errorf("payments: marshal snapshot: %w", err)
}
return b, nil
}
// marshalGrant builds the snapshot for an admin grant (price 0).
func marshalGrant(d benefitDelta) ([]byte, error) {
atoms := map[string]int{}
if d.hintsAdd > 0 {
atoms["hints"] = d.hintsAdd
}
if d.noAdsDays > 0 {
atoms["noads_days"] = d.noAdsDays
}
b, err := json.Marshal(purchaseSnapshot{Atoms: atoms, PriceChips: 0, Forever: d.forever})
if err != nil {
return nil, fmt.Errorf("payments: marshal grant snapshot: %w", err)
}
return b, nil
}
+6 -3
View File
@@ -14,13 +14,16 @@ import (
// Store is the Postgres-backed query surface for the payments schema. It is the
// only place in the backend that issues SQL against payments.* (an
// import-boundary test enforces it), so the domain stays extractable into its
// own database.
// own database. It fronts the materialized balances/benefits tables with an
// in-process write-through cache (see cache.go) so hot reads issue no query on
// the steady-state path.
type Store struct {
db *sql.DB
cache *walletCache
}
// NewStore constructs a Store wrapping db.
func NewStore(db *sql.DB) *Store { return &Store{db: db} }
// NewStore constructs a Store wrapping db, with an empty read cache.
func NewStore(db *sql.DB) *Store { return &Store{db: db, cache: newWalletCache()} }
// Ping verifies the payments schema is reachable by reading the singleton config
// row. It is the data-foundation health check; the wallet query surface arrives
@@ -0,0 +1,89 @@
package payments
import (
"context"
"fmt"
"github.com/go-jet/jet/v2/postgres"
"github.com/google/uuid"
"scrabble/backend/internal/postgres/jet/payments/model"
"scrabble/backend/internal/postgres/jet/payments/table"
)
// atomQty is one atom line of a product as loaded from the catalog: the atom type and quantity.
type atomQty struct {
atomType string
quantity int
}
// priceRow is one price of a product as loaded from the catalog: the payment method (empty for a
// value's CHIP price, stored with a NULL method) and the amount in that currency's minor units.
type priceRow struct {
method string
currency Currency
amount int64
}
// catalogEntry is a raw active product loaded for the storefront: its atom composition and every
// price row. [projectCatalog] turns it into the context-visible [CatalogProduct].
type catalogEntry struct {
id uuid.UUID
title string
atoms []atomQty
prices []priceRow
}
// loadCatalog reads every active product with its atoms and prices, ordered by creation, straight
// from the catalog tables. The catalog is small and rarely edited (admin console only), so it is
// read uncached — unlike the per-account balances/benefits the read cache fronts.
func (s *Store) loadCatalog(ctx context.Context) ([]catalogEntry, error) {
var prods []model.Product
if err := postgres.SELECT(table.Product.AllColumns).
FROM(table.Product).
WHERE(table.Product.Active.IS_TRUE()).
ORDER_BY(table.Product.CreatedAt.ASC()).
QueryContext(ctx, s.db, &prods); err != nil {
return nil, fmt.Errorf("payments: load catalog products: %w", err)
}
if len(prods) == 0 {
return nil, nil
}
entries := make([]catalogEntry, len(prods))
index := make(map[uuid.UUID]int, len(prods))
for i, p := range prods {
entries[i] = catalogEntry{id: p.ProductID, title: p.Title}
index[p.ProductID] = i
}
var items []model.ProductItem
if err := postgres.SELECT(table.ProductItem.AllColumns).
FROM(table.ProductItem).
QueryContext(ctx, s.db, &items); err != nil {
return nil, fmt.Errorf("payments: load catalog items: %w", err)
}
for _, it := range items {
if i, ok := index[it.ProductID]; ok {
entries[i].atoms = append(entries[i].atoms, atomQty{atomType: it.AtomType, quantity: int(it.Quantity)})
}
}
var prices []model.ProductPrice
if err := postgres.SELECT(table.ProductPrice.AllColumns).
FROM(table.ProductPrice).
QueryContext(ctx, s.db, &prices); err != nil {
return nil, fmt.Errorf("payments: load catalog prices: %w", err)
}
for _, pr := range prices {
i, ok := index[pr.ProductID]
if !ok {
continue // a price for a deactivated product — not in the storefront
}
method := ""
if pr.Method != nil {
method = *pr.Method
}
entries[i].prices = append(entries[i].prices, priceRow{method: method, currency: Currency(pr.Currency), amount: pr.Amount})
}
return entries, nil
}
+421
View File
@@ -0,0 +1,421 @@
package payments
import (
"context"
"database/sql"
"errors"
"fmt"
"time"
"github.com/go-jet/jet/v2/postgres"
"github.com/go-jet/jet/v2/qrm"
"github.com/google/uuid"
"scrabble/backend/internal/postgres/jet/payments/model"
"scrabble/backend/internal/postgres/jet/payments/table"
)
// Domain errors surfaced by the payments store and service.
var (
// ErrInsufficientChips means the spendable segments held fewer chips than the price.
ErrInsufficientChips = errors.New("payments: insufficient chips")
// ErrUntrusted means the platform context is untrusted, so the gate is fail-closed.
ErrUntrusted = errors.New("payments: untrusted platform")
// ErrProductNotFound means the product is absent or deactivated.
ErrProductNotFound = errors.New("payments: product not found")
// ErrNotAValue means the product has no chip price (it is a chip pack or unpriced), so it
// cannot be bought with chips.
ErrNotAValue = errors.New("payments: product is not a chip-priced value")
)
// withTx runs fn inside a transaction on db, rolling back on error or panic.
func withTx(ctx context.Context, db *sql.DB, fn func(*sql.Tx) error) (err error) {
tx, err := db.BeginTx(ctx, nil)
if err != nil {
return fmt.Errorf("payments: begin tx: %w", err)
}
defer func() {
if p := recover(); p != nil {
_ = tx.Rollback()
panic(p)
}
}()
if err := fn(tx); err != nil {
_ = tx.Rollback()
return err
}
if err := tx.Commit(); err != nil {
return fmt.Errorf("payments: commit tx: %w", err)
}
return nil
}
// sourceAmount is one chip draw from a single segment during a spend.
type sourceAmount struct {
source Source
amount int
}
// catalogProduct is a product resolved for a chip spend: its chip price, the benefit its atoms
// fold into, and the raw atom composition for the purchase snapshot.
type catalogProduct struct {
id uuid.UUID
title string
priceChips int
delta benefitDelta
atoms map[string]int
}
// loadState reads an account's balances and benefits straight from the materialized tables.
func (s *Store) loadState(ctx context.Context, accountID uuid.UUID) (walletState, error) {
st := walletState{chips: map[Source]int{}, benefits: map[Source]benefitState{}}
var brows []model.Balances
if err := postgres.SELECT(table.Balances.AllColumns).
FROM(table.Balances).
WHERE(table.Balances.AccountID.EQ(postgres.UUID(accountID))).
QueryContext(ctx, s.db, &brows); err != nil {
return walletState{}, fmt.Errorf("payments: load balances %s: %w", accountID, err)
}
for _, r := range brows {
st.chips[Source(r.Source)] = int(r.Chips)
}
var frows []model.Benefits
if err := postgres.SELECT(table.Benefits.AllColumns).
FROM(table.Benefits).
WHERE(table.Benefits.AccountID.EQ(postgres.UUID(accountID))).
QueryContext(ctx, s.db, &frows); err != nil {
return walletState{}, fmt.Errorf("payments: load benefits %s: %w", accountID, err)
}
for _, r := range frows {
st.benefits[Source(r.Origin)] = benefitState{adsPaidUntil: r.AdsPaidUntil, adsForever: r.AdsForever, hints: int(r.Hints)}
}
return st, nil
}
// state returns an account's payments state, served from the read cache when warm, otherwise
// loaded from the materialized tables and cached. The returned maps are read-only.
func (s *Store) state(ctx context.Context, accountID uuid.UUID) (walletState, error) {
if st, ok := s.cache.get(accountID); ok {
return st, nil
}
st, err := s.loadState(ctx, accountID)
if err != nil {
return walletState{}, err
}
s.cache.put(accountID, st)
return st, nil
}
// Invalidate drops the cached state of every listed account so the next read reloads it. It is
// called after a committed mutation whose transaction the payments package does not own — the
// account-merge flow (after its own commit) and, later, external fund/refund intake.
func (s *Store) Invalidate(ids ...uuid.UUID) {
for _, id := range ids {
s.cache.invalidate(id)
}
}
// loadProduct resolves a chip-priced value: an active product with a CHIP price row
// (method NULL) whose atoms are benefits (hints / no-ads days). It rejects a missing or
// deactivated product (ErrProductNotFound), a product with no chip price (ErrNotAValue), and a
// product carrying the chips atom (a chip pack is funded, never bought with chips — ErrNotAValue).
func (s *Store) loadProduct(ctx context.Context, productID uuid.UUID) (catalogProduct, error) {
var p model.Product
err := postgres.SELECT(table.Product.AllColumns).
FROM(table.Product).
WHERE(table.Product.ProductID.EQ(postgres.UUID(productID))).
LIMIT(1).
QueryContext(ctx, s.db, &p)
if errors.Is(err, qrm.ErrNoRows) || (err == nil && !p.Active) {
return catalogProduct{}, ErrProductNotFound
}
if err != nil {
return catalogProduct{}, fmt.Errorf("payments: load product %s: %w", productID, err)
}
var price model.ProductPrice
err = postgres.SELECT(table.ProductPrice.AllColumns).
FROM(table.ProductPrice).
WHERE(table.ProductPrice.ProductID.EQ(postgres.UUID(productID)).
AND(table.ProductPrice.Method.IS_NULL()).
AND(table.ProductPrice.Currency.EQ(postgres.String(string(CurrencyChip))))).
LIMIT(1).
QueryContext(ctx, s.db, &price)
if errors.Is(err, qrm.ErrNoRows) {
return catalogProduct{}, ErrNotAValue
}
if err != nil {
return catalogProduct{}, fmt.Errorf("payments: load price %s: %w", productID, err)
}
var items []model.ProductItem
if err := postgres.SELECT(table.ProductItem.AllColumns).
FROM(table.ProductItem).
WHERE(table.ProductItem.ProductID.EQ(postgres.UUID(productID))).
QueryContext(ctx, s.db, &items); err != nil {
return catalogProduct{}, fmt.Errorf("payments: load items %s: %w", productID, err)
}
cp := catalogProduct{id: productID, title: p.Title, priceChips: int(price.Amount), atoms: map[string]int{}}
for _, it := range items {
cp.atoms[it.AtomType] = int(it.Quantity)
switch it.AtomType {
case "hints":
cp.delta.hintsAdd += int(it.Quantity)
case "noads_days":
cp.delta.noAdsDays += int(it.Quantity)
case "chips":
return catalogProduct{}, ErrNotAValue // a value never grants chips
}
}
return cp, nil
}
// stackNoAds returns the new no-ads term end after adding addDays whole days from
// max(now, current end) — terms add up, the remainder is never lost (§5/D33). A non-positive
// addDays leaves the term unchanged; a nil current means no term yet.
func stackNoAds(current *time.Time, addDays int, now time.Time) *time.Time {
if addDays <= 0 {
return current
}
base := now
if current != nil && current.After(now) {
base = *current
}
end := base.Add(time.Duration(addDays) * 24 * time.Hour)
return &end
}
// combineNoAds folds secondary's remaining no-ads term onto primary's during a merge: the
// remaining duration of each is preserved (§6/D15 "terms extend per origin").
func combineNoAds(primary, secondary *time.Time, now time.Time) *time.Time {
if secondary == nil || !secondary.After(now) {
return primary
}
base := now
if primary != nil && primary.After(now) {
base = *primary
}
end := base.Add(secondary.Sub(now))
return &end
}
// applyBenefitTx applies a benefit delta to one origin inside tx, stacking the no-ads term,
// OR-ing the forever flag and adding hints. It ensures the (account, origin) row exists, locks
// it, then writes the recomputed values — so concurrent applies serialise on the row lock.
func applyBenefitTx(ctx context.Context, tx *sql.Tx, accountID uuid.UUID, origin Source, d benefitDelta, now time.Time) error {
if d.zero() {
return nil
}
if _, err := tx.ExecContext(ctx,
`INSERT INTO payments.benefits (account_id, origin) VALUES ($1, $2) ON CONFLICT DO NOTHING`,
accountID, string(origin)); err != nil {
return fmt.Errorf("payments: ensure benefit row %s: %w", origin, err)
}
var untilCur *time.Time
var foreverCur bool
var hintsCur int32
if err := tx.QueryRowContext(ctx,
`SELECT ads_paid_until, ads_forever, hints FROM payments.benefits
WHERE account_id = $1 AND origin = $2 FOR UPDATE`, accountID, string(origin)).
Scan(&untilCur, &foreverCur, &hintsCur); err != nil {
return fmt.Errorf("payments: lock benefit %s: %w", origin, err)
}
if _, err := tx.ExecContext(ctx,
`UPDATE payments.benefits SET ads_paid_until = $3, ads_forever = $4, hints = $5, updated_at = now()
WHERE account_id = $1 AND origin = $2`,
accountID, string(origin), stackNoAds(untilCur, d.noAdsDays, now), foreverCur || d.forever, int(hintsCur)+d.hintsAdd); err != nil {
return fmt.Errorf("payments: apply benefit %s: %w", origin, err)
}
return nil
}
// insertLedgerTx appends one append-only ledger row inside tx.
func insertLedgerTx(ctx context.Context, tx *sql.Tx, accountID uuid.UUID, kind string, source, origin *Source, chipsDelta int, productID *uuid.UUID, snapshot []byte, now time.Time) error {
id, err := uuid.NewV7()
if err != nil {
return fmt.Errorf("payments: ledger id: %w", err)
}
// The snapshot is a bare value, not a postgres.String literal: a jsonb column infers its
// type from an untyped parameter (the game-moves payload idiom), whereas a text-typed
// literal is rejected against jsonb.
var snap any = postgres.NULL
if snapshot != nil {
snap = string(snapshot)
}
stmt := table.Ledger.INSERT(
table.Ledger.LedgerID, table.Ledger.AccountID, table.Ledger.Kind,
table.Ledger.Source, table.Ledger.Origin, table.Ledger.ChipsDelta,
table.Ledger.ProductID, table.Ledger.Snapshot, table.Ledger.CreatedAt,
).VALUES(
id, accountID, kind,
sourceOrNull(source), sourceOrNull(origin), int32(chipsDelta),
uuidOrNull(productID), snap, now,
)
if _, err := stmt.ExecContext(ctx, tx); err != nil {
return fmt.Errorf("payments: insert %s ledger: %w", kind, err)
}
return nil
}
// spend draws the chips across the given segments, appends a spend ledger row per draw (carrying
// the purchase snapshot), and applies the benefit — all in one transaction. It fails closed on
// an insufficient balance (a guarded decrement), rolling everything back.
func (s *Store) spend(ctx context.Context, accountID uuid.UUID, draws []sourceAmount, origin Source, productID uuid.UUID, d benefitDelta, snapshot []byte, now time.Time) error {
err := withTx(ctx, s.db, func(tx *sql.Tx) error {
for _, dr := range draws {
res, err := table.Balances.
UPDATE(table.Balances.Chips, table.Balances.UpdatedAt).
SET(table.Balances.Chips.SUB(postgres.Int(int64(dr.amount))), postgres.TimestampzT(now)).
WHERE(table.Balances.AccountID.EQ(postgres.UUID(accountID)).
AND(table.Balances.Source.EQ(postgres.String(string(dr.source)))).
AND(table.Balances.Chips.GT_EQ(postgres.Int(int64(dr.amount))))).
ExecContext(ctx, tx)
if err != nil {
return fmt.Errorf("payments: decrement %s: %w", dr.source, err)
}
if n, _ := res.RowsAffected(); n == 0 {
return ErrInsufficientChips
}
src := dr.source
if err := insertLedgerTx(ctx, tx, accountID, "spend", &src, &origin, -dr.amount, &productID, snapshot, now); err != nil {
return err
}
}
return applyBenefitTx(ctx, tx, accountID, origin, d, now)
})
if err != nil {
return err
}
s.cache.invalidate(accountID)
return nil
}
// grant records an admin_grant ledger row (price 0, no chips) and applies the granted benefit to
// the chosen origin, in one transaction — a zero-price sale of a value.
func (s *Store) grant(ctx context.Context, accountID uuid.UUID, origin Source, d benefitDelta, snapshot []byte, now time.Time) error {
err := withTx(ctx, s.db, func(tx *sql.Tx) error {
if err := insertLedgerTx(ctx, tx, accountID, "admin_grant", nil, &origin, 0, nil, snapshot, now); err != nil {
return err
}
return applyBenefitTx(ctx, tx, accountID, origin, d, now)
})
if err != nil {
return err
}
s.cache.invalidate(accountID)
return nil
}
// consumeHint decrements one hint from the first applicable origin (in the given priority order)
// that has one, with a guarded update. It returns whether a hint was spent.
func (s *Store) consumeHint(ctx context.Context, accountID uuid.UUID, origins []Source, now time.Time) (bool, error) {
for _, o := range origins {
res, err := table.Benefits.
UPDATE(table.Benefits.Hints, table.Benefits.UpdatedAt).
SET(table.Benefits.Hints.SUB(postgres.Int(1)), postgres.TimestampzT(now)).
WHERE(table.Benefits.AccountID.EQ(postgres.UUID(accountID)).
AND(table.Benefits.Origin.EQ(postgres.String(string(o)))).
AND(table.Benefits.Hints.GT(postgres.Int(0)))).
ExecContext(ctx, s.db)
if err != nil {
return false, fmt.Errorf("payments: consume hint %s: %w", o, err)
}
if n, _ := res.RowsAffected(); n > 0 {
s.cache.invalidate(accountID)
return true, nil
}
}
return false, nil
}
// MergeTx folds the secondary account's segments and benefits into the primary, by source and by
// origin, inside the caller's transaction (the account-merge flow): chips sum, no-ads terms
// extend per origin, forever OR-s, hints add. The secondary's payments rows are removed. The
// caller invalidates the primary's cache after its own commit (Invalidate). It does not touch
// the account schema — the JET import boundary stays intact, only the shared connection is used.
func (s *Store) MergeTx(ctx context.Context, tx *sql.Tx, primary, secondary uuid.UUID, now time.Time) error {
if _, err := tx.ExecContext(ctx,
`INSERT INTO payments.balances (account_id, source, chips, updated_at)
SELECT $1, source, chips, now() FROM payments.balances WHERE account_id = $2
ON CONFLICT (account_id, source) DO UPDATE
SET chips = payments.balances.chips + EXCLUDED.chips, updated_at = now()`,
primary, secondary); err != nil {
return fmt.Errorf("payments: merge balances: %w", err)
}
if _, err := tx.ExecContext(ctx, `DELETE FROM payments.balances WHERE account_id = $1`, secondary); err != nil {
return fmt.Errorf("payments: clear secondary balances: %w", err)
}
rows, err := tx.QueryContext(ctx,
`SELECT origin, ads_paid_until, ads_forever, hints FROM payments.benefits WHERE account_id = $1`, secondary)
if err != nil {
return fmt.Errorf("payments: read secondary benefits: %w", err)
}
type secBenefit struct {
origin Source
until *time.Time
forever bool
hints int
}
var secs []secBenefit
for rows.Next() {
var b secBenefit
var o string
var h int32
if err := rows.Scan(&o, &b.until, &b.forever, &h); err != nil {
rows.Close()
return fmt.Errorf("payments: scan secondary benefit: %w", err)
}
b.origin, b.hints = Source(o), int(h)
secs = append(secs, b)
}
if err := rows.Err(); err != nil {
rows.Close()
return fmt.Errorf("payments: iterate secondary benefits: %w", err)
}
rows.Close()
for _, b := range secs {
if _, err := tx.ExecContext(ctx,
`INSERT INTO payments.benefits (account_id, origin) VALUES ($1, $2) ON CONFLICT DO NOTHING`,
primary, string(b.origin)); err != nil {
return fmt.Errorf("payments: ensure primary benefit %s: %w", b.origin, err)
}
var untilCur *time.Time
var foreverCur bool
var hintsCur int32
if err := tx.QueryRowContext(ctx,
`SELECT ads_paid_until, ads_forever, hints FROM payments.benefits
WHERE account_id = $1 AND origin = $2 FOR UPDATE`, primary, string(b.origin)).
Scan(&untilCur, &foreverCur, &hintsCur); err != nil {
return fmt.Errorf("payments: lock primary benefit %s: %w", b.origin, err)
}
if _, err := tx.ExecContext(ctx,
`UPDATE payments.benefits SET ads_paid_until = $3, ads_forever = $4, hints = $5, updated_at = now()
WHERE account_id = $1 AND origin = $2`,
primary, string(b.origin), combineNoAds(untilCur, b.until, now), foreverCur || b.forever, int(hintsCur)+b.hints); err != nil {
return fmt.Errorf("payments: merge benefit %s: %w", b.origin, err)
}
}
if _, err := tx.ExecContext(ctx, `DELETE FROM payments.benefits WHERE account_id = $1`, secondary); err != nil {
return fmt.Errorf("payments: clear secondary benefits: %w", err)
}
return nil
}
// sourceOrNull renders an optional source as a SQL string or NULL.
func sourceOrNull(s *Source) postgres.Expression {
if s == nil {
return postgres.NULL
}
return postgres.String(string(*s))
}
// uuidOrNull renders an optional id as a SQL uuid or NULL.
func uuidOrNull(id *uuid.UUID) postgres.Expression {
if id == nil {
return postgres.NULL
}
return postgres.UUID(*id)
}
+182
View File
@@ -0,0 +1,182 @@
package payments
import (
"context"
"testing"
"time"
"github.com/google/uuid"
)
// base is a fixed clock instant for the deterministic tests.
var base = time.Date(2026, 7, 8, 12, 0, 0, 0, time.UTC)
// seededService builds a Service whose read cache already holds st for id, so the read methods
// resolve without a database (the store's db is nil). The clock is pinned to base.
func seededService(id uuid.UUID, st walletState) *Service {
store := NewStore(nil)
store.cache.put(id, st)
return &Service{store: store, clock: func() time.Time { return base }}
}
func TestStackNoAds(t *testing.T) {
future := base.Add(48 * time.Hour)
past := base.Add(-time.Hour)
tests := []struct {
name string
current *time.Time
addDays int
want *time.Time
}{
{"fresh term", nil, 3, new(base.Add(72 * time.Hour))},
{"stack onto future", new(future), 2, new(future.Add(48 * time.Hour))},
{"lapsed term restarts from now", new(past), 1, new(base.Add(24 * time.Hour))},
{"zero days unchanged", new(future), 0, new(future)},
{"zero days, nil stays nil", nil, 0, nil},
}
for _, tc := range tests {
t.Run(tc.name, func(t *testing.T) {
got := stackNoAds(tc.current, tc.addDays, base)
if (got == nil) != (tc.want == nil) || (got != nil && !got.Equal(*tc.want)) {
t.Errorf("stackNoAds = %v, want %v", got, tc.want)
}
})
}
}
func TestCombineNoAds(t *testing.T) {
pFuture := base.Add(24 * time.Hour)
sFuture := base.Add(72 * time.Hour) // 3 days remaining
// primary future + secondary future: primary end + secondary's remaining (72h).
if got := combineNoAds(new(pFuture), new(sFuture), base); !got.Equal(pFuture.Add(72 * time.Hour)) {
t.Errorf("combine both future = %v, want %v", got, pFuture.Add(72*time.Hour))
}
// primary nil + secondary future: now + secondary's remaining.
if got := combineNoAds(nil, new(sFuture), base); !got.Equal(base.Add(72 * time.Hour)) {
t.Errorf("combine nil primary = %v, want %v", got, base.Add(72*time.Hour))
}
// secondary lapsed: primary unchanged.
if got := combineNoAds(new(pFuture), new(base.Add(-time.Hour)), base); !got.Equal(pFuture) {
t.Errorf("combine lapsed secondary = %v, want %v", got, pFuture)
}
// secondary nil: primary unchanged.
if got := combineNoAds(new(pFuture), nil, base); !got.Equal(pFuture) {
t.Errorf("combine nil secondary = %v, want %v", got, pFuture)
}
}
func TestPlanDraws(t *testing.T) {
st := walletState{chips: map[Source]int{SourceDirect: 30, SourceVK: 50, SourceTelegram: 5}}
// price met entirely by the first (direct) segment.
if draws, ok := planDraws(st, []Source{SourceDirect, SourceVK}, 20); !ok || len(draws) != 1 || draws[0] != (sourceAmount{SourceDirect, 20}) {
t.Errorf("single-segment draw = %v ok=%v", draws, ok)
}
// price spills from direct into vk by priority.
draws, ok := planDraws(st, []Source{SourceDirect, SourceVK, SourceTelegram}, 60)
want := []sourceAmount{{SourceDirect, 30}, {SourceVK, 30}}
if !ok || len(draws) != 2 || draws[0] != want[0] || draws[1] != want[1] {
t.Errorf("priority spill draw = %v ok=%v, want %v", draws, ok, want)
}
// insufficient total.
if _, ok := planDraws(st, []Source{SourceDirect, SourceVK, SourceTelegram}, 200); ok {
t.Error("expected insufficient")
}
}
func TestWalletSegments(t *testing.T) {
id := uuid.New()
st := walletState{chips: map[Source]int{SourceDirect: 100, SourceVK: 50}}
svc := seededService(id, st)
present := []Source{SourceDirect, SourceVK}
// Web/native: both attached segments shown, both spendable.
got, err := svc.Wallet(context.Background(), id, NewContext("direct", "web"), present)
if err != nil {
t.Fatal(err)
}
if len(got.Segments) != 2 || !got.Segments[0].Spendable || got.Segments[0].Source != SourceDirect {
t.Errorf("direct wallet segments = %+v", got.Segments)
}
// VK Android: only vk shown, spendable.
got, _ = svc.Wallet(context.Background(), id, NewContext("vk", "android"), present)
if len(got.Segments) != 1 || got.Segments[0].Source != SourceVK || !got.Segments[0].Spendable {
t.Errorf("vk-android wallet = %+v", got.Segments)
}
// VK iOS: only vk shown, frozen (not spendable) but the balance is visible.
got, _ = svc.Wallet(context.Background(), id, NewContext("vk", "ios"), present)
if len(got.Segments) != 1 || got.Segments[0].Chips != 50 || got.Segments[0].Spendable {
t.Errorf("vk-ios wallet = %+v (want vk 50 frozen)", got.Segments)
}
}
func TestAdFreeByContext(t *testing.T) {
id := uuid.New()
future := base.Add(48 * time.Hour)
ctx := context.Background()
// A vk-origin no-ads term applies inside VK and out on web, but a direct-origin term never
// applies inside VK (the compliance wall).
svc := seededService(id, walletState{benefits: map[Source]benefitState{
SourceVK: {adsPaidUntil: new(future)},
SourceDirect: {adsPaidUntil: new(future)},
}})
present := []Source{SourceDirect, SourceVK}
cases := []struct {
name string
cxt Context
want bool
}{
{"vk term inside vk", NewContext("vk", "android"), true},
{"vk term inside vk-ios (applies while frozen)", NewContext("vk", "ios"), true},
{"terms on web", NewContext("direct", "web"), true},
{"untrusted fail-closed", NewContext("", ""), false},
}
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
got, err := svc.AdFree(ctx, id, tc.cxt, present)
if err != nil || got != tc.want {
t.Errorf("AdFree = %v (err %v), want %v", got, err, tc.want)
}
})
}
// Compliance: ONLY a direct-origin term, checked inside VK, must not suppress ads.
svc2 := seededService(id, walletState{benefits: map[Source]benefitState{SourceDirect: {adsPaidUntil: new(future)}}})
if got, _ := svc2.AdFree(ctx, id, NewContext("vk", "android"), present); got {
t.Error("direct-origin no-ads must NOT apply inside VK (compliance wall)")
}
}
func TestHintsAvailableByContext(t *testing.T) {
id := uuid.New()
svc := seededService(id, walletState{benefits: map[Source]benefitState{
SourceDirect: {hints: 3},
SourceVK: {hints: 2},
}})
present := []Source{SourceDirect, SourceVK}
ctx := context.Background()
// Web: both applicable origins summed.
if n, _ := svc.HintsAvailable(ctx, id, NewContext("direct", "web"), present); n != 5 {
t.Errorf("web hints = %d, want 5", n)
}
// VK: only vk-origin hints.
if n, _ := svc.HintsAvailable(ctx, id, NewContext("vk", "android"), present); n != 2 {
t.Errorf("vk hints = %d, want 2", n)
}
// Untrusted: none.
if n, _ := svc.HintsAvailable(ctx, id, NewContext("", ""), present); n != 0 {
t.Errorf("untrusted hints = %d, want 0", n)
}
}
func TestSpendHintUntrustedNoOp(t *testing.T) {
id := uuid.New()
svc := seededService(id, walletState{benefits: map[Source]benefitState{SourceDirect: {hints: 3}}})
// Untrusted context: no applicable origin, so nothing is spent and the DB (nil) is never hit.
spent, err := svc.SpendHint(context.Background(), id, NewContext("", ""), []Source{SourceDirect})
if err != nil || spent {
t.Errorf("untrusted SpendHint = %v (err %v), want false", spent, err)
}
}
+29 -6
View File
@@ -10,6 +10,7 @@ import (
"scrabble/backend/internal/ads"
"scrabble/backend/internal/engine"
"scrabble/backend/internal/notify"
"scrabble/backend/internal/payments"
)
// bannerDTO is the advertising-banner block attached to an eligible viewer's
@@ -55,7 +56,21 @@ type bannerTimingsDTO struct {
// a language switch).
func (s *Server) profileResponse(ctx context.Context, acc account.Account) profileResponse {
r := profileResponseFor(acc)
r.Banner = s.bannerFor(ctx, acc)
// Resolve the payments gate once (execution context + present sources) and feed it to both
// the hint count and the banner. The profile hint balance now comes from the payments benefit
// (context-aware), not the deprecated accounts.hint_balance column; on any failure the legacy
// value from profileResponseFor (zeroed in production) stands.
cxt, present, err := s.walletGate(ctx, acc.ID)
if err != nil {
s.log.Warn("profile: wallet gate failed", zap.String("account", acc.ID.String()), zap.Error(err))
} else if s.payments != nil {
if hints, herr := s.payments.HintsAvailable(ctx, acc.ID, cxt, present); herr == nil {
r.HintBalance = hints
} else {
s.log.Warn("profile: hint balance read failed", zap.String("account", acc.ID.String()), zap.Error(herr))
}
}
r.Banner = s.bannerFor(ctx, acc, cxt, present)
s.fillLinkedIdentities(ctx, &r, acc.ID)
r.DictVersions = s.currentDictVersions()
return r
@@ -115,7 +130,7 @@ func (s *Server) fillLinkedIdentities(ctx context.Context, r *profileResponse, a
// language, falling back to its interface language and then English. A failure
// reading roles or campaigns is logged and treated as "no banner" so the profile
// response still succeeds.
func (s *Server) bannerFor(ctx context.Context, acc account.Account) *bannerDTO {
func (s *Server) bannerFor(ctx context.Context, acc account.Account, cxt payments.Context, present []payments.Source) *bannerDTO {
if s.ads == nil {
return nil
}
@@ -124,16 +139,24 @@ func (s *Server) bannerFor(ctx context.Context, acc account.Account) *bannerDTO
s.log.Warn("banner: active set failed", zap.String("account", acc.ID.String()), zap.Error(err))
return nil
}
// An urgent campaign is shown to every viewer; otherwise the normal eligibility
// gate applies (a paid account, a non-empty hint wallet or the no_banner role
// hides the banner).
// An urgent campaign is shown to every viewer; otherwise the banner is suppressed by the
// no_banner role or by an active no-ads benefit applicable in the viewer's context (the
// payments gate — a hint balance no longer suppresses the banner). An untrusted platform is
// fail-closed by the gate, so it does not suppress the banner.
if !urgent {
hasNoBanner, err := s.accounts.HasRole(ctx, acc.ID, account.RoleNoBanner)
if err != nil {
s.log.Warn("banner: role check failed", zap.String("account", acc.ID.String()), zap.Error(err))
return nil
}
if !ads.Eligible(acc.PaidAccount, acc.HintBalance, hasNoBanner) {
adFree := false
if s.payments != nil {
if adFree, err = s.payments.AdFree(ctx, acc.ID, cxt, present); err != nil {
s.log.Warn("banner: ad-free check failed", zap.String("account", acc.ID.String()), zap.Error(err))
return nil
}
}
if hasNoBanner || adFree {
return nil
}
}
+16
View File
@@ -15,6 +15,7 @@ import (
"scrabble/backend/internal/feedback"
"scrabble/backend/internal/game"
"scrabble/backend/internal/lobby"
"scrabble/backend/internal/payments"
"scrabble/backend/internal/session"
"scrabble/backend/internal/social"
)
@@ -65,6 +66,13 @@ func (s *Server) registerRoutes() {
// client may still reach, to fetch the block's expiry and reason for the blocked screen.
u.GET("/block-status", s.handleBlockStatus)
}
if s.payments != nil {
// The wallet: the context-visible chip segments + benefits, the storefront catalog, and a
// chip spend on a value.
u.GET("/wallet", s.handleWallet)
u.GET("/wallet/catalog", s.handleWalletCatalog)
u.POST("/wallet/buy", s.handleWalletBuy)
}
if s.links != nil {
// Account linking & merge. The request step always mails a code;
// a required merge is revealed only after the code is verified, and the
@@ -250,6 +258,14 @@ func statusForError(err error) (int, string) {
return http.StatusConflict, "last_identity"
case errors.Is(err, accountmerge.ErrActiveGameConflict):
return http.StatusConflict, "merge_active_game_conflict"
case errors.Is(err, payments.ErrUntrusted):
return http.StatusForbidden, "payments_untrusted"
case errors.Is(err, payments.ErrInsufficientChips):
return http.StatusConflict, "insufficient_chips"
case errors.Is(err, payments.ErrProductNotFound):
return http.StatusNotFound, "product_not_found"
case errors.Is(err, payments.ErrNotAValue):
return http.StatusBadRequest, "not_a_value"
case errors.Is(err, account.ErrInvalidEmail):
return http.StatusBadRequest, "invalid_email"
case errors.Is(err, account.ErrCodeMismatch), errors.Is(err, account.ErrCodeExpired),
+164
View File
@@ -0,0 +1,164 @@
package server
import (
"net/http"
"github.com/gin-gonic/gin"
"github.com/google/uuid"
"scrabble/backend/internal/payments"
)
// walletSegmentDTO is one chip balance in the wallet view: the funding source, the chip count,
// and whether it can be spent in the current execution context (false for a frozen VK-iOS
// balance or an untrusted platform).
type walletSegmentDTO struct {
Source string `json:"source"`
Chips int `json:"chips"`
Spendable bool `json:"spendable"`
}
// walletDTO is the user-facing wallet: the context-visible chip segments and the
// context-applicable benefits (the no-ads term or forever flag, and the available hints).
type walletDTO struct {
Segments []walletSegmentDTO `json:"segments"`
AdsForever bool `json:"ads_forever"`
AdsPaidUntil int64 `json:"ads_paid_until_ms"` // unix millis; 0 = no active term
Hints int `json:"hints"`
}
// walletBuyRequest is the POST body of a chip spend: the product to buy with chips.
type walletBuyRequest struct {
ProductID string `json:"product_id"`
}
// walletDTOFrom projects a payments wallet view into the wire DTO.
func walletDTOFrom(v payments.WalletView) walletDTO {
out := walletDTO{AdsForever: v.Benefits.AdsForever, Hints: v.Benefits.Hints}
if v.Benefits.AdsPaidUntil != nil {
out.AdsPaidUntil = v.Benefits.AdsPaidUntil.UnixMilli()
}
out.Segments = make([]walletSegmentDTO, 0, len(v.Segments))
for _, seg := range v.Segments {
out.Segments = append(out.Segments, walletSegmentDTO{Source: string(seg.Source), Chips: seg.Chips, Spendable: seg.Spendable})
}
return out
}
// catalogAtomDTO is one atom line of a storefront product: the base value type it grants and how
// many of it the product carries.
type catalogAtomDTO struct {
AtomType string `json:"atom_type"`
Quantity int `json:"quantity"`
}
// catalogProductDTO is one storefront product for the caller's context: a chip-priced value
// (chips set, no money price) or a chip pack priced in the context's payment method
// (money_amount minor units + money_currency, no chips), plus what it grants.
type catalogProductDTO struct {
Kind string `json:"kind"`
ProductID string `json:"product_id"`
Title string `json:"title"`
Chips int `json:"chips"`
MoneyAmount int64 `json:"money_amount"`
MoneyCurrency string `json:"money_currency"`
Atoms []catalogAtomDTO `json:"atoms"`
}
// catalogDTO is the storefront: the products visible and purchasable in the caller's context.
type catalogDTO struct {
Products []catalogProductDTO `json:"products"`
}
// catalogDTOFrom projects a payments catalog view into the wire DTO.
func catalogDTOFrom(v payments.CatalogView) catalogDTO {
out := catalogDTO{Products: make([]catalogProductDTO, 0, len(v.Products))}
for _, p := range v.Products {
atoms := make([]catalogAtomDTO, 0, len(p.Atoms))
for _, a := range p.Atoms {
atoms = append(atoms, catalogAtomDTO{AtomType: a.AtomType, Quantity: a.Quantity})
}
out.Products = append(out.Products, catalogProductDTO{
Kind: p.Kind, ProductID: p.ProductID, Title: p.Title,
Chips: p.Chips, MoneyAmount: p.MoneyAmount, MoneyCurrency: p.MoneyCurrency, Atoms: atoms,
})
}
return out
}
// handleWalletCatalog returns the storefront for the caller's trusted execution context: the
// chip-priced values and the chip packs priced in the context's payment method.
func (s *Server) handleWalletCatalog(c *gin.Context) {
uid, ok := userID(c)
if !ok {
return
}
ctx := c.Request.Context()
cxt, _, err := s.walletGate(ctx, uid)
if err != nil {
s.abortErr(c, err)
return
}
view, err := s.payments.Catalog(ctx, cxt)
if err != nil {
s.abortErr(c, err)
return
}
c.JSON(http.StatusOK, catalogDTOFrom(view))
}
// handleWallet returns the caller's wallet — the segments and benefits visible in the current
// trusted execution context.
func (s *Server) handleWallet(c *gin.Context) {
uid, ok := userID(c)
if !ok {
return
}
ctx := c.Request.Context()
cxt, present, err := s.walletGate(ctx, uid)
if err != nil {
s.abortErr(c, err)
return
}
view, err := s.payments.Wallet(ctx, uid, cxt, present)
if err != nil {
s.abortErr(c, err)
return
}
c.JSON(http.StatusOK, walletDTOFrom(view))
}
// handleWalletBuy spends chips on a chip-priced value and returns the updated wallet. It is
// fail-closed: an untrusted or frozen context, or an insufficient balance, is refused.
func (s *Server) handleWalletBuy(c *gin.Context) {
uid, ok := userID(c)
if !ok {
return
}
var req walletBuyRequest
if err := c.ShouldBindJSON(&req); err != nil {
c.AbortWithStatusJSON(http.StatusBadRequest, errorResponse{Error: errorBody{Code: "invalid_request", Message: "invalid request body"}})
return
}
productID, err := uuid.Parse(req.ProductID)
if err != nil {
c.AbortWithStatusJSON(http.StatusBadRequest, errorResponse{Error: errorBody{Code: "invalid_request", Message: "invalid product id"}})
return
}
ctx := c.Request.Context()
cxt, present, err := s.walletGate(ctx, uid)
if err != nil {
s.abortErr(c, err)
return
}
if err := s.payments.Spend(ctx, uid, cxt, present, productID); err != nil {
s.abortErr(c, err)
return
}
view, err := s.payments.Wallet(ctx, uid, cxt, present)
if err != nil {
s.abortErr(c, err)
return
}
c.JSON(http.StatusOK, walletDTOFrom(view))
}
+31
View File
@@ -0,0 +1,31 @@
package server
import (
"context"
"github.com/google/uuid"
"scrabble/backend/internal/payments"
"scrabble/backend/internal/session"
)
// walletGate resolves the payments gate inputs for an account on the current request: the
// trusted execution context (the session platform carried on ctx by the platformContext
// middleware; absent ⇒ untrusted, fail-closed) and the account's present identity sources
// (which chip/benefit segments are awake, §6). The payments domain holds no cross-schema
// identity knowledge, so the server supplies present from account.Identities.
func (s *Server) walletGate(ctx context.Context, accountID uuid.UUID) (payments.Context, []payments.Source, error) {
var cxt payments.Context
if p, ok := session.PlatformFromContext(ctx); ok {
cxt = payments.NewContext(p.Kind, p.Subtype)
}
ids, err := s.accounts.Identities(ctx, accountID)
if err != nil {
return payments.Context{}, nil, err
}
kinds := make([]string, len(ids))
for i, id := range ids {
kinds[i] = id.Kind
}
return cxt, payments.PresentSources(kinds), nil
}
+16
View File
@@ -13,6 +13,22 @@ POSTGRES_DB=scrabble
POSTGRES_USER=scrabble
POSTGRES_PASSWORD=change-me # required
# --- Point-in-time recovery (pgBackRest -> S3; PROD main host only) ----------
# Continuous WAL archiving for PITR. PROD-ONLY: the test contour never archives (these
# stay unset there and archive_mode stays off). The artifact ships DISARMED —
# PGBACKREST_ARCHIVE_MODE defaults off; arm it only after setting up the S3 repository +
# secrets and creating the stanza, then flip it on (deploy/README.md, point-in-time
# recovery). Gitea: PROD_PGBACKREST_* — endpoint/bucket/region/archive-mode are variables,
# the two S3 keys + the cipher passphrase are secrets.
PGBACKREST_ARCHIVE_MODE=off # on = archiving active (arm only after the stanza exists)
PGBACKREST_S3_ENDPOINT= # S3 HOST ONLY — no https://, no port, no bucket (e.g. s3.ru-1.storage.selcloud.ru); path-style addressing
PGBACKREST_S3_PORT= # optional; default 443 — set only if the provider uses a non-standard S3 port
PGBACKREST_S3_BUCKET= # bucket name; lowercase, no dots/underscores
PGBACKREST_S3_REGION= # e.g. ru-1
PGBACKREST_S3_KEY= # secret: S3 access key id
PGBACKREST_S3_KEY_SECRET= # secret: S3 secret access key
PGBACKREST_CIPHER_PASS= # secret: repo encryption passphrase — KEEP SAFE, stored apart from the S3 keys (losing it makes the archive unrecoverable)
# --- Dictionary -------------------------------------------------------------
# scrabble-dictionary release tag baked into the image as the SEED dictionary for a
# FRESH volume (image build-arg; also labels the resident seed version). After first
+90 -8
View File
@@ -220,10 +220,89 @@ release tag, so any prior release is reachable.
**Migrations** must be **expand-contract** (backward-compatible; goose is forward-only):
the automatic rollback is image-only and never restores the DB. A deploy that changes
`backend/internal/postgres/migrations/` opens a maintenance window — the backend (sole
writer) is stopped for a consistent `pg_dump` into `/opt/scrabble/dumps` before the new
backend migrates. **Manual DB restore** (only if a migration was destructive):
`docker exec -i scrabble-postgres psql -U scrabble -d scrabble -c 'DROP SCHEMA backend CASCADE'`,
then pipe the dump into the same `psql`, and redeploy the matching old tag.
writer) is stopped for a consistent **whole-database** `pg_dump` into `/opt/scrabble/dumps`
(it covers `backend` **and** `payments`) before the new backend migrates. **Manual DB
restore** (only if a migration was destructive): drop the app schemas in the same instance
and pipe the dump back —
`docker exec -i scrabble-postgres psql -U scrabble -d scrabble -c 'DROP SCHEMA IF EXISTS backend CASCADE; DROP SCHEMA IF EXISTS payments CASCADE;'`,
then `docker exec -i scrabble-postgres psql -U scrabble -d scrabble < the-dump.sql`, and
redeploy the matching old tag. This dump is a belt-and-braces net for a bad migration;
**point-in-time recovery** (below) is the primary recovery path once armed, and the only one
that survives losing the host.
## Point-in-time recovery (PITR)
The main host archives Postgres continuously with **pgBackRest** to **Selectel S3**
(encrypted at rest, path-style addressing) so the database can be restored to any moment —
protecting the money ledger and the game state against corruption or host loss. It is the
primary recovery path; the migration-window `pg_dump` above is the secondary net.
**Shape.** A daily full **base backup** (a systemd timer on the main host, `04:00`) plus
**continuous WAL** archived by Postgres `archive_command` (a segment is forced at least every
5 minutes, so the recovery point is never more than a few minutes behind). Retention is **30
days** (`repo1-retention-full=30`); the repository is AES-256-CBC encrypted. This is main-host
only — the test contour never archives.
**Wiring.** pgBackRest ships inside the DB image (`deploy/postgres/Dockerfile`); the
repository + S3 credentials + cipher are the `PGBACKREST_*` environment on the postgres
service in `docker-compose.prod.yml`, rendered from the `PROD_` Gitea set by
`write-prod-env.sh`. Archiving is gated by **`PGBACKREST_ARCHIVE_MODE` (default `off`)**, so
shipping or redeploying this stack does **not** start archiving — the artifact is inert until
armed, which is why an un-armed prod deploy can never pile WAL onto the disk. The base-backup
timer is provisioned by the Ansible `main` role behind `pitr_enabled` (also default off). Two
Grafana alerts watch health: `WAL archiving failing` (`pg_stat_archiver_failed_count` rising)
and `WAL archiving stalled` (`pg_stat_archiver_last_archive_age` over 30 min) — both
absent/NaN-safe, so they stay quiet until archiving is armed.
**Assessment (owner-reviewed; the gate before the first real money).** Measured on prod
`pg_stat_wal`: WAL is generated at **~0.77 MB/day** and the database is **~9.6 MB**. At
30-day retention on Selectel S3 (~2 ₽/GB·month) the archive is **under ~0.3 GB → well under
1 ₽/month** (compression halves it again); request volume is trivial. Performance impact is
**negligible**: archive-push moves tiny compressed segments, and the daily full base backup
is a ~10 MB, sub-second job on the 2 vCPU host. Revisit both if traffic grows ~100× (watch
`node_exporter` during a base backup).
**Arming (owner-coordinated, once, before real payments).** Ships disarmed; to turn it on:
1. **Owner (Selectel + Gitea):** create an S3 bucket (name **lowercase, no dots/underscores**)
and an S3 access key/secret; pick a repository **cipher passphrase** and store it **apart
from the S3 keys** (losing it makes the archive unrecoverable). Set the Gitea `PROD_` set —
variables `PROD_PGBACKREST_S3_ENDPOINT` (the S3 **host only** — no `https://`, no port, no
bucket) / `_S3_BUCKET` / `_S3_REGION`, an optional `_S3_PORT` (default 443, set only for a
non-standard provider port), and `PROD_PGBACKREST_ARCHIVE_MODE=on`; secrets
`PROD_PGBACKREST_S3_KEY` (the S3 **access key**) / `_S3_KEY_SECRET` (its paired **secret
key**, shown once at creation) / `_CIPHER_PASS` (a fresh repository passphrase, e.g.
`openssl rand -base64 48`).
2. Promote `development → master`, tag, and run **prod-deploy**. The roll recreates postgres
with `archive_mode=on` behind the maintenance page. (Archive pushes fail harmlessly for the
minute until step 3 creates the repository — the WAL is retained, not lost.)
3. On the main host, create the repository, take the first base backup, and verify:
```sh
docker exec scrabble-postgres pgbackrest --stanza=scrabble stanza-create
docker exec scrabble-postgres pgbackrest --stanza=scrabble --type=full backup
docker exec scrabble-postgres pgbackrest --stanza=scrabble check
```
4. Enable the daily timer: `ansible-playbook site.yml -e pitr_enabled=true` (installs + starts
`pgbackrest-backup.timer` on the main host).
5. Confirm in Grafana that the two archiving alerts are green (`last_archive_age` now tracks a
real number, `failed_count` flat).
**Restore drill (proves recoverability; re-run after arming and after any major change).** On
an **isolated, one-shot** target (a throwaway VM or a container with no ingress), pgBackRest,
the matching Postgres major, an empty `PGDATA`, and the same `PGBACKREST_*` environment:
```sh
pgbackrest --stanza=scrabble --type=time "--target=YYYY-MM-DD HH:MM:SS+00" --delta restore
# start Postgres; it replays WAL to the target; then verify a known row / the ledger tail
```
The target holds **real money + personal data** while it exists — keep it network-isolated and
**destroy it (wipe `PGDATA` + the instance) afterwards**. Record each drill (date, target
timestamp, outcome) here:
| Date | Target timestamp | Result |
| --- | --- | --- |
| _pending first arming_ | — | — |
**bot-link cert rotation:** regenerate (`deploy/gen-certs.sh /tmp/c --force`), reset the
five `PROD_BOTLINK_*` secrets from `/tmp/c`, and re-run the workflow — both hosts redeploy
@@ -249,14 +328,17 @@ VITE_VK_APP_LINK, VITE_VK_APP_ID`. **Derived from `PUBLIC_BASE_URL` at deploy**
`PROD_{POSTGRES_PASSWORD, GM_BASICAUTH_HASH, GRAFANA_ADMIN_PASSWORD, TELEGRAM_BOT_TOKEN,
TELEGRAM_PROMO_BOT_TOKEN, EXPORT_SIGN_KEY, GATEWAY_HONEYTOKEN, REGISTRY_PASSWORD, SSH_KEY,
SSH_KNOWN_HOSTS, BOTLINK_CA, BOTLINK_GATEWAY_CERT, BOTLINK_GATEWAY_KEY, BOTLINK_BOT_CERT,
BOTLINK_BOT_KEY}`; variables:
BOTLINK_BOT_KEY, PGBACKREST_S3_KEY, PGBACKREST_S3_KEY_SECRET, PGBACKREST_CIPHER_PASS}`;
variables:
`PROD_{REGISTRY_USER, MAIN_HOST, TG_HOST, CADDY_SITE_ADDRESS, GM_BASICAUTH_USER, LOG_LEVEL,
TELEGRAM_GAME_CHANNEL_ID, TELEGRAM_CHAT_ID, TELEGRAM_SUPPORT_CHAT_ID, TELEGRAM_BOT_USERNAME,
VITE_TELEGRAM_BOT_ID, VITE_TELEGRAM_LINK, VITE_TELEGRAM_GAME_CHANNEL_NAME, SMTP_RELAY_FROM,
PUBLIC_BASE_URL, SMTP_RELAY_ADMIN_FROM, ADMIN_EMAIL, SMTP_RELAY_SERVICE_FROM, SERVICE_EMAIL,
GF_SMTP_ENABLED}`. The test contour uses the same names under `TEST_`, minus the prod-only
infra (`MAIN_HOST`/`TG_HOST`/`REGISTRY_*`/`SSH_*`/`BOTLINK_*`, which the test deploy generates
or runs locally) and plus `TEST_AWG_CONF` (the bot's VPN egress).
GF_SMTP_ENABLED, PGBACKREST_S3_ENDPOINT, PGBACKREST_S3_PORT, PGBACKREST_S3_BUCKET,
PGBACKREST_S3_REGION, PGBACKREST_ARCHIVE_MODE}`. The test contour uses the same names under `TEST_`, minus the
prod-only infra (`MAIN_HOST`/`TG_HOST`/`REGISTRY_*`/`SSH_*`/`BOTLINK_*` and the `PGBACKREST_*`
PITR set, which is prod-only — the test contour never archives) and plus `TEST_AWG_CONF` (the
bot's VPN egress).
## Host-side setup (outside this repo)
+3 -1
View File
@@ -45,5 +45,7 @@ safe (idempotent) and survives a host resize.
10m×3 log rotation), `deploy` user (docker group, no sudo), key-only sshd,
`ufw` default-deny incoming + allow SSH, fail2ban sshd jail, unattended
upgrades, chrony, `/opt/scrabble/{config,certs,dumps,images}`.
- **main**: `ufw` opens 80/443/9443; the external `edge` docker network.
- **main**: `ufw` opens 80/443/9443; the external `edge` docker network; the pgBackRest
daily base-backup systemd timer — installed only when `pitr_enabled=true` (off by default;
turned on as part of arming point-in-time recovery, see [`../README.md`](../README.md)).
- **tg**: verifies direct `api.telegram.org` egress (the no-VPN assumption).
+9
View File
@@ -27,3 +27,12 @@ docker_log_max_file: "3"
# path (a slow service beats a killed one). Set swap_size to "0" to skip provisioning.
swap_size: "1G"
swap_swappiness: 10
# Point-in-time recovery (pgBackRest). The base-backup systemd timer on the main host is
# gated by pitr_enabled so provisioning stays inert until archiving is armed — the timer
# would fail nightly if it ran before the S3 repository + stanza exist. Arm it as part of
# the PITR rollout (deploy/README.md): flip it on with `-e pitr_enabled=true` (or a main
# host_var) once the stanza is created. Only the `main` role reads these.
pitr_enabled: false
# systemd OnCalendar for the daily full base backup — a low-traffic hour on the main host.
pitr_backup_oncalendar: "*-*-* 04:00:00"
+27
View File
@@ -16,3 +16,30 @@
community.docker.docker_network:
name: edge
state: present
# --- pgBackRest base-backup schedule (point-in-time recovery) ------------------
# A daily full base backup via a systemd timer that runs pgBackRest inside the postgres
# container; archive_command handles the continuous WAL between backups. Gated by
# pitr_enabled so the schedule stays inert until archiving is armed (the S3 repository +
# stanza must exist first, or the run fails nightly). Arm per deploy/README.md.
- name: Install the pgBackRest base-backup service
ansible.builtin.template:
src: pgbackrest-backup.service.j2
dest: /etc/systemd/system/pgbackrest-backup.service
mode: "0644"
when: pitr_enabled | default(false) | bool
- name: Install the pgBackRest base-backup timer
ansible.builtin.template:
src: pgbackrest-backup.timer.j2
dest: /etc/systemd/system/pgbackrest-backup.timer
mode: "0644"
when: pitr_enabled | default(false) | bool
- name: Enable and start the pgBackRest base-backup timer
ansible.builtin.systemd:
name: pgbackrest-backup.timer
enabled: true
state: started
daemon_reload: true
when: pitr_enabled | default(false) | bool
@@ -0,0 +1,15 @@
# Managed by Ansible (deploy/ansible).
# Daily full pgBackRest base backup for the payments/game database. Runs pgBackRest
# inside the postgres container (where the repository configuration and PGDATA live);
# the continuous WAL between base backups is handled by the container's archive_command.
# Installed only when pitr_enabled is set (see deploy/ansible/group_vars/all.yml).
[Unit]
Description=pgBackRest full base backup (scrabble)
After=docker.service
Requires=docker.service
[Service]
Type=oneshot
# docker exec runs as the image's postgres user and inherits the container's PGBACKREST_*
# environment (the S3 repository + cipher), so no repository config is needed on the host.
ExecStart=/usr/bin/docker exec scrabble-postgres pgbackrest --stanza=scrabble --type=full backup
@@ -0,0 +1,12 @@
# Managed by Ansible (deploy/ansible).
# Fires the daily full base backup. Persistent=true catches up a run missed while the
# host was down. Installed only when pitr_enabled is set.
[Unit]
Description=Daily pgBackRest full base backup (scrabble)
[Timer]
OnCalendar={{ pitr_backup_oncalendar }}
Persistent=true
[Install]
WantedBy=timers.target
+37
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@@ -45,6 +45,43 @@ services:
memory: 384M
postgres:
image: ${REGISTRY:?set REGISTRY}/scrabble-postgres:${TAG:?set TAG}
# Continuous WAL archiving to S3 via pgBackRest (point-in-time recovery), on the prod
# main host only. archive_mode is gated by PGBACKREST_ARCHIVE_MODE (default "off"), so
# merging/redeploying this stack does NOT start archiving until the operator arms it:
# archiving stays inert — and cannot pile WAL onto the disk — until the S3 repository is
# set up, the stanza is created and the switch is flipped on. See deploy/README.md
# (point-in-time recovery — arming). Non-secret settings are inline; the endpoint,
# bucket, region, S3 keys and repository cipher passphrase come from the prod env.sh
# (deploy/write-prod-env.sh, PROD_ secrets/variables).
environment:
PGBACKREST_STANZA: scrabble
PGBACKREST_PG1_PATH: /var/lib/postgresql/data
PGBACKREST_REPO1_TYPE: s3
PGBACKREST_REPO1_PATH: /pgbackrest
PGBACKREST_REPO1_S3_URI_STYLE: path
PGBACKREST_REPO1_S3_ENDPOINT: ${PGBACKREST_S3_ENDPOINT:-}
PGBACKREST_REPO1_S3_PORT: ${PGBACKREST_S3_PORT:-443}
PGBACKREST_REPO1_S3_BUCKET: ${PGBACKREST_S3_BUCKET:-}
PGBACKREST_REPO1_S3_REGION: ${PGBACKREST_S3_REGION:-}
PGBACKREST_REPO1_S3_KEY: ${PGBACKREST_S3_KEY:-}
PGBACKREST_REPO1_S3_KEY_SECRET: ${PGBACKREST_S3_KEY_SECRET:-}
PGBACKREST_REPO1_CIPHER_TYPE: aes-256-cbc
PGBACKREST_REPO1_CIPHER_PASS: ${PGBACKREST_CIPHER_PASS:-}
PGBACKREST_REPO1_RETENTION_FULL: "30"
PGBACKREST_COMPRESS_TYPE: zst
PGBACKREST_LOG_LEVEL_CONSOLE: info
PGBACKREST_LOG_LEVEL_FILE: "off"
# archive_command is inert while archive_mode is off, so it is always present and only
# the mode switches. A forced 5-minute segment switch bounds the recovery point.
command:
- postgres
- -c
- archive_mode=${PGBACKREST_ARCHIVE_MODE:-off}
- -c
- "archive_command=pgbackrest --stanza=scrabble archive-push %p"
- -c
- archive_timeout=300
deploy:
resources:
limits:
+7 -1
View File
@@ -38,7 +38,13 @@ x-logging: &default-logging
services:
postgres:
container_name: scrabble-postgres
image: postgres:17-alpine
# Built from postgres:17-alpine + pgBackRest (deploy/postgres/Dockerfile) so the prod
# main host can archive WAL for point-in-time recovery. Archiving is switched on only by
# the prod overlay (docker-compose.prod.yml); on this contour the extra binary is present
# but idle and this is a plain postgres. See deploy/README.md (point-in-time recovery).
image: scrabble-postgres:latest
build:
context: postgres
restart: unless-stopped
logging: *default-logging
environment:
@@ -212,3 +212,62 @@ groups:
- evaluator: { type: gt, params: [0.8] }
labels: { severity: warning }
annotations: { summary: 'Postgres using over 80% of max_connections.' }
# Continuous WAL archiving health (pgBackRest -> S3, point-in-time recovery). Both rules
# read the postgres_exporter's built-in pg_stat_archiver metrics and are absent/NaN-safe:
# on the test contour (and any host before archiving is armed) archive_mode is off, so
# failed_count stays 0 and last_archive_age is NaN — neither threshold trips.
- orgId: 1
name: scrabble-backup
folder: Alerts
interval: 1m
rules:
- uid: pg_archive_failing
title: WAL archiving failing
condition: C
for: 15m
noDataState: OK
execErrState: OK
data:
- refId: A
relativeTimeRange: { from: 900, to: 0 }
datasourceUid: prometheus
model:
refId: A
expr: increase(pg_stat_archiver_failed_count[15m])
instant: true
- refId: C
datasourceUid: __expr__
model:
refId: C
type: threshold
expression: A
conditions:
- evaluator: { type: gt, params: [0] }
labels: { severity: critical }
annotations: { summary: 'pgBackRest archive_command is failing — PITR is degrading and pg_wal can fill the disk. Run `docker exec scrabble-postgres pgbackrest --stanza=scrabble check`.' }
- uid: pg_archive_stalled
title: WAL archiving stalled
condition: C
for: 15m
noDataState: OK
execErrState: OK
data:
- refId: A
relativeTimeRange: { from: 300, to: 0 }
datasourceUid: prometheus
model:
refId: A
expr: pg_stat_archiver_last_archive_age
instant: true
- refId: C
datasourceUid: __expr__
model:
refId: C
type: threshold
expression: A
conditions:
- evaluator: { type: gt, params: [1800] }
labels: { severity: critical }
annotations: { summary: 'No WAL segment archived for over 30 minutes (archive_timeout is 5m) — archiving is stalled; the PITR recovery point is frozen and pg_wal may grow.' }
+12
View File
@@ -0,0 +1,12 @@
# Postgres for the Scrabble contour, extended with pgBackRest for continuous WAL
# archiving and point-in-time recovery. pgBackRest must live in the database container
# because Postgres runs archive_command in-process; the scheduled base backups and the
# manual restore drills invoke the same binary through `docker exec`, inheriting the
# repository configuration from the container environment.
#
# Archiving is enabled only on the production main host, where the prod overlay
# (docker-compose.prod.yml) sets archive_mode and supplies the S3 repository. On the test
# contour this image behaves exactly as a plain postgres:17-alpine. See deploy/README.md
# (point-in-time recovery).
FROM postgres:17-alpine
RUN apk add --no-cache pgbackrest
+4 -1
View File
@@ -140,7 +140,10 @@ if [ "$MIGRATION" = 1 ]; then
echo "migration deploy: opening maintenance window (stopping the backend = the only writer)"
dc stop backend
dump="$DUMP_DIR/pre-$TAG-$(date +%Y%m%d-%H%M%S).sql"
if ! docker exec scrabble-postgres pg_dump -U "$PG_USER" -d "$PG_DB" -n backend > "$dump"; then
# Dump the WHOLE database (no -n): the payments schema — and any schema added later —
# must be in the belt-and-braces snapshot, not just backend. Restored manually into the
# same instance only if a migration turned out destructive (see deploy/README.md).
if ! docker exec scrabble-postgres pg_dump -U "$PG_USER" -d "$PG_DB" > "$dump"; then
echo "pg_dump failed; restarting the old backend and aborting"
dc start backend
exit 1
+12
View File
@@ -73,4 +73,16 @@ export GF_SMTP_ENABLED='$GF_SMTP_ENABLED'
export PUBLIC_BASE_URL='$PUBLIC_BASE_URL'
export GATEWAY_HONEYTOKEN='$GATEWAY_HONEYTOKEN'
export GATEWAY_ABUSE_BAN_ENABLED='true'
# Continuous WAL archiving (pgBackRest -> S3) for point-in-time recovery. The artifact
# ships disarmed: PGBACKREST_ARCHIVE_MODE defaults off, so archiving stays inert until the
# operator sets the S3 repository values + secrets, creates the stanza and flips the switch
# on (deploy/README.md). Empty repository values are harmless while the mode is off.
export PGBACKREST_ARCHIVE_MODE='${PGBACKREST_ARCHIVE_MODE:-off}'
export PGBACKREST_S3_ENDPOINT='$PGBACKREST_S3_ENDPOINT'
export PGBACKREST_S3_PORT='${PGBACKREST_S3_PORT:-443}'
export PGBACKREST_S3_BUCKET='$PGBACKREST_S3_BUCKET'
export PGBACKREST_S3_REGION='$PGBACKREST_S3_REGION'
export PGBACKREST_S3_KEY='$PGBACKREST_S3_KEY'
export PGBACKREST_S3_KEY_SECRET='$PGBACKREST_S3_KEY_SECRET'
export PGBACKREST_CIPHER_PASS='$PGBACKREST_CIPHER_PASS'
EOF
+19
View File
@@ -522,6 +522,25 @@ stops only feedback submission). Roles are listed and granted/revoked on the use
message does not mark it read — only the explicit actions do; message bodies and attachments are
shown defensively (text escaped, attachments downloaded rather than rendered).
### Wallet
Durable players have a **Wallet** — a tab in the Settings hub, between Friends and About; guests have
none. It shows their **chips** (the in-game currency, split by where they were funded — VK, Telegram
or the web), their **active benefits** (ads off until a date or forever, and the available hint
count), and a **store**. What is visible and spendable depends on **where the app runs**, by the
store-compliance rules in [`PAYMENTS.md`](PAYMENTS.md): inside a store only that store's chips are
usable; on the open web all attached chips are, drawn web → VK → Telegram; on VK-iOS the balance is
shown but frozen for spending.
The **store** lists **values** bought with chips (extra hints, days without ads) at a fixed chip
price shown in every context, and **chip packs** bought with real money, priced in the running
context's currency (VK Votes, Telegram Stars, or roubles on the web). Buying a value applies its
benefit at once. Before a web purchase that would draw VK/Telegram chips, the app **warns** that the
benefit will then work only on the web and in the app — a store rule — and asks the player to confirm.
On the **Google Play** build the money purchases are hidden behind a note pointing to the RuStore
build (Google's in-app-currency rule); spending already-earned chips still works. The wallet keeps
**no purchase history** — only the current balances, benefits and store.
### Advertising banner
A one-line banner under the nav shows short promotional or operational messages to **free
+19
View File
@@ -535,6 +535,25 @@ high-rate флага. С карточки пользователя операт
сообщения и вложения показываются защищённо (текст экранируется, вложения отдаются на скачивание, а не
рендерятся).
### Кошелёк
У постоянных (не гостевых) игроков есть **Кошелёк** — вкладка в разделе настроек, между «Друзьями» и
«О программе»; у гостей его нет. Он показывает **фишки** (внутриигровую валюту, разделённую по тому,
где она была пополнена — VK, Telegram или веб), **активные блага** (реклама выключена до даты или
навсегда, и число доступных подсказок) и **магазин**. Что видно и что можно потратить, зависит от
того, **где запущено приложение**, по правилам соответствия магазинам из [`PAYMENTS.md`](PAYMENTS.md):
внутри магазина доступны только его фишки; в открытом вебе — все привязанные, списываются в порядке
веб → VK → Telegram; на VK-iOS баланс показан, но трата заморожена.
**Магазин** перечисляет **ценности**, покупаемые за фишки (дополнительные подсказки, дни без рекламы),
по фиксированной цене в фишках, одинаковой во всех контекстах, и **наборы фишек**, покупаемые за
настоящие деньги, в валюте текущего контекста (голоса VK, звёзды Telegram или рубли в вебе). Покупка
ценности сразу применяет её благо. Перед покупкой в вебе, которая списала бы фишки VK/Telegram,
приложение **предупреждает**, что благо будет работать только в вебе и в приложении — это правило
магазинов — и просит подтверждения. В сборке для **Google Play** покупки за деньги скрыты за подсказкой
установить сборку из RuStore (правило Google о внутриигровой валюте); трата уже заработанных фишек
по-прежнему работает. Кошелёк **не хранит историю покупок** — только текущие балансы, блага и магазин.
### Рекламный баннер
Однострочный баннер под навбаром показывает короткие рекламные или служебные сообщения **бесплатным
+10
View File
@@ -273,6 +273,16 @@ the **origin benefit applicable in the current context** rather than one global
`(account, origin)` are a fast **materialized** cache, updated **in the same transaction** as
the ledger write, and recomputable from the ledger for reconciliation.
**In-process read cache.** On top of the materialized tables, the payments package keeps an
in-process, account-keyed, write-through cache of each account's segments and benefits, so the
hot read paths — the ad-eligibility check, hint availability, the wallet view, the spend gate
— issue **no** query to the `payments` schema on the steady-state path. It is invalidated on
every payments mutation (spend / grant / fund / refund / merge) and re-read from the
materialized tables on a miss (the same write-through pattern the account-suspension gate
uses). Single-instance, matching the deployment; a multi-instance backend would need a shared
cache. Identity-presence (which segments are awake, §6) is supplied by the caller, not cached
here, so unlink/re-link takes effect immediately.
**Admin rewards.** An admin grants **concrete values only** (no-ads / hints) — **never
chips** (a gifted currency balance = a store cash-desk bypass). The admin **picks the
origin** at grant time (compliance is on them: `origin=vk` point-wise/low-volume = low risk,
+293
View File
@@ -0,0 +1,293 @@
# Монетизация scrabble-game — проектирование и внедрение
## Context
Игра в проде (`erudit-game.ru`), мультиплатформенная (VK / Telegram Mini App /
web+PWA / native Android+iOS через Capacitor). Владелец (самозанятый, НПД) хочет
ввести монетизацию: игровая валюта «Фишка», раздельные кошельки по платформам,
покупка бенефитов (без рекламы, подсказки, будущий турнирный взнос), rewarded-реклама
как канал пополнения, строгий транзакционный лог и админ-отчёты.
Отправная точка — `monetization-prerequisites.md` (пожелания владельца). Цель этого
процесса: (1) через интервью выстроить чёткую модель, (2) оформить и поддерживать
`PAYMENTS.md` (механики + договорённости), (3) составить `PLAN.md` (поэтапное
внедрение от основ к интеграциям).
### Что уже есть в коде (переиспользуем)
- `accounts.hint_balance int` (`CHECK >= 0`) + атомарный `SpendHint` / `GrantHints`
(`backend/internal/account/account.go:551-595`) — существующий «кошелёк подсказок»,
но пополняется только админом, покупки нет.
- `accounts.paid_account bool` — пожизненный флаг «без рекламы», уже читается в
`ads.Eligible(...)` (`backend/internal/ads/ads.go:107`); «no purchase flow yet».
- Реклама сейчас = внутренний server-driven **текст-баннер** (`ads` домен + UI
`AdBanner.svelte`), гасится `paid_account` / `hint_balance>0` / роль `no_banner`.
Rewarded-видео нет нигде.
- Подсказки — фича готова end-to-end (кнопка, 30-мин gate, vs_ai безлимит).
- Settings — таб-хаб (`ui/src/screens/SettingsHub.svelte`), вставка «Кошелёк» между
«Друзья» и «Инфо» чистая.
- Админка `/_gm` — per-user карточка уже показывает `PaidAccount`+`HintBalance`;
прецедент денежного действия — `POST /_gm/users/:id/grant-hints`.
- Один аккаунт держит VK+TG+email identity **разом** (kind∈telegram/vk/email/robot);
мерж сейчас **складывает** `hint_balance` и OR-ит `paid_account`.
- Прецедент изолированного сервиса: connector (gRPC), renderer (HTTP-sidecar),
platform/telegram. Прецедент public HMAC-подписанного роута (экспорт партии) —
образец для приёмника вебхуков.
### Greenfield
Валюта «Фишка», реальные рельсы (Stars / Голоса / Robokassa), rewarded-видео,
раздельные кошельки, транзакционный леджер, PITR/репликация, серверное знание
платформы.
## Зафиксированные решения (Decisions Log)
- **D1. Модель валюты — двухуровневая.** Деньги (Голоса/Stars/руб) и rewarded-реклама
пополняют баланс «Фишек»; за Фишки покупаются ценности (без рекламы, подсказки,
турнир). Витрина ценностей — в Фишках.
- **D2. Фишка единая (1 = 1 везде).** Разница по методам оплаты сидит **в курсе
покупки Фишек** (пакет стоит X Голосов / Y Stars / Z руб, курс учитывает комиссии
сторов). Цена ценностей — фиксирована в Фишках, одинакова для всех методов.
- **D3. Изоляция — схема `payments` в общем инстансе Postgres** + доменная граница
(свой store/service/интерфейс) + отдельный DB-роль (права только на `payments`).
Атомарность «Фишки↔бенефит» с `backend.accounts` сохраняется (cross-schema tx в
одном инстансе). Отдельный процесс/БД отвергнуты: ломают атомарность выдачи бенефита
(бенефиты живут на `accounts`), цена распределённых транзакций не окупается. Вынос в
отдельный сервис оставлен как возможность на потом (граница уже чистая).
- **D4. Сохранность — PITR** (непрерывный WAL-архив, pgBackRest/WAL-G на 2-й хост или
объектное хранилище). Тёплая реплика — опция на потом. Durability решается этим, а не
топологией БД.
- **D5. Сегмент кошелька — по source (vk / telegram / direct) на аккаунте.** Баланс =
(account_id, source), ровно 3 сегмента. Не per-identity.
- **D6. Комплаенс-гейт — логический, аккаунт единый.** email/direct физически привязан
(мерж, единый профиль/друзья/статистика), но в VK/TG-контексте сервер активирует
только одноимённый сегмент; чужое (в первую очередь direct) внутри VK/TG невидимо и
не тратится. Гейт держится на **доверенном сигнале платформы** (проставляет гейтвей
из подписанного контекста, не тело запроса — клиенту не верим).
- **D7. Три операции разведены:** (1) пополнение Фишек по контексту; (2) трата Фишек =
покупка бенефита, по контексту с гейтом (в VK только vk; в вебе direct+vk+tg по
приоритету direct→vk→tg); (3) применение бенефита во времени.
- **D8. origin бенефита = контекст ПОКУПКИ** (не «чем оплачено»). Правило послабления:
origin∈{vk,tg} → действует **везде** (в сторе и наружу в web/native);
origin=direct → **только** web/native (внутрь VK/TG нельзя = бан). Срок «без рекламы»
хранится **per-origin** (`paid_until` на origin, покупки одного origin складываются/
сдвигают дату); «реклама выключена в контексте P» = есть применимый в P origin с
`paid_until > now` (в вебе берём максимум direct/vk/tg, в VK — только vk, в TG — tg).
- **D9. «Без рекламы» гасит** верхний баннер + fullscreen-ролик после хода. Добровольный
**rewarded** (за Фишки) не трогаем.
- **D10. UX-требование:** при трате tg/vk-Фишек **в вебе** — предупредить юзера ДО
покупки, что купленная механика будет доступна только здесь (web/native), т.к.
ограничения VK/TG.
- **D11. Три сущности разведены:** Фишки (валюта, сегмент по **source** = где
пополнено), Подсказки (расходник, сегмент по **origin** = где куплено), «Без рекламы»
(срок, сегмент по **origin**). source и origin — одна ось значений {vk,tg,direct},
но разная семантика; в вебе source и origin расходятся (vk-Фишки → direct-покупка).
- **D12. Подсказки — по origin с обратным послаблением** (vk/tg→везде, direct→только
web/native), как «без рекламы». Списание в онлайн-игре = из origin, применимого в
контексте; переписать `SpendHint` (`game/service.go:1147`) на контекст-аварное
списание. vs_ai подсказки остаются бесплатными/безлимитными (не в счёт).
- **D13. `accounts.hint_balance` выводим** expand-contract (сначала игнор, потом DROP);
legacy-баланс **обнуляем** (в проде даров не было).
- **D14. Unlink vk/tg — разрешён, сегмент усыпляется.** Сегмент доступен ⟺ на аккаунте
есть identity этого source (direct ⟺ есть устойчивый identity/email). Отвязка не
сжигает баланс/бенефит — усыпляет; re-link будит. Перед отвязкой — предупреждение
«N Фишек станут недоступны до повторной привязки». Последнюю identity отвязать нельзя
(существующий `ErrLastIdentity`).
- **D15. Мерж — слияние по origin:** одноимённые сегменты складываются (Фишки sum,
сроки бенефита продлеваются per-origin), разные сосуществуют. Прямое расширение
текущего `hint_balance +=` / `paid_account OR=`; origin сохраняется, ничего не
протекает между платформами.
- **D16. Админ-награждение:** админ начисляет **только конкретные ценности** (без
рекламы / подсказки), **никогда не Фишки** (подаренный баланс валюты = обход кассы
стора). Админ **выбирает origin** при выдаче (ответственность за комплаенс на нём:
origin=vk точечно/малый объём = низкий риск, origin=direct = безопасно). Грант =
транзакция типа `admin_grant` в едином леджере, цена 0 Фишек — полный аудит наград.
- **D17. Доверенная платформа = свойство сессии,** переподтверждается свежей подписью
(VK sign / TG `initData`) при **каждом холодном старте** (не однократно при входе —
обёртка всё равно шлёт подпись каждое открытие). `direct` фиксируется фактом создания
веб/native-сессии (внешней подписи нет и не нужно — доступ к vk/tg-сегментам в direct
всё равно требует реальной привязки, D14). Backend получает `platform` при резолве
сессии. Платформа несёт **kind** (vk/tg/direct) **+ подтип** (ios/android/web) —
подтип обязателен (VK iOS заморожен). TG `initData`-валидатор уже есть
(`platform/telegram/internal/initdata`).
- **D18. Fail-closed:** недоверенная/неподтверждённая платформа (VK/TG-сессия без
валидной подписи на старте; старая сессия без записанной платформы) → запрет
трат/покупок/применения чужого origin, только просмотр.
- **D19. Дистрибуция native Android:** RuStore (Robokassa разрешён, чистый direct) +
Google Play (**direct-покупки скрыты** — на «Кошельке» заглушка «установите версию из
RuStore для покупок»; rewarded-реклама и трата уже накопленных Фишек работают). Перед
GP-релизом свериться с актуальными правилами Google по внутренней валюте.
- **D20. Приём оплаты — только серверный колбэк провайдера.** Фишки начисляются лишь по
проверенному (подпись/HMAC) серверному уведомлению: Robokassa webhook / TG
`successful_payment` / VK callback. Клиентское «я оплатил» игнорируется.
- **D21. Единый payments-домен — единственный писатель леджера.** Публичные вебхуки
(Robokassa/VK) терминируются на edge (Caddy/gateway) и проксируются в payments;
TG `successful_payment` → бот → payments. Один источник начисления/идемпотентности.
- **D22. Order-flow с предзаказом.** Сервер создаёт `order(pending)` с account/
платформой/пакетом/ожидаемой суммой/origin; `order_id` прокидывается провайдеру
(Robokassa `InvId` / TG `invoice_payload` / VK `item` — точную форму VK уточнить при
интеграции). Колбэк матчится по `order_id` (не по сумме → коллизия сумм невозможна),
сверяет сумму, начисляет, помечает `paid`. **Идемпотентность** — дедуп по (провайдер,
`provider_payment_id`).
- **D23. Pending невидим юзеру;** авто-expiry по таймауту (~30 мин — гигиена БД). Но
**валидный колбэк исполняется ВСЕГДА**, даже на истёкшем order (`expired` ≠ отмена —
деньги реальны, обязаны выдать). Юзер видит только успешные покупки.
- **D24. Экран «Кошелёк» — минимальный:** балансы Фишек (доступные в контексте) +
активные бенефиты (без рекламы до даты, счётчик подсказок). **Без ленты истории**
(шумит, отвлекает от игры). Полная история — только в админке.
- **D25. TG-бот outbox — SQLite на диске бота.** Store-and-forward: получил
`successful_payment` → сохранил в SQLite → подтвердил апдейт Telegram → форвардит в
payments (идемпотентно, дедуп по `telegram_payment_charge_id`) → ack → `forwarded`.
Ретраи с backoff, дореталивание при рестарте. At-least-once доставка + идемпотентный
приём = начисление ровно один раз.
- **D26. Событийный слой `payment_events`** (succeeded/failed/refunded) + диспетчер по
каналам: live gRPC-стрим (если юзер в аппе), иначе `botlink`/email-relay
(существующие). «Оплата не прошла» = **активный отказ провайдера** (не брошенный
pending) — доводится до юзера. «Оплата прошла» — хук (письмо/сообщение в бота).
- **D27. Возвраты.** ToS «невозвратно» — юзеру возврат не предлагаем. **Админ может
сделать ручной возврат** (исключение: юзер требует вскоре после оплаты / закрывает
аккаунт — связать с `accountdelete`, где уже правило «сообщения не трогаем»).
**Внешние возвраты** (чарджбек / решение стора / TG / VK) — система принимает событие
`refunded`, **по возможности** отзывает бенефит (в минус НЕ уходим; если Фишки
потрачены — фиксируем убыток + флаг защиты от злоупотреблений), пишет в журнал.
Журнал операций **проектируем экспортопригодным** (будущая налоговая отчётность +
авто-сверка с Robokassa) — реализацию сверки пока не делаем, схему закладываем
совместимой.
- **D28. Стартовый охват видео-рекламы — только VK** (рублёвый доход, ОРД автоматом,
API готов). web/native/TG — существующий текст-баннер. Рекламный провайдер
закладываем **абстракцией** (будущая крутилка для других платформ встроится без
переделки). Крипто-провайдеры (AdsGram/AdMob) отвергнуты — нет легального рублёвого
дохода самозанятому (санкции + НПД не учитывает крипту).
- **D29. Rewarded (добровольный ролик за Фишки)** начисляет Фишки через payments по
**серверному verify-колбэку** рекламной сети (клиенту не верим, как платёж). Не
гасится «без рекламы». Сколько Фишек за просмотр — в блоке экономики.
- **D30. Частота навязанного interstitial** (конфигурируемые серверные значения):
глобальный кулдаун **на юзера сквозь все партии**, дефолт **5 мин**; **vs_ai — 30 мин**
(соосно кулдауну подсказок). Применение **подсказки** триггерит ролик после хода
**независимо** от основного кулдауна, со своим кулдауном **1 мин**. Оффлайн — только
баннер. Уважать собственные лимиты частоты VK.
- **D31. `paid_account` тоже deprecated** → удаление из схемы (как `hint_balance`), в
пользу per-origin бенефитов «без рекламы». Существующий `ads.Eligible`
(`backend/internal/ads/ads.go:107`) расширяется: баннер гасится по origin-бенефиту,
**применимому в текущем контексте**, а не по одному глобальному флагу. Legacy
`paid_account`/`hint_balance` в проде никем не выставлены (потока покупки не было) →
обнуляем/игнорируем, после релиза платежей дропаем.
- **D32. Каталог — конфигурируемый (БД + админка).** Базовые ценности (атомы
начисления): Фишки, подсказки, дни-без-рекламы, участие-в-турнире. **Продукт = набор
атомов + цена** (по одной ценности или комбо). «Пакет Фишек» — цена **per-метод**
(мультивалютная: Голоса/Stars/руб — один продукт, D2). «Ценность за Фишки» — цена в
Фишках (единая). Курсы покупки Фишек и Фишки за rewarded — тоже в каталоге.
- **D33. Стекинг «без рекламы»:** `paid_until[origin] += срок` от `max(now, текущий
конец)` (остаток не теряется, «плюсуются» как в документе). «Навсегда» — отдельный
вечный флаг (перекрывает сроки). Бонусы «(+50)» — маркетинговая пометка владельца;
юзеру показываем финальную цифру, в модели просто количество.
- **D34. Деактивация, не удаление.** Продукты soft-delete (деактивация). Покупка хранит
**снимок проданного** (состав атомов + цена на момент) → архив. Для истории, чеков,
налоговой — покупка не зависит от дальнейших правок/деактивации каталога.
- **D35. Антифрод rewarded — только серверный verify провайдера** на старте (без своего
дневного потолка). Провайдер-абстракция позволит добавить лимиты позже.
- **D36. Email/direct.** У гостей раздел «Кошелёк» **скрыт полностью**; баланс и
покупки — **только у durable-аккаунтов**. В direct email обязателен **перед первой
покупкой** (якорь восстановления доступа; в VK/TG якорь — сама vk/tg-привязка). Флоу
email уже есть (запрос кода → подтверждение → `ClearGuest` → durable).
- **D37. Reaper — гостей чистит свободно:** у гостя баланса нет by design (Кошелёк
скрыт, покупок нет, direct-rewarded нет). Спец-защита не нужна.
- **D38. Гостевые ограничения — ОТДЕЛЬНЫЙ этап монетизации** (воронка к регистрации).
Набор: макс **1 активная игра со случайным + 1 vs_ai**; **серверный** guest-гейт на
friend-request / redeem-code / invitation-create. Находка: сейчас гейт **только в UI**
— `social/friends.go:50` (`SendFriendRequest`), `robotfriends.go:41` (`RequestInGame`),
`friendcodes.go:67` (`RedeemFriendCode`), `lobby/invitations.go:208`
(`CreateInvitation`) **не проверяют `is_guest`**. Это изменение поведения игры → свой
этап со своими тестами.
- **D39. Хранение — неизменяемый журнал + материализованный баланс.** Журнал операций
**append-only** (только INSERT, никогда UPDATE/DELETE — полный аудит, №3). Баланс
сегмента `(account, source)` и бенефиты `(account, origin)` — быстрый материализованный
кэш, обновляется **в той же транзакции**, что и запись журнала; пересчитывается из
журнала для сверки.
- **D40. Финансовый отчёт per-user в `/_gm`** — балансы сегментов, платежи, траты,
гранты, возвраты, полная история — расширение существующей карточки
(`UserDetailView`, `handlers_admin_console.go:343`). Плюс экспорт журнала (D27).
- **D41. Налоги/чеки — авто через провайдера.** **Robokassa** (direct) — авточек НПД
(режим самозанятого). **VK** — сам процессит Голоса через налоговую (владельцу делать
нечего). **TG Stars** — налоговой стороны нет (для РФ-самозанятого невыводимы легально
= не доход по НПД; принимаем, чек не формируем). ОРД по VK-рекламе — на стороне VK.
*(Не юридическая консультация — точную схему НПД владелец сверяет с налоговой стороной.)*
## Заметки к оформлению документов
- **Язык документов (решено).** `PAYMENTS.md` — **на английском**, терминами как в коде
и общепринятыми (`ledger`, `refund`, `idempotency`, `order`, …). Рядом
`PAYMENTS_ru.md` — перевод на простой русский владельца. Паттерн `FUNCTIONAL.md` +
`FUNCTIONAL_ru.md`, уже принятый в репозитории; мирроринг правок — в том же PR.
- **Язык диалога** с владельцем — по-русски, без калек-англицизмов
(«леджер»→«журнал операций»). Сохранить как feedback-память после выхода из plan mode.
- **Формат интервью (владелец флагнул дважды).** ВСЕ вопросы владельцу — только через
интерактивное интервью (AskUserQuestion). НИКОГДА не выносить вопросы в текст ответа,
даже «мелкие» или «да/нет»: смешение текстовых и интерактивных вопросов раздражает и
ведёт к пропускам. Текст — только для фиксации решённого и пояснений. Усилить
feedback-память `prefer-interview-mode` после plan mode.
## Все развилки закрыты (D1-D41)
Интервью завершено. Дальше — оформление документов и реализация по релизам.
## План внедрения (черновик PLAN.md — «слоями»)
Владелец выбрал слоёную стратегию: сначала вся механика без реальных денег (обкатка
через `admin_grant`), затем монетизация (все рельсы + реклама вместе).
### Релиз 1 — механика без денег (обкатка через `admin_grant`)
- **E0. Фундамент данных `payments`.** Схема + DB-роль + jetgen-таргет + миграции.
Таблицы: журнал операций (append-only, D39), балансы сегментов `(account, source)`,
бенефиты `(account, origin)` (paid_until/forever + подсказки count), каталог продуктов
(D32, soft-delete D34), заказы `orders` (D22), `payment_events` (D26). Доменный пакет с
жёсткой границей (D3). Старт deprecate `hint_balance`/`paid_account` (expand).
- **E1. Доверенный сигнал платформы.** Platform в сессии (kind+подтип), переподтверждение
на холодном старте (VK sign / TG `initData`), fail-closed (D17-D18); gateway прокидывает
`platform` в backend.
- **E2. Ядро валюты + бенефитов.** Баланс Фишек; трата Фишек → бенефит атомарно (D7);
гейт по контексту (D6-D8); применение per-origin (без рекламы стекинг D33, подсказки
D12); переписать `SpendHint` на контекст-аварное списание; миграция/обнуление legacy
(D13, D31). Обкатка начислений через `admin_grant` (D16).
- **E3. Кошелёк UI.** Раздел в `SettingsHub` (между Друзья/Инфо), балансы + бенефиты
(минимальный, D24), витрина каталога, скрыт у гостей (D36), GP-заглушка (D19),
предупреждение при трате vk/tg в вебе (D10).
### Релиз 2 — монетизация (рельсы + реклама вместе)
- **E4. Durability (PITR).** WAL-архив (pgBackRest/WAL-G, D4) — ДО первого реального
приёма денег.
- **E5. Приём платежей.** Order-flow (D22); единый payments-домен принимает колбэки
(D21); Robokassa + VK + TG (бот-outbox на SQLite, D25); идемпотентность; `payment_events`
+ диспетчер уведомлений (D26); чеки НПД (D41); внешние + ручные возвраты (D27).
- **E6. Реклама.** VK interstitial (частота-конфиг D30) + VK rewarded (verify→Фишки D29,
D35); `ads.Eligible` расширение per-origin (D31). Провайдер-абстракция (D28).
- **E7. Админка / отчёты.** Финансовый отчёт per-user в `/_gm` (D40); UI ручного
возврата; экспорт журнала (D27).
### Отдельный этап (изменение поведения игры)
- **E8. Гостевые ограничения.** Серверный guest-гейт друзей/приглашений + лимиты игр
(1 случайная + 1 vs_ai, D38). Свои тесты; можно вести параллельно.
### Будущее
- **E9. Турнирный взнос.** Тип-ценность заложен в E0; механика позже.
## Финальные артефакты
1. `PAYMENTS.md` (англ) + `PAYMENTS_ru.md` (рус) — **первыми**, из Decisions Log D1-D41;
поддерживать далее (мирроринг в том же PR, как FUNCTIONAL).
2. `PLAN.md` — из раздела «План внедрения» выше, с критериями готовности на этап.
3. Реализация по релизам, начиная с E0.
## Verification
Каждый этап — своим слоем (`docs/TESTING.md`): **unit** (гейт по контексту, стекинг
сроков, курсы, идемпотентность-ключи); **integration** (Postgres-backed атомарные
транзакции «Фишки↔бенефит», идемпотентность колбэков, бот-outbox доставка); **UI**
(Кошелёк, предупреждения, гость-скрыт, GP-заглушка); контурный прогон на `development`
перед промоушеном. Локальная полная проверка перед пушем (интеграция + UI + codegen).
Прод: expand-contract миграции (rollback-safe), PITR армирован до первого приёма денег.
Комплаенс-гейт — обязательная регрессия (direct-бенефит не активируется в VK/TG).
+10
View File
@@ -275,6 +275,16 @@ INSERT** (никогда UPDATE/DELETE — полный аудит). Балан
бенефиты `(account, origin)` — быстрый **материализованный** кэш, обновляется **в той же
транзакции**, что и запись журнала, и пересчитывается из журнала для сверки.
**In-process кэш чтения.** Поверх материализованных таблиц пакет payments держит
in-process кэш сегментов и бенефитов по ключу-аккаунту (write-through), чтобы горячие пути
чтения — проверка показа рекламы, доступность подсказок, экран кошелька, гейт траты — на
устоявшемся пути **не** делали ни одного запроса к схеме `payments`. Кэш инвалидируется на
каждой изменяющей операции payments (трата / грант / пополнение / возврат / мерж) и
перечитывается из материализованных таблиц при промахе (тот же write-through-паттерн, что и у
гейта блокировок аккаунта). Один инстанс — под текущий деплой; многоинстансный backend
потребовал бы общего кэша. Присутствие identity (какие сегменты «не спят», §6) передаёт
вызывающий, здесь не кэшируется, поэтому отвязка/повторная привязка действует сразу.
**Награждение админом.** Админ начисляет **только конкретные ценности** (без рекламы /
подсказки) — **никогда не Фишки** (подаренный баланс валюты = обход кассы стора). Админ
**выбирает origin** при выдаче (ответственность за комплаенс на нём: `origin=vk`
+66
View File
@@ -360,6 +360,72 @@ func (c *Client) Profile(ctx context.Context, userID string) (ProfileResp, error
return out, err
}
// WalletSegmentResp is one chip balance in the wallet: the funding source, the chip count, and
// whether it is spendable in the caller's current context.
type WalletSegmentResp struct {
Source string `json:"source"`
Chips int `json:"chips"`
Spendable bool `json:"spendable"`
}
// WalletResp is the caller's wallet: the context-visible chip segments and the context-applicable
// benefits (no-ads term end as unix millis / forever flag, and the available hints).
type WalletResp struct {
Segments []WalletSegmentResp `json:"segments"`
AdsForever bool `json:"ads_forever"`
AdsPaidUntil int64 `json:"ads_paid_until_ms"`
Hints int `json:"hints"`
}
// walletBuyBody is the chip-spend request body.
type walletBuyBody struct {
ProductID string `json:"product_id"`
}
// Wallet fetches the caller's wallet in their current execution context.
func (c *Client) Wallet(ctx context.Context, userID string) (WalletResp, error) {
var out WalletResp
err := c.do(ctx, http.MethodGet, "/api/v1/user/wallet", userID, "", nil, &out)
return out, err
}
// WalletBuy spends chips on a chip-priced value and returns the updated wallet.
func (c *Client) WalletBuy(ctx context.Context, userID, productID string) (WalletResp, error) {
var out WalletResp
err := c.do(ctx, http.MethodPost, "/api/v1/user/wallet/buy", userID, "", walletBuyBody{ProductID: productID}, &out)
return out, err
}
// CatalogAtomResp is one atom line of a storefront product: the value type it grants and quantity.
type CatalogAtomResp struct {
AtomType string `json:"atom_type"`
Quantity int `json:"quantity"`
}
// CatalogProductResp is one storefront product for the caller's context: a chip-priced value
// (chips set) or a chip pack priced in the context method (money_amount + money_currency).
type CatalogProductResp struct {
Kind string `json:"kind"`
ProductID string `json:"product_id"`
Title string `json:"title"`
Chips int `json:"chips"`
MoneyAmount int64 `json:"money_amount"`
MoneyCurrency string `json:"money_currency"`
Atoms []CatalogAtomResp `json:"atoms"`
}
// CatalogResp is the storefront: the products visible and purchasable in the caller's context.
type CatalogResp struct {
Products []CatalogProductResp `json:"products"`
}
// Catalog fetches the storefront in the caller's current execution context.
func (c *Client) Catalog(ctx context.Context, userID string) (CatalogResp, error) {
var out CatalogResp
err := c.do(ctx, http.MethodGet, "/api/v1/user/wallet/catalog", userID, "", nil, &out)
return out, err
}
// BlockStatusResp is the caller's current manual-block state. Until is an RFC3339 UTC instant for
// a temporary block, empty for a permanent one or when not blocked; Reason is resolved to the
// account's language, empty when none was cited.
+74
View File
@@ -79,6 +79,80 @@ func encodeConfirmLinkResult(r backendclient.ConfirmLinkResp) []byte {
// encodeProfile builds a Profile payload, including the advertising-banner block
// when the backend marked the viewer eligible.
// encodeWallet builds the Wallet payload: the visible chip segments and the context-applicable
// benefits. Each WalletSegment table (and its source string) is built before the segments vector
// is opened, per FlatBuffers' rule against a nested table while another is under construction.
func encodeWallet(w backendclient.WalletResp) []byte {
b := flatbuffers.NewBuilder(128)
segs := make([]flatbuffers.UOffsetT, len(w.Segments))
for i, seg := range w.Segments {
src := b.CreateString(seg.Source)
fb.WalletSegmentStart(b)
fb.WalletSegmentAddSource(b, src)
fb.WalletSegmentAddChips(b, int32(seg.Chips))
fb.WalletSegmentAddSpendable(b, seg.Spendable)
segs[i] = fb.WalletSegmentEnd(b)
}
fb.WalletStartSegmentsVector(b, len(segs))
for i := len(segs) - 1; i >= 0; i-- {
b.PrependUOffsetT(segs[i])
}
segVec := b.EndVector(len(segs))
fb.WalletStart(b)
fb.WalletAddSegments(b, segVec)
fb.WalletAddAdsForever(b, w.AdsForever)
fb.WalletAddAdsPaidUntilMs(b, w.AdsPaidUntil)
fb.WalletAddHints(b, int32(w.Hints))
b.Finish(fb.WalletEnd(b))
return b.FinishedBytes()
}
// encodeCatalog builds a Catalog payload: the storefront products for the caller's context, each
// with its atom composition (built bottom-up — every product's atoms vector is finished before
// its product table, and every product before the products vector).
func encodeCatalog(cat backendclient.CatalogResp) []byte {
b := flatbuffers.NewBuilder(256)
prods := make([]flatbuffers.UOffsetT, len(cat.Products))
for i, p := range cat.Products {
atoms := make([]flatbuffers.UOffsetT, len(p.Atoms))
for j, a := range p.Atoms {
at := b.CreateString(a.AtomType)
fb.CatalogAtomStart(b)
fb.CatalogAtomAddAtomType(b, at)
fb.CatalogAtomAddQuantity(b, int32(a.Quantity))
atoms[j] = fb.CatalogAtomEnd(b)
}
fb.CatalogProductStartAtomsVector(b, len(atoms))
for j := len(atoms) - 1; j >= 0; j-- {
b.PrependUOffsetT(atoms[j])
}
atomsVec := b.EndVector(len(atoms))
kind := b.CreateString(p.Kind)
pid := b.CreateString(p.ProductID)
title := b.CreateString(p.Title)
cur := b.CreateString(p.MoneyCurrency)
fb.CatalogProductStart(b)
fb.CatalogProductAddKind(b, kind)
fb.CatalogProductAddProductId(b, pid)
fb.CatalogProductAddTitle(b, title)
fb.CatalogProductAddChips(b, int32(p.Chips))
fb.CatalogProductAddMoneyAmount(b, p.MoneyAmount)
fb.CatalogProductAddMoneyCurrency(b, cur)
fb.CatalogProductAddAtoms(b, atomsVec)
prods[i] = fb.CatalogProductEnd(b)
}
fb.CatalogStartProductsVector(b, len(prods))
for i := len(prods) - 1; i >= 0; i-- {
b.PrependUOffsetT(prods[i])
}
prodVec := b.EndVector(len(prods))
fb.CatalogStart(b)
fb.CatalogAddProducts(b, prodVec)
b.Finish(fb.CatalogEnd(b))
return b.FinishedBytes()
}
func encodeProfile(p backendclient.ProfileResp) []byte {
b := flatbuffers.NewBuilder(192)
uid := b.CreateString(p.UserID)
+37
View File
@@ -52,6 +52,9 @@ const (
MsgFeedbackSubmit = "feedback.submit"
MsgFeedbackGet = "feedback.get"
MsgFeedbackUnread = "feedback.unread"
MsgWalletGet = "wallet.get"
MsgWalletCatalog = "wallet.catalog"
MsgWalletBuy = "wallet.buy"
)
// Request is one decoded Execute call.
@@ -105,6 +108,9 @@ func NewRegistry(backend *backendclient.Client, tg TelegramValidator, opts ...Op
r.ops[MsgAuthEmailLogin] = Op{Handler: authEmailLoginHandler(backend), Email: true}
r.ops[MsgAuthEmailConfirmLink] = Op{Handler: authEmailConfirmLinkHandler(backend)}
r.ops[MsgProfileGet] = Op{Handler: profileHandler(backend), Auth: true}
r.ops[MsgWalletGet] = Op{Handler: walletHandler(backend), Auth: true}
r.ops[MsgWalletCatalog] = Op{Handler: walletCatalogHandler(backend), Auth: true}
r.ops[MsgWalletBuy] = Op{Handler: walletBuyHandler(backend), Auth: true}
r.ops[MsgBlockStatus] = Op{Handler: blockStatusHandler(backend), Auth: true}
r.ops[MsgGameSubmitPlay] = Op{Handler: submitPlayHandler(backend), Auth: true}
r.ops[MsgGameState] = Op{Handler: gameStateHandler(backend), Auth: true}
@@ -294,6 +300,37 @@ func profileHandler(backend *backendclient.Client) Handler {
}
}
func walletHandler(backend *backendclient.Client) Handler {
return func(ctx context.Context, req Request) ([]byte, error) {
w, err := backend.Wallet(ctx, req.UserID)
if err != nil {
return nil, err
}
return encodeWallet(w), nil
}
}
func walletCatalogHandler(backend *backendclient.Client) Handler {
return func(ctx context.Context, req Request) ([]byte, error) {
cat, err := backend.Catalog(ctx, req.UserID)
if err != nil {
return nil, err
}
return encodeCatalog(cat), nil
}
}
func walletBuyHandler(backend *backendclient.Client) Handler {
return func(ctx context.Context, req Request) ([]byte, error) {
in := fb.GetRootAsWalletBuyRequest(req.Payload, 0)
w, err := backend.WalletBuy(ctx, req.UserID, string(in.ProductId()))
if err != nil {
return nil, err
}
return encodeWallet(w), nil
}
}
func blockStatusHandler(backend *backendclient.Client) Handler {
return func(ctx context.Context, req Request) ([]byte, error) {
bs, err := backend.BlockStatus(ctx, req.UserID)
@@ -86,6 +86,52 @@ func TestGameStateRoundTripForwardsUserID(t *testing.T) {
}
}
func TestWalletCatalogRoundTrip(t *testing.T) {
backend, cleanup := fakeBackend(t, func(w http.ResponseWriter, r *http.Request) {
if got := r.Header.Get("X-User-ID"); got != "u-9" {
t.Errorf("X-User-ID = %q, want u-9", got)
}
if r.URL.Path != "/api/v1/user/wallet/catalog" {
t.Errorf("unexpected path %q", r.URL.Path)
}
_, _ = w.Write([]byte(`{"products":[` +
`{"kind":"value","product_id":"val-1","title":"50 hints","chips":100,"money_amount":0,"money_currency":"","atoms":[{"atom_type":"hints","quantity":50}]},` +
`{"kind":"pack","product_id":"pack-1","title":"100 chips","chips":0,"money_amount":14900,"money_currency":"RUB","atoms":[{"atom_type":"chips","quantity":100}]}` +
`]}`))
})
defer cleanup()
reg := transcode.NewRegistry(backend, nil)
op, ok := reg.Lookup(transcode.MsgWalletCatalog)
if !ok {
t.Fatal("wallet.catalog not registered")
}
payload, err := op.Handler(context.Background(), transcode.Request{UserID: "u-9"})
if err != nil {
t.Fatalf("handler: %v", err)
}
cat := fb.GetRootAsCatalog(payload, 0)
if cat.ProductsLength() != 2 {
t.Fatalf("products = %d, want 2", cat.ProductsLength())
}
var value fb.CatalogProduct
cat.Products(&value, 0)
if string(value.Kind()) != "value" || string(value.ProductId()) != "val-1" || value.Chips() != 100 || value.AtomsLength() != 1 {
t.Fatalf("value decoded wrong: kind=%q id=%q chips=%d atoms=%d", value.Kind(), value.ProductId(), value.Chips(), value.AtomsLength())
}
var atom fb.CatalogAtom
value.Atoms(&atom, 0)
if string(atom.AtomType()) != "hints" || atom.Quantity() != 50 {
t.Fatalf("atom decoded wrong: type=%q qty=%d", atom.AtomType(), atom.Quantity())
}
var pack fb.CatalogProduct
cat.Products(&pack, 1)
if string(pack.Kind()) != "pack" || pack.Chips() != 0 || pack.MoneyAmount() != 14900 || string(pack.MoneyCurrency()) != "RUB" {
t.Fatalf("pack decoded wrong: kind=%q chips=%d money=%d cur=%q", pack.Kind(), pack.Chips(), pack.MoneyAmount(), pack.MoneyCurrency())
}
}
func TestEnqueueRoundTripEncodesMatch(t *testing.T) {
backend, cleanup := fakeBackend(t, func(w http.ResponseWriter, r *http.Request) {
_, _ = w.Write([]byte(`{"matched":true,"game":{"id":"g-9","variant":"scrabble_en","status":"active","players":2,"to_move":0,"seats":[]}}`))
+51
View File
@@ -848,3 +848,54 @@ table NotificationEvent {
invitation:Invitation;
state:StateView;
}
// WalletSegment is one chip balance in the wallet view: the funding source
// ("vk"/"telegram"/"direct"), the chip count, and whether it is spendable in the current
// execution context (false for a frozen VK-iOS balance or an untrusted platform).
table WalletSegment {
source:string;
chips:int;
spendable:bool;
}
// Wallet is the user-facing wallet: the context-visible chip segments and the context-applicable
// benefits — the no-ads term end as unix milliseconds (0 = no active term) or the perpetual
// forever flag, and the available hint count.
table Wallet {
segments:[WalletSegment];
ads_forever:bool;
ads_paid_until_ms:long;
hints:int;
}
// WalletBuyRequest buys a chip-priced value with chips: the product to buy.
table WalletBuyRequest {
product_id:string;
}
// CatalogAtom is one atom line of a storefront product: the base value type it grants
// ("chips"/"hints"/"noads_days"/"tournament") and how many of it the product carries.
table CatalogAtom {
atom_type:string;
quantity:int;
}
// CatalogProduct is one storefront product projected for the caller's context. A "value" is
// bought with chips (chips is its uniform price, money fields zero); a "pack" funds chips with
// money (money_amount is its price in the context currency's minor units under money_currency,
// chips zero). atoms lists what the product grants.
table CatalogProduct {
kind:string;
product_id:string;
title:string;
chips:int;
money_amount:long;
money_currency:string;
atoms:[CatalogAtom];
}
// Catalog is the storefront: the products visible and purchasable in the caller's context — the
// chip-priced values and the chip packs priced in the context's payment method.
table Catalog {
products:[CatalogProduct];
}
+75
View File
@@ -0,0 +1,75 @@
// Code generated by the FlatBuffers compiler. DO NOT EDIT.
package scrabblefb
import (
flatbuffers "github.com/google/flatbuffers/go"
)
type Catalog struct {
_tab flatbuffers.Table
}
func GetRootAsCatalog(buf []byte, offset flatbuffers.UOffsetT) *Catalog {
n := flatbuffers.GetUOffsetT(buf[offset:])
x := &Catalog{}
x.Init(buf, n+offset)
return x
}
func FinishCatalogBuffer(builder *flatbuffers.Builder, offset flatbuffers.UOffsetT) {
builder.Finish(offset)
}
func GetSizePrefixedRootAsCatalog(buf []byte, offset flatbuffers.UOffsetT) *Catalog {
n := flatbuffers.GetUOffsetT(buf[offset+flatbuffers.SizeUint32:])
x := &Catalog{}
x.Init(buf, n+offset+flatbuffers.SizeUint32)
return x
}
func FinishSizePrefixedCatalogBuffer(builder *flatbuffers.Builder, offset flatbuffers.UOffsetT) {
builder.FinishSizePrefixed(offset)
}
func (rcv *Catalog) Init(buf []byte, i flatbuffers.UOffsetT) {
rcv._tab.Bytes = buf
rcv._tab.Pos = i
}
func (rcv *Catalog) Table() flatbuffers.Table {
return rcv._tab
}
func (rcv *Catalog) Products(obj *CatalogProduct, j int) bool {
o := flatbuffers.UOffsetT(rcv._tab.Offset(4))
if o != 0 {
x := rcv._tab.Vector(o)
x += flatbuffers.UOffsetT(j) * 4
x = rcv._tab.Indirect(x)
obj.Init(rcv._tab.Bytes, x)
return true
}
return false
}
func (rcv *Catalog) ProductsLength() int {
o := flatbuffers.UOffsetT(rcv._tab.Offset(4))
if o != 0 {
return rcv._tab.VectorLen(o)
}
return 0
}
func CatalogStart(builder *flatbuffers.Builder) {
builder.StartObject(1)
}
func CatalogAddProducts(builder *flatbuffers.Builder, products flatbuffers.UOffsetT) {
builder.PrependUOffsetTSlot(0, flatbuffers.UOffsetT(products), 0)
}
func CatalogStartProductsVector(builder *flatbuffers.Builder, numElems int) flatbuffers.UOffsetT {
return builder.StartVector(4, numElems, 4)
}
func CatalogEnd(builder *flatbuffers.Builder) flatbuffers.UOffsetT {
return builder.EndObject()
}
+75
View File
@@ -0,0 +1,75 @@
// Code generated by the FlatBuffers compiler. DO NOT EDIT.
package scrabblefb
import (
flatbuffers "github.com/google/flatbuffers/go"
)
type CatalogAtom struct {
_tab flatbuffers.Table
}
func GetRootAsCatalogAtom(buf []byte, offset flatbuffers.UOffsetT) *CatalogAtom {
n := flatbuffers.GetUOffsetT(buf[offset:])
x := &CatalogAtom{}
x.Init(buf, n+offset)
return x
}
func FinishCatalogAtomBuffer(builder *flatbuffers.Builder, offset flatbuffers.UOffsetT) {
builder.Finish(offset)
}
func GetSizePrefixedRootAsCatalogAtom(buf []byte, offset flatbuffers.UOffsetT) *CatalogAtom {
n := flatbuffers.GetUOffsetT(buf[offset+flatbuffers.SizeUint32:])
x := &CatalogAtom{}
x.Init(buf, n+offset+flatbuffers.SizeUint32)
return x
}
func FinishSizePrefixedCatalogAtomBuffer(builder *flatbuffers.Builder, offset flatbuffers.UOffsetT) {
builder.FinishSizePrefixed(offset)
}
func (rcv *CatalogAtom) Init(buf []byte, i flatbuffers.UOffsetT) {
rcv._tab.Bytes = buf
rcv._tab.Pos = i
}
func (rcv *CatalogAtom) Table() flatbuffers.Table {
return rcv._tab
}
func (rcv *CatalogAtom) AtomType() []byte {
o := flatbuffers.UOffsetT(rcv._tab.Offset(4))
if o != 0 {
return rcv._tab.ByteVector(o + rcv._tab.Pos)
}
return nil
}
func (rcv *CatalogAtom) Quantity() int32 {
o := flatbuffers.UOffsetT(rcv._tab.Offset(6))
if o != 0 {
return rcv._tab.GetInt32(o + rcv._tab.Pos)
}
return 0
}
func (rcv *CatalogAtom) MutateQuantity(n int32) bool {
return rcv._tab.MutateInt32Slot(6, n)
}
func CatalogAtomStart(builder *flatbuffers.Builder) {
builder.StartObject(2)
}
func CatalogAtomAddAtomType(builder *flatbuffers.Builder, atomType flatbuffers.UOffsetT) {
builder.PrependUOffsetTSlot(0, flatbuffers.UOffsetT(atomType), 0)
}
func CatalogAtomAddQuantity(builder *flatbuffers.Builder, quantity int32) {
builder.PrependInt32Slot(1, quantity, 0)
}
func CatalogAtomEnd(builder *flatbuffers.Builder) flatbuffers.UOffsetT {
return builder.EndObject()
}
+149
View File
@@ -0,0 +1,149 @@
// Code generated by the FlatBuffers compiler. DO NOT EDIT.
package scrabblefb
import (
flatbuffers "github.com/google/flatbuffers/go"
)
type CatalogProduct struct {
_tab flatbuffers.Table
}
func GetRootAsCatalogProduct(buf []byte, offset flatbuffers.UOffsetT) *CatalogProduct {
n := flatbuffers.GetUOffsetT(buf[offset:])
x := &CatalogProduct{}
x.Init(buf, n+offset)
return x
}
func FinishCatalogProductBuffer(builder *flatbuffers.Builder, offset flatbuffers.UOffsetT) {
builder.Finish(offset)
}
func GetSizePrefixedRootAsCatalogProduct(buf []byte, offset flatbuffers.UOffsetT) *CatalogProduct {
n := flatbuffers.GetUOffsetT(buf[offset+flatbuffers.SizeUint32:])
x := &CatalogProduct{}
x.Init(buf, n+offset+flatbuffers.SizeUint32)
return x
}
func FinishSizePrefixedCatalogProductBuffer(builder *flatbuffers.Builder, offset flatbuffers.UOffsetT) {
builder.FinishSizePrefixed(offset)
}
func (rcv *CatalogProduct) Init(buf []byte, i flatbuffers.UOffsetT) {
rcv._tab.Bytes = buf
rcv._tab.Pos = i
}
func (rcv *CatalogProduct) Table() flatbuffers.Table {
return rcv._tab
}
func (rcv *CatalogProduct) Kind() []byte {
o := flatbuffers.UOffsetT(rcv._tab.Offset(4))
if o != 0 {
return rcv._tab.ByteVector(o + rcv._tab.Pos)
}
return nil
}
func (rcv *CatalogProduct) ProductId() []byte {
o := flatbuffers.UOffsetT(rcv._tab.Offset(6))
if o != 0 {
return rcv._tab.ByteVector(o + rcv._tab.Pos)
}
return nil
}
func (rcv *CatalogProduct) Title() []byte {
o := flatbuffers.UOffsetT(rcv._tab.Offset(8))
if o != 0 {
return rcv._tab.ByteVector(o + rcv._tab.Pos)
}
return nil
}
func (rcv *CatalogProduct) Chips() int32 {
o := flatbuffers.UOffsetT(rcv._tab.Offset(10))
if o != 0 {
return rcv._tab.GetInt32(o + rcv._tab.Pos)
}
return 0
}
func (rcv *CatalogProduct) MutateChips(n int32) bool {
return rcv._tab.MutateInt32Slot(10, n)
}
func (rcv *CatalogProduct) MoneyAmount() int64 {
o := flatbuffers.UOffsetT(rcv._tab.Offset(12))
if o != 0 {
return rcv._tab.GetInt64(o + rcv._tab.Pos)
}
return 0
}
func (rcv *CatalogProduct) MutateMoneyAmount(n int64) bool {
return rcv._tab.MutateInt64Slot(12, n)
}
func (rcv *CatalogProduct) MoneyCurrency() []byte {
o := flatbuffers.UOffsetT(rcv._tab.Offset(14))
if o != 0 {
return rcv._tab.ByteVector(o + rcv._tab.Pos)
}
return nil
}
func (rcv *CatalogProduct) Atoms(obj *CatalogAtom, j int) bool {
o := flatbuffers.UOffsetT(rcv._tab.Offset(16))
if o != 0 {
x := rcv._tab.Vector(o)
x += flatbuffers.UOffsetT(j) * 4
x = rcv._tab.Indirect(x)
obj.Init(rcv._tab.Bytes, x)
return true
}
return false
}
func (rcv *CatalogProduct) AtomsLength() int {
o := flatbuffers.UOffsetT(rcv._tab.Offset(16))
if o != 0 {
return rcv._tab.VectorLen(o)
}
return 0
}
func CatalogProductStart(builder *flatbuffers.Builder) {
builder.StartObject(7)
}
func CatalogProductAddKind(builder *flatbuffers.Builder, kind flatbuffers.UOffsetT) {
builder.PrependUOffsetTSlot(0, flatbuffers.UOffsetT(kind), 0)
}
func CatalogProductAddProductId(builder *flatbuffers.Builder, productId flatbuffers.UOffsetT) {
builder.PrependUOffsetTSlot(1, flatbuffers.UOffsetT(productId), 0)
}
func CatalogProductAddTitle(builder *flatbuffers.Builder, title flatbuffers.UOffsetT) {
builder.PrependUOffsetTSlot(2, flatbuffers.UOffsetT(title), 0)
}
func CatalogProductAddChips(builder *flatbuffers.Builder, chips int32) {
builder.PrependInt32Slot(3, chips, 0)
}
func CatalogProductAddMoneyAmount(builder *flatbuffers.Builder, moneyAmount int64) {
builder.PrependInt64Slot(4, moneyAmount, 0)
}
func CatalogProductAddMoneyCurrency(builder *flatbuffers.Builder, moneyCurrency flatbuffers.UOffsetT) {
builder.PrependUOffsetTSlot(5, flatbuffers.UOffsetT(moneyCurrency), 0)
}
func CatalogProductAddAtoms(builder *flatbuffers.Builder, atoms flatbuffers.UOffsetT) {
builder.PrependUOffsetTSlot(6, flatbuffers.UOffsetT(atoms), 0)
}
func CatalogProductStartAtomsVector(builder *flatbuffers.Builder, numElems int) flatbuffers.UOffsetT {
return builder.StartVector(4, numElems, 4)
}
func CatalogProductEnd(builder *flatbuffers.Builder) flatbuffers.UOffsetT {
return builder.EndObject()
}
+120
View File
@@ -0,0 +1,120 @@
// Code generated by the FlatBuffers compiler. DO NOT EDIT.
package scrabblefb
import (
flatbuffers "github.com/google/flatbuffers/go"
)
type Wallet struct {
_tab flatbuffers.Table
}
func GetRootAsWallet(buf []byte, offset flatbuffers.UOffsetT) *Wallet {
n := flatbuffers.GetUOffsetT(buf[offset:])
x := &Wallet{}
x.Init(buf, n+offset)
return x
}
func FinishWalletBuffer(builder *flatbuffers.Builder, offset flatbuffers.UOffsetT) {
builder.Finish(offset)
}
func GetSizePrefixedRootAsWallet(buf []byte, offset flatbuffers.UOffsetT) *Wallet {
n := flatbuffers.GetUOffsetT(buf[offset+flatbuffers.SizeUint32:])
x := &Wallet{}
x.Init(buf, n+offset+flatbuffers.SizeUint32)
return x
}
func FinishSizePrefixedWalletBuffer(builder *flatbuffers.Builder, offset flatbuffers.UOffsetT) {
builder.FinishSizePrefixed(offset)
}
func (rcv *Wallet) Init(buf []byte, i flatbuffers.UOffsetT) {
rcv._tab.Bytes = buf
rcv._tab.Pos = i
}
func (rcv *Wallet) Table() flatbuffers.Table {
return rcv._tab
}
func (rcv *Wallet) Segments(obj *WalletSegment, j int) bool {
o := flatbuffers.UOffsetT(rcv._tab.Offset(4))
if o != 0 {
x := rcv._tab.Vector(o)
x += flatbuffers.UOffsetT(j) * 4
x = rcv._tab.Indirect(x)
obj.Init(rcv._tab.Bytes, x)
return true
}
return false
}
func (rcv *Wallet) SegmentsLength() int {
o := flatbuffers.UOffsetT(rcv._tab.Offset(4))
if o != 0 {
return rcv._tab.VectorLen(o)
}
return 0
}
func (rcv *Wallet) AdsForever() bool {
o := flatbuffers.UOffsetT(rcv._tab.Offset(6))
if o != 0 {
return rcv._tab.GetBool(o + rcv._tab.Pos)
}
return false
}
func (rcv *Wallet) MutateAdsForever(n bool) bool {
return rcv._tab.MutateBoolSlot(6, n)
}
func (rcv *Wallet) AdsPaidUntilMs() int64 {
o := flatbuffers.UOffsetT(rcv._tab.Offset(8))
if o != 0 {
return rcv._tab.GetInt64(o + rcv._tab.Pos)
}
return 0
}
func (rcv *Wallet) MutateAdsPaidUntilMs(n int64) bool {
return rcv._tab.MutateInt64Slot(8, n)
}
func (rcv *Wallet) Hints() int32 {
o := flatbuffers.UOffsetT(rcv._tab.Offset(10))
if o != 0 {
return rcv._tab.GetInt32(o + rcv._tab.Pos)
}
return 0
}
func (rcv *Wallet) MutateHints(n int32) bool {
return rcv._tab.MutateInt32Slot(10, n)
}
func WalletStart(builder *flatbuffers.Builder) {
builder.StartObject(4)
}
func WalletAddSegments(builder *flatbuffers.Builder, segments flatbuffers.UOffsetT) {
builder.PrependUOffsetTSlot(0, flatbuffers.UOffsetT(segments), 0)
}
func WalletStartSegmentsVector(builder *flatbuffers.Builder, numElems int) flatbuffers.UOffsetT {
return builder.StartVector(4, numElems, 4)
}
func WalletAddAdsForever(builder *flatbuffers.Builder, adsForever bool) {
builder.PrependBoolSlot(1, adsForever, false)
}
func WalletAddAdsPaidUntilMs(builder *flatbuffers.Builder, adsPaidUntilMs int64) {
builder.PrependInt64Slot(2, adsPaidUntilMs, 0)
}
func WalletAddHints(builder *flatbuffers.Builder, hints int32) {
builder.PrependInt32Slot(3, hints, 0)
}
func WalletEnd(builder *flatbuffers.Builder) flatbuffers.UOffsetT {
return builder.EndObject()
}
+60
View File
@@ -0,0 +1,60 @@
// Code generated by the FlatBuffers compiler. DO NOT EDIT.
package scrabblefb
import (
flatbuffers "github.com/google/flatbuffers/go"
)
type WalletBuyRequest struct {
_tab flatbuffers.Table
}
func GetRootAsWalletBuyRequest(buf []byte, offset flatbuffers.UOffsetT) *WalletBuyRequest {
n := flatbuffers.GetUOffsetT(buf[offset:])
x := &WalletBuyRequest{}
x.Init(buf, n+offset)
return x
}
func FinishWalletBuyRequestBuffer(builder *flatbuffers.Builder, offset flatbuffers.UOffsetT) {
builder.Finish(offset)
}
func GetSizePrefixedRootAsWalletBuyRequest(buf []byte, offset flatbuffers.UOffsetT) *WalletBuyRequest {
n := flatbuffers.GetUOffsetT(buf[offset+flatbuffers.SizeUint32:])
x := &WalletBuyRequest{}
x.Init(buf, n+offset+flatbuffers.SizeUint32)
return x
}
func FinishSizePrefixedWalletBuyRequestBuffer(builder *flatbuffers.Builder, offset flatbuffers.UOffsetT) {
builder.FinishSizePrefixed(offset)
}
func (rcv *WalletBuyRequest) Init(buf []byte, i flatbuffers.UOffsetT) {
rcv._tab.Bytes = buf
rcv._tab.Pos = i
}
func (rcv *WalletBuyRequest) Table() flatbuffers.Table {
return rcv._tab
}
func (rcv *WalletBuyRequest) ProductId() []byte {
o := flatbuffers.UOffsetT(rcv._tab.Offset(4))
if o != 0 {
return rcv._tab.ByteVector(o + rcv._tab.Pos)
}
return nil
}
func WalletBuyRequestStart(builder *flatbuffers.Builder) {
builder.StartObject(1)
}
func WalletBuyRequestAddProductId(builder *flatbuffers.Builder, productId flatbuffers.UOffsetT) {
builder.PrependUOffsetTSlot(0, flatbuffers.UOffsetT(productId), 0)
}
func WalletBuyRequestEnd(builder *flatbuffers.Builder) flatbuffers.UOffsetT {
return builder.EndObject()
}
+90
View File
@@ -0,0 +1,90 @@
// Code generated by the FlatBuffers compiler. DO NOT EDIT.
package scrabblefb
import (
flatbuffers "github.com/google/flatbuffers/go"
)
type WalletSegment struct {
_tab flatbuffers.Table
}
func GetRootAsWalletSegment(buf []byte, offset flatbuffers.UOffsetT) *WalletSegment {
n := flatbuffers.GetUOffsetT(buf[offset:])
x := &WalletSegment{}
x.Init(buf, n+offset)
return x
}
func FinishWalletSegmentBuffer(builder *flatbuffers.Builder, offset flatbuffers.UOffsetT) {
builder.Finish(offset)
}
func GetSizePrefixedRootAsWalletSegment(buf []byte, offset flatbuffers.UOffsetT) *WalletSegment {
n := flatbuffers.GetUOffsetT(buf[offset+flatbuffers.SizeUint32:])
x := &WalletSegment{}
x.Init(buf, n+offset+flatbuffers.SizeUint32)
return x
}
func FinishSizePrefixedWalletSegmentBuffer(builder *flatbuffers.Builder, offset flatbuffers.UOffsetT) {
builder.FinishSizePrefixed(offset)
}
func (rcv *WalletSegment) Init(buf []byte, i flatbuffers.UOffsetT) {
rcv._tab.Bytes = buf
rcv._tab.Pos = i
}
func (rcv *WalletSegment) Table() flatbuffers.Table {
return rcv._tab
}
func (rcv *WalletSegment) Source() []byte {
o := flatbuffers.UOffsetT(rcv._tab.Offset(4))
if o != 0 {
return rcv._tab.ByteVector(o + rcv._tab.Pos)
}
return nil
}
func (rcv *WalletSegment) Chips() int32 {
o := flatbuffers.UOffsetT(rcv._tab.Offset(6))
if o != 0 {
return rcv._tab.GetInt32(o + rcv._tab.Pos)
}
return 0
}
func (rcv *WalletSegment) MutateChips(n int32) bool {
return rcv._tab.MutateInt32Slot(6, n)
}
func (rcv *WalletSegment) Spendable() bool {
o := flatbuffers.UOffsetT(rcv._tab.Offset(8))
if o != 0 {
return rcv._tab.GetBool(o + rcv._tab.Pos)
}
return false
}
func (rcv *WalletSegment) MutateSpendable(n bool) bool {
return rcv._tab.MutateBoolSlot(8, n)
}
func WalletSegmentStart(builder *flatbuffers.Builder) {
builder.StartObject(3)
}
func WalletSegmentAddSource(builder *flatbuffers.Builder, source flatbuffers.UOffsetT) {
builder.PrependUOffsetTSlot(0, flatbuffers.UOffsetT(source), 0)
}
func WalletSegmentAddChips(builder *flatbuffers.Builder, chips int32) {
builder.PrependInt32Slot(1, chips, 0)
}
func WalletSegmentAddSpendable(builder *flatbuffers.Builder, spendable bool) {
builder.PrependBoolSlot(2, spendable, false)
}
func WalletSegmentEnd(builder *flatbuffers.Builder) flatbuffers.UOffsetT {
return builder.EndObject()
}
+99
View File
@@ -0,0 +1,99 @@
import { expect, test, type Page } from './fixtures';
// The Wallet section against the mock transport (no backend). The mock seeds a web/native (direct)
// account holding a direct + vk chip segment and a small catalog (two chip-priced values and one
// rouble-priced chip pack — see lib/mock/client.ts), so the storefront, the store-compliance
// warning and the Google Play stub are all exercisable without a backend.
async function loginLobby(page: Page): Promise<void> {
await page.goto('/');
await page.getByRole('button', { name: /guest/i }).click();
await expect(page.getByText('Your turn')).toBeVisible();
}
async function openSettings(page: Page): Promise<void> {
await page.getByRole('button', { name: /Settings/ }).click(); // lobby ⚙️ tab
await expect(page.locator('.pane')).toHaveCount(1); // let the slide settle
}
async function openWallet(page: Page): Promise<void> {
await openSettings(page);
await page.getByRole('button', { name: 'Wallet', exact: true }).click();
await expect(page.getByTestId('wallet')).toBeVisible();
}
test('wallet: balances, benefits and the storefront render for a durable account', async ({ page }) => {
await loginLobby(page);
await openWallet(page);
// Balances: the seeded direct ("Web") and vk segments.
await expect(page.getByRole('heading', { name: 'Balance' })).toBeVisible();
await expect(page.getByText('Web', { exact: true })).toBeVisible();
await expect(page.getByText('VK', { exact: true })).toBeVisible();
// Benefits + the storefront: two values priced in chips, one pack priced in roubles.
await expect(page.getByRole('heading', { name: 'Benefits' })).toBeVisible();
await expect(page.getByRole('heading', { name: 'Store' })).toBeVisible();
await expect(page.getByTestId('product')).toHaveCount(3);
const pack = page.locator('[data-kind="pack"]');
await expect(pack).toContainText('₽');
// The pack purchase (money intake) is not wired yet, so its action is the disabled 'Soon'.
await expect(pack.getByRole('button', { name: 'Soon' })).toBeDisabled();
});
test('wallet: the tab sits between Friends and About', async ({ page }) => {
await loginLobby(page);
await openSettings(page);
const labels = await page.locator('.tab .lbl').allInnerTexts();
const iFriends = labels.indexOf('Friends');
const iWallet = labels.indexOf('Wallet');
const iAbout = labels.indexOf('Info');
expect(iFriends).toBeGreaterThanOrEqual(0);
expect(iWallet).toBe(iFriends + 1);
expect(iAbout).toBe(iWallet + 1);
});
test('wallet: a guest has no wallet (nor friends) tab', async ({ page }) => {
await page.goto('/?guest');
await page.getByRole('button', { name: /guest/i }).click();
await expect(page.getByText('Your turn')).toBeVisible();
await openSettings(page);
await expect(page.getByRole('button', { name: 'Wallet', exact: true })).toBeHidden();
await expect(page.getByRole('button', { name: 'Friends', exact: true })).toBeHidden();
});
test('wallet: the Google Play build hides the money purchases behind the RuStore stub', async ({ page }) => {
await page.goto('/?gp');
await page.getByRole('button', { name: /guest/i }).click();
await expect(page.getByText('Your turn')).toBeVisible();
await openWallet(page);
// The chip pack is gone; the stub points at the RuStore build. Spending earned chips still works.
await expect(page.getByTestId('gp-stub')).toBeVisible();
await expect(page.locator('[data-kind="pack"]')).toHaveCount(0);
await expect(page.locator('[data-kind="value"]').first().getByTestId('buy')).toBeVisible();
});
test('wallet: a web spend that would draw store chips warns first, then completes', async ({ page }) => {
await loginLobby(page);
await openWallet(page);
// The 300-chip value drains direct (120) then reaches into vk (180) → a store segment → warn.
await page.locator('[data-pid="val-noads-30"]').getByTestId('buy').click();
await expect(page.getByTestId('warn')).toBeVisible();
await page.getByTestId('warn-confirm').click();
await expect(page.getByTestId('warn')).toBeHidden();
// The spend applied: the no-ads benefit now shows an end date.
await expect(page.getByTestId('wallet')).toContainText('No ads until');
});
test('wallet: a spend the direct segment covers alone does not warn', async ({ page }) => {
await loginLobby(page);
await openWallet(page);
// The 100-chip value is covered by the direct segment (120) alone → no store draw, no warning.
await page.locator('[data-pid="val-hints-50"]').getByTestId('buy').click();
await expect(page.getByTestId('warn')).toBeHidden();
// The hints benefit rose from 5 to 55.
await expect(page.getByTestId('wallet')).toContainText('Hints 55');
});
+5 -4
View File
@@ -26,10 +26,11 @@ const DIST = 'dist';
// countdown toast live in the always-loaded game screen (Game.svelte) — and to 120 for the offline
// pass-and-play (hotseat) mode: the on-screen PIN pad, the creation roster and the in-game host menu
// live in the always-loaded New Game / Game / Lobby screens (the offline engine and the tiny PIN
// hashing stay in lazy chunks / are negligible). The heavy parts — the dict loader, the move
// generator and the preload orchestration — still stay in lazy chunks. Scoped CSS lands in the CSS
// chunk, not this JS budget.
const BUDGET = { app: 120, shared: 30, landing: 5 };
// hashing stay in lazy chunks / are negligible), then to 123 for the Wallet section — its screen,
// storefront logic and the catalog codec load with the always-mounted settings hub (its i18n lands
// in the shared chunk). The heavy parts — the dict loader, the move generator and the preload
// orchestration — still stay in lazy chunks. Scoped CSS lands in the CSS chunk, not this JS budget.
const BUDGET = { app: 123, shared: 30, landing: 5 };
// gzipped returns the gzipped byte size of a built asset, or 0 when the reference is not a
// local file (e.g. the Telegram SDK loaded from a CDN) or is missing.
+2
View File
@@ -116,6 +116,8 @@
<SettingsHub initialTab="about" />
{:else if router.route.name === 'friends'}
<SettingsHub initialTab="friends" />
{:else if router.route.name === 'wallet'}
<SettingsHub initialTab="wallet" />
{:else if router.route.name === 'feedback'}
<Feedback />
{:else if router.route.name === 'stats'}
+6
View File
@@ -11,6 +11,9 @@ export { BestMoveTile } from './scrabblefb/best-move-tile.js';
export { BestMoveView } from './scrabblefb/best-move-view.js';
export { BlockList } from './scrabblefb/block-list.js';
export { BlockStatus } from './scrabblefb/block-status.js';
export { Catalog } from './scrabblefb/catalog.js';
export { CatalogAtom } from './scrabblefb/catalog-atom.js';
export { CatalogProduct } from './scrabblefb/catalog-product.js';
export { ChatList } from './scrabblefb/chat-list.js';
export { ChatMessage } from './scrabblefb/chat-message.js';
export { ChatPostRequest } from './scrabblefb/chat-post-request.js';
@@ -81,5 +84,8 @@ export { TelegramLoginRequest } from './scrabblefb/telegram-login-request.js';
export { TileRecord } from './scrabblefb/tile-record.js';
export { UpdateProfileRequest } from './scrabblefb/update-profile-request.js';
export { VKLoginRequest } from './scrabblefb/vklogin-request.js';
export { Wallet } from './scrabblefb/wallet.js';
export { WalletBuyRequest } from './scrabblefb/wallet-buy-request.js';
export { WalletSegment } from './scrabblefb/wallet-segment.js';
export { WordCheckResult } from './scrabblefb/word-check-result.js';
export { YourTurnEvent } from './scrabblefb/your-turn-event.js';
+58
View File
@@ -0,0 +1,58 @@
// automatically generated by the FlatBuffers compiler, do not modify
import * as flatbuffers from 'flatbuffers';
export class CatalogAtom {
bb: flatbuffers.ByteBuffer|null = null;
bb_pos = 0;
__init(i:number, bb:flatbuffers.ByteBuffer):CatalogAtom {
this.bb_pos = i;
this.bb = bb;
return this;
}
static getRootAsCatalogAtom(bb:flatbuffers.ByteBuffer, obj?:CatalogAtom):CatalogAtom {
return (obj || new CatalogAtom()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
}
static getSizePrefixedRootAsCatalogAtom(bb:flatbuffers.ByteBuffer, obj?:CatalogAtom):CatalogAtom {
bb.setPosition(bb.position() + flatbuffers.SIZE_PREFIX_LENGTH);
return (obj || new CatalogAtom()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
}
atomType():string|null
atomType(optionalEncoding:flatbuffers.Encoding):string|Uint8Array|null
atomType(optionalEncoding?:any):string|Uint8Array|null {
const offset = this.bb!.__offset(this.bb_pos, 4);
return offset ? this.bb!.__string(this.bb_pos + offset, optionalEncoding) : null;
}
quantity():number {
const offset = this.bb!.__offset(this.bb_pos, 6);
return offset ? this.bb!.readInt32(this.bb_pos + offset) : 0;
}
static startCatalogAtom(builder:flatbuffers.Builder) {
builder.startObject(2);
}
static addAtomType(builder:flatbuffers.Builder, atomTypeOffset:flatbuffers.Offset) {
builder.addFieldOffset(0, atomTypeOffset, 0);
}
static addQuantity(builder:flatbuffers.Builder, quantity:number) {
builder.addFieldInt32(1, quantity, 0);
}
static endCatalogAtom(builder:flatbuffers.Builder):flatbuffers.Offset {
const offset = builder.endObject();
return offset;
}
static createCatalogAtom(builder:flatbuffers.Builder, atomTypeOffset:flatbuffers.Offset, quantity:number):flatbuffers.Offset {
CatalogAtom.startCatalogAtom(builder);
CatalogAtom.addAtomType(builder, atomTypeOffset);
CatalogAtom.addQuantity(builder, quantity);
return CatalogAtom.endCatalogAtom(builder);
}
}
@@ -0,0 +1,134 @@
// automatically generated by the FlatBuffers compiler, do not modify
import * as flatbuffers from 'flatbuffers';
import { CatalogAtom } from '../scrabblefb/catalog-atom.js';
export class CatalogProduct {
bb: flatbuffers.ByteBuffer|null = null;
bb_pos = 0;
__init(i:number, bb:flatbuffers.ByteBuffer):CatalogProduct {
this.bb_pos = i;
this.bb = bb;
return this;
}
static getRootAsCatalogProduct(bb:flatbuffers.ByteBuffer, obj?:CatalogProduct):CatalogProduct {
return (obj || new CatalogProduct()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
}
static getSizePrefixedRootAsCatalogProduct(bb:flatbuffers.ByteBuffer, obj?:CatalogProduct):CatalogProduct {
bb.setPosition(bb.position() + flatbuffers.SIZE_PREFIX_LENGTH);
return (obj || new CatalogProduct()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
}
kind():string|null
kind(optionalEncoding:flatbuffers.Encoding):string|Uint8Array|null
kind(optionalEncoding?:any):string|Uint8Array|null {
const offset = this.bb!.__offset(this.bb_pos, 4);
return offset ? this.bb!.__string(this.bb_pos + offset, optionalEncoding) : null;
}
productId():string|null
productId(optionalEncoding:flatbuffers.Encoding):string|Uint8Array|null
productId(optionalEncoding?:any):string|Uint8Array|null {
const offset = this.bb!.__offset(this.bb_pos, 6);
return offset ? this.bb!.__string(this.bb_pos + offset, optionalEncoding) : null;
}
title():string|null
title(optionalEncoding:flatbuffers.Encoding):string|Uint8Array|null
title(optionalEncoding?:any):string|Uint8Array|null {
const offset = this.bb!.__offset(this.bb_pos, 8);
return offset ? this.bb!.__string(this.bb_pos + offset, optionalEncoding) : null;
}
chips():number {
const offset = this.bb!.__offset(this.bb_pos, 10);
return offset ? this.bb!.readInt32(this.bb_pos + offset) : 0;
}
moneyAmount():bigint {
const offset = this.bb!.__offset(this.bb_pos, 12);
return offset ? this.bb!.readInt64(this.bb_pos + offset) : BigInt('0');
}
moneyCurrency():string|null
moneyCurrency(optionalEncoding:flatbuffers.Encoding):string|Uint8Array|null
moneyCurrency(optionalEncoding?:any):string|Uint8Array|null {
const offset = this.bb!.__offset(this.bb_pos, 14);
return offset ? this.bb!.__string(this.bb_pos + offset, optionalEncoding) : null;
}
atoms(index: number, obj?:CatalogAtom):CatalogAtom|null {
const offset = this.bb!.__offset(this.bb_pos, 16);
return offset ? (obj || new CatalogAtom()).__init(this.bb!.__indirect(this.bb!.__vector(this.bb_pos + offset) + index * 4), this.bb!) : null;
}
atomsLength():number {
const offset = this.bb!.__offset(this.bb_pos, 16);
return offset ? this.bb!.__vector_len(this.bb_pos + offset) : 0;
}
static startCatalogProduct(builder:flatbuffers.Builder) {
builder.startObject(7);
}
static addKind(builder:flatbuffers.Builder, kindOffset:flatbuffers.Offset) {
builder.addFieldOffset(0, kindOffset, 0);
}
static addProductId(builder:flatbuffers.Builder, productIdOffset:flatbuffers.Offset) {
builder.addFieldOffset(1, productIdOffset, 0);
}
static addTitle(builder:flatbuffers.Builder, titleOffset:flatbuffers.Offset) {
builder.addFieldOffset(2, titleOffset, 0);
}
static addChips(builder:flatbuffers.Builder, chips:number) {
builder.addFieldInt32(3, chips, 0);
}
static addMoneyAmount(builder:flatbuffers.Builder, moneyAmount:bigint) {
builder.addFieldInt64(4, moneyAmount, BigInt('0'));
}
static addMoneyCurrency(builder:flatbuffers.Builder, moneyCurrencyOffset:flatbuffers.Offset) {
builder.addFieldOffset(5, moneyCurrencyOffset, 0);
}
static addAtoms(builder:flatbuffers.Builder, atomsOffset:flatbuffers.Offset) {
builder.addFieldOffset(6, atomsOffset, 0);
}
static createAtomsVector(builder:flatbuffers.Builder, data:flatbuffers.Offset[]):flatbuffers.Offset {
builder.startVector(4, data.length, 4);
for (let i = data.length - 1; i >= 0; i--) {
builder.addOffset(data[i]!);
}
return builder.endVector();
}
static startAtomsVector(builder:flatbuffers.Builder, numElems:number) {
builder.startVector(4, numElems, 4);
}
static endCatalogProduct(builder:flatbuffers.Builder):flatbuffers.Offset {
const offset = builder.endObject();
return offset;
}
static createCatalogProduct(builder:flatbuffers.Builder, kindOffset:flatbuffers.Offset, productIdOffset:flatbuffers.Offset, titleOffset:flatbuffers.Offset, chips:number, moneyAmount:bigint, moneyCurrencyOffset:flatbuffers.Offset, atomsOffset:flatbuffers.Offset):flatbuffers.Offset {
CatalogProduct.startCatalogProduct(builder);
CatalogProduct.addKind(builder, kindOffset);
CatalogProduct.addProductId(builder, productIdOffset);
CatalogProduct.addTitle(builder, titleOffset);
CatalogProduct.addChips(builder, chips);
CatalogProduct.addMoneyAmount(builder, moneyAmount);
CatalogProduct.addMoneyCurrency(builder, moneyCurrencyOffset);
CatalogProduct.addAtoms(builder, atomsOffset);
return CatalogProduct.endCatalogProduct(builder);
}
}
+66
View File
@@ -0,0 +1,66 @@
// automatically generated by the FlatBuffers compiler, do not modify
import * as flatbuffers from 'flatbuffers';
import { CatalogProduct } from '../scrabblefb/catalog-product.js';
export class Catalog {
bb: flatbuffers.ByteBuffer|null = null;
bb_pos = 0;
__init(i:number, bb:flatbuffers.ByteBuffer):Catalog {
this.bb_pos = i;
this.bb = bb;
return this;
}
static getRootAsCatalog(bb:flatbuffers.ByteBuffer, obj?:Catalog):Catalog {
return (obj || new Catalog()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
}
static getSizePrefixedRootAsCatalog(bb:flatbuffers.ByteBuffer, obj?:Catalog):Catalog {
bb.setPosition(bb.position() + flatbuffers.SIZE_PREFIX_LENGTH);
return (obj || new Catalog()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
}
products(index: number, obj?:CatalogProduct):CatalogProduct|null {
const offset = this.bb!.__offset(this.bb_pos, 4);
return offset ? (obj || new CatalogProduct()).__init(this.bb!.__indirect(this.bb!.__vector(this.bb_pos + offset) + index * 4), this.bb!) : null;
}
productsLength():number {
const offset = this.bb!.__offset(this.bb_pos, 4);
return offset ? this.bb!.__vector_len(this.bb_pos + offset) : 0;
}
static startCatalog(builder:flatbuffers.Builder) {
builder.startObject(1);
}
static addProducts(builder:flatbuffers.Builder, productsOffset:flatbuffers.Offset) {
builder.addFieldOffset(0, productsOffset, 0);
}
static createProductsVector(builder:flatbuffers.Builder, data:flatbuffers.Offset[]):flatbuffers.Offset {
builder.startVector(4, data.length, 4);
for (let i = data.length - 1; i >= 0; i--) {
builder.addOffset(data[i]!);
}
return builder.endVector();
}
static startProductsVector(builder:flatbuffers.Builder, numElems:number) {
builder.startVector(4, numElems, 4);
}
static endCatalog(builder:flatbuffers.Builder):flatbuffers.Offset {
const offset = builder.endObject();
return offset;
}
static createCatalog(builder:flatbuffers.Builder, productsOffset:flatbuffers.Offset):flatbuffers.Offset {
Catalog.startCatalog(builder);
Catalog.addProducts(builder, productsOffset);
return Catalog.endCatalog(builder);
}
}
@@ -0,0 +1,48 @@
// automatically generated by the FlatBuffers compiler, do not modify
import * as flatbuffers from 'flatbuffers';
export class WalletBuyRequest {
bb: flatbuffers.ByteBuffer|null = null;
bb_pos = 0;
__init(i:number, bb:flatbuffers.ByteBuffer):WalletBuyRequest {
this.bb_pos = i;
this.bb = bb;
return this;
}
static getRootAsWalletBuyRequest(bb:flatbuffers.ByteBuffer, obj?:WalletBuyRequest):WalletBuyRequest {
return (obj || new WalletBuyRequest()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
}
static getSizePrefixedRootAsWalletBuyRequest(bb:flatbuffers.ByteBuffer, obj?:WalletBuyRequest):WalletBuyRequest {
bb.setPosition(bb.position() + flatbuffers.SIZE_PREFIX_LENGTH);
return (obj || new WalletBuyRequest()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
}
productId():string|null
productId(optionalEncoding:flatbuffers.Encoding):string|Uint8Array|null
productId(optionalEncoding?:any):string|Uint8Array|null {
const offset = this.bb!.__offset(this.bb_pos, 4);
return offset ? this.bb!.__string(this.bb_pos + offset, optionalEncoding) : null;
}
static startWalletBuyRequest(builder:flatbuffers.Builder) {
builder.startObject(1);
}
static addProductId(builder:flatbuffers.Builder, productIdOffset:flatbuffers.Offset) {
builder.addFieldOffset(0, productIdOffset, 0);
}
static endWalletBuyRequest(builder:flatbuffers.Builder):flatbuffers.Offset {
const offset = builder.endObject();
return offset;
}
static createWalletBuyRequest(builder:flatbuffers.Builder, productIdOffset:flatbuffers.Offset):flatbuffers.Offset {
WalletBuyRequest.startWalletBuyRequest(builder);
WalletBuyRequest.addProductId(builder, productIdOffset);
return WalletBuyRequest.endWalletBuyRequest(builder);
}
}
@@ -0,0 +1,68 @@
// automatically generated by the FlatBuffers compiler, do not modify
import * as flatbuffers from 'flatbuffers';
export class WalletSegment {
bb: flatbuffers.ByteBuffer|null = null;
bb_pos = 0;
__init(i:number, bb:flatbuffers.ByteBuffer):WalletSegment {
this.bb_pos = i;
this.bb = bb;
return this;
}
static getRootAsWalletSegment(bb:flatbuffers.ByteBuffer, obj?:WalletSegment):WalletSegment {
return (obj || new WalletSegment()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
}
static getSizePrefixedRootAsWalletSegment(bb:flatbuffers.ByteBuffer, obj?:WalletSegment):WalletSegment {
bb.setPosition(bb.position() + flatbuffers.SIZE_PREFIX_LENGTH);
return (obj || new WalletSegment()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
}
source():string|null
source(optionalEncoding:flatbuffers.Encoding):string|Uint8Array|null
source(optionalEncoding?:any):string|Uint8Array|null {
const offset = this.bb!.__offset(this.bb_pos, 4);
return offset ? this.bb!.__string(this.bb_pos + offset, optionalEncoding) : null;
}
chips():number {
const offset = this.bb!.__offset(this.bb_pos, 6);
return offset ? this.bb!.readInt32(this.bb_pos + offset) : 0;
}
spendable():boolean {
const offset = this.bb!.__offset(this.bb_pos, 8);
return offset ? !!this.bb!.readInt8(this.bb_pos + offset) : false;
}
static startWalletSegment(builder:flatbuffers.Builder) {
builder.startObject(3);
}
static addSource(builder:flatbuffers.Builder, sourceOffset:flatbuffers.Offset) {
builder.addFieldOffset(0, sourceOffset, 0);
}
static addChips(builder:flatbuffers.Builder, chips:number) {
builder.addFieldInt32(1, chips, 0);
}
static addSpendable(builder:flatbuffers.Builder, spendable:boolean) {
builder.addFieldInt8(2, +spendable, +false);
}
static endWalletSegment(builder:flatbuffers.Builder):flatbuffers.Offset {
const offset = builder.endObject();
return offset;
}
static createWalletSegment(builder:flatbuffers.Builder, sourceOffset:flatbuffers.Offset, chips:number, spendable:boolean):flatbuffers.Offset {
WalletSegment.startWalletSegment(builder);
WalletSegment.addSource(builder, sourceOffset);
WalletSegment.addChips(builder, chips);
WalletSegment.addSpendable(builder, spendable);
return WalletSegment.endWalletSegment(builder);
}
}
+96
View File
@@ -0,0 +1,96 @@
// automatically generated by the FlatBuffers compiler, do not modify
import * as flatbuffers from 'flatbuffers';
import { WalletSegment } from '../scrabblefb/wallet-segment.js';
export class Wallet {
bb: flatbuffers.ByteBuffer|null = null;
bb_pos = 0;
__init(i:number, bb:flatbuffers.ByteBuffer):Wallet {
this.bb_pos = i;
this.bb = bb;
return this;
}
static getRootAsWallet(bb:flatbuffers.ByteBuffer, obj?:Wallet):Wallet {
return (obj || new Wallet()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
}
static getSizePrefixedRootAsWallet(bb:flatbuffers.ByteBuffer, obj?:Wallet):Wallet {
bb.setPosition(bb.position() + flatbuffers.SIZE_PREFIX_LENGTH);
return (obj || new Wallet()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
}
segments(index: number, obj?:WalletSegment):WalletSegment|null {
const offset = this.bb!.__offset(this.bb_pos, 4);
return offset ? (obj || new WalletSegment()).__init(this.bb!.__indirect(this.bb!.__vector(this.bb_pos + offset) + index * 4), this.bb!) : null;
}
segmentsLength():number {
const offset = this.bb!.__offset(this.bb_pos, 4);
return offset ? this.bb!.__vector_len(this.bb_pos + offset) : 0;
}
adsForever():boolean {
const offset = this.bb!.__offset(this.bb_pos, 6);
return offset ? !!this.bb!.readInt8(this.bb_pos + offset) : false;
}
adsPaidUntilMs():bigint {
const offset = this.bb!.__offset(this.bb_pos, 8);
return offset ? this.bb!.readInt64(this.bb_pos + offset) : BigInt('0');
}
hints():number {
const offset = this.bb!.__offset(this.bb_pos, 10);
return offset ? this.bb!.readInt32(this.bb_pos + offset) : 0;
}
static startWallet(builder:flatbuffers.Builder) {
builder.startObject(4);
}
static addSegments(builder:flatbuffers.Builder, segmentsOffset:flatbuffers.Offset) {
builder.addFieldOffset(0, segmentsOffset, 0);
}
static createSegmentsVector(builder:flatbuffers.Builder, data:flatbuffers.Offset[]):flatbuffers.Offset {
builder.startVector(4, data.length, 4);
for (let i = data.length - 1; i >= 0; i--) {
builder.addOffset(data[i]!);
}
return builder.endVector();
}
static startSegmentsVector(builder:flatbuffers.Builder, numElems:number) {
builder.startVector(4, numElems, 4);
}
static addAdsForever(builder:flatbuffers.Builder, adsForever:boolean) {
builder.addFieldInt8(1, +adsForever, +false);
}
static addAdsPaidUntilMs(builder:flatbuffers.Builder, adsPaidUntilMs:bigint) {
builder.addFieldInt64(2, adsPaidUntilMs, BigInt('0'));
}
static addHints(builder:flatbuffers.Builder, hints:number) {
builder.addFieldInt32(3, hints, 0);
}
static endWallet(builder:flatbuffers.Builder):flatbuffers.Offset {
const offset = builder.endObject();
return offset;
}
static createWallet(builder:flatbuffers.Builder, segmentsOffset:flatbuffers.Offset, adsForever:boolean, adsPaidUntilMs:bigint, hints:number):flatbuffers.Offset {
Wallet.startWallet(builder);
Wallet.addSegments(builder, segmentsOffset);
Wallet.addAdsForever(builder, adsForever);
Wallet.addAdsPaidUntilMs(builder, adsPaidUntilMs);
Wallet.addHints(builder, hints);
return Wallet.endWallet(builder);
}
}
+13
View File
@@ -34,6 +34,8 @@ import type {
Tile,
Variant,
WordCheckResult,
Wallet,
Catalog,
} from './model';
/** GatewayError carries a stable code (the gateway result_code, or an edge code). */
@@ -135,6 +137,17 @@ export interface GatewayClient {
/** feedbackUnread reports whether an operator reply awaits delivery (the badge). */
feedbackUnread(): Promise<boolean>;
// --- wallet ---
/** wallet returns the caller's chip segments and active benefits, visible in their current
* trusted execution context (view-only when the platform is untrusted or VK-iOS frozen). */
wallet(): Promise<Wallet>;
/** catalog returns the storefront for the caller's context: chip-priced values and the chip
* packs priced in the context's payment method. */
catalog(): Promise<Catalog>;
/** walletBuy spends chips on a chip-priced value and returns the updated wallet. Gate-checked
* server-side: an untrusted/frozen context or an insufficient balance is refused. */
walletBuy(productId: string): Promise<Wallet>;
// --- friends ---
friendsList(): Promise<AccountRef[]>;
friendsIncoming(): Promise<AccountRef[]>;
+80
View File
@@ -14,6 +14,9 @@ import {
decodeMatchResult,
decodeOutgoingList,
decodeProfile,
decodeWallet,
decodeCatalog,
encodeWalletBuy,
decodeSession,
decodeFeedbackState,
decodeFeedbackUnread,
@@ -41,6 +44,83 @@ import {
} from './codec';
describe('codec', () => {
it('round-trips the wallet buy request and the wallet view', () => {
// buy request: product id survives the wire
const req = fb.WalletBuyRequest.getRootAsWalletBuyRequest(new ByteBuffer(encodeWalletBuy('prod-42')));
expect(req.productId()).toBe('prod-42');
// wallet response: build a Wallet payload and decode it, checking the segment vector,
// the spendable flag and the benefit fields (the long ms field decodes to a number).
const b = new Builder(128);
const src = b.createString('direct');
fb.WalletSegment.startWalletSegment(b);
fb.WalletSegment.addSource(b, src);
fb.WalletSegment.addChips(b, 120);
fb.WalletSegment.addSpendable(b, true);
const seg = fb.WalletSegment.endWalletSegment(b);
const segs = fb.Wallet.createSegmentsVector(b, [seg]);
fb.Wallet.startWallet(b);
fb.Wallet.addSegments(b, segs);
fb.Wallet.addAdsForever(b, false);
fb.Wallet.addAdsPaidUntilMs(b, BigInt(1_700_000_000_000));
fb.Wallet.addHints(b, 5);
b.finish(fb.Wallet.endWallet(b));
const w = decodeWallet(b.asUint8Array());
expect(w.segments).toEqual([{ source: 'direct', chips: 120, spendable: true }]);
expect(w.adsForever).toBe(false);
expect(w.adsPaidUntilMs).toBe(1_700_000_000_000);
expect(w.hints).toBe(5);
});
it('round-trips the catalog view (value + pack)', () => {
const b = new Builder(256);
// a chip-priced value with one atom
const vKind = b.createString('value');
const vId = b.createString('val-1');
const vTitle = b.createString('50 hints');
const aType = b.createString('hints');
fb.CatalogAtom.startCatalogAtom(b);
fb.CatalogAtom.addAtomType(b, aType);
fb.CatalogAtom.addQuantity(b, 50);
const atom = fb.CatalogAtom.endCatalogAtom(b);
const vAtoms = fb.CatalogProduct.createAtomsVector(b, [atom]);
fb.CatalogProduct.startCatalogProduct(b);
fb.CatalogProduct.addKind(b, vKind);
fb.CatalogProduct.addProductId(b, vId);
fb.CatalogProduct.addTitle(b, vTitle);
fb.CatalogProduct.addChips(b, 100);
fb.CatalogProduct.addMoneyAmount(b, BigInt(0));
fb.CatalogProduct.addAtoms(b, vAtoms);
const value = fb.CatalogProduct.endCatalogProduct(b);
// a RUB-priced chip pack (no atoms exercised)
const pKind = b.createString('pack');
const pId = b.createString('pack-1');
const pTitle = b.createString('100 chips');
const pCur = b.createString('RUB');
fb.CatalogProduct.startCatalogProduct(b);
fb.CatalogProduct.addKind(b, pKind);
fb.CatalogProduct.addProductId(b, pId);
fb.CatalogProduct.addTitle(b, pTitle);
fb.CatalogProduct.addChips(b, 0);
fb.CatalogProduct.addMoneyAmount(b, BigInt(14900));
fb.CatalogProduct.addMoneyCurrency(b, pCur);
const pack = fb.CatalogProduct.endCatalogProduct(b);
const prods = fb.Catalog.createProductsVector(b, [value, pack]);
fb.Catalog.startCatalog(b);
fb.Catalog.addProducts(b, prods);
b.finish(fb.Catalog.endCatalog(b));
const c = decodeCatalog(b.asUint8Array());
expect(c.products).toEqual([
{ kind: 'value', productId: 'val-1', title: '50 hints', chips: 100, moneyAmount: 0, moneyCurrency: '', atoms: [{ atomType: 'hints', quantity: 50 }] },
{ kind: 'pack', productId: 'pack-1', title: '100 chips', chips: 0, moneyAmount: 14900, moneyCurrency: 'RUB', atoms: [] },
]);
});
it('round-trips the export-url request and response', () => {
const req = fb.ExportUrlRequest.getRootAsExportUrlRequest(
new ByteBuffer(
+59
View File
@@ -38,6 +38,11 @@ import type {
MoveRecord,
MoveResult,
Profile,
Wallet,
WalletSegment,
Catalog,
CatalogProduct,
CatalogAtom,
ProfileUpdate,
PushEvent,
Seat,
@@ -359,6 +364,60 @@ export function decodeSession(buf: Uint8Array): Session {
return sessionFromTable(fb.Session.getRootAsSession(new ByteBuffer(buf)));
}
// encodeWalletBuy wraps the product id for a chip spend (POST /user/wallet/buy).
export function encodeWalletBuy(productId: string): Uint8Array {
const b = new Builder(64);
const pid = b.createString(productId);
fb.WalletBuyRequest.startWalletBuyRequest(b);
fb.WalletBuyRequest.addProductId(b, pid);
return finish(b, fb.WalletBuyRequest.endWalletBuyRequest(b));
}
// decodeWallet reads the wallet payload: the context-visible chip segments and the
// context-applicable benefits.
export function decodeWallet(buf: Uint8Array): Wallet {
const w = fb.Wallet.getRootAsWallet(new ByteBuffer(buf));
const segments: WalletSegment[] = [];
for (let i = 0; i < w.segmentsLength(); i++) {
const seg = w.segments(i);
if (!seg) continue;
segments.push({ source: s(seg.source()), chips: seg.chips(), spendable: seg.spendable() });
}
return {
segments,
adsForever: w.adsForever(),
adsPaidUntilMs: Number(w.adsPaidUntilMs()),
hints: w.hints(),
};
}
// decodeCatalog reads the storefront payload: the context-visible products, each a chip-priced
// value or a chip pack priced in the context's payment method, with its atom composition.
export function decodeCatalog(buf: Uint8Array): Catalog {
const c = fb.Catalog.getRootAsCatalog(new ByteBuffer(buf));
const products: CatalogProduct[] = [];
for (let i = 0; i < c.productsLength(); i++) {
const p = c.products(i);
if (!p) continue;
const atoms: CatalogAtom[] = [];
for (let j = 0; j < p.atomsLength(); j++) {
const a = p.atoms(j);
if (!a) continue;
atoms.push({ atomType: s(a.atomType()), quantity: a.quantity() });
}
products.push({
kind: s(p.kind()) === 'pack' ? 'pack' : 'value',
productId: s(p.productId()),
title: s(p.title()),
chips: p.chips(),
moneyAmount: Number(p.moneyAmount()),
moneyCurrency: s(p.moneyCurrency()),
atoms,
});
}
return { products };
}
export function decodeProfile(buf: Uint8Array): Profile {
const p = fb.Profile.getRootAsProfile(new ByteBuffer(buf));
return {
+10
View File
@@ -0,0 +1,10 @@
import { describe, it, expect } from 'vitest';
import { isGooglePlayBuild } from './distribution';
describe('isGooglePlayBuild', () => {
it('is false by default (no VITE_GP_BUILD flag, not the mock ?gp force)', () => {
// The unit env is neither the Google Play build nor the mock ?gp force, so the normal purchase
// actions show. The Google Play stub and the mock force are covered by the Playwright e2e.
expect(isGooglePlayBuild()).toBe(false);
});
});
+21
View File
@@ -0,0 +1,21 @@
// Distribution channel of the native build. Google Play forbids selling in-app currency through
// an external gate, so the Google Play build hides the purchase actions and shows a stub pointing
// the user to the RuStore build; every other build (web, VK, Telegram, RuStore native) sells
// normally. The channel is a build-time flag the Google Play build sets, not a runtime guess.
/**
* isGooglePlayBuild reports whether this is the Google Play native build, where in-app-currency
* purchases are hidden. It reads the build-time flag VITE_GP_BUILD (set to "1" only by the Google
* Play build); every other build reads false. Under the mock e2e it can be forced on with a `?gp`
* query parameter so the stub path is exercisable without a separate build.
*/
export function isGooglePlayBuild(): boolean {
if (
import.meta.env.MODE === 'mock' &&
typeof window !== 'undefined' &&
new URLSearchParams(window.location.search).has('gp')
) {
return true;
}
return (import.meta.env as Record<string, string | undefined>).VITE_GP_BUILD === '1';
}
+27
View File
@@ -225,6 +225,33 @@ export const en = {
'offline.promptYes': 'Enable',
'offline.promptNo': 'Keep trying',
// --- wallet ---
'wallet.title': 'Wallet',
'wallet.tab': 'Wallet',
'wallet.balance': 'Balance',
'wallet.noChips': 'No chips yet',
'wallet.source.vk': 'VK',
'wallet.source.telegram': 'Telegram',
'wallet.source.direct': 'Web',
'wallet.viewOnly': 'view only',
'wallet.benefits': 'Benefits',
'wallet.noAdsUntil': 'No ads until {date}',
'wallet.noAdsForever': 'No ads forever',
'wallet.adsOn': 'Ads are on',
'wallet.hints': 'Hints {n}',
'wallet.store': 'Store',
'wallet.empty': 'The store is empty for now',
'wallet.buy': 'Buy',
'wallet.soon': 'Soon',
'wallet.gpStub': 'To buy chips, install the RuStore build.',
'wallet.cur.RUB': '₽',
'wallet.cur.VOTE': 'votes',
'wallet.cur.XTR': '⭐',
'wallet.warnTitle': 'Web-only purchase',
'wallet.warnBody':
'This spends your VK/Telegram chips, and the benefit will work on the web and in the app only — because of store rules.',
'wallet.warnConfirm': 'Continue',
'wallet.warnCancel': 'Cancel',
'about.title': 'About',
'about.tab': 'Info',
'about.description': 'A multiplatform Scrabble game.',
+27
View File
@@ -225,6 +225,33 @@ export const ru: Record<MessageKey, string> = {
'offline.promptYes': 'Включить',
'offline.promptNo': 'Ждать сеть',
// --- wallet ---
'wallet.title': 'Кошелёк',
'wallet.tab': 'Кошелёк',
'wallet.balance': 'Баланс',
'wallet.noChips': 'Пока нет фишек',
'wallet.source.vk': 'VK',
'wallet.source.telegram': 'Telegram',
'wallet.source.direct': 'Веб',
'wallet.viewOnly': 'просмотр',
'wallet.benefits': 'Блага',
'wallet.noAdsUntil': 'Без рекламы до {date}',
'wallet.noAdsForever': 'Без рекламы навсегда',
'wallet.adsOn': 'Реклама включена',
'wallet.hints': 'Подсказки {n}',
'wallet.store': 'Магазин',
'wallet.empty': 'Магазин пока пуст',
'wallet.buy': 'Купить',
'wallet.soon': 'Скоро',
'wallet.gpStub': 'Чтобы покупать фишки, установите версию из RuStore.',
'wallet.cur.RUB': '₽',
'wallet.cur.VOTE': 'голосов',
'wallet.cur.XTR': '⭐',
'wallet.warnTitle': 'Покупка только для веба',
'wallet.warnBody':
'Оплата спишет фишки VK/Telegram, и благо будет работать только в вебе и приложении — из-за правил магазинов.',
'wallet.warnConfirm': 'Продолжить',
'wallet.warnCancel': 'Отмена',
'about.title': 'О программе',
'about.tab': 'Инфо',
'about.description': 'Мультиплатформенная игра в «Эрудит».',
+67
View File
@@ -40,6 +40,8 @@ import type {
Stats,
Variant,
WordCheckResult,
Wallet,
Catalog,
} from '../model';
import { valueForLetter } from '../alphabet';
import { seedMockAlphabets } from './alphabet';
@@ -112,10 +114,37 @@ export class MockGateway implements GatewayClient {
private readonly stats: Stats = { ...MOCK_STATS };
private readonly drafts = new Map<string, string>();
// The mock chip wallet: a web/native (direct) context holding a direct and a vk segment, so the
// storefront, the priority draw (direct→vk→tg) and the web-spend warning (a value whose price
// reaches into the vk segment) are all exercisable without a backend.
private readonly mockWallet: Wallet = {
segments: [
{ source: 'direct', chips: 120, spendable: true },
{ source: 'vk', chips: 400, spendable: true },
],
adsForever: false,
adsPaidUntilMs: 0,
hints: 5,
};
// The mock storefront: two chip-priced values (one cheap enough to draw direct only, one that
// reaches into vk → the warning) and one RUB-priced chip pack (the direct-context method).
private readonly mockCatalog: Catalog = {
products: [
{ kind: 'value', productId: 'val-hints-50', title: '50 подсказок', chips: 100, moneyAmount: 0, moneyCurrency: '', atoms: [{ atomType: 'hints', quantity: 50 }] },
{ kind: 'value', productId: 'val-noads-30', title: 'Без рекламы: 30 дней', chips: 300, moneyAmount: 0, moneyCurrency: '', atoms: [{ atomType: 'noads_days', quantity: 30 }] },
{ kind: 'pack', productId: 'pack-chips-100', title: '100 фишек', chips: 0, moneyAmount: 14900, moneyCurrency: 'RUB', atoms: [{ atomType: 'chips', quantity: 100 }] },
],
};
constructor() {
// Seed the per-variant alphabet cache the rack, blank chooser and scoring read, so the
// mock-driven UI is alphabet-agnostic without a backend.
seedMockAlphabets();
// e2e seam: `?guest` seeds a guest profile so the durable-only surfaces (Friends, Wallet) can
// be asserted hidden. The mock profile is otherwise a durable account.
if (typeof window !== 'undefined' && new URLSearchParams(window.location.search).has('guest')) {
this.profile.isGuest = true;
}
}
setToken(_token: string | null): void {
@@ -166,6 +195,44 @@ export class MockGateway implements GatewayClient {
// The mock never blocks; the blocked screen is driven directly via the mock-mode __block seam.
return { blocked: false, permanent: false, until: '', reason: '' };
}
// --- wallet ---
async wallet(): Promise<Wallet> {
return this.cloneWallet();
}
async catalog(): Promise<Catalog> {
return { products: this.mockCatalog.products.map((p) => ({ ...p, atoms: p.atoms.map((a) => ({ ...a })) })) };
}
async walletBuy(productId: string): Promise<Wallet> {
const p = this.mockCatalog.products.find((x) => x.productId === productId);
if (!p || p.kind !== 'value') throw new GatewayError('product_not_found');
// Draw the chip price across the segments by priority direct→vk→tg, mirroring the backend.
let remaining = p.chips;
for (const src of ['direct', 'vk', 'telegram'] as const) {
if (remaining <= 0) break;
const seg = this.mockWallet.segments.find((s) => s.source === src);
if (!seg) continue;
const take = Math.min(seg.chips, remaining);
seg.chips -= take;
remaining -= take;
}
if (remaining > 0) throw new GatewayError('insufficient_chips');
for (const a of p.atoms) {
if (a.atomType === 'hints') this.mockWallet.hints += a.quantity;
if (a.atomType === 'noads_days') {
this.mockWallet.adsPaidUntilMs = Math.max(Date.now(), this.mockWallet.adsPaidUntilMs) + a.quantity * 86_400_000;
}
}
return this.cloneWallet();
}
private cloneWallet(): Wallet {
return {
segments: this.mockWallet.segments.map((s) => ({ ...s })),
adsForever: this.mockWallet.adsForever,
adsPaidUntilMs: this.mockWallet.adsPaidUntilMs,
hints: this.mockWallet.hints,
};
}
async fetchDict(variant: Variant, _version: string, opts?: { signal?: AbortSignal; reload?: boolean }): Promise<ArrayBuffer> {
// The offline e2e serves the real per-variant dawgs from the preview build's /e2edict/ (copied
// in by scripts/e2e-dict.mjs from the scrabble-dictionary release, never committed), so a local
+44
View File
@@ -152,6 +152,50 @@ export interface FeedbackState {
reply: FeedbackReply | null;
}
/** One chip balance in the wallet: the funding source, the chip count, and whether it is
* spendable in the current execution context (false for a frozen VK-iOS balance or untrusted). */
export interface WalletSegment {
source: string;
chips: number;
spendable: boolean;
}
/** The user-facing wallet: the context-visible chip segments and the context-applicable
* benefits (the no-ads term end as unix millis / forever flag, and the available hints). */
export interface Wallet {
segments: WalletSegment[];
adsForever: boolean;
/** No-ads term end as unix milliseconds; 0 = no active term. */
adsPaidUntilMs: number;
hints: number;
}
/** One atom line of a storefront product: the base value type it grants ("chips"/"hints"/
* "noads_days"/"tournament") and how many of it the product carries. */
export interface CatalogAtom {
atomType: string;
quantity: number;
}
/** One storefront product for the caller's context. A "value" is bought with chips (chips is its
* uniform price, money fields zero); a "pack" funds chips with money (moneyAmount is its price in
* the context currency's minor units under moneyCurrency, chips zero). atoms lists what it grants. */
export interface CatalogProduct {
kind: 'value' | 'pack';
productId: string;
title: string;
chips: number;
moneyAmount: number;
moneyCurrency: string;
atoms: CatalogAtom[];
}
/** The storefront: the products visible and purchasable in the caller's context — the chip-priced
* values and the chip packs priced in the context's payment method. */
export interface Catalog {
products: CatalogProduct[];
}
export interface Profile {
userId: string;
displayName: string;
+3
View File
@@ -13,6 +13,7 @@ export type RouteName =
| 'settings'
| 'about'
| 'friends'
| 'wallet'
| 'feedback'
| 'stats'
| 'confirm'
@@ -55,6 +56,8 @@ export function parse(hash: string): Route {
return { name: 'about', params: {} };
case 'friends':
return { name: 'friends', params: {} };
case 'wallet':
return { name: 'wallet', params: {} };
case 'feedback':
return { name: 'feedback', params: {} };
case 'stats':
+10
View File
@@ -228,6 +228,16 @@ export function createTransport(baseUrl: string): GatewayClient {
return codec.decodeFeedbackUnread(await exec('feedback.unread', codec.empty()));
},
async wallet() {
return codec.decodeWallet(await exec('wallet.get', codec.empty()));
},
async catalog() {
return codec.decodeCatalog(await exec('wallet.catalog', codec.empty()));
},
async walletBuy(productId: string) {
return codec.decodeWallet(await exec('wallet.buy', codec.encodeWalletBuy(productId)));
},
async friendsList() {
return codec.decodeFriendList(await exec('friends.list', codec.empty()));
},
+63
View File
@@ -0,0 +1,63 @@
import { describe, it, expect } from 'vitest';
import type { Wallet, WalletSegment } from './model';
import { majorAmount, formatAmount, spendableChips, needsWebSpendWarning } from './wallet';
function seg(source: string, chips: number, spendable = true): WalletSegment {
return { source, chips, spendable };
}
function wallet(segments: WalletSegment[]): Wallet {
return { segments, adsForever: false, adsPaidUntilMs: 0, hints: 0 };
}
describe('money formatting', () => {
it('scales roubles by 100 and leaves whole-unit currencies as-is', () => {
expect(majorAmount(14900, 'RUB')).toBe(149);
expect(majorAmount(20, 'VOTE')).toBe(20);
expect(majorAmount(25, 'XTR')).toBe(25);
});
it('formats roubles with two decimals and whole-unit currencies as integers', () => {
expect(formatAmount(14900, 'RUB')).toBe('149.00');
expect(formatAmount(15050, 'RUB')).toBe('150.50');
expect(formatAmount(20, 'VOTE')).toBe('20');
expect(formatAmount(25, 'XTR')).toBe('25');
});
});
describe('spendableChips', () => {
it('sums only the spendable segments', () => {
expect(spendableChips(wallet([seg('direct', 100), seg('vk', 50)]))).toBe(150);
expect(spendableChips(wallet([seg('direct', 100, false), seg('vk', 50, false)]))).toBe(0);
expect(spendableChips(wallet([seg('direct', 100), seg('vk', 50, false)]))).toBe(100);
});
});
describe('needsWebSpendWarning', () => {
it('does not warn when the direct segment alone covers the price', () => {
expect(needsWebSpendWarning('direct', [seg('direct', 200), seg('vk', 400)], 150)).toBe(false);
});
it('warns when the priority draw reaches into a store (vk/tg) segment', () => {
// direct 120 + vk covers the rest of a 300 price → touches vk
expect(needsWebSpendWarning('direct', [seg('direct', 120), seg('vk', 400)], 300)).toBe(true);
});
it('warns when only a store segment is spendable and it covers the price', () => {
expect(needsWebSpendWarning('direct', [seg('vk', 400)], 100)).toBe(true);
expect(needsWebSpendWarning('direct', [seg('telegram', 400)], 100)).toBe(true);
});
it('does not warn when the price exceeds all spendable chips (buy is disabled anyway)', () => {
expect(needsWebSpendWarning('direct', [seg('direct', 120), seg('vk', 100)], 500)).toBe(false);
});
it('never warns inside a VK or Telegram context (spend stays in the same store segment)', () => {
expect(needsWebSpendWarning('vk', [seg('vk', 400)], 100)).toBe(false);
expect(needsWebSpendWarning('telegram', [seg('telegram', 400)], 100)).toBe(false);
});
it('ignores non-spendable segments (a frozen or untrusted wallet never warns)', () => {
expect(needsWebSpendWarning('direct', [seg('vk', 400, false)], 100)).toBe(false);
});
});
+78
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@@ -0,0 +1,78 @@
// Wallet storefront logic, kept pure and out of the .svelte screen so it unit-tests in the node
// environment: money/price formatting, the spendable-segment selection, and the web-spend warning
// trigger. The server owns the real store-compliance gate; these helpers drive display only.
import type { Wallet, WalletSegment } from './model';
import { insideVK } from './vk';
import { insideTelegram } from './telegram';
/** The client's execution context for the wallet UI, mirroring the server's platform kind. */
export type SpendContext = 'vk' | 'telegram' | 'direct';
/**
* executionContext reports the client's best-effort context: a VK Mini App, a Telegram Mini App,
* else a web/native (direct) session. It only drives the display-only web-spend warning; the
* server enforces the real gate on every spend (fail-closed), never trusting this.
*/
export function executionContext(): SpendContext {
if (insideVK()) return 'vk';
if (insideTelegram()) return 'telegram';
return 'direct';
}
/**
* majorAmount converts a money amount in a currency's minor units to its major unit — the rouble
* has 100 kopecks; Votes and Stars are whole units (scale 1).
*/
export function majorAmount(minor: number, currency: string): number {
return minor / (currency === 'RUB' ? 100 : 1);
}
/**
* formatAmount renders a money price in major units: two fractional digits for the rouble, a whole
* number for the whole-unit currencies (Votes / Stars). The currency label is added by the caller
* (it is localized), so this stays a pure number formatter.
*/
export function formatAmount(minor: number, currency: string): string {
return currency === 'RUB' ? (minor / 100).toFixed(2) : String(minor);
}
/**
* spendableChips totals the chips the player can actually spend in the current context — the sum of
* the segments the server marked spendable (zero for a VK-iOS-frozen or untrusted wallet, where no
* segment is spendable).
*/
export function spendableChips(w: Wallet): number {
return w.segments.reduce((sum, s) => sum + (s.spendable ? s.chips : 0), 0);
}
// drawPriority is the segment draw order on the web, mirroring the backend spend: the home direct
// segment first, then the store-funded segments.
const drawPriority: readonly string[] = ['direct', 'vk', 'telegram'];
/**
* needsWebSpendWarning reports whether buying a chip-priced value in the current context would draw
* store-funded (vk / telegram) chips — the case the UI must warn about, because the benefit it buys
* (origin=direct) is then usable on the web/native only, by the store-compliance rule. It fires only
* in a direct context and only when the priority draw (direct→vk→tg) actually reaches a store
* segment to cover the price; a spend that the direct segment covers alone, or a spend in a VK/
* Telegram context (which stays within the same store segment), never warns.
*/
export function needsWebSpendWarning(
context: SpendContext,
segments: WalletSegment[],
chipPrice: number,
): boolean {
if (context !== 'direct') return false;
let remaining = chipPrice;
let reachesStore = false;
for (const src of drawPriority) {
if (remaining <= 0) break;
const seg = segments.find((s) => s.source === src && s.spendable);
if (!seg || seg.chips <= 0) continue;
const take = Math.min(seg.chips, remaining);
if (src !== 'direct' && take > 0) reachesStore = true;
remaining -= take;
}
return remaining <= 0 && reachesStore;
}
+16 -6
View File
@@ -4,15 +4,17 @@
import Settings from './Settings.svelte';
import Profile from './Profile.svelte';
import Friends from './Friends.svelte';
import Wallet from './Wallet.svelte';
import About from './About.svelte';
import { app } from '../lib/app.svelte';
import { offlineMode } from '../lib/offline.svelte';
import { t, type MessageKey } from '../lib/i18n/index.svelte';
// The Settings hub: a single nav bar + bottom tab bar hosting the Settings / Profile /
// Friends / About bodies. Tabs switch in place (no navigation), so the back control
// always returns to the lobby. Guests have no social surface, so the Friends tab hides.
type SettingsTab = 'settings' | 'profile' | 'friends' | 'about';
// Friends / Wallet / About bodies. Tabs switch in place (no navigation), so the back control
// always returns to the lobby. Guests have no social surface and no wallet, so the Friends and
// Wallet tabs hide for them.
type SettingsTab = 'settings' | 'profile' | 'friends' | 'wallet' | 'about';
let { initialTab = 'settings' }: { initialTab?: SettingsTab } = $props();
const guest = $derived(app.profile?.isGuest ?? true);
@@ -20,21 +22,22 @@
// the hub is keyed by route in App.svelte, so initialTab is constant for its lifetime.
// svelte-ignore state_referenced_locally
let tab = $state<SettingsTab>(initialTab);
// A guest who deep-links to the Friends tab falls back to Settings.
// A guest who deep-links to the Friends or Wallet tab (durable-only surfaces) falls back to Settings.
$effect(() => {
if (guest && tab === 'friends') tab = 'settings';
if (guest && (tab === 'friends' || tab === 'wallet')) tab = 'settings';
});
// Offline mode has no network, so the Profile and Friends surfaces (which read/save over the
// network) are disabled — fall back to Settings if the hub is on one (a deep-link or a live flip).
// Settings stays reachable: it holds the online/offline toggle.
$effect(() => {
if (offlineMode.active && (tab === 'profile' || tab === 'friends')) tab = 'settings';
if (offlineMode.active && (tab === 'profile' || tab === 'friends' || tab === 'wallet')) tab = 'settings';
});
const titleKey: Record<SettingsTab, MessageKey> = {
settings: 'settings.title',
profile: 'profile.title',
friends: 'friends.title',
wallet: 'wallet.title',
about: 'about.title',
};
</script>
@@ -46,6 +49,8 @@
<Profile />
{:else if tab === 'friends'}
<Friends />
{:else if tab === 'wallet'}
<Wallet />
{:else}
<About />
{/if}
@@ -63,6 +68,11 @@
<span class="face"><span class="sq" aria-hidden="true">🤝{#if app.notifications > 0}<span class="badge">{app.notifications}</span>{/if}</span><span class="lbl">{t('friends.title')}</span></span>
</button>
{/if}
{#if !guest}
<button class="tab" class:active={tab === 'wallet'} disabled={offlineMode.active} onclick={() => (tab = 'wallet')}>
<span class="face"><span class="sq" aria-hidden="true">👛</span><span class="lbl">{t('wallet.tab')}</span></span>
</button>
{/if}
<button class="tab" class:active={tab === 'about'} onclick={() => (tab = 'about')}>
<span class="face"><span class="sq" aria-hidden="true">{#if app.feedbackReplyUnread}<span class="badge">1</span>{/if}</span><span class="lbl">{t('about.tab')}</span></span>
</button>
+226
View File
@@ -0,0 +1,226 @@
<script lang="ts">
import { onMount } from 'svelte';
import Modal from '../components/Modal.svelte';
import { handleError } from '../lib/app.svelte';
import { gateway } from '../lib/gateway';
import { t, i18n, type MessageKey } from '../lib/i18n/index.svelte';
import { executionContext, formatAmount, needsWebSpendWarning, type SpendContext } from '../lib/wallet';
import { isGooglePlayBuild } from '../lib/distribution';
import type { Wallet, Catalog, CatalogProduct } from '../lib/model';
// The Wallet section: the context-visible chip balances, the active benefits, and the storefront.
// Values are bought with chips (they work once the player has any); chip packs are bought with
// money (the purchase itself arrives with payment intake — here they are shown priced only). On
// the Google Play build the money purchases are hidden behind a RuStore stub (store policy), while
// spending already-earned chips still works.
let wallet = $state<Wallet | null>(null);
let catalog = $state<Catalog | null>(null);
let loading = $state(true);
let busy = $state(false);
// The value awaiting a web-spend warning confirmation (a spend that would draw vk/tg chips).
let warnProduct = $state<CatalogProduct | null>(null);
const context: SpendContext = executionContext();
const gpBuild = isGooglePlayBuild();
const values = $derived(catalog?.products.filter((p) => p.kind === 'value') ?? []);
const packs = $derived(catalog?.products.filter((p) => p.kind === 'pack') ?? []);
async function load() {
try {
const [w, c] = await Promise.all([gateway.wallet(), gateway.catalog()]);
wallet = w;
catalog = c;
} catch (e) {
handleError(e);
} finally {
loading = false;
}
}
onMount(load);
function sourceLabel(source: string): string {
return t(`wallet.source.${source}` as MessageKey);
}
function currencyLabel(currency: string): string {
return t(`wallet.cur.${currency}` as MessageKey);
}
function adsLine(): string {
if (!wallet) return '';
if (wallet.adsForever) return t('wallet.noAdsForever');
if (wallet.adsPaidUntilMs > Date.now()) {
const date = new Date(wallet.adsPaidUntilMs).toLocaleDateString(i18n.locale === 'ru' ? 'ru-RU' : 'en-US');
return t('wallet.noAdsUntil', { date });
}
return t('wallet.adsOn');
}
function onBuy(p: CatalogProduct) {
if (needsWebSpendWarning(context, wallet?.segments ?? [], p.chips)) {
warnProduct = p;
return;
}
void doBuy(p);
}
async function doBuy(p: CatalogProduct) {
warnProduct = null;
if (busy) return;
busy = true;
try {
wallet = await gateway.walletBuy(p.productId);
} catch (e) {
handleError(e);
} finally {
busy = false;
}
}
</script>
<div class="wallet" data-testid="wallet">
<section>
<h3>{t('wallet.balance')}</h3>
{#if wallet && wallet.segments.length > 0}
{#each wallet.segments as s (s.source)}
<div class="row">
<span class="name">{sourceLabel(s.source)}</span>
<span class="value"
>🪙 {s.chips}{#if !s.spendable}&nbsp;<span class="muted">({t('wallet.viewOnly')})</span>{/if}</span
>
</div>
{/each}
{:else if !loading}
<p class="empty">{t('wallet.noChips')}</p>
{/if}
</section>
<section>
<h3>{t('wallet.benefits')}</h3>
<div class="row"><span class="name">{adsLine()}</span></div>
<div class="row"><span class="name">{t('wallet.hints', { n: wallet?.hints ?? 0 })}</span></div>
</section>
<section>
<h3>{t('wallet.store')}</h3>
{#each values as p (p.productId)}
<div class="row product" data-testid="product" data-kind="value" data-pid={p.productId}>
<span class="name">{p.title}</span>
<span class="price">🪙 {p.chips}</span>
<button class="buy" data-testid="buy" disabled={busy} onclick={() => onBuy(p)}>{t('wallet.buy')}</button>
</div>
{/each}
{#if gpBuild}
<p class="stub" data-testid="gp-stub">{t('wallet.gpStub')}</p>
{:else}
{#each packs as p (p.productId)}
<div class="row product" data-testid="product" data-kind="pack" data-pid={p.productId}>
<span class="name">{p.title}</span>
<span class="price">{formatAmount(p.moneyAmount, p.moneyCurrency)}&nbsp;{currencyLabel(p.moneyCurrency)}</span>
<button class="buy" disabled>{t('wallet.soon')}</button>
</div>
{/each}
{/if}
{#if !loading && values.length === 0 && (gpBuild || packs.length === 0)}
<p class="empty">{t('wallet.empty')}</p>
{/if}
</section>
</div>
{#if warnProduct}
<Modal title={t('wallet.warnTitle')} onclose={() => (warnProduct = null)}>
<p class="warn-body" data-testid="warn">{t('wallet.warnBody')}</p>
<div class="warn-actions">
<button class="cancel" onclick={() => (warnProduct = null)}>{t('wallet.warnCancel')}</button>
<button class="buy" data-testid="warn-confirm" onclick={() => warnProduct && doBuy(warnProduct)}
>{t('wallet.warnConfirm')}</button
>
</div>
</Modal>
{/if}
<style>
.wallet {
display: flex;
flex-direction: column;
gap: 18px;
padding: var(--pad);
}
section {
display: flex;
flex-direction: column;
gap: 8px;
}
h3 {
margin: 0;
font-size: 0.95rem;
color: var(--text-muted);
}
.row {
display: flex;
align-items: center;
gap: 10px;
padding: 10px 12px;
border: 1px solid var(--border);
border-radius: var(--radius-sm);
background: var(--surface);
}
.name {
flex: 1 1 auto;
min-width: 0;
}
.value,
.price {
flex: 0 0 auto;
font-weight: 600;
white-space: nowrap;
}
.muted {
color: var(--text-muted);
font-weight: 400;
}
.buy {
flex: 0 0 auto;
padding: 8px 14px;
border: 1px solid var(--accent);
background: var(--accent);
color: var(--accent-text);
border-radius: var(--radius-sm);
font-weight: 600;
cursor: pointer;
}
.buy:disabled {
opacity: 0.5;
cursor: default;
}
.empty,
.stub {
margin: 0;
padding: 10px 12px;
color: var(--text-muted);
}
.stub {
border: 1px dashed var(--border);
border-radius: var(--radius-sm);
}
.warn-body {
margin: 0 0 14px;
}
.warn-actions {
display: flex;
justify-content: flex-end;
gap: 10px;
}
.cancel {
padding: 8px 14px;
border: 1px solid var(--border);
background: var(--surface);
color: var(--text);
border-radius: var(--radius-sm);
cursor: pointer;
}
</style>